Document ID: 1MRS240183A
Supported
product release information
REF615R 4.0
Note: This parameter list is the maximum
set of parameters available for REF615R 4.0 IED. Parameter shown here are not
available in each variant. Always use the parameter list delivered with the
corresponding product connectivity package to see which parameters are
available in each release and product. Please see the Application Manual for
more information about the functions used in this product.
|
IEC
61850 |
Function
IEC 61850 name |
|
IEC
60617 |
Function
IEC 60617 name |
|
ANSI |
of
function ANSI name |
|
Category |
INP=input;
OUT=Output; CFG=Configuration; SET=Settings; MON=Monitoring; CTR=Control;
TES=Test; INF=Information; VER=Version |
|
IECName |
Complete
61850 name of the data attribute (excluding the IED name) |
|
CDC |
Common
data class of the data object according the IEC 61850-7-3 |
|
Type |
Data
attribute type (maximum length for strings) |
|
FC |
Functional
constraint acording the IEC 61850: ST=Status, MX=Measurement, CO=Control,
SP=Setting; SG=Setting group, CF=Configuration, EX=Extension |
|
Access |
B=Basic,
A=Advanced, P=Protocol only, H=LHMI only, O=Operator R/W, E=Engineer R/W,
A=Administrator R/W, C=Coldboot, I=Application parameter re-init, #=Dependent
on the product variant |
|
Default |
Default
value of settings, inputs and version data, settings are in pu level |
|
Dataset |
Event
handling default dataset |
|
Event |
Event
handling: P=Protocol, H=LHMI, T=transient (no deactivation events) |
|
Parameter
name |
Parameter
name in menus |
|
Parameter
desc |
Parameter
help in menus/ tooltip in PCM |
|
Parameter
range |
Enumeration
values; minimum and maximum in pu level |
|
Menu
path |
Complete
menu path |
|
Channel
relation |
Relation
to analog channel (if defined) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
Protection
LLN0 |
INP |
LD0.LLN0.Act2SG.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
SG_2_ACT |
Setting
group 2 is active |
Monitoring\Setting
group\Outputs |
||||||
|
Protection
LLN0 |
INP |
LD0.LLN0.Act3SG.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
SG_3_ACT |
Setting
group 3 is active |
Monitoring\Setting
group\Outputs |
||||||
|
Protection
LLN0 |
INP |
LD0.LLN0.Act4SG.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
SG_4_ACT |
Setting
group 4 is active |
Monitoring\Setting
group\Outputs |
||||||
|
Protection
LLN0 |
INP |
LD0.LLN0.Act5SG.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
SG_5_ACT |
Setting
group 5 is active |
Monitoring\Setting
group\Outputs |
||||||
|
Protection
LLN0 |
INP |
LD0.LLN0.Act6SG.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
SG_6_ACT |
Setting
group 6 is active |
Monitoring\Setting
group\Outputs |
||||||
|
Protection
LLN0 |
OUT |
LD0.LLN0.Act1SG.stVal |
SPC |
BOOLEAN |
ST |
B |
SG_1_ACT |
Setting
group 1 is active |
Monitoring\Setting
group\Outputs |
|||||||
|
Protection
LLN0 |
OUT |
LD0.LLN0.Act2SG.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
SG_2_ACT |
Setting
group 2 is active |
Monitoring\Setting
group\Outputs |
||||||
|
Protection
LLN0 |
OUT |
LD0.LLN0.Act3SG.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
SG_3_ACT |
Setting
group 3 is active |
Monitoring\Setting
group\Outputs |
||||||
|
Protection
LLN0 |
OUT |
LD0.LLN0.Act4SG.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
SG_4_ACT |
Setting
group 4 is active |
Monitoring\Setting
group\Outputs |
||||||
|
Protection
LLN0 |
OUT |
LD0.LLN0.Act5SG.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
SG_5_ACT |
Setting
group 5 is active |
Monitoring\Setting
group\Outputs |
||||||
|
Protection
LLN0 |
OUT |
LD0.LLN0.Act6SG.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
SG_6_ACT |
Setting
group 6 is active |
Monitoring\Setting
group\Outputs |
||||||
|
Protection
LLN0 |
OUT |
LD0.LLN0.LgcSelSG.stVal |
SPC |
BOOLEAN |
ST |
B |
SG_LOGIC_SEL |
Logic
selction for setting group |
Monitoring\Setting
group\Outputs |
|||||||
|
Protection
LLN0 |
CTR |
LD0.LLN0.LEDRs1.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Indications
and LEDs |
Clear
indication LEDs and texts |
0=Cancel;
1=Clear |
Clear\Clear |
|||||
|
Protection
LLN0 |
CTR |
LD0.LLN0.LEDRs2.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Programmable
LEDs |
Clear
programmable LEDs |
0=Cancel;
1=Clear |
Clear\Clear |
|||||
|
Protection
LLN0 |
CTR |
LD0.LLN0.MtrRecRs.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Metering
records |
Reset
meterering minimum and maximum recorded data |
0=Cancel;
1=Clear |
Clear\Clear |
|||||
|
Protection
LLN0 |
CTR |
LD0.LLN0.PQRs.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Power
quality data |
Reset
all power quality data |
0=Cancel;
1=Clear |
Clear\Clear |
|||||
|
Protection
LLN0 |
CTR |
LD0.LLN0.ActSG.Oper.ctlVal |
INC |
INT32 |
CO |
(Active
setting group) |
||||||||||
|
Physical
device |
CTR |
LD0.LPHD1.ChgFlg.Oper.ctlVal |
INC |
INT32 |
CO |
(Composition
has changed) |
||||||||||
|
Physical
device |
CTR |
LD0.LPHD1.RsDev.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Software
reset |
Reset
of IED |
0=Cancel;
1=Activate |
Configuration\General |
|||||
|
Physical
device |
CTR |
LD0.LPHD1.FacSet.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B,H |
0 |
Factory
setting |
Restore
Factory settings |
0=Cancel;
1=Activate |
Configuration\General |
|||||
|
Device |
CTR |
LD0.IHMI1.DisTest.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Display
test) |
||||||||||
|
Device |
CTR |
LD0.IHMI1.EvClr.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Events |
Clear
events in HMI |
0=Cancel;
1=Clear |
Clear\Clear |
|||||
|
Protection
LLN0 |
MON |
LD0.LLN0.Beh.stVal |
INS |
Enum |
ST |
StatIed |
P,H |
(Behaviour) |
||||||||
|
Protection
LLN0 |
MON |
LD0.LLN0.NamPlt.paramRev |
LPL |
INT32 |
ST |
StatIed |
P,H |
(Name
plate) |
||||||||
|
Protection
LLN0 |
MON |
LD0.LLN0.NamPlt.ldNs |
LPL |
VisString255
(20) |
EX |
(Name
plate) |
||||||||||
|
Protection
LLN0 |
MON |
LD0.LLN0.NamPlt.cdcNs |
LPL |
VisString255
(20) |
EX |
(Name
plate) |
||||||||||
|
Protection
LLN0 |
MON |
LD0.LLN0.NamPlt.eIp |
LPL |
VisString255
(20) |
EX |
B,C |
192.168.2.10 |
IP
address |
IP
address for rear port(s) |
Configuration\Communication\Ethernet\Rear
port(s) |
||||||
|
Protection
LLN0 |
MON |
LD0.LLN0.NamPlt.eIpSubNet |
LPL |
VisString255
(20) |
EX |
B,C |
255.255.255.0 |
Subnet
mask |
Subnet
mask for rear port(s) |
Configuration\Communication\Ethernet\Rear
port(s) |
||||||
|
Protection
LLN0 |
MON |
LD0.LLN0.NamPlt.eIpGateWay |
LPL |
VisString255
(20) |
EX |
B,C |
192.168.2.1 |
Default
gateway |
Default
gateway for rear port(s) |
Configuration\Communication\Ethernet\Rear
port(s) |
||||||
|
Protection
LLN0 |
MON |
LD0.LLN0.NamPlt.eIpFront |
LPL |
VisString255
(20) |
EX |
B |
192.168.0.254 |
IP
address |
IP
address for front port (fixed) |
Configuration\Communication\Ethernet\Front
port |
||||||
|
Protection
LLN0 |
MON |
LD0.LLN0.NamPlt.eIpSNTPpri |
LPL |
VisString255
(20) |
EX |
B,C |
10.58.125.165 |
IP
SNTP primary |
IP
address for SNTP primary server |
Configuration\Time\Synchronization |
||||||
|
Protection
LLN0 |
MON |
LD0.LLN0.NamPlt.eIpSNTPsec |
LPL |
VisString255
(20) |
EX |
B,C |
192.168.2.165 |
IP
SNTP secondary |
IP
address for SNTP secondary server |
Configuration\Time\Synchronization |
||||||
|
Protection
LLN0 |
MON |
LD0.LLN0.NamPlt.eLang |
LPL |
VisString255
(20) |
EX |
(Name
plate) |
||||||||||
|
Protection
LLN0 |
MON |
LD0.LLN0.NamPlt.eFD |
LPL |
VisString255 |
EX |
(Name
plate) |
||||||||||
|
Protection
LLN0 |
MON |
LD0.LLN0.SetSeld.stVal |
SPS |
BOOLEAN |
ST |
StatIed |
P,H |
(Settings
reservation) |
||||||||
|
Protection
LLN0 |
MON |
LD0.LLN0.SetChg.stVal |
SPS |
BOOLEAN |
ST |
StatIed |
P,H |
(Settings
change) |
||||||||
|
Physical
device |
MON |
LD0.LPHD1.PhyHealth.stVal |
INS |
Enum |
ST |
StatIed |
P,H |
(General
state) |
||||||||
|
Physical
device |
MON |
LD0.LPHD1.PhyHealth1.stVal |
INS |
Enum |
ST |
B |
StatIed |
P,H |
Warning |
IED
warning |
1=All
ok; 2=System; 5=Time synch error; 6=Over temperature; 10=Watchdog reset;
11=Power down det.; 20=IEC 61850 error; 21=Modbus error; 22=DNP3 error;
23=PNIO error; 24=Dataset error; 25=Report cont. error; 26=GOOSE contr. error;
27=SCL config error; 28=Logic error; 29=SMT logic error; 30=GOOSE input
error; 31=ACT error; 32=GOOSE rec. error; 33=AFL error; 40=Unack card comp.;
85=ARC1 cont. light; 86=ARC2 cont. light; 87=ARC3 cont. light; 50=Protection
comm.; 96=RTD card error,X130; 106=RTD meas. error,X130; 112=UPD voltage
low,X115; 113=UPS comm. error,X115; 114=UPS cmd fail,X115; 115=Breaker oper.
fail; 90=RTD card error,X105; 91=RTD card error,X115; 92=RTD card error,X000;
93=RTD card error,X100; 94=RTD card error,X110; 95=RTD card error,X120;
100=RTD meas. error,X105; 101=RTD meas. error,X115; 102=RTD meas. error,X000;
103=RTD meas. error,X100; 104=RTD meas. error,X110; 105=RTD meas. error,X120 |
Monitoring\IED
status\Self-supervision |
||||
|
Physical
device |
MON |
LD0.LPHD1.PhyHealth2.stVal |
INS |
Enum |
ST |
B |
StatIed |
P,H |
Internal
Fault |
IED
internal fault |
1=All
ok; 2=System error; 3=Runtime app. error; 4=Runtime exec error; 7=File system
error; 8=Test; 10=SW watchdog error; 11=Uaux error; 32=Settings error;
43=SO-relay(s),X100; 44=SO-relay(s),X110; 46=SO-relay(s),X130;
53=PO-relay(s),X100; 54=PO-relay(s),X110; 56=PO-relay(s),X130; 57=Light
sensor error; 62=Conf.error,X000; 63=Conf.error,X100; 64=Conf.error,X110;
65=Conf.error,X120; 66=Conf.error,X130; 72=Card error,X000; 73=Card error,X100;
74=Card error,X110; 75=Card error,X120; 76=Card error,X130; 79=LHMI module;
80=RAM error; 81=ROM error; 82=EEPROM error; 83=FPGA error; 84=RTC error;
96=RTD card error,X130; 110=UPD card error,X115; 111=UPD self check,X115;
40=SO-relay(s),X105; 41=SO-relay(s),X115; 45=SO-relay(s),X120;
50=PO-relay(s),X105; 51=PO-relay(s),X115; 55=PO-relay(s),X120;
60=Conf.error,X105; 61=Conf.error,X115; 70=Card error,X105; 71=Card
error,X115; 90=RTD card error,X105; 91=RTD card error,X115; 92=RTD card
error,X000; 93=RTD card error,X100; 94=RTD card error,X110 |
Monitoring\IED
status\Self-supervision |
||||
|
Physical
device |
MON |
LD0.LPHD1.PwrUp.stVal |
SPS |
BOOLEAN |
ST |
StatIed |
P,H |
(Power
up detected) |
||||||||
|
Physical
device |
MON |
LD0.LPHD1.PwrDn.stVal |
SPS |
BOOLEAN |
ST |
StatIed |
P,H |
(Warm
start detected) |
||||||||
|
Physical
device |
MON |
LD0.LPHD1.PwrDn1.stVal |
SPS |
BOOLEAN |
ST |
StatIed |
P,H |
(Watchdog
reset detected) |
||||||||
|
Physical
device |
MON |
LD0.LPHD1.NumCmpChg.stVal |
INS |
INT32 |
ST |
A |
No
of comp. changes |
Number
of composition changes |
0...100000 |
Monitoring\IED
status\Composition changes |
||||||
|
Physical
device |
MON |
LD0.LPHD1.RsDev.t |
SPC |
Timestamp |
ST |
B |
Boot
up time |
IED
boot up time |
Monitoring\IED
status\Self-supervision |
|||||||
|
Physical
device |
MON |
LD0.LPHD1.FacSet.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B,H |
0 |
Factory
setting |
Restore
Factory settings |
0=Cancel;
1=Activate |
Configuration\General |
|||||
|
Physical
device |
MON |
LD0.LPHD1.FacSet.Oper.origin.orCat |
SPC |
Enum |
CO |
(Factory
Setting) |
||||||||||
|
Physical
device |
MON |
LD0.LPHD1.FacSet.Oper.origin.orIdent |
SPC |
Octet64 |
CO |
(Factory
Setting) |
||||||||||
|
Physical
device |
MON |
LD0.LPHD1.FacSet.Oper.ctlNum |
SPC |
INT8U |
CO |
(Factory
Setting) |
||||||||||
|
Physical
device |
MON |
LD0.LPHD1.FacSet.Oper.Test |
SPC |
BOOLEAN |
CO |
(Factory
Setting) |
||||||||||
|
Physical
device |
MON |
LD0.LPHD1.FacSet.Oper.Check |
SPC |
Bstring2 |
CO |
(Factory
Setting) |
||||||||||
|
Physical
device |
MON |
LD0.LPHD1.FacSet.stVal |
SPC |
BOOLEAN |
ST |
StatIed |
P,H |
(Factory
Setting) |
||||||||
|
Physical
device |
MON |
LD0.LPHD1.FacSet.ctlModel |
SPC |
Enum |
CF |
(Factory
Setting) |
||||||||||
|
Device |
MON |
LD0.IHMI1.LocClk.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIed |
P,H |
Synch
status |
External
synch ok |
0=Bad;
1=Good |
Monitoring\IED
status\Time synchronization |
||||
|
Device |
MON |
LD0.IHMI1.TmSrc.stVal |
INS |
Enum |
ST |
B |
StatIed |
P,H |
Synch
source |
Time
synchronization source |
0=Not
defined; 1=SNTP primary; 2=SNTP secondary; 3=SNTP tertiary or further; 4=IEEE
1588 primary; 5=IEEE 1588 secondary; 6=IEEE 1588 tertiary or further;
7=IRIG-B; 8=DNP 3.0; 9=Modbus; 14=Minute pulse; 16=IEC60870-5-101;
17=IEC60870-5-103; 18=IEC60870-5-104; 19=EXT; 99=Free running, locally
generated; 21=Line differential |
Monitoring\IED
status\Time synchronization |
||||
|
Protection
LLN0 |
CFG |
LD0.LLN0.NamPlt.eIp |
LPL |
VisString255
(20) |
EX |
B,C |
192.168.2.10 |
IP
address |
IP
address for rear port(s) |
Configuration\Communication\Ethernet\Rear
port(s) |
||||||
|
Protection
LLN0 |
CFG |
LD0.LLN0.NamPlt.eIpSubNet |
LPL |
VisString255
(20) |
EX |
B,C |
255.255.255.0 |
Subnet
mask |
Subnet
mask for rear port(s) |
Configuration\Communication\Ethernet\Rear
port(s) |
||||||
|
Protection
LLN0 |
CFG |
LD0.LLN0.NamPlt.eIpGateWay |
LPL |
VisString255
(20) |
EX |
B,C |
192.168.2.1 |
Default
gateway |
Default
gateway for rear port(s) |
Configuration\Communication\Ethernet\Rear
port(s) |
||||||
|
Protection
LLN0 |
CFG |
LD0.LLN0.NamPlt.eIpFront |
LPL |
VisString255
(20) |
EX |
B |
192.168.0.254 |
IP
address |
IP
address for front port (fixed) |
Configuration\Communication\Ethernet\Front
port |
||||||
|
Protection
LLN0 |
CFG |
LD0.LLN0.NamPlt.eIpSNTPpri |
LPL |
VisString255
(20) |
EX |
B,C |
10.58.125.165 |
IP
SNTP primary |
IP
address for SNTP primary server |
Configuration\Time\Synchronization |
||||||
|
Protection
LLN0 |
CFG |
LD0.LLN0.NamPlt.eIpSNTPsec |
LPL |
VisString255
(20) |
EX |
B,C |
192.168.2.165 |
IP
SNTP secondary |
IP
address for SNTP secondary server |
Configuration\Time\Synchronization |
||||||
|
Protection
LLN0 |
CFG |
LD0.LLN0.BlkMode.setVal |
ING |
Enum |
SP |
B |
1 |
Blocking
mode |
Behaviour
for function BLOCK inputs |
1=Freeze
timer; 2=Block all; 3=Block OPERATE output |
Configuration\System |
|||||
|
Protection
LLN0 |
CFG |
LD0.LLN0.HzSetE.setVal |
ING |
Enum |
SP |
B,I |
1 |
Rated
frequency |
Rated
frequency of the network |
1=50Hz;
2=60Hz |
Configuration\System |
|||||
|
Protection
LLN0 |
CFG |
LD0.LLN0.PhRotSet.setVal |
ING |
Enum |
SP |
B,I |
1 |
Phase
rotation |
Phase
rotation order |
1=ABC;
2=ACB |
Configuration\System |
|||||
|
Protection
LLN0 |
CFG |
LD0.LLN0.DiVThres.setVal |
ING |
INT32 |
SP |
B,I |
18 |
Threshold
voltage |
Binary
input threshold voltage |
18...176
Vdc |
Configuration\I/O
modules\Common settings |
|||||
|
Protection
LLN0 |
CFG |
LD0.LLN0.DiOscThres.setVal |
ING |
INT32 |
SP |
B,I |
30 |
Input
osc. level |
Binary
input oscillation suppression threshold |
2...50
events/s |
Configuration\I/O
modules\Common settings |
|||||
|
Protection
LLN0 |
CFG |
LD0.LLN0.DiOscHyst.setVal |
ING |
INT32 |
SP |
B,I |
10 |
Input
osc. hyst |
Binary
input oscillation suppression hysteresis |
2...50
events/s |
Configuration\I/O
modules\Common settings |
|||||
|
Protection
LLN0 |
CFG |
LD0.LLN0.OpModSG.setVal |
ING |
Enum |
SP |
B |
1 |
SG
operation mode |
Operation
mode for setting group change |
0=Operator;
1=Logic mode 1; 2=Logic mode 2 |
Configuration\Setting
group |
|||||
|
Protection
LLN0 |
CFG |
LD0.LLN0.PhOrdMod.setVal |
ING |
Enum |
SP |
B |
1 |
Phase
order mode |
Selection
for phase connection order |
1=ABC;
2=BCA; 3=CAB; 4=ACB; 5=CBA; 6=BAC |
Configuration\System |
|||||
|
Protection
LLN0 |
CFG |
LD0.LLN0.ACrvSatPnt.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
50 |
IDMT
Sat point |
Overcurrent
IDMT saturation point |
10...50
I/I> |
Configuration\System |
|||||
|
Protection
LLN0 |
CFG |
LD0.LLN0.ADmdAvMod.setVal |
ING |
Enum |
SP |
B,I |
1 |
A
demand Av mode |
Current
demand calculation method |
1=Linear;
2=Logarithmic |
Configuration\Measurements\Demand
metering |
|||||
|
Protection
LLN0 |
CFG |
LD0.LLN0.MtrDmdItrv.setVal |
ING |
Enum |
SP |
B,I |
0 |
Demand
interval |
Interval
for demand calculation |
0=1
minute; 1=5 minutes; 2=10 minutes; 3=15 minutes; 4=30 minutes; 5=60 minutes;
6=180 minutes |
Configuration\Measurements\Demand
metering |
|||||
|
Physical
device |
CFG |
LD0.LPHD1.PhyNam.tmOffset |
DPL |
INT16 |
DC |
B |
0 |
Local
time offset |
Local
time offset in minutes |
-840...840
min |
Configuration\Time\System
time |
|||||
|
Physical
device |
CFG |
LD0.LPHD1.PhyNam.eBayName |
DPL |
VisString255
(20) |
EX |
B |
REF615 |
Bay
name |
Bay
name in system |
Configuration\System |
||||||
|
Physical
device |
CFG |
LD0.LPHD1.PhyNam.eMacAddr |
DPL |
VisString255
(20) |
EX |
B |
XX-XX-XX-XX-XX-XX |
Mac
address |
Mac
address for rear port(s) |
Configuration\Communication\Ethernet\Rear
port(s) |
||||||
|
Physical
device |
CFG |
LD0.LPHD1.PhyNam.eMacAddr1 |
DPL |
VisString255
(20) |
EX |
B |
XX-XX-XX-XX-XX-XX |
Mac
address |
Mac
address for front port |
Configuration\Communication\Ethernet\Front
port |
||||||
|
Physical
device |
CFG |
LD0.LPHD1.RsDev.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Software
reset |
Reset
of IED |
0=Cancel;
1=Activate |
Configuration\General |
|||||
|
Physical
device |
CFG |
LD0.LPHD1.FacSet.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B,H |
0 |
Factory
setting |
Restore
Factory settings |
0=Cancel;
1=Activate |
Configuration\General |
|||||
|
Device |
CFG |
LD0.IHMI1.BackLight.setVal |
ING |
INT32 |
SP |
B |
3 |
Backlight
timeout |
LHMI
backlight timeout |
1...60
min |
Configuration\HMI |
|||||
|
Device |
CFG |
LD0.IHMI1.EFrmT.setVal |
ING |
Enum |
SP |
B |
1 |
Time
format |
Time
format |
1=24H:MM:SS:MS;
2=12H:MM:SS:MS |
Configuration\Time\System
time |
|||||
|
Device |
CFG |
LD0.IHMI1.EFrmD.setVal |
ING |
Enum |
SP |
B |
1 |
Date
format |
Date
format |
1=DD.MM.YYYY;
2=DD/MM/YYYY; 3=DD-MM-YYYY; 4=MM.DD.YYYY; 5=MM/DD/YYYY; 6=YYYY-MM-DD;
7=YYYY-DD-MM; 8=YYYY/DD/MM |
Configuration\Time\System
time |
|||||
|
Device |
CFG |
LD0.IHMI1.NamCnv.setVal |
ING |
Enum |
SP |
B |
1 |
FB
naming convention |
FB
naming convention used in IED |
1=IEC61850;
2=IEC60617; 3=IEC-ANSI; 4=ANSI-ANSI; 5=CHINESE |
Configuration\HMI |
|||||
|
Device |
CFG |
LD0.IHMI1.DefView.setVal |
ING |
Enum |
SP |
B |
1 |
Default
view |
LHMI
default view |
1=Measurements;
2=Main menu; 3=SLD page 1; 4=SLD page 2 |
Configuration\HMI |
|||||
|
Device |
CFG |
LD0.IHMI1.WhmiMod.setVal |
ING |
Enum |
SP |
B,H,C |
3 |
Web
HMI mode |
Web
HMI functionality |
1=Active
read only; 2=Active; 3=Disabled |
Configuration\HMI |
|||||
|
Device |
CFG |
LD0.IHMI1.WhmiTout.setVal |
ING |
INT32 |
SP |
B |
3 |
Web
HMI timeout |
Web
HMI login timeout |
1...60
min |
Configuration\HMI |
|||||
|
Device |
CFG |
LD0.IHMI1.LocClk.time |
SPS |
VisString255
(20) |
EX |
B |
0 |
Time |
Time |
Configuration\Time\System
time |
||||||
|
Device |
CFG |
LD0.IHMI1.LocClk.date |
SPS |
VisString255
(20) |
EX |
B |
0 |
Date |
Date |
Configuration\Time\System
time |
||||||
|
Device |
CFG |
LD0.IHMI1.LocClk.timeSpring |
SPS |
VisString255
(20) |
EX |
B |
02:00 |
DST
on time |
Daylight
savings time on, time (hh:mm) |
Configuration\Time\Daylight
saving time |
||||||
|
Device |
CFG |
LD0.IHMI1.LocClk.dateSpring |
SPS |
VisString255
(20) |
EX |
B |
01.05. |
DST
on date |
Daylight
savings time on, date (dd:mm) |
Configuration\Time\Daylight
saving time |
||||||
|
Device |
CFG |
LD0.IHMI1.LocClk.offsetSpring |
SPS |
INT16 |
EX |
B |
60 |
DST
offset |
Daylight
savings time offset, in minutes |
-720...720
min |
Configuration\Time\Daylight
saving time |
|||||
|
Device |
CFG |
LD0.IHMI1.LocClk.daySpring |
SPS |
Enum |
EX |
B |
0 |
DST
on day |
Daylight
savings time on, day of week |
0=Not
in use; 1=Mon; 2=Tue; 3=Wed; 4=Thu; 5=Fri; 6=Sat; 7=Sun |
Configuration\Time\Daylight
saving time |
|||||
|
Device |
CFG |
LD0.IHMI1.LocClk.timeAutumn |
SPS |
VisString255
(20) |
EX |
B |
02:00 |
DST
off time |
Daylight
savings time off, time (hh:mm) |
Configuration\Time\Daylight
saving time |
||||||
|
Device |
CFG |
LD0.IHMI1.LocClk.dateAutumn |
SPS |
VisString255
(20) |
EX |
B |
25.09. |
DST
off date |
Daylight
savings time off, date (dd:mm) |
Configuration\Time\Daylight
saving time |
||||||
|
Device |
CFG |
LD0.IHMI1.LocClk.dayAutumn |
SPS |
Enum |
EX |
B |
0 |
DST
off day |
Daylight
savings time off, day of week |
0=Not
in use; 1=Mon; 2=Tue; 3=Wed; 4=Thu; 5=Fri; 6=Sat; 7=Sun |
Configuration\Time\Daylight
saving time |
|||||
|
Device |
CFG |
LD0.IHMI1.SyncSrc.setVal |
ING |
Enum |
SP |
B |
1 |
Synch
source |
Time
synchronization source |
0=None;
1=SNTP; 2=Modbus; 5=IRIG-B; 8=Line differential; 9=DNP; 16=IEC60870-5-101;
17=IEC60870-5-103; 18=IEC60870-5-104 |
Configuration\Time\Synchronization |
|||||
|
Device |
CFG |
LD0.IHMI1.ESldSymFor.setVal |
ING |
Enum |
SP |
B |
1 |
SLD
symbol format |
Single
Line Diagram symbol format |
1=IEC;
2=ANSI |
Configuration\HMI |
|||||
|
Device |
CFG |
LD0.IHMI1.ScrDlTms.setVal |
ING |
INT32 |
SP |
B |
0 |
Autoscroll
delay |
Autoscroll
delay for Measurements view |
0...30
s |
Configuration\HMI |
|||||
|
Device |
CFG |
LD0.IHMI1.CBClsDlMod.setVal |
ING |
Enum |
SP |
B |
2 |
CB
close delay mode |
Selection
for using delayed LHMI CB close |
1=In
use; 2=Not in use |
Configuration\Control\LHMI |
|||||
|
Device |
CFG |
LD0.IHMI1.CBClsDlTms.setVal |
ING |
INT32 |
SP |
B |
60 |
CB
close delay |
Delay
for CB close done from LHMI |
5...900
s |
Configuration\Control\LHMI |
|||||
|
Security
application |
CFG |
LD0.GSAL1.AuthLoc.setVal |
SPG |
BOOLEAN |
SP |
B,H,OR,ER,AW |
1 |
Local
override |
Disable
authority |
Configuration\Authorization |
||||||
|
Security
application |
CFG |
LD0.GSAL1.AuthLoc.pwdAdmin |
SPG |
VisString255
(64) |
EX |
B,H,OR,ER,AW |
0 |
Local
administrator |
Set
password |
Configuration\Authorization |
||||||
|
Security
application |
CFG |
LD0.GSAL1.AuthLoc.pwdEng |
SPG |
VisString255
(64) |
EX |
B,H,OR,ER,AW |
0 |
Local
engineer |
Set
password |
Configuration\Authorization |
||||||
|
Security
application |
CFG |
LD0.GSAL1.AuthLoc.pwdOper |
SPG |
VisString255
(64) |
EX |
B,H,OR,ER,AW |
0 |
Local
operator |
Set
password |
Configuration\Authorization |
||||||
|
Security
application |
CFG |
LD0.GSAL1.AuthLoc.pwdView |
SPG |
VisString255
(64) |
EX |
B,H,OR,ER,AW |
0 |
Local
viewer |
Set
password |
Configuration\Authorization |
||||||
|
Security
application |
CFG |
LD0.GSAL1.AuthRem.setVal |
SPG |
BOOLEAN |
SP |
B,OR,ER,AW |
1 |
Remote
override |
Disable
authority |
Configuration\Authorization |
||||||
|
Security
application |
CFG |
LD0.GSAL1.AuthRem.pwdAdmin |
SPG |
VisString255
(64) |
EX |
B,OR,ER,AW |
0 |
Remote
administrator |
Set
password |
Configuration\Authorization |
||||||
|
Security
application |
CFG |
LD0.GSAL1.AuthRem.pwdEng |
SPG |
VisString255
(64) |
EX |
B,OR,ER,AW |
0 |
Remote
engineer |
Set
password |
Configuration\Authorization |
||||||
|
Security
application |
CFG |
LD0.GSAL1.AuthRem.pwdOper |
SPG |
VisString255
(64) |
EX |
B,OR,ER,AW |
0 |
Remote
operator |
Set
password |
Configuration\Authorization |
||||||
|
Security
application |
CFG |
LD0.GSAL1.AuthRem.pwdView |
SPG |
VisString255
(64) |
EX |
B,OR,ER,AW |
0 |
Remote
viewer |
Set
password |
Configuration\Authorization |
||||||
|
Security
application |
CFG |
LD0.GSAL1.AuthAcsLev.setVal |
ING |
Enum |
SP |
B |
4 |
Authority
logging |
Authority
logging level |
1=None;
2=Configuration change; 3=Setting group; 4=Setting group, control; 5=Settings
edit; 6=All |
Configuration\Authorization |
|||||
|
Protection
LLN0 |
SET |
LD0.LLN0.SGCB.ActSG |
SGCB |
INT8U |
SP |
B |
1 |
Active
group |
Selected
active group |
- |
- |
|||||
|
Protection
LLN0 |
SET |
LD0.LLN0.SGCB.EditSG |
SGCB |
INT8U |
SP |
B,A |
1 |
Edit
group |
Selected
edit group |
- |
- |
|||||
|
Protection
LLN0 |
SET |
LD0.LLN0.SGCB.CnfEdit |
SGCB |
BOOLEAN |
SP |
B,A |
0 |
Commit
settings |
Commit
or reject the edit copy |
- |
- |
|||||
|
Protection
LLN0 |
SET |
LD0.LLN0.CpySG.Oper.ctlVal |
INC |
Enum |
CO |
B,H |
1 |
Copy
group 1 |
Copy
setting group 1 values into selected group |
1=Cancel;
2=Copy 1 into 2; 3=Copy 1 into 3; 4=Copy 1 into 4; 5=Copy 1 into 5; 6=Copy 1
into 6; 99=Copy 1 into all |
Settings\Setting
group |
|||||
|
Protection
LLN0 |
TES |
LD0.LLN0.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,H,I |
1 |
Test
mode |
Test
mode |
1=Test
off; 3=Test on |
Tests\IED
test |
|||||
|
Physical
device |
TES |
LD0.LPHD1.IrfTst.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B,H |
0 |
Internal
fault test |
Internal
fault test mode |
0=Test
off; 1=Test on |
Tests\IED
test |
|||||
|
Physical
device |
INF |
LD0.LPHD1.PhyNam.hwRev |
DPL |
VisString255
(20) |
DC |
B |
X |
HW
revision |
IED
HW revision |
Information\Product
identifiers |
||||||
|
Physical
device |
INF |
LD0.LPHD1.PhyNam.swRev |
DPL |
VisString255
(20) |
DC |
B |
X.X |
SW
version |
IED
SW version |
Information\Product
identifiers |
||||||
|
Physical
device |
INF |
LD0.LPHD1.PhyNam.serNum |
DPL |
VisString255
(20) |
DC |
B |
1XXXXXXXXXXX |
Serial
number |
IED
serial number |
Information\Product
identifiers |
||||||
|
Physical
device |
INF |
LD0.LPHD1.PhyNam.model |
DPL |
VisString255
(20) |
DC |
B |
REx615 |
Type |
IED
type |
Information\Product
identifiers |
||||||
|
Physical
device |
INF |
LD0.LPHD1.PhyNam.eSwDate |
DPL |
VisString255
(20) |
EX |
B |
YYYY-MM-DD |
SW
date |
IED
SW date |
Information\Product
identifiers |
||||||
|
Physical
device |
INF |
LD0.LPHD1.PhyNam.eSwNum |
DPL |
VisString255
(20) |
EX |
B |
2RAAXXXXXX |
SW
number |
IED
SW number |
Information\Product
identifiers |
||||||
|
Physical
device |
INF |
LD0.LPHD1.PhyNam.eProdDate |
DPL |
VisString255
(20) |
EX |
B |
YYYY-MM-DD |
Production
date |
IED
production date |
Information\Product
identifiers |
||||||
|
Physical
device |
INF |
LD0.LPHD1.PhyNam.eOrdNum |
DPL |
VisString255
(64) |
EX |
B |
#BDA############XE |
Order
code |
IED
order code |
Information\Product
identifiers |
||||||
|
Physical
device |
INF |
LD0.LPHD1.PhyNam.eConfName |
DPL |
VisString255
(20) |
EX |
B |
FE0X+DE0X+ME0X+TE0X |
Configuration
name |
IED
configuration name |
Information\Product
identifiers |
||||||
|
Physical
device |
INF |
LD0.LPHD1.PhyNam.eIedName |
DPL |
VisString255
(64) |
EX |
B |
TIGER |
Technical
key |
Technical
key set by tool |
Information\System
identifiers |
||||||
|
Physical
device |
INF |
LD0.LPHD1.PhyNam.eCustomer |
DPL |
VisString255
(64) |
EX |
B |
0 |
Customer
name |
Name
of the customer |
Information\Site
identifiers |
||||||
|
Physical
device |
INF |
LD0.LPHD1.PhyNam.eStreet |
DPL |
VisString255
(64) |
EX |
B |
0 |
Street |
Name
of the street |
Information\Site
identifiers |
||||||
|
Physical
device |
INF |
LD0.LPHD1.PhyNam.eHouseNum |
DPL |
VisString255
(64) |
EX |
B |
0 |
House
number |
Number
of the house |
Information\Site
identifiers |
||||||
|
Physical
device |
INF |
LD0.LPHD1.PhyNam.eZip |
DPL |
VisString255
(20) |
EX |
B |
0 |
ZIP/Postal
code |
ZIP/Postal
code |
Information\Site
identifiers |
||||||
|
Physical
device |
INF |
LD0.LPHD1.PhyNam.eCity |
DPL |
VisString255
(64) |
EX |
B |
0 |
City/Province |
City/Province |
Information\Site
identifiers |
||||||
|
Physical
device |
INF |
LD0.LPHD1.PhyNam.eState |
DPL |
VisString255
(64) |
EX |
B |
0 |
State |
Name
of state |
Information\Site
identifiers |
||||||
|
Physical
device |
INF |
LD0.LPHD1.PhyNam.eCountry |
DPL |
VisString255
(64) |
EX |
B |
0 |
Country |
Name
of the country |
Information\Site
identifiers |
||||||
|
Physical
device |
INF |
LD0.LPHD1.EEName.hwRev |
DPL |
VisString255
(20) |
DC |
B |
X |
HW
revision |
Card
HW revision |
Information\HW
modules\Main board |
||||||
|
Physical
device |
INF |
LD0.LPHD1.EEName.serNum |
DPL |
VisString255
(20) |
DC |
B |
1XXXXXXXXXXX |
Serial
number |
Card
serial number |
Information\HW
modules\Main board |
||||||
|
Physical
device |
INF |
LD0.LPHD1.EEName.eArtNum |
DPL |
VisString255
(20) |
EX |
B |
2RAAXXXXXX |
Article
number |
IED
article number |
Information\HW
modules\Main board |
||||||
|
Physical
device |
INF |
LD0.LPHD1.EEName.eManDate |
DPL |
VisString255
(20) |
EX |
B |
YYYY-MM-DD |
Manufacturing
date |
Card
manufacturing date |
Information\HW
modules\Main board |
||||||
|
Physical
device |
INF |
LD0.LPHD1.EEName.eTestDate |
DPL |
VisString255
(20) |
EX |
B |
YYYY-MM-DD |
Test
date |
Card
test date |
Information\HW
modules\Main board |
||||||
|
Device |
INF |
LD0.IHMI1.EEName.hwRev |
DPL |
VisString255
(20) |
DC |
B |
X |
HW
revision |
Card
HW revision |
Information\HW
modules\LHMI |
||||||
|
Device |
INF |
LD0.IHMI1.EEName.swRev |
DPL |
VisString255
(20) |
DC |
B |
A |
SW
version |
Card
SW version |
Information\HW
modules\LHMI |
||||||
|
Device |
INF |
LD0.IHMI1.EEName.serNum |
DPL |
VisString255
(20) |
DC |
B |
1XXXXXXXXXXX |
Serial
number |
Card
serial number |
Information\HW
modules\LHMI |
||||||
|
Device |
INF |
LD0.IHMI1.EEName.eArtNum |
DPL |
VisString255
(20) |
EX |
B |
2RAAXXXXXX |
Article
number |
LHMI
article number |
Information\HW
modules\LHMI |
||||||
|
Device |
INF |
LD0.IHMI1.EEName.eManDate |
DPL |
VisString255
(20) |
EX |
B |
YYYY-MM-DD |
Manufacturing
date |
Card
manufacturing date |
Information\HW
modules\LHMI |
||||||
|
Device |
INF |
LD0.IHMI1.EEName.eTestDate |
DPL |
VisString255
(20) |
EX |
B |
YYYY-MM-DD |
Test
date |
Card
test date |
Information\HW
modules\LHMI |
||||||
|
Protection
LLN0 |
VER |
LD0.LLN0.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
F |
(Name
plate) |
|||||||||
|
Physical
device |
VER |
LD0.LPHD1.PhyNam.swRev |
DPL |
VisString255
(20) |
DC |
B |
X.X |
SW
version |
IED
SW version |
Information\Product
identifiers |
||||||
|
Physical
device |
VER |
LD0.LPHD1.EEName.swRev |
DPL |
VisString255
(20) |
DC |
- |
(Card
information) |
|||||||||
|
Device |
VER |
LD0.IHMI1.EEName.swRev |
DPL |
VisString255
(20) |
DC |
B |
A |
SW
version |
Card
SW version |
Information\HW
modules\LHMI |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
Current
(3I,CT) |
CFG |
LD0.IL1TCTR1.Cor.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
1.000 |
Amplitude
corr. A |
Phase
A amplitude correction factor |
0.900...1.100 |
Configuration\Analog
inputs\Current (3I,CT) |
|||||
|
Current
(3I,CT) |
CFG |
LD0.IL1TCTR1.ARtg.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
100.0 |
Primary
current |
Rated
primary current |
1.0...6000.0
A |
Configuration\Analog
inputs\Current (3I,CT) |
|||||
|
Current
(3I,CT) |
CFG |
LD0.IL1TCTR1.ARtgSec.setVal |
ING |
Enum |
SP |
B,I |
2 |
Secondary
current |
Rated
secondary current |
1=0.2A;
2=1A; 3=5A |
Configuration\Analog
inputs\Current (3I,CT) |
|||||
|
Current
(3I,CT) |
CFG |
LD0.IL1TCTR1.ARtgNom.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
1300 |
Nominal
Current |
Network
Nominal Current (In) |
39...4000
A |
Configuration\Analog
inputs\Current (3I,CT) |
|||||
|
Current
(3I,CT) |
CFG |
LD0.IL1TCTR1.VRtgSec.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
3.000 |
Rated
Secondary Value |
Rated
Secondary Value (RSV) ratio |
1.000...50.000
mV/Hz |
Configuration\Analog
inputs\Current (3I,CT) |
|||||
|
Current
(3I,CT) |
CFG |
LD0.IL1TCTR1.RevPol.setVal |
SPG |
BOOLEAN |
SP |
B,I |
0 |
Reverse
polarity |
Reverse
the polarity of the phase CTs |
Configuration\Analog
inputs\Current (3I,CT) |
||||||
|
Current
(3I,CT) |
CFG |
LD0.IL2TCTR1.Cor.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
1.000 |
Amplitude
corr. B |
Phase
B amplitude correction factor |
0.900...1.100 |
Configuration\Analog
inputs\Current (3I,CT) |
|||||
|
Current
(3I,CT) |
CFG |
LD0.IL3TCTR1.Cor.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
1.000 |
Amplitude
corr. C |
Phase
C amplitude correction factor |
0.900...1.100 |
Configuration\Analog
inputs\Current (3I,CT) |
|||||
|
Current
(3I,CT) |
VER |
LD0.IL1TCTR1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
C |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.Ind1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
OK |
Ok
input for LED 1 |
Monitoring\Programmable
LEDs\Inputs\LED 1 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.Ind2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
OK |
Ok
input for LED 2 |
Monitoring\Programmable
LEDs\Inputs\LED 2 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.Ind3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
OK |
Ok
input for LED 3 |
Monitoring\Programmable
LEDs\Inputs\LED 3 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.Ind4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
OK |
Ok
input for LED 4 |
Monitoring\Programmable
LEDs\Inputs\LED 4 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.Ind5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
OK |
Ok
input for LED 5 |
Monitoring\Programmable
LEDs\Inputs\LED 5 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.Ind6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
OK |
Ok
input for LED 6 |
Monitoring\Programmable
LEDs\Inputs\LED 6 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.Ind7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
OK |
Ok
input for LED 7 |
Monitoring\Programmable
LEDs\Inputs\LED 7 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.Ind8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
OK |
Ok
input for LED 8 |
Monitoring\Programmable
LEDs\Inputs\LED 8 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.Ind9.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
OK |
Ok
input for LED 9 |
Monitoring\Programmable
LEDs\Inputs\LED 9 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.Ind10.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
OK |
Ok
input for LED 10 |
Monitoring\Programmable
LEDs\Inputs\LED 10 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.Ind11.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
OK |
Ok
input for LED 11 |
Monitoring\Programmable
LEDs\Inputs\LED 11 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.Alm1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ALARM |
Alarm
input for LED 1 |
Monitoring\Programmable
LEDs\Inputs\LED 1 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.Alm2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ALARM |
Alarm
input for LED 2 |
Monitoring\Programmable
LEDs\Inputs\LED 2 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.Alm3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ALARM |
Alarm
input for LED 3 |
Monitoring\Programmable
LEDs\Inputs\LED 3 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.Alm4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ALARM |
Alarm
input for LED 4 |
Monitoring\Programmable
LEDs\Inputs\LED 4 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.Alm5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ALARM |
Alarm
input for LED 5 |
Monitoring\Programmable
LEDs\Inputs\LED 5 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.Alm6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ALARM |
Alarm
input for LED 6 |
Monitoring\Programmable
LEDs\Inputs\LED 6 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.Alm7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ALARM |
Alarm
input for LED 7 |
Monitoring\Programmable
LEDs\Inputs\LED 7 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.Alm8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ALARM |
Alarm
input for LED 8 |
Monitoring\Programmable
LEDs\Inputs\LED 8 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.Alm9.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ALARM |
Alarm
input for LED 9 |
Monitoring\Programmable
LEDs\Inputs\LED 9 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.Alm10.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ALARM |
Alarm
input for LED 10 |
Monitoring\Programmable
LEDs\Inputs\LED 10 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.Alm11.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ALARM |
Alarm
input for LED 11 |
Monitoring\Programmable
LEDs\Inputs\LED 11 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.InRsLED1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
RESET |
Reset
input for LED 1 |
Monitoring\Programmable
LEDs\Inputs\LED 1 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.InRsLED2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
RESET |
Reset
input for LED 2 |
Monitoring\Programmable
LEDs\Inputs\LED 2 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.InRsLED3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
RESET |
Reset
input for LED 3 |
Monitoring\Programmable
LEDs\Inputs\LED 3 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.InRsLED4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
RESET |
Reset
input for LED 4 |
Monitoring\Programmable
LEDs\Inputs\LED 4 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.InRsLED5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
RESET |
Reset
input for LED 5 |
Monitoring\Programmable
LEDs\Inputs\LED 5 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.InRsLED6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
RESET |
Reset
input for LED 6 |
Monitoring\Programmable
LEDs\Inputs\LED 6 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.InRsLED7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
RESET |
Reset
input for LED 7 |
Monitoring\Programmable
LEDs\Inputs\LED 7 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.InRsLED8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
RESET |
Reset
input for LED 8 |
Monitoring\Programmable
LEDs\Inputs\LED 8 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.InRsLED9.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
RESET |
Reset
input for LED 9 |
Monitoring\Programmable
LEDs\Inputs\LED 9 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.InRsLED10.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
RESET |
Reset
input for LED 10 |
Monitoring\Programmable
LEDs\Inputs\LED 10 |
||||||
|
Programmable
LEDs |
INP |
LD0.LEDGGIO1.InRsLED11.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
RESET |
Reset
input for LED 11 |
Monitoring\Programmable
LEDs\Inputs\LED 11 |
||||||
|
Programmable
LEDs |
CTR |
LD0.LEDGGIO1.ISCSO1.Oper.ctlVal |
INC |
INT32 |
CO |
(LED
1) |
||||||||||
|
Programmable
LEDs |
CTR |
LD0.LEDGGIO1.ISCSO2.Oper.ctlVal |
INC |
INT32 |
CO |
(LED
2) |
||||||||||
|
Programmable
LEDs |
CTR |
LD0.LEDGGIO1.ISCSO3.Oper.ctlVal |
INC |
INT32 |
CO |
(LED
3) |
||||||||||
|
Programmable
LEDs |
CTR |
LD0.LEDGGIO1.ISCSO4.Oper.ctlVal |
INC |
INT32 |
CO |
(LED
4) |
||||||||||
|
Programmable
LEDs |
CTR |
LD0.LEDGGIO1.ISCSO5.Oper.ctlVal |
INC |
INT32 |
CO |
(LED
5) |
||||||||||
|
Programmable
LEDs |
CTR |
LD0.LEDGGIO1.ISCSO6.Oper.ctlVal |
INC |
INT32 |
CO |
(LED
6) |
||||||||||
|
Programmable
LEDs |
CTR |
LD0.LEDGGIO1.ISCSO7.Oper.ctlVal |
INC |
INT32 |
CO |
(LED
7) |
||||||||||
|
Programmable
LEDs |
CTR |
LD0.LEDGGIO1.ISCSO8.Oper.ctlVal |
INC |
INT32 |
CO |
(LED
8) |
||||||||||
|
Programmable
LEDs |
CTR |
LD0.LEDGGIO1.ISCSO9.Oper.ctlVal |
INC |
INT32 |
CO |
(LED
9) |
||||||||||
|
Programmable
LEDs |
CTR |
LD0.LEDGGIO1.ISCSO10.Oper.ctlVal |
INC |
INT32 |
CO |
(LED
10) |
||||||||||
|
Programmable
LEDs |
CTR |
LD0.LEDGGIO1.ISCSO11.Oper.ctlVal |
INC |
INT32 |
CO |
(LED
11) |
||||||||||
|
Programmable
LEDs |
MON |
LD0.LEDGGIO1.ISCSO1.stVal |
INC |
Enum |
ST |
B |
StatIO |
P |
Programmable
LED 1 |
Status
of programmable LED 1 |
0=None;
1=Ok; 3=Alarm |
Monitoring\Programmable
LEDs\Monitored data |
||||
|
Programmable
LEDs |
MON |
LD0.LEDGGIO1.ISCSO2.stVal |
INC |
Enum |
ST |
B |
StatIO |
P |
Programmable
LED 2 |
Status
of programmable LED 2 |
0=None;
1=Ok; 3=Alarm |
Monitoring\Programmable
LEDs\Monitored data |
||||
|
Programmable
LEDs |
MON |
LD0.LEDGGIO1.ISCSO3.stVal |
INC |
Enum |
ST |
B |
StatIO |
P |
Programmable
LED 3 |
Status
of programmable LED 3 |
0=None;
1=Ok; 3=Alarm |
Monitoring\Programmable
LEDs\Monitored data |
||||
|
Programmable
LEDs |
MON |
LD0.LEDGGIO1.ISCSO4.stVal |
INC |
Enum |
ST |
B |
StatIO |
P |
Programmable
LED 4 |
Status
of programmable LED 4 |
0=None;
1=Ok; 3=Alarm |
Monitoring\Programmable
LEDs\Monitored data |
||||
|
Programmable
LEDs |
MON |
LD0.LEDGGIO1.ISCSO5.stVal |
INC |
Enum |
ST |
B |
StatIO |
P |
Programmable
LED 5 |
Status
of programmable LED 5 |
0=None;
1=Ok; 3=Alarm |
Monitoring\Programmable
LEDs\Monitored data |
||||
|
Programmable
LEDs |
MON |
LD0.LEDGGIO1.ISCSO6.stVal |
INC |
Enum |
ST |
B |
StatIO |
P |
Programmable
LED 6 |
Status
of programmable LED 6 |
0=None;
1=Ok; 3=Alarm |
Monitoring\Programmable
LEDs\Monitored data |
||||
|
Programmable
LEDs |
MON |
LD0.LEDGGIO1.ISCSO7.stVal |
INC |
Enum |
ST |
B |
StatIO |
P |
Programmable
LED 7 |
Status
of programmable LED 7 |
0=None;
1=Ok; 3=Alarm |
Monitoring\Programmable
LEDs\Monitored data |
||||
|
Programmable
LEDs |
MON |
LD0.LEDGGIO1.ISCSO8.stVal |
INC |
Enum |
ST |
B |
StatIO |
P |
Programmable
LED 8 |
Status
of programmable LED 8 |
0=None;
1=Ok; 3=Alarm |
Monitoring\Programmable
LEDs\Monitored data |
||||
|
Programmable
LEDs |
MON |
LD0.LEDGGIO1.ISCSO9.stVal |
INC |
Enum |
ST |
B |
StatIO |
P |
Programmable
LED 9 |
Status
of programmable LED 9 |
0=None;
1=Ok; 3=Alarm |
Monitoring\Programmable
LEDs\Monitored data |
||||
|
Programmable
LEDs |
MON |
LD0.LEDGGIO1.ISCSO10.stVal |
INC |
Enum |
ST |
B |
StatIO |
P |
Programmable
LED 10 |
Status
of programmable LED 10 |
0=None;
1=Ok; 3=Alarm |
Monitoring\Programmable
LEDs\Monitored data |
||||
|
Programmable
LEDs |
MON |
LD0.LEDGGIO1.ISCSO11.stVal |
INC |
Enum |
ST |
B |
StatIO |
P |
Programmable
LED 11 |
Status
of programmable LED 11 |
0=None;
1=Ok; 3=Alarm |
Monitoring\Programmable
LEDs\Monitored data |
||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.ISCSO1.d |
INC |
VisString255
(64) |
DC |
B |
Programmable
LEDs LED 1 |
Description |
Programmable
LED description |
Configuration\Programmable
LEDs\LED 1 |
||||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.ISCSO2.d |
INC |
VisString255
(64) |
DC |
B |
Programmable
LEDs LED 2 |
Description |
Programmable
LED description |
Configuration\Programmable
LEDs\LED 2 |
||||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.ISCSO3.d |
INC |
VisString255
(64) |
DC |
B |
Programmable
LEDs LED 3 |
Description |
Programmable
LED description |
Configuration\Programmable
LEDs\LED 3 |
||||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.ISCSO4.d |
INC |
VisString255
(64) |
DC |
B |
Programmable
LEDs LED 4 |
Description |
Programmable
LED description |
Configuration\Programmable
LEDs\LED 4 |
||||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.ISCSO5.d |
INC |
VisString255
(64) |
DC |
B |
Programmable
LEDs LED 5 |
Description |
Programmable
LED description |
Configuration\Programmable
LEDs\LED 5 |
||||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.ISCSO6.d |
INC |
VisString255
(64) |
DC |
B |
Programmable
LEDs LED 6 |
Description |
Programmable
LED description |
Configuration\Programmable
LEDs\LED 6 |
||||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.ISCSO7.d |
INC |
VisString255
(64) |
DC |
B |
Programmable
LEDs LED 7 |
Description |
Programmable
LED description |
Configuration\Programmable
LEDs\LED 7 |
||||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.ISCSO8.d |
INC |
VisString255
(64) |
DC |
B |
Programmable
LEDs LED 8 |
Description |
Programmable
LED description |
Configuration\Programmable
LEDs\LED 8 |
||||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.ISCSO9.d |
INC |
VisString255
(64) |
DC |
B |
Programmable
LEDs LED 9 |
Description |
Programmable
LED description |
Configuration\Programmable
LEDs\LED 9 |
||||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.ISCSO10.d |
INC |
VisString255
(64) |
DC |
B |
Programmable
LEDs LED 10 |
Description |
Programmable
LED description |
Configuration\Programmable
LEDs\LED 10 |
||||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.ISCSO11.d |
INC |
VisString255
(64) |
DC |
B |
Programmable
LEDs LED 11 |
Description |
Programmable
LED description |
Configuration\Programmable
LEDs\LED 11 |
||||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.LEDSeq1.setVal |
ING |
Enum |
SP |
B,I |
0 |
Alarm
mode |
Alarm
mode for programmable LED 1 |
0=Follow-S;
1=Follow-F; 2=Latched-S; 3=LatchedAck-F-S |
Configuration\Programmable
LEDs\LED 1 |
|||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.LEDSeq2.setVal |
ING |
Enum |
SP |
B,I |
0 |
Alarm
mode |
Alarm
mode for programmable LED 2 |
0=Follow-S;
1=Follow-F; 2=Latched-S; 3=LatchedAck-F-S |
Configuration\Programmable
LEDs\LED 2 |
|||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.LEDSeq3.setVal |
ING |
Enum |
SP |
B,I |
0 |
Alarm
mode |
Alarm
mode for programmable LED 3 |
0=Follow-S;
1=Follow-F; 2=Latched-S; 3=LatchedAck-F-S |
Configuration\Programmable
LEDs\LED 3 |
|||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.LEDSeq4.setVal |
ING |
Enum |
SP |
B,I |
0 |
Alarm
mode |
Alarm
mode for programmable LED 4 |
0=Follow-S;
1=Follow-F; 2=Latched-S; 3=LatchedAck-F-S |
Configuration\Programmable
LEDs\LED 4 |
|||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.LEDSeq5.setVal |
ING |
Enum |
SP |
B,I |
0 |
Alarm
mode |
Alarm
mode for programmable LED 5 |
0=Follow-S;
1=Follow-F; 2=Latched-S; 3=LatchedAck-F-S |
Configuration\Programmable
LEDs\LED 5 |
|||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.LEDSeq6.setVal |
ING |
Enum |
SP |
B,I |
0 |
Alarm
mode |
Alarm
mode for programmable LED 6 |
0=Follow-S;
1=Follow-F; 2=Latched-S; 3=LatchedAck-F-S |
Configuration\Programmable
LEDs\LED 6 |
|||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.LEDSeq7.setVal |
ING |
Enum |
SP |
B,I |
0 |
Alarm
mode |
Alarm
mode for programmable LED 7 |
0=Follow-S;
1=Follow-F; 2=Latched-S; 3=LatchedAck-F-S |
Configuration\Programmable
LEDs\LED 7 |
|||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.LEDSeq8.setVal |
ING |
Enum |
SP |
B,I |
0 |
Alarm
mode |
Alarm
mode for programmable LED 8 |
0=Follow-S;
1=Follow-F; 2=Latched-S; 3=LatchedAck-F-S |
Configuration\Programmable
LEDs\LED 8 |
|||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.LEDSeq9.setVal |
ING |
Enum |
SP |
B,I |
0 |
Alarm
mode |
Alarm
mode for programmable LED 9 |
0=Follow-S;
1=Follow-F; 2=Latched-S; 3=LatchedAck-F-S |
Configuration\Programmable
LEDs\LED 9 |
|||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.LEDSeq10.setVal |
ING |
Enum |
SP |
B,I |
0 |
Alarm
mode |
Alarm
mode for programmable LED 10 |
0=Follow-S;
1=Follow-F; 2=Latched-S; 3=LatchedAck-F-S |
Configuration\Programmable
LEDs\LED 10 |
|||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.LEDSeq11.setVal |
ING |
Enum |
SP |
B,I |
0 |
Alarm
mode |
Alarm
mode for programmable LED 11 |
0=Follow-S;
1=Follow-F; 2=Latched-S; 3=LatchedAck-F-S |
Configuration\Programmable
LEDs\LED 11 |
|||||
|
Programmable
LEDs |
CFG |
LD0.LEDGGIO1.AlmColr.setVal |
ING |
Enum |
SP |
B,I |
2 |
Alarm
colour |
Colour
for the alarm state of the LED |
1=Green;
2=Red |
Configuration\Programmable
LEDs\General |
|||||
|
Programmable
LEDs |
VER |
LD0.LEDGGIO1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
D |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
Modbus |
CTR |
LD0.MBSGGIO1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
I |
(Mode) |
|||||||||
|
Modbus |
CTR |
LD0.MBSGGIO1.Status01.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
A |
0 |
Status
1 |
Communication
status: 1:active, 0:inactive |
Monitoring\Communication\Modbus\Serial |
||||||
|
Modbus |
CTR |
LD0.MBSGGIO1.Status02.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
A |
0 |
Status
2 |
Communication
status: 1:active, 0:inactive |
Monitoring\Communication\Modbus\Serial |
||||||
|
Modbus |
CTR |
LD0.MBSGGIO1.Status11.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
A |
0 |
Status
1 |
Communication
status: 1:active, 0:inactive |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
CTR |
LD0.MBSGGIO1.Status12.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
A |
0 |
Status
2 |
Communication
status: 1:active, 0:inactive |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
CTR |
LD0.MBSGGIO1.Status13.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
A |
0 |
Status
3 |
Communication
status: 1:active, 0:inactive |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
CTR |
LD0.MBSGGIO1.Status14.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
A |
0 |
Status
4 |
Communication
status: 1:active, 0:inactive |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
CTR |
LD0.MBSGGIO1.Status15.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
A |
0 |
Status
5 |
Communication
status: 1:active, 0:inactive |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
CTR |
LD0.MBSGGIO1.CnRejNoSck.Oper.ctlVal |
INC |
INT32 |
CO |
B |
-1 |
CnReject
No Sockets |
Connections
rejected due to unavailable sockets |
-1...2147483647 |
Monitoring\Communication\Modbus\Ethernet |
|||||
|
Modbus |
CTR |
LD0.MBSGGIO1.CnRejUnReg.Oper.ctlVal |
INC |
INT32 |
CO |
B |
-1 |
CnReject
Unregistered |
Connections
rejected for unregistered client |
-1...2147483647 |
Monitoring\Communication\Modbus\Ethernet |
|||||
|
Modbus |
MON |
LD0.MBSGGIO1.RcvFrms01.stVal |
INS |
INT32 |
ST |
A |
Received
frames 1 |
Received
frames |
-1...2147483646 |
Monitoring\Communication\Modbus\Serial |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.ChksErr01.stVal |
INS |
INT32 |
ST |
A |
Checksum
errors 1 |
Checksum
errors |
-1...2147483646 |
Monitoring\Communication\Modbus\Serial |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.TrmFrms01.stVal |
INS |
INT32 |
ST |
A |
Transmitted
frames 1 |
Transmitted
frames |
-1...2147483646 |
Monitoring\Communication\Modbus\Serial |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.TrmExcA01.stVal |
INS |
INT32 |
ST |
A |
Transmitted
exc A 1 |
Transmitted
exceptions 01 and 02 |
-1...2147483646 |
Monitoring\Communication\Modbus\Serial |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.TrmExcB01.stVal |
INS |
INT32 |
ST |
A |
Transmitted
exc B 1 |
Transmitted
exceptions 03 |
-1...2147483646 |
Monitoring\Communication\Modbus\Serial |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.Status01.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
A |
0 |
Status
1 |
Communication
status: 1:active, 0:inactive |
Monitoring\Communication\Modbus\Serial |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.RcvFrms02.stVal |
INS |
INT32 |
ST |
A |
Received
frames 2 |
Received
frames |
-1...2147483646 |
Monitoring\Communication\Modbus\Serial |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.ChksErr02.stVal |
INS |
INT32 |
ST |
A |
Checksum
errors 2 |
Checksum
errors |
-1...2147483646 |
Monitoring\Communication\Modbus\Serial |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.TrmFrms02.stVal |
INS |
INT32 |
ST |
A |
Transmitted
frames 2 |
Transmitted
frames |
-1...2147483646 |
Monitoring\Communication\Modbus\Serial |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.TrmExcA02.stVal |
INS |
INT32 |
ST |
A |
Transmitted
exc A 2 |
Transmitted
exceptions 01 and 02 |
-1...2147483646 |
Monitoring\Communication\Modbus\Serial |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.TrmExcB02.stVal |
INS |
INT32 |
ST |
A |
Transmitted
exc B 2 |
Transmitted
exceptions 03 |
-1...2147483646 |
Monitoring\Communication\Modbus\Serial |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.Status02.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
A |
0 |
Status
2 |
Communication
status: 1:active, 0:inactive |
Monitoring\Communication\Modbus\Serial |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.RcvFrms11.stVal |
INS |
INT32 |
ST |
A |
Received
frames 1 |
Received
frames |
-1...2147483646 |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.TrmFrms11.stVal |
INS |
INT32 |
ST |
A |
Transmitted
frames 1 |
Transmitted
frames |
-1...2147483646 |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.TrmExcA11.stVal |
INS |
INT32 |
ST |
A |
Transmitted
exc A 1 |
Transmitted
exceptions 01 and 02 |
-1...2147483646 |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.TrmExcB11.stVal |
INS |
INT32 |
ST |
A |
Transmitted
exc B 1 |
Transmitted
exceptions 03 |
-1...2147483646 |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.Status11.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
A |
0 |
Status
1 |
Communication
status: 1:active, 0:inactive |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.RcvFrms12.stVal |
INS |
INT32 |
ST |
A |
Received
frames 2 |
Received
frames |
-1...2147483646 |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.TrmFrms12.stVal |
INS |
INT32 |
ST |
A |
Transmitted
frames 2 |
Transmitted
frames |
-1...2147483646 |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.TrmExcA12.stVal |
INS |
INT32 |
ST |
A |
Transmitted
exc A 2 |
Transmitted
exceptions 01 and 02 |
-1...2147483646 |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.TrmExcB12.stVal |
INS |
INT32 |
ST |
A |
Transmitted
exc B 2 |
Transmitted
exceptions 03 |
-1...2147483646 |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.Status12.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
A |
0 |
Status
2 |
Communication
status: 1:active, 0:inactive |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.RcvFrms13.stVal |
INS |
INT32 |
ST |
A |
Received
frames 3 |
Received
frames |
-1...2147483646 |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.TrmFrms13.stVal |
INS |
INT32 |
ST |
A |
Transmitted
frames 3 |
Transmitted
frames |
-1...2147483646 |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.TrmExcA13.stVal |
INS |
INT32 |
ST |
A |
Transmitted
exc A 3 |
Transmitted
exceptions 01 and 02 |
-1...2147483646 |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.TrmExcB13.stVal |
INS |
INT32 |
ST |
A |
Transmitted
exc B 3 |
Transmitted
exceptions 03 |
-1...2147483646 |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.Status13.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
A |
0 |
Status
3 |
Communication
status: 1:active, 0:inactive |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.RcvFrms14.stVal |
INS |
INT32 |
ST |
A |
Received
frames 4 |
Received
frames |
-1...2147483646 |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.TrmFrms14.stVal |
INS |
INT32 |
ST |
A |
Transmitted
frames 4 |
Transmitted
frames |
-1...2147483646 |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.TrmExcA14.stVal |
INS |
INT32 |
ST |
A |
Transmitted
exc A 4 |
Transmitted
exceptions 01 and 02 |
-1...2147483646 |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.TrmExcB14.stVal |
INS |
INT32 |
ST |
A |
Transmitted
exc B 4 |
Transmitted
exceptions 03 |
-1...2147483646 |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.Status14.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
A |
0 |
Status
4 |
Communication
status: 1:active, 0:inactive |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.RcvFrms15.stVal |
INS |
INT32 |
ST |
A |
Received
frames 5 |
Received
frames |
-1...2147483646 |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.TrmFrms15.stVal |
INS |
INT32 |
ST |
A |
Transmitted
frames 5 |
Transmitted
frames |
-1...2147483646 |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.TrmExcA15.stVal |
INS |
INT32 |
ST |
A |
Transmitted
exc A 5 |
Transmitted
exceptions 01 and 02 |
-1...2147483646 |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.TrmExcB15.stVal |
INS |
INT32 |
ST |
A |
Transmitted
exc B 5 |
Transmitted
exceptions 03 |
-1...2147483646 |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.Status15.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
A |
0 |
Status
5 |
Communication
status: 1:active, 0:inactive |
Monitoring\Communication\Modbus\Ethernet |
||||||
|
Modbus |
MON |
LD0.MBSGGIO1.CnRejNoSck.Oper.ctlVal |
INC |
INT32 |
CO |
B |
-1 |
CnReject
No Sockets |
Connections
rejected due to unavailable sockets |
-1...2147483647 |
Monitoring\Communication\Modbus\Ethernet |
|||||
|
Modbus |
MON |
LD0.MBSGGIO1.CnRejUnReg.Oper.ctlVal |
INC |
INT32 |
CO |
B |
-1 |
CnReject
Unregistered |
Connections
rejected for unregistered client |
-1...2147483647 |
Monitoring\Communication\Modbus\Ethernet |
|||||
|
Modbus |
CFG |
LD0.MBSGGIO1.NamPlt.clientIP1 |
LPL |
VisString255
(20) |
EX |
B |
000.000.000.000 |
ClientIP1 |
Modbus
Registered Client 1 |
Configuration\Communication\Modbus |
||||||
|
Modbus |
CFG |
LD0.MBSGGIO1.NamPlt.clientIP2 |
LPL |
VisString255
(20) |
EX |
B |
000.000.000.000 |
ClientIP2 |
Modbus
Registered Client 2 |
Configuration\Communication\Modbus |
||||||
|
Modbus |
CFG |
LD0.MBSGGIO1.NamPlt.clientIP3 |
LPL |
VisString255
(20) |
EX |
B |
000.000.000.000 |
ClientIP3 |
Modbus
Registered Client 3 |
Configuration\Communication\Modbus |
||||||
|
Modbus |
CFG |
LD0.MBSGGIO1.NamPlt.clientIP4 |
LPL |
VisString255
(20) |
EX |
B |
000.000.000.000 |
ClientIP4 |
Modbus
Registered Client 4 |
Configuration\Communication\Modbus |
||||||
|
Modbus |
CFG |
LD0.MBSGGIO1.NamPlt.clientIP5 |
LPL |
VisString255
(20) |
EX |
B |
000.000.000.000 |
ClientIP5 |
Modbus
Registered Client 5 |
Configuration\Communication\Modbus |
||||||
|
Modbus |
CFG |
LD0.MBSGGIO1.NamPlt.maxMBTCPClients |
LPL |
INT32 |
EX |
B |
5 |
MaxTCPClients |
Maximum
number of Modbus TCP/IP clients |
0...5 |
Configuration\Communication\Modbus |
|||||
|
Modbus |
CFG |
LD0.MBSGGIO1.NamPlt.tcpClientWrAuth |
LPL |
Enum |
EX |
B |
2 |
TCPWriteAuthority |
Write
authority setting for Modbus TCP/IP clients |
0=No
clients; 1=Reg. clients; 2=All clients |
Configuration\Communication\Modbus |
|||||
|
Modbus |
CFG |
LD0.MBSGGIO1.NamPlt.ctrlStructPassWd1 |
LPL |
VisString255
(20) |
EX |
B |
**** |
CtlStructPWd1 |
Password
for Modbus control struct 1 |
Configuration\Communication\Modbus |
||||||
|
Modbus |
CFG |
LD0.MBSGGIO1.NamPlt.ctrlStructPassWd2 |
LPL |
VisString255
(20) |
EX |
B |
**** |
CtlStructPWd2 |
Password
for Modbus control struct 2 |
Configuration\Communication\Modbus |
||||||
|
Modbus |
CFG |
LD0.MBSGGIO1.NamPlt.ctrlStructPassWd3 |
LPL |
VisString255
(20) |
EX |
B |
**** |
CtlStructPWd3 |
Password
for Modbus control struct 3 |
Configuration\Communication\Modbus |
||||||
|
Modbus |
CFG |
LD0.MBSGGIO1.NamPlt.ctrlStructPassWd4 |
LPL |
VisString255
(20) |
EX |
B |
**** |
CtlStructPWd4 |
Password
for Modbus control struct 4 |
Configuration\Communication\Modbus |
||||||
|
Modbus |
CFG |
LD0.MBSGGIO1.NamPlt.ctrlStructPassWd5 |
LPL |
VisString255
(20) |
EX |
B |
**** |
CtlStructPWd5 |
Password
for Modbus control struct 5 |
Configuration\Communication\Modbus |
||||||
|
Modbus |
CFG |
LD0.MBSGGIO1.NamPlt.ctrlStructPassWd6 |
LPL |
VisString255
(20) |
EX |
B |
**** |
CtlStructPWd6 |
Password
for Modbus control struct 6 |
Configuration\Communication\Modbus |
||||||
|
Modbus |
CFG |
LD0.MBSGGIO1.NamPlt.ctrlStructPassWd7 |
LPL |
VisString255
(20) |
EX |
B |
**** |
CtlStructPWd7 |
Password
for Modbus control struct 7 |
Configuration\Communication\Modbus |
||||||
|
Modbus |
CFG |
LD0.MBSGGIO1.NamPlt.ctrlStructPassWd8 |
LPL |
VisString255
(20) |
EX |
B |
**** |
CtlStructPWd8 |
Password
for Modbus control struct 8 |
Configuration\Communication\Modbus |
||||||
|
Modbus |
CFG |
LD0.MBSGGIO1.NamPlt.evIDSelection |
LPL |
Enum |
EX |
B |
0 |
EventID |
Event
ID selection |
0=Address;
1=UID |
Configuration\Communication\Modbus |
|||||
|
Modbus |
CFG |
LD0.MBSGGIO1.NamPlt.useLocalTime |
LPL |
Enum |
EX |
B |
1 |
TimeFormat |
Time
format for Modbus time stamps |
0=UTC;
1=Local |
Configuration\Communication\Modbus |
|||||
|
Modbus |
CFG |
LD0.MBSGGIO1.SerPort1.setVal |
ING |
Enum |
SP |
B |
0 |
Serial
port 1 |
COM
port for Serial interface 1 |
0=Not
in use; 1=COM 1; 2=COM 2 |
Configuration\Communication\Modbus |
|||||
|
Modbus |
CFG |
LD0.MBSGGIO1.UnAddr1.setVal |
ING |
INT32 |
SP |
B |
1 |
Address
1 |
Modbus
unit address on Serial interface 1 |
1...255 |
Configuration\Communication\Modbus |
|||||
|
Modbus |
CFG |
LD0.MBSGGIO1.LnkMod1.setVal |
ING |
Enum |
SP |
B |
1 |
Link
mode 1 |
Modbus
link mode on Serial interface 1 |
1=RTU;
2=ASCII |
Configuration\Communication\Modbus |
|||||
|
Modbus |
CFG |
LD0.MBSGGIO1.StrFrmDl1.setVal |
ING |
INT32 |
SP |
B |
4 |
Start
delay 1 |
Start
frame delay in chars on Serial interface 1 |
0...20
char |
Configuration\Communication\Modbus |
|||||
|
Modbus |
CFG |
LD0.MBSGGIO1.StopFrmDl1.setVal |
ING |
INT32 |
SP |
B |
3 |
End
delay 1 |
End
frame delay in chars on Serial interface 1 |
0...20
char |
Configuration\Communication\Modbus |
|||||
|
Modbus |
CFG |
LD0.MBSGGIO1.SerPort2.setVal |
ING |
Enum |
SP |
B |
0 |
Serial
port 2 |
COM
port for Serial interface 2 |
0=Not
in use; 1=COM 1; 2=COM 2 |
Configuration\Communication\Modbus |
|||||
|
Modbus |
CFG |
LD0.MBSGGIO1.UnAddr2.setVal |
ING |
INT32 |
SP |
B |
2 |
Address
2 |
Modbus
unit address on Serial interface 2 |
1...255 |
Configuration\Communication\Modbus |
|||||
|
Modbus |
CFG |
LD0.MBSGGIO1.LnkMod2.setVal |
ING |
Enum |
SP |
B |
1 |
Link
mode 2 |
Modbus
link mode on Serial interface 2 |
1=RTU;
2=ASCII |
Configuration\Communication\Modbus |
|||||
|
Modbus |
CFG |
LD0.MBSGGIO1.StrFrmDl2.setVal |
ING |
INT32 |
SP |
B |
4 |
Start
delay 2 |
Start
frame delay in chars on Serial interface 2 |
0...20 |
Configuration\Communication\Modbus |
|||||
|
Modbus |
CFG |
LD0.MBSGGIO1.StopFrmDl2.setVal |
ING |
INT32 |
SP |
B |
3 |
End
delay 2 |
End
frame delay in chars on Serial interface 2 |
0...20 |
Configuration\Communication\Modbus |
|||||
|
Modbus |
CFG |
LD0.MBSGGIO1.SerPty1.setVal |
ING |
Enum |
SP |
B |
2 |
Parity
1 |
Parity
for Serial interface 1 |
0=none;
1=odd; 2=even |
Configuration\Communication\Modbus |
|||||
|
Modbus |
CFG |
LD0.MBSGGIO1.SerPty2.setVal |
ING |
Enum |
SP |
B |
2 |
Parity
2 |
Parity
for Serial interface 2 |
0=none;
1=odd; 2=even |
Configuration\Communication\Modbus |
|||||
|
Modbus |
VER |
LD0.MBSGGIO1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
C |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
DNP
3.0 |
CTR |
LD0.DNPGGIO1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
I |
(Mode) |
|||||||||
|
DNP
3.0 |
CTR |
LD0.DNPGGIO1.ActSG1.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Activate
setting group 1) |
||||||||||
|
DNP
3.0 |
CTR |
LD0.DNPGGIO1.ActSG2.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Activate
setting group 2) |
||||||||||
|
DNP
3.0 |
CTR |
LD0.DNPGGIO1.ActSG3.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Activate
setting group 3) |
||||||||||
|
DNP
3.0 |
CTR |
LD0.DNPGGIO1.ActSG4.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Activate
setting group 4) |
||||||||||
|
DNP
3.0 |
CTR |
LD0.DNPGGIO1.ActSG5.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Activate
setting group 5) |
||||||||||
|
DNP
3.0 |
CTR |
LD0.DNPGGIO1.ActSG6.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Activate
setting group 6) |
||||||||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.PhysLayer.setVal |
ING |
Enum |
SP |
B |
2 |
DNP
physical layer |
DNP
physical layer |
1=Serial;
2=TCP/IP |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.UnitAddr.setVal |
ING |
INT32 |
SP |
B |
1 |
Unit
address |
DNP
unit address |
1...65519 |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.MastAddr.setVal |
ING |
INT32 |
SP |
B |
3 |
Master
address |
DNP
master and UR address |
1...65519 |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.SerPort.setVal |
ING |
Enum |
SP |
B |
0 |
Serial
port |
COM
port for serial interface, when physical layer is serial. |
0=Not
in use; 1=COM 1; 2=COM 2 |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.NeedTimeTO.setVal |
ING |
INT32 |
SP |
B |
30 |
Need
time interval |
Period
to set IIN need time bit |
0...65535
min |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.DnpTimeFmt.setVal |
ING |
Enum |
SP |
B |
1 |
Time
format |
UTC
or local. Coordinate with master. |
0=UTC;
1=Local |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.CrobSelTO.setVal |
ING |
INT32 |
SP |
B |
10 |
CROB
select timeout |
Control
Relay Output Block select timeout |
1...65535
sec |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.DLConf.setVal |
ING |
Enum |
SP |
B |
0 |
Data
link confirm |
Data
link confirm mode |
0=Never;
1=Only Multiframe; 2=Always |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.DLConfTO.setVal |
ING |
INT32 |
SP |
B |
3000 |
Data
link confirm TO |
Data
link confirm timeout |
100...65535
ms |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.DLRetry.setVal |
ING |
INT32 |
SP |
B |
3 |
Data
link retries |
Data
link retries count |
0...65535 |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.DLRxToTx.setVal |
ING |
INT32 |
SP |
B |
0 |
Data
link Rx to Tx delay |
Turnaround
transmission delay |
0...255
ms |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.DLIntChDly.setVal |
ING |
INT32 |
SP |
B |
4 |
Data
link inter char delay |
Inter
character delay for incoming messages |
0...20
char |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.ALConf.setVal |
ING |
Enum |
SP |
B |
1 |
App
layer confirm |
Application
layer confirm mode |
1=Disable;
2=Enable |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.ALConfTO.setVal |
ING |
INT32 |
SP |
B |
5000 |
App
confirm TO |
Application
layer confirm and UR timeout |
100...65535
ms |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.ALFragSize.setVal |
ING |
INT32 |
SP |
B |
2048 |
App
layer fragment |
Application
layer fragment size |
256...2048
bytes |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.URMode.setVal |
ING |
Enum |
SP |
B |
1 |
UR
mode |
Unsolicited
responses mode |
1=Disable;
2=Enable |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.URRetry.setVal |
ING |
INT32 |
SP |
B |
3 |
UR
retries |
Unsolicited
retries before switching to UR offline mode |
0...65535 |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.URRetryTO.setVal |
ING |
INT32 |
SP |
B |
5000 |
UR
TO |
Unsolicited
response timeout |
0...65535
ms |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.UROffLinTO.setVal |
ING |
INT32 |
SP |
B |
15 |
UR
offline interval |
Unsolicited
offline interval |
0...65535
min |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.URClass1.setVal |
ING |
INT32 |
SP |
B |
2 |
UR
Class 1 Min events |
Min
number of class 1 events to generate UR |
0...999 |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.URClass1TO.setVal |
ING |
INT32 |
SP |
B |
50 |
UR
Class 1 TO |
Max
holding time for class 1 events to generate UR |
0...65535
ms |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.URClass2.setVal |
ING |
INT32 |
SP |
B |
2 |
UR
Class 2 Min events |
Min
number of class 2 events to generate UR |
0...999 |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.URClass2TO.setVal |
ING |
INT32 |
SP |
B |
50 |
UR
Class 2 TO |
Max
holding time for class 2 events to generate UR |
0...65535
ms |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.URClass3.setVal |
ING |
INT32 |
SP |
B |
2 |
UR
Class 3 Min events |
Min
number of class 3 events to generate UR |
0...999 |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.URClass3TO.setVal |
ING |
INT32 |
SP |
B |
50 |
UR
Class 3 TO |
Max
holding time for class 3 events to generate UR |
0...65535
ms |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.URLgcyMast.setVal |
ING |
Enum |
SP |
B |
1 |
Legacy
master UR |
Legacy
DNP master unsolicited mode support. When enabled relay does not send initial
unsolicited message. |
1=Disable;
2=Enable |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.SBOLgcyMas.setVal |
ING |
Enum |
SP |
B |
1 |
Legacy
master SBO |
Legacy
DNP Master SBO sequence number relax enable |
1=Disable;
2=Enable |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.DefVar01.setVal |
ING |
INT32 |
SP |
B |
1 |
Default
Var Obj 01 |
1=BI;
2=BI with status. |
1...2 |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.DefVar02.setVal |
ING |
INT32 |
SP |
B |
2 |
Default
Var Obj 02 |
1=BI
event; 2=BI event with time. |
1...2 |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.DefVar30.setVal |
ING |
INT32 |
SP |
B |
2 |
Default
Var Obj 30 |
1=32
bit AI; 2=16 bit AI; 3=32 bit AI without flag; 4=16 bit AI without flag. |
1...4 |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
CFG |
LD0.DNPGGIO1.DefVar32.setVal |
ING |
INT32 |
SP |
B |
4 |
Default
Var Obj 32 |
1=32
bit AI event; 2=16 bit AI event; 3=32 bit AI event with time; 4=16 bit AI
event with time. |
1...4 |
Configuration\Communication\DNP3.0 |
|||||
|
DNP
3.0 |
VER |
LD0.DNPGGIO1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
X000
(COM) |
CTR |
LD0.XGGIO90.Mod.Oper.ctlVal |
INC |
Enum |
CO |
I |
(X90
on/off) |
|||||||||
|
X000
(COM) |
CTR |
LD0.XGGIO90.Status1.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
A |
0 |
Link
status |
Link
status |
Monitoring\Communication\COM1 |
||||||
|
X000
(COM) |
CTR |
LD0.XGGIO90.Status2.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
A |
0 |
Link
status |
Link
status |
Monitoring\Communication\COM2 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.ChrsRcv1.stVal |
INS |
INT32 |
ST |
A |
Characters
received |
Characters
received |
-1...2147483646 |
Monitoring\Communication\COM1 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.LnkFrOk1.stVal |
INS |
INT32 |
ST |
A |
Frames
received |
Number
of successfully received frames |
-1...2147483646 |
Monitoring\Communication\COM1 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.LnkFrErr1.stVal |
INS |
INT32 |
ST |
A |
Frames
discarded |
Number
of discarded frames |
-1...2147483646 |
Monitoring\Communication\COM1 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.LnkFrTrm1.stVal |
INS |
INT32 |
ST |
A |
Frames
trasmitted |
Number
of transmitted frames |
-1...2147483646 |
Monitoring\Communication\COM1 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.CDLost1.stVal |
INS |
INT32 |
ST |
A |
CD
lost |
CD
lost |
-1...2147483646 |
Monitoring\Communication\COM1 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.Collision1.stVal |
INS |
INT32 |
ST |
A |
Collision |
Collision |
-1...2147483646 |
Monitoring\Communication\COM1 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.CTSTmOut1.stVal |
INS |
INT32 |
ST |
A |
CTS
Timeout |
CTS
Timeout |
-1...2147483646 |
Monitoring\Communication\COM1 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.TxTmOut1.stVal |
INS |
INT32 |
ST |
A |
Transmission
timeout |
Transmission
timeout |
-1...2147483646 |
Monitoring\Communication\COM1 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.ParErr1.stVal |
INS |
INT32 |
ST |
A |
Parity
errors |
Number
of parity errors |
-1...2147483646 |
Monitoring\Communication\COM1 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.OvrErr1.stVal |
INS |
INT32 |
ST |
A |
Overrun
errors |
Number
of overrun errors |
-1...2147483646 |
Monitoring\Communication\COM1 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.FrmErr1.stVal |
INS |
INT32 |
ST |
A |
Framing
errors |
Number
of framing errors |
-1...2147483646 |
Monitoring\Communication\COM1 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.Status1.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
A |
0 |
Link
status |
Link
status |
Monitoring\Communication\COM1 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.ChrsRcv2.stVal |
INS |
INT32 |
ST |
A |
Characters
received |
Characters
received |
-1...2147483646 |
Monitoring\Communication\COM2 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.LnkFrOk2.stVal |
INS |
INT32 |
ST |
A |
Frames
received |
Number
of successfully received frames |
-1...2147483646 |
Monitoring\Communication\COM2 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.LnkFrErr2.stVal |
INS |
INT32 |
ST |
A |
Frames
discarded |
Number
of discarded frames |
-1...2147483646 |
Monitoring\Communication\COM2 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.LnkFrTrm2.stVal |
INS |
INT32 |
ST |
A |
Frames
trasmitted |
Number
of transmitted frames |
-1...2147483646 |
Monitoring\Communication\COM2 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.CDLost2.stVal |
INS |
INT32 |
ST |
A |
CD
lost |
CD
lost |
-1...2147483646 |
Monitoring\Communication\COM2 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.Collision2.stVal |
INS |
INT32 |
ST |
A |
Collision |
Collision |
-1...2147483646 |
Monitoring\Communication\COM2 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.CTSTmOut2.stVal |
INS |
INT32 |
ST |
A |
CTS
Timeout |
CTS
Timeout |
-1...2147483646 |
Monitoring\Communication\COM2 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.TxTmOut2.stVal |
INS |
INT32 |
ST |
A |
Transmission
timeout |
Transmission
timeout |
-1...2147483646 |
Monitoring\Communication\COM2 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.ParErr2.stVal |
INS |
INT32 |
ST |
A |
Parity
errors |
Number
of parity errors |
-1...2147483646 |
Monitoring\Communication\COM2 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.OvrErr2.stVal |
INS |
INT32 |
ST |
A |
Overrun
errors |
Number
of overrun errors |
-1...2147483646 |
Monitoring\Communication\COM2 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.FrmErr2.stVal |
INS |
INT32 |
ST |
A |
Framing
errors |
Number
of framing errors |
-1...2147483646 |
Monitoring\Communication\COM2 |
||||||
|
X000
(COM) |
MON |
LD0.XGGIO90.Status2.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
A |
0 |
Link
status |
Link
status |
Monitoring\Communication\COM2 |
||||||
|
X000
(COM) |
CFG |
LD0.XGGIO90.FibMod1.setVal |
ING |
Enum |
SP |
B |
0 |
Fiber
mode |
Fiber
mode for COM1 |
0=No
fiber; 2=Fiber optic |
Configuration\Communication\COM1 |
|||||
|
X000
(COM) |
CFG |
LD0.XGGIO90.SerMod1.setVal |
ING |
Enum |
SP |
B |
1 |
Serial
mode |
Serial
mode for COM1 |
1=RS485
2Wire; 2=RS485 4Wire; 3=RS232 no handshake; 4=RS232 with handshake |
Configuration\Communication\COM1 |
|||||
|
X000
(COM) |
CFG |
LD0.XGGIO90.CtsDlTmms1.setVal |
ING |
INT32 |
SP |
B |
0 |
CTS
delay |
CTS
delay for COM1 |
0...60000 |
Configuration\Communication\COM1 |
|||||
|
X000
(COM) |
CFG |
LD0.XGGIO90.RtsDlTmms1.setVal |
ING |
INT32 |
SP |
B |
0 |
RTS
delay |
RTS
delay for COM1 |
0...60000 |
Configuration\Communication\COM1 |
|||||
|
X000
(COM) |
CFG |
LD0.XGGIO90.SerBaud1.setVal |
ING |
Enum |
SP |
B |
6 |
Baudrate |
Baudrate
for COM1 |
1=300;
2=600; 3=1200; 4=2400; 5=4800; 6=9600; 7=19200; 8=38400; 9=57600; 10=115200 |
Configuration\Communication\COM1 |
|||||
|
X000
(COM) |
CFG |
LD0.XGGIO90.FibMod2.setVal |
ING |
Enum |
SP |
B |
0 |
Fiber
mode |
Fiber
mode for COM2 |
0=No
fiber; 2=Fiber optic |
Configuration\Communication\COM2 |
|||||
|
X000
(COM) |
CFG |
LD0.XGGIO90.SerMod2.setVal |
ING |
Enum |
SP |
B |
1 |
Serial
mode |
Serial
mode for COM2 |
1=RS485
2Wire; 2=RS485 4Wire; 3=RS232 no handshake; 4=RS232 with handshake |
Configuration\Communication\COM2 |
|||||
|
X000
(COM) |
CFG |
LD0.XGGIO90.CtsDlTmms2.setVal |
ING |
INT32 |
SP |
B |
0 |
CTS
delay |
CTS
delay for COM2 |
0...60000 |
Configuration\Communication\COM2 |
|||||
|
X000
(COM) |
CFG |
LD0.XGGIO90.RtsDlTmms2.setVal |
ING |
INT32 |
SP |
B |
0 |
RTS
delay |
RTS
delay for COM2 |
0...60000 |
Configuration\Communication\COM2 |
|||||
|
X000
(COM) |
CFG |
LD0.XGGIO90.SerBaud2.setVal |
ING |
Enum |
SP |
B |
6 |
Baudrate |
Baudrate
for COM2 |
1=300;
2=600; 3=1200; 4=2400; 5=4800; 6=9600; 7=19200; 8=38400; 9=57600; 10=115200 |
Configuration\Communication\COM2 |
|||||
|
X000
(COM) |
INF |
LD0.XGGIO90.EEName.hwRev |
DPL |
VisString255
(20) |
DC |
B |
0 |
HW
revision |
Card
HW revision |
Information\HW
modules\X000 (COM) |
||||||
|
X000
(COM) |
INF |
LD0.XGGIO90.EEName.swRev |
DPL |
VisString255
(20) |
DC |
B |
- |
SW
version |
Card
SW version |
Information\HW
modules\X000 (COM) |
||||||
|
X000
(COM) |
INF |
LD0.XGGIO90.EEName.serNum |
DPL |
VisString255
(20) |
DC |
B |
0 |
Serial
number |
Card
serial number |
Information\HW
modules\X000 (COM) |
||||||
|
X000
(COM) |
INF |
LD0.XGGIO90.EEName.eArtNum |
DPL |
VisString255
(20) |
EX |
B |
0 |
Article
number |
Card
article number |
Information\HW
modules\X000 (COM) |
||||||
|
X000
(COM) |
INF |
LD0.XGGIO90.EEName.eManDate |
DPL |
VisString255
(20) |
EX |
B |
0 |
Manufacturing
date |
Card
manufacturing date |
Information\HW
modules\X000 (COM) |
||||||
|
X000
(COM) |
INF |
LD0.XGGIO90.EEName.eTestDate |
DPL |
VisString255
(20) |
EX |
B |
0 |
Test
date |
Card
test date |
Information\HW
modules\X000 (COM) |
||||||
|
X000
(COM) |
VER |
LD0.XGGIO90.EEName.swRev |
DPL |
VisString255
(20) |
DC |
B |
- |
SW
version |
Card
SW version |
Information\HW
modules\X000 (COM) |
||||||
|
X000
(COM) |
VER |
LD0.XGGIO90.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
C |
(X90) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
61850-8-1
MMS |
CTR |
LD0.MMSGGIO1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
I |
(Mode) |
|||||||||
|
61850-8-1
MMS |
CTR |
LD0.MMSGGIO1.SGConfMod.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
I |
(Setting
group editing mode) |
|||||||||
|
61850-8-1
MMS |
CTR |
LD0.MMSGGIO1.RstCnt.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
counters |
MMSGGIO
counters reset |
Monitoring\Communication\MMSGGIO1 |
||||||
|
61850-8-1
MMS |
MON |
LD0.MMSGGIO1.IntIn1.stVal |
INS |
INT32 |
ST |
B |
Successful
conn. |
MMS
successful connections |
0...10000000 |
Monitoring\Communication\MMSGGIO1 |
||||||
|
61850-8-1
MMS |
MON |
LD0.MMSGGIO1.IntIn2.stVal |
INS |
INT32 |
ST |
B |
Failed
conn. |
MMS
failed connections |
0...10000000 |
Monitoring\Communication\MMSGGIO1 |
||||||
|
61850-8-1
MMS |
MON |
LD0.MMSGGIO1.IntIn3.stVal |
INS |
INT32 |
ST |
B |
Concludes |
MMS
concludes |
0...10000000 |
Monitoring\Communication\MMSGGIO1 |
||||||
|
61850-8-1
MMS |
MON |
LD0.MMSGGIO1.IntIn4.stVal |
INS |
INT32 |
ST |
B |
Sent
aborts |
MMS
sent aborts |
0...10000000 |
Monitoring\Communication\MMSGGIO1 |
||||||
|
61850-8-1
MMS |
MON |
LD0.MMSGGIO1.IntIn5.stVal |
INS |
INT32 |
ST |
B |
Recv.
aborts |
MMS
received aborts |
0...10000000 |
Monitoring\Communication\MMSGGIO1 |
||||||
|
61850-8-1
MMS |
MON |
LD0.MMSGGIO1.IntIn6.stVal |
INS |
INT32 |
ST |
B |
Sent
rejects |
MMS
sent rejects |
0...10000000 |
Monitoring\Communication\MMSGGIO1 |
||||||
|
61850-8-1
MMS |
MON |
LD0.MMSGGIO1.IntIn7.stVal |
INS |
INT32 |
ST |
B |
Recv.
requests |
MMS
received requests |
0...10000000 |
Monitoring\Communication\MMSGGIO1 |
||||||
|
61850-8-1
MMS |
MON |
LD0.MMSGGIO1.IntIn8.stVal |
INS |
INT32 |
ST |
B |
Failed
requests |
MMS
failed requests |
0...10000000 |
Monitoring\Communication\MMSGGIO1 |
||||||
|
61850-8-1
MMS |
MON |
LD0.MMSGGIO1.IntIn9.stVal |
INS |
INT32 |
ST |
B |
Reads |
MMS
successful reads |
0...10000000 |
Monitoring\Communication\MMSGGIO1 |
||||||
|
61850-8-1
MMS |
MON |
LD0.MMSGGIO1.IntIn10.stVal |
INS |
INT32 |
ST |
B |
Failed
reads |
MMS
failed reads |
0...10000000 |
Monitoring\Communication\MMSGGIO1 |
||||||
|
61850-8-1
MMS |
MON |
LD0.MMSGGIO1.IntIn11.stVal |
INS |
INT32 |
ST |
B |
Writes |
MMS
successful writes |
0...10000000 |
Monitoring\Communication\MMSGGIO1 |
||||||
|
61850-8-1
MMS |
MON |
LD0.MMSGGIO1.IntIn12.stVal |
INS |
INT32 |
ST |
B |
Failed
writes |
MMS
failed writes |
0...10000000 |
Monitoring\Communication\MMSGGIO1 |
||||||
|
61850-8-1
MMS |
MON |
LD0.MMSGGIO1.IntIn13.stVal |
INS |
INT32 |
ST |
B |
Reports |
MMS
Information reports |
0...10000000 |
Monitoring\Communication\MMSGGIO1 |
||||||
|
61850-8-1
MMS |
MON |
LD0.MMSGGIO1.IntIn14.stVal |
INS |
INT32 |
ST |
B |
Active
conn. |
MMS
active connections |
0...10000000 |
Monitoring\Communication\MMSGGIO1 |
||||||
|
61850-8-1
MMS |
MON |
LD0.MMSGGIO1.RstCnt.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
counters |
MMSGGIO
counters reset |
Monitoring\Communication\MMSGGIO1 |
||||||
|
61850-8-1
MMS |
CFG |
LD0.MMSGGIO1.UnitMod.setVal |
ING |
Enum |
SP |
B,C |
0 |
Unit
mode |
IEC
61850-8-1 unit mode |
1=Primary;
0=Nominal; 2=Primary-Nominal |
Configuration\Communication\MMSGGIO1 |
|||||
|
61850-8-1
MMS |
VER |
LD0.MMSGGIO1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
C |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
GSEGGIO1 |
GSE |
GSE |
OUT |
LD0.GSEGGIO1.Alm.stVal |
SPS |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
ALARM |
Receiver
Alarm general |
Monitoring\I/O
status\Communication\GSEGGIO1\Outputs |
|||
|
GSEGGIO1 |
GSE |
GSE |
CTR |
LD0.GSEGGIO1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
I |
(Mode) |
|||||||
|
GSEGGIO1 |
GSE |
GSE |
CTR |
LD0.GSEGGIO1.RstCnt.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
counters |
Resets
GOOSE diagnostics counters |
Monitoring\I/O
status\Communication\GSEGGIO1\Monitoring |
||||
|
GSEGGIO1 |
GSE |
GSE |
MON |
LD0.GSEGGIO1.IntIn1.stVal |
INS |
INT32 |
ST |
B |
Received
msgs |
Received
GOOSE messages. |
0...10000000 |
Monitoring\I/O
status\Communication\GSEGGIO1\Monitoring |
||||
|
GSEGGIO1 |
GSE |
GSE |
MON |
LD0.GSEGGIO1.IntIn2.stVal |
INS |
INT32 |
ST |
B |
Transmitted
msgs |
Transmitted
GOOSE messages. |
0...10000000 |
Monitoring\I/O
status\Communication\GSEGGIO1\Monitoring |
||||
|
GSEGGIO1 |
GSE |
GSE |
MON |
LD0.GSEGGIO1.IntIn3.stVal |
INS |
INT32 |
ST |
B |
State
changes |
Received
GOOSE state changes. |
0...10000000 |
Monitoring\I/O
status\Communication\GSEGGIO1\Monitoring |
||||
|
GSEGGIO1 |
GSE |
GSE |
MON |
LD0.GSEGGIO1.IntIn4.stVal |
INS |
INT32 |
ST |
B |
SeqNum
changes |
Received
GOOSE sequence number changes. |
0...10000000 |
Monitoring\I/O
status\Communication\GSEGGIO1\Monitoring |
||||
|
GSEGGIO1 |
GSE |
GSE |
MON |
LD0.GSEGGIO1.IntIn5.stVal |
INS |
INT32 |
ST |
B |
Test
msgs |
Received
GOOSE messages with test bit set to TRUE. |
0...10000000 |
Monitoring\I/O
status\Communication\GSEGGIO1\Monitoring |
||||
|
GSEGGIO1 |
GSE |
GSE |
MON |
LD0.GSEGGIO1.IntIn6.stVal |
INS |
INT32 |
ST |
B |
State
errors |
State
number miss in GOOSE message reception. |
0...10000000 |
Monitoring\I/O
status\Communication\GSEGGIO1\Monitoring |
||||
|
GSEGGIO1 |
GSE |
GSE |
MON |
LD0.GSEGGIO1.IntIn7.stVal |
INS |
INT32 |
ST |
B |
Sequence
errors |
Sequence
number miss in GOOSE message reception. |
0...10000000 |
Monitoring\I/O
status\Communication\GSEGGIO1\Monitoring |
||||
|
GSEGGIO1 |
GSE |
GSE |
MON |
LD0.GSEGGIO1.IntIn8.stVal |
INS |
INT32 |
ST |
B |
Recv.
timeouts |
Receiver
timeouts. Goose messages were not received in defined time. |
0...10000000 |
Monitoring\I/O
status\Communication\GSEGGIO1\Monitoring |
||||
|
GSEGGIO1 |
GSE |
GSE |
MON |
LD0.GSEGGIO1.IntIn9.stVal |
INS |
INT32 |
ST |
B |
ConfRev
errors |
Received
configuration revision mismatched GOOSE messages. |
0...10000000 |
Monitoring\I/O
status\Communication\GSEGGIO1\Monitoring |
||||
|
GSEGGIO1 |
GSE |
GSE |
MON |
LD0.GSEGGIO1.IntIn10.stVal |
INS |
INT32 |
ST |
B |
NdsComm
errors |
Received
GOOSE messages with Needs Commissioning bit set to TRUE. |
0...10000000 |
Monitoring\I/O
status\Communication\GSEGGIO1\Monitoring |
||||
|
GSEGGIO1 |
GSE |
GSE |
MON |
LD0.GSEGGIO1.IntIn11.stVal |
INS |
INT32 |
ST |
B |
Dataset
errors |
Received
dataset mismatched GOOSE messages. |
0...10000000 |
Monitoring\I/O
status\Communication\GSEGGIO1\Monitoring |
||||
|
GSEGGIO1 |
GSE |
GSE |
MON |
LD0.GSEGGIO1.RstCnt.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
counters |
Resets
GOOSE diagnostics counters |
Monitoring\I/O
status\Communication\GSEGGIO1\Monitoring |
||||
|
GSEGGIO1 |
GSE |
GSE |
VER |
LD0.GSEGGIO1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
INP |
LD0.PHHPTOC2.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\PHHPTOC2\Inputs |
||||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
INP |
LD0.PHHPTOC2.InEnaMult.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ENA_MULT |
Enable
signal for current multiplier |
Monitoring\I/O
status\Current protection\PHHPTOC2\Inputs |
||||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
OUT |
LD0.PHHPTOC2.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
(A,B,C) |
Monitoring\I/O
status\Current protection\PHHPTOC2\Outputs |
||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
OUT |
LD0.PHHPTOC2.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
(A,B,C) |
Monitoring\I/O
status\Current protection\PHHPTOC2\Outputs |
||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
MON |
LD0.PHHPTOC2.Beh.stVal |
INS |
Enum |
ST |
B |
PHHPTOC2 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
MON |
LD0.PHHPTOC2.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\PHHPTOC2\Monitored data |
||||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
SET |
LD0.PHHPTOC2.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\PHHPTOC2 |
|||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
SET |
LD0.PHHPTOC2.NumPh.setVal |
ING |
Enum |
SP |
B |
1 |
Num
of start phases |
Number
of phases required for operate activation |
1=1
out of 3; 2=2 out of 3; 3=3 out of 3 |
Settings\Settings\Current
protection\PHHPTOC2 |
|||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
SET |
LD0.PHHPTOC2.StrValMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Start
value Mult |
Multiplier
for scaling the start value |
0.8...10.0 |
Settings\Settings\Current
protection\PHHPTOC2 |
|||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
SET |
LD0.PHHPTOC2.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
3.00 |
Start
value |
Start
value |
0.10...40.00
xIn |
Settings\Settings\Current
protection\PHHPTOC2 |
IL1TCTR1 |
||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
SET |
LD0.PHHPTOC2.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Time
multiplier |
Time
multiplier in IEC/ANSI IDMT curves |
0.05...15.0 |
Settings\Settings\Current
protection\PHHPTOC2 |
|||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
SET |
LD0.PHHPTOC2.TypRsCrv.setVal |
ING |
Enum |
SG |
B |
1 |
Type
of reset curve |
Selection
of reset curve type |
1=Immediate;
2=Def time reset; 3=Inverse reset |
Settings\Settings\Current
protection\PHHPTOC2 |
|||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
SET |
LD0.PHHPTOC2.TmACrv.setCharact |
CURVE |
Enum |
SG |
B,I |
5 |
Operating
curve type |
Selection
of time delay curve type |
1=ANSI
Ext. inv.; 3=ANSI Norm. inv.; 5=ANSI Def. Time; 9=IEC Norm. inv.; 10=IEC Very
inv.; 12=IEC Ext. inv.; 15=IEC Def. Time; 17=Programmable |
Settings\Settings\Current
protection\PHHPTOC2 |
|||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
SET |
LD0.PHHPTOC2.TmACrv.setParA |
CURVE |
FLOAT32 |
SP |
B,I |
28.2000 |
Curve
parameter A |
Parameter
A for customer programmable curve |
0.0086...120.0000 |
Settings\Settings\Current
protection\PHHPTOC2 |
|||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
SET |
LD0.PHHPTOC2.TmACrv.setParB |
CURVE |
FLOAT32 |
SP |
B,I |
0.1217 |
Curve
parameter B |
Parameter
B for customer programmable curve |
0.0000...0.7120 |
Settings\Settings\Current
protection\PHHPTOC2 |
|||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
SET |
LD0.PHHPTOC2.TmACrv.setParC |
CURVE |
FLOAT32 |
SP |
B,I |
2.00 |
Curve
parameter C |
Parameter
C for customer programmable curve |
0.02...2.00 |
Settings\Settings\Current
protection\PHHPTOC2 |
|||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
SET |
LD0.PHHPTOC2.TmACrv.setParD |
CURVE |
FLOAT32 |
SP |
B,I |
29.10 |
Curve
parameter D |
Parameter
D for customer programmable curve |
0.46...30.00 |
Settings\Settings\Current
protection\PHHPTOC2 |
|||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
SET |
LD0.PHHPTOC2.TmACrv.setParE |
CURVE |
FLOAT32 |
SP |
B,I |
1.0 |
Curve
parameter E |
Parameter
E for customer programmable curve |
0.0...1.0 |
Settings\Settings\Current
protection\PHHPTOC2 |
|||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
SET |
LD0.PHHPTOC2.MinOpTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
20...60000
ms |
Settings\Settings\Current
protection\PHHPTOC2 |
|||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
SET |
LD0.PHHPTOC2.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
300 |
Operate
delay time |
Operate
delay time |
40...200000
ms |
Settings\Settings\Current
protection\PHHPTOC2 |
|||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
SET |
LD0.PHHPTOC2.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\PHHPTOC2 |
|||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
SET |
LD0.PHHPTOC2.AMeasMod.setVal |
ING |
Enum |
SP |
B |
2 |
Measurement
mode |
Selects
used measurement mode |
1=RMS;
2=DFT; 3=Peak-to-Peak |
Settings\Settings\Current
protection\PHHPTOC2 |
|||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
TES |
LD0.PHHPTOC2.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
PHHPTOC2 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
PHHPTOC2 |
3I>>(2) |
51P-2(2) |
VER |
LD0.PHHPTOC2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
D |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
CMMXU1 |
3I |
3I |
INP |
LD0.CMMXU1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for all binary outputs |
Monitoring\I/O
status\Measurements\CMMXU1\Inputs |
||||
|
CMMXU1 |
3I |
3I |
OUT |
LD0.CMMXU1.HiAlm.stVal |
SPS |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
HIGH_ALARM |
High
alarm |
Monitoring\I/O
status\Measurements\CMMXU1\Outputs |
|||
|
CMMXU1 |
3I |
3I |
OUT |
LD0.CMMXU1.HiWrn.stVal |
SPS |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
HIGH_WARN |
High
warning |
Monitoring\I/O
status\Measurements\CMMXU1\Outputs |
|||
|
CMMXU1 |
3I |
3I |
OUT |
LD0.CMMXU1.LoWrn.stVal |
SPS |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
LOW_WARN |
Low
warning |
Monitoring\I/O
status\Measurements\CMMXU1\Outputs |
|||
|
CMMXU1 |
3I |
3I |
OUT |
LD0.CMMXU1.LoAlm.stVal |
SPS |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
LOW_ALARM |
Low
alarm |
Monitoring\I/O
status\Measurements\CMMXU1\Outputs |
|||
|
CMMXU1 |
3I |
3I |
CTR |
LD0.CMMXU1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Measurements\CMMXU1 |
|||
|
CMMXU1 |
3I |
3I |
CTR |
LD0.CMSTA1.RecRs.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(CMMXU1
demands) |
||||||||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMMXU1.A.phsA.instCVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
IL1-A |
Measured
current amplitude phase A |
0.00...40.00
xIn |
Measurements\CMMXU1 |
||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMMXU1.A.phsA.instCVal.ang.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
I_ANGL_A |
IL1
current angle |
-180.00...180.00
deg |
Monitoring\I/O
status\Measurements\CMMXU1\Monitored data |
||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMMXU1.A.phsA.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
I_DB_A |
IL1
Amplitude, magnitude of reported value |
0.00...40.00
xIn |
Monitoring\I/O
status\Measurements\CMMXU1\Monitored data |
||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMMXU1.A.phsA.range |
WYE |
Enum |
MX |
B |
MeasFlt |
P |
I_RANGE_A |
IL1
Amplitude range |
0=normal;
1=high; 2=low; 3=high-high; 4=low-low |
Monitoring\I/O
status\Measurements\CMMXU1\Monitored data |
||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMMXU1.A.phsB.instCVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
IL2-A |
Measured
current amplitude phase B |
0.00...40.00
xIn |
Measurements\CMMXU1 |
||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMMXU1.A.phsB.instCVal.ang.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
I_ANGL_B |
IL2
current angle |
-180.00...180.00
deg |
Monitoring\I/O
status\Measurements\CMMXU1\Monitored data |
||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMMXU1.A.phsB.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
I_DB_B |
IL2
Amplitude, magnitude of reported value |
0.00...40.00
xIn |
Monitoring\I/O
status\Measurements\CMMXU1\Monitored data |
||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMMXU1.A.phsB.range |
WYE |
Enum |
MX |
B |
MeasFlt |
P |
I_RANGE_B |
IL2
Amplitude range |
0=normal;
1=high; 2=low; 3=high-high; 4=low-low |
Monitoring\I/O
status\Measurements\CMMXU1\Monitored data |
||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMMXU1.A.phsC.instCVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
IL3-A |
Measured
current amplitude phase C |
0.00...40.00
xIn |
Measurements\CMMXU1 |
||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMMXU1.A.phsC.instCVal.ang.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
I_ANGL_C |
IL3
current angle |
-180.00...180.00
deg |
Monitoring\I/O
status\Measurements\CMMXU1\Monitored data |
||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMMXU1.A.phsC.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
I_DB_C |
IL3
Amplitude, magnitude of reported value |
0.00...40.00
xIn |
Monitoring\I/O
status\Measurements\CMMXU1\Monitored data |
||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMMXU1.A.phsC.range |
WYE |
Enum |
MX |
B |
MeasFlt |
P |
I_RANGE_C |
IL3
Amplitude range |
0=normal;
1=high; 2=low; 3=high-high; 4=low-low |
Monitoring\I/O
status\Measurements\CMMXU1\Monitored data |
||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMSTA1.AvAmpsA.mag.f |
MV |
FLOAT32 |
MX |
B |
I_DMD_A |
Demand
value of IL1 current |
0.00...40.00
xIn |
Monitoring\I/O
status\Measurements\CMMXU1\Monitored data |
IL1TCTR1 |
|||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMSTA1.MaxAmpsA.mag.f |
MV |
FLOAT32 |
MX |
B |
Max
demand IL1 |
Maximum
demand for Phase A |
0.00...40.00
xIn |
Monitoring\Recorded
data\Measurements\CMMXU1 |
IL1TCTR1 |
|||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMSTA1.MaxAmpsA.t |
MV |
Timestamp |
MX |
B |
Time
max demand IL1 |
Time
of maximum demand phase A |
Monitoring\Recorded
data\Measurements\CMMXU1 |
|||||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMSTA1.MinAmpsA.mag.f |
MV |
FLOAT32 |
MX |
B |
Min
demand IL1 |
Minimum
demand for Phase A |
0.00...40.00
xIn |
Monitoring\Recorded
data\Measurements\CMMXU1 |
IL1TCTR1 |
|||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMSTA1.MinAmpsA.t |
MV |
Timestamp |
MX |
B |
Time
min demand IL1 |
Time
of minimum demand phase A |
Monitoring\Recorded
data\Measurements\CMMXU1 |
|||||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMSTA1.AvAmpsB.mag.f |
MV |
FLOAT32 |
MX |
B |
I_DMD_B |
Demand
value of IL2 current |
0.00...40.00
xIn |
Monitoring\I/O
status\Measurements\CMMXU1\Monitored data |
IL1TCTR1 |
|||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMSTA1.MaxAmpsB.mag.f |
MV |
FLOAT32 |
MX |
B |
Max
demand IL2 |
Maximum
demand for Phase B |
0.00...40.00
xIn |
Monitoring\Recorded
data\Measurements\CMMXU1 |
IL1TCTR1 |
|||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMSTA1.MaxAmpsB.t |
MV |
Timestamp |
MX |
B |
Time
max demand IL2 |
Time
of maximum demand phase B |
Monitoring\Recorded
data\Measurements\CMMXU1 |
|||||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMSTA1.MinAmpsB.mag.f |
MV |
FLOAT32 |
MX |
B |
Min
demand IL2 |
Minimum
demand for Phase B |
0.00...40.00
xIn |
Monitoring\Recorded
data\Measurements\CMMXU1 |
IL1TCTR1 |
|||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMSTA1.MinAmpsB.t |
MV |
Timestamp |
MX |
B |
Time
min demand IL2 |
Time
of minimum demand phase B |
Monitoring\Recorded
data\Measurements\CMMXU1 |
|||||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMSTA1.AvAmpsC.mag.f |
MV |
FLOAT32 |
MX |
B |
I_DMD_C |
Demand
value of IL3 current |
0.00...40.00
xIn |
Monitoring\I/O
status\Measurements\CMMXU1\Monitored data |
IL1TCTR1 |
|||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMSTA1.MaxAmpsC.mag.f |
MV |
FLOAT32 |
MX |
B |
Max
demand IL3 |
Maximum
demand for Phase C |
0.00...40.00
xIn |
Monitoring\Recorded
data\Measurements\CMMXU1 |
IL1TCTR1 |
|||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMSTA1.MaxAmpsC.t |
MV |
Timestamp |
MX |
B |
Time
max demand IL3 |
Time
of maximum demand phase C |
Monitoring\Recorded
data\Measurements\CMMXU1 |
|||||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMSTA1.MinAmpsC.mag.f |
MV |
FLOAT32 |
MX |
B |
Min
demand IL3 |
Minimum
demand for Phase C |
0.00...40.00
xIn |
Monitoring\Recorded
data\Measurements\CMMXU1 |
IL1TCTR1 |
|||
|
CMMXU1 |
3I |
3I |
MON |
LD0.CMSTA1.MinAmpsC.t |
MV |
Timestamp |
MX |
B |
Time
min demand IL3 |
Time
of minimum demand phase C |
Monitoring\Recorded
data\Measurements\CMMXU1 |
|||||
|
CMMXU1 |
3I |
3I |
CFG |
LD0.CMMXU1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Measurements\CMMXU1 |
|||
|
CMMXU1 |
3I |
3I |
CFG |
LD0.CMMXU1.A.phsA.db |
WYE |
INT32U |
CF |
B,I |
2500 |
A
deadband |
Deadband
configuration value for integral calculation. (percentage of difference
between min and max as 0,001 % s) |
100...100000 |
Configuration\Measurements\CMMXU1 |
|||
|
CMMXU1 |
3I |
3I |
CFG |
LD0.CMMXU1.A.phsA.rangeC.hhLim.f |
WYE |
FLOAT32 |
CF |
B,I |
1.40 |
A
high high limit |
High
alarm current limit |
0.00...40.00
xIn |
Configuration\Measurements\CMMXU1 |
|||
|
CMMXU1 |
3I |
3I |
CFG |
LD0.CMMXU1.A.phsA.rangeC.hLim.f |
WYE |
FLOAT32 |
CF |
B,I |
1.20 |
A
high limit |
High
warning current limit |
0.00...40.00
xIn |
Configuration\Measurements\CMMXU1 |
|||
|
CMMXU1 |
3I |
3I |
CFG |
LD0.CMMXU1.A.phsA.rangeC.lLim.f |
WYE |
FLOAT32 |
CF |
B,I |
0.00 |
A
low limit |
Low
warning current limit |
0.00...40.00
xIn |
Configuration\Measurements\CMMXU1 |
|||
|
CMMXU1 |
3I |
3I |
CFG |
LD0.CMMXU1.A.phsA.rangeC.llLim.f |
WYE |
FLOAT32 |
CF |
B,I |
0.00 |
A
low low limit |
Low
alarm current limit |
0.00...40.00
xIn |
Configuration\Measurements\CMMXU1 |
|||
|
CMMXU1 |
3I |
3I |
CFG |
LD0.CMMXU1.AMeasMod.setVal |
ING |
Enum |
SP |
B |
2 |
Measurement
mode |
Selects
used measurement mode |
1=RMS;
2=DFT |
Configuration\Measurements\CMMXU1 |
|||
|
CMMXU1 |
3I |
3I |
CFG |
LD0.CMMXU1.NumPh.setVal |
ING |
Enum |
SP |
B |
1 |
Num
of phases |
Number
of phases required by limit supervision |
1=1
out of 3; 2=2 out of 3; 3=3 out of 3 |
Configuration\Measurements\CMMXU1 |
|||
|
CMMXU1 |
3I |
3I |
VER |
LD0.CMMXU1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
C |
(Name
plate) |
|||||||
|
CMMXU1 |
3I |
3I |
VER |
LD0.CMSTA1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
C |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
CTR |
LD0.CSMSQI1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Measurements\CSMSQI1 |
|||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
MON |
LD0.CSMSQI1.SeqA.c1.instCVal.mag.f |
SEQ |
FLOAT32 |
MX |
B |
MeasFlt |
P |
PsSeq-A |
Measured
positive sequence current |
0.00...40.00
xIn |
Measurements\CSMSQI1 |
||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
MON |
LD0.CSMSQI1.SeqA.c1.instCVal.ang.f |
SEQ |
FLOAT32 |
MX |
B |
MeasFlt |
P |
I1_ANGL |
Positive
sequence current angle |
-180.00...180.00
deg |
Monitoring\I/O
status\Measurements\CSMSQI1\Monitored data |
||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
MON |
LD0.CSMSQI1.SeqA.c1.cVal.mag.f |
SEQ |
FLOAT32 |
MX |
B |
MeasFlt |
P |
I1_DB |
Positive
sequence current amplitude, reported value |
0.00...40.00
xIn |
Monitoring\I/O
status\Measurements\CSMSQI1\Monitored data |
||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
MON |
LD0.CSMSQI1.SeqA.c1.range |
SEQ |
Enum |
MX |
B |
MeasFlt |
P |
I1_RANGE |
Positive
sequence current amplitude range |
0=normal;
1=high; 2=low; 3=high-high; 4=low-low |
Monitoring\I/O
status\Measurements\CSMSQI1\Monitored data |
||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
MON |
LD0.CSMSQI1.SeqA.c2.instCVal.mag.f |
SEQ |
FLOAT32 |
MX |
B |
MeasFlt |
P |
NgSeq-A |
Measured
negative sequence current |
0.00...40.00
xIn |
Measurements\CSMSQI1 |
||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
MON |
LD0.CSMSQI1.SeqA.c2.instCVal.ang.f |
SEQ |
FLOAT32 |
MX |
B |
MeasFlt |
P |
I2_ANGL |
Negative
sequence current angle |
-180.00...180.00
deg |
Monitoring\I/O
status\Measurements\CSMSQI1\Monitored data |
||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
MON |
LD0.CSMSQI1.SeqA.c2.cVal.mag.f |
SEQ |
FLOAT32 |
MX |
B |
MeasFlt |
P |
I2_DB |
Negative
sequence current amplitude, reported value |
0.00...40.00
xIn |
Monitoring\I/O
status\Measurements\CSMSQI1\Monitored data |
||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
MON |
LD0.CSMSQI1.SeqA.c2.range |
SEQ |
Enum |
MX |
B |
MeasFlt |
P |
I2_RANGE |
Negative
sequence current amplitude range |
0=normal;
1=high; 2=low; 3=high-high; 4=low-low |
Monitoring\I/O
status\Measurements\CSMSQI1\Monitored data |
||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
MON |
LD0.CSMSQI1.SeqA.c3.instCVal.mag.f |
SEQ |
FLOAT32 |
MX |
B |
MeasFlt |
P |
ZroSeq-A |
Measured
zero sequence current |
0.00...40.00
xIn |
Measurements\CSMSQI1 |
||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
MON |
LD0.CSMSQI1.SeqA.c3.instCVal.ang.f |
SEQ |
FLOAT32 |
MX |
B |
MeasFlt |
P |
I0_ANGL |
Zero
sequence current angle |
-180.00...180.00
deg |
Monitoring\I/O
status\Measurements\CSMSQI1\Monitored data |
||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
MON |
LD0.CSMSQI1.SeqA.c3.cVal.mag.f |
SEQ |
FLOAT32 |
MX |
B |
MeasFlt |
P |
I0_DB |
Zero
sequence current amplitude, reported value |
0.00...40.00
xIn |
Monitoring\I/O
status\Measurements\CSMSQI1\Monitored data |
||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
MON |
LD0.CSMSQI1.SeqA.c3.range |
SEQ |
Enum |
MX |
B |
MeasFlt |
P |
I0_RANGE |
Zero
sequence current amplitude range |
0=normal;
1=high; 2=low; 3=high-high; 4=low-low |
Monitoring\I/O
status\Measurements\CSMSQI1\Monitored data |
||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
CFG |
LD0.CSMSQI1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Measurements\CSMSQI1 |
|||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
CFG |
LD0.CSMSQI1.SeqA.c1.db |
SEQ |
INT32U |
CF |
B,I |
2500 |
Ps
Seq A deadband |
Deadband
configuration value for positive sequence current for integral calculation.
(percentage of difference between min and max as 0,001 % s) |
100...100000 |
Configuration\Measurements\CSMSQI1 |
|||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
CFG |
LD0.CSMSQI1.SeqA.c1.rangeC.hhLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
1.40 |
Ps
Seq A Hi high Lim |
High
alarm current limit for positive sequence current |
0.00...40.00
xIn |
Configuration\Measurements\CSMSQI1 |
|||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
CFG |
LD0.CSMSQI1.SeqA.c1.rangeC.hLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
1.20 |
Ps
Seq A high limit |
High
warning current limit for positive sequence current |
0.00...40.00
xIn |
Configuration\Measurements\CSMSQI1 |
|||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
CFG |
LD0.CSMSQI1.SeqA.c1.rangeC.lLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
0.00 |
Ps
Seq A low limit |
Low
warning current limit for positive sequence current |
0.00...40.00
xIn |
Configuration\Measurements\CSMSQI1 |
|||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
CFG |
LD0.CSMSQI1.SeqA.c1.rangeC.llLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
0.00 |
Ps
Seq A low low Lim |
Low
alarm current limit for positive sequence current |
0.00...40.00
xIn |
Configuration\Measurements\CSMSQI1 |
|||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
CFG |
LD0.CSMSQI1.SeqA.c2.db |
SEQ |
INT32U |
CF |
B,I |
2500 |
Ng
Seq A deadband |
Deadband
configuration value for negative sequence current for integral calculation.
(percentage of difference between min and max as 0,001 % s) |
100...100000 |
Configuration\Measurements\CSMSQI1 |
|||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
CFG |
LD0.CSMSQI1.SeqA.c2.rangeC.hhLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
0.20 |
Ng
Seq A Hi high Lim |
High
alarm current limit for negative sequence current |
0.00...40.00
xIn |
Configuration\Measurements\CSMSQI1 |
|||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
CFG |
LD0.CSMSQI1.SeqA.c2.rangeC.hLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
0.05 |
Ng
Seq A High limit |
High
warning current limit for negative sequence current |
0.00...40.00
xIn |
Configuration\Measurements\CSMSQI1 |
|||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
CFG |
LD0.CSMSQI1.SeqA.c2.rangeC.lLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
0.00 |
Ng
Seq A low limit |
Low
warning current limit for negative sequence current |
0.00...40.00
xIn |
Configuration\Measurements\CSMSQI1 |
|||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
CFG |
LD0.CSMSQI1.SeqA.c2.rangeC.llLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
0.00 |
Ng
Seq A low low Lim |
Low
alarm current limit for negative sequence current |
0.00...40.00
xIn |
Configuration\Measurements\CSMSQI1 |
|||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
CFG |
LD0.CSMSQI1.SeqA.c3.db |
SEQ |
INT32U |
CF |
B,I |
2500 |
Zro
A deadband |
Deadband
configuration value for zero sequence current for integral calculation.
(percentage of difference between min and max as 0,001 % s) |
100...100000 |
Configuration\Measurements\CSMSQI1 |
|||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
CFG |
LD0.CSMSQI1.SeqA.c3.rangeC.hhLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
0.20 |
Zro
A Hi high Lim |
High
alarm current limit for zero sequence current |
0.00...40.00
xIn |
Configuration\Measurements\CSMSQI1 |
|||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
CFG |
LD0.CSMSQI1.SeqA.c3.rangeC.hLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
0.05 |
Zro
A High limit |
High
warning current limit for zero sequence current |
0.00...40.00
xIn |
Configuration\Measurements\CSMSQI1 |
|||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
CFG |
LD0.CSMSQI1.SeqA.c3.rangeC.lLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
0.00 |
Zro
A low limit |
Low
warning current limit for zero sequence current |
0.00...40.00
xIn |
Configuration\Measurements\CSMSQI1 |
|||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
CFG |
LD0.CSMSQI1.SeqA.c3.rangeC.llLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
0.00 |
Zro
A low low Lim |
Low
alarm current limit for zero sequence current |
0.00...40.00
xIn |
Configuration\Measurements\CSMSQI1 |
|||
|
CSMSQI1 |
I1,I2,I0 |
I1,I2,I0 |
VER |
LD0.CSMSQI1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
INRPHAR1 |
3I2f>(1) |
68 |
INP |
LD0.INRPHAR1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
input status |
Monitoring\I/O
status\Current protection\INRPHAR1\Inputs |
||||
|
INRPHAR1 |
3I2f>(1) |
68 |
OUT |
LD0.INRPHAR1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatIO |
P |
BLK2H |
Second
harmonic based block |
(A,B,C) |
Monitoring\I/O
status\Current protection\INRPHAR1\Outputs |
||
|
INRPHAR1 |
3I2f>(1) |
68 |
MON |
LD0.INRPHAR1.Beh.stVal |
INS |
Enum |
ST |
B |
INRPHAR1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
INRPHAR1 |
3I2f>(1) |
68 |
SET |
LD0.INRPHAR1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\INRPHAR1 |
|||
|
INRPHAR1 |
3I2f>(1) |
68 |
SET |
LD0.INRPHAR1.PhStr.setMag.f |
ASG |
FLOAT32 |
SG |
B |
20 |
Start
value |
Ratio
of the 2. to the 1. harmonic leading to restraint |
5...100
% |
Settings\Settings\Current
protection\INRPHAR1 |
|||
|
INRPHAR1 |
3I2f>(1) |
68 |
SET |
LD0.INRPHAR1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
20 |
Operate
delay time |
Operate
delay time |
20...60000
ms |
Settings\Settings\Current
protection\INRPHAR1 |
|||
|
INRPHAR1 |
3I2f>(1) |
68 |
SET |
LD0.INRPHAR1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\INRPHAR1 |
|||
|
INRPHAR1 |
3I2f>(1) |
68 |
TES |
LD0.INRPHAR1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
INRPHAR1 |
Test
control for outputs |
0=Reset;
35=Activate BLK2H; 36=Deactive BLK2H |
Tests\Function
tests\Current protection |
|||
|
INRPHAR1 |
3I2f>(1) |
68 |
VER |
LD0.INRPHAR1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
TPSGAPC1 |
TPS(1) |
TPS(1) |
INP |
LD0.TPSGAPC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
0 |
OUT1 |
Output
1 status |
Monitoring\I/O
status\Generic timers\TPSGAPC1\Outputs |
||||
|
TPSGAPC1 |
TPS(1) |
TPS(1) |
INP |
LD0.TPSGAPC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
0 |
OUT2 |
Output
2 status |
Monitoring\I/O
status\Generic timers\TPSGAPC1\Outputs |
||||
|
TPSGAPC1 |
TPS(1) |
TPS(1) |
OUT |
LD0.TPSGAPC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
0 |
OUT1 |
Output
1 status |
Monitoring\I/O
status\Generic timers\TPSGAPC1\Outputs |
||||
|
TPSGAPC1 |
TPS(1) |
TPS(1) |
OUT |
LD0.TPSGAPC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
0 |
OUT2 |
Output
2 status |
Monitoring\I/O
status\Generic timers\TPSGAPC1\Outputs |
||||
|
TPSGAPC1 |
TPS(1) |
TPS(1) |
CFG |
LD0.TPSGAPC1.PlsTms.setVal |
ING |
INT32 |
SP |
B |
0 |
Pulse
time |
Minimum
pulse time |
0...300
s |
Configuration\Generic
timers\TPSGAPC1 |
|||
|
TPSGAPC1 |
TPS(1) |
TPS(1) |
VER |
LD0.TPSGAPC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
TPMGAPC1 |
TPM(1) |
TPM(1) |
INP |
LD0.TPMGAPC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
0 |
OUT1 |
Output
1 status |
Monitoring\I/O
status\Generic timers\TPMGAPC1\Outputs |
||||
|
TPMGAPC1 |
TPM(1) |
TPM(1) |
INP |
LD0.TPMGAPC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
0 |
OUT2 |
Output
2 status |
Monitoring\I/O
status\Generic timers\TPMGAPC1\Outputs |
||||
|
TPMGAPC1 |
TPM(1) |
TPM(1) |
OUT |
LD0.TPMGAPC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
0 |
OUT1 |
Output
1 status |
Monitoring\I/O
status\Generic timers\TPMGAPC1\Outputs |
||||
|
TPMGAPC1 |
TPM(1) |
TPM(1) |
OUT |
LD0.TPMGAPC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
0 |
OUT2 |
Output
2 status |
Monitoring\I/O
status\Generic timers\TPMGAPC1\Outputs |
||||
|
TPMGAPC1 |
TPM(1) |
TPM(1) |
CFG |
LD0.TPMGAPC1.PlsTmm.setVal |
ING |
INT32 |
SP |
B |
0 |
Pulse
time |
Minimum
pulse time |
0...300
min |
Configuration\Generic
timers\TPMGAPC1 |
|||
|
TPMGAPC1 |
TPM(1) |
TPM(1) |
VER |
LD0.TPMGAPC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
PHPTUC1 |
3I<(1) |
37(1) |
INP |
LD0.PHPTUC1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
all binary outputs by resetting timers |
Monitoring\I/O
status\Current protection\PHPTUC1\Inputs |
||||
|
PHPTUC1 |
3I<(1) |
37(1) |
OUT |
LD0.PHPTUC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
(A,B,C) |
Monitoring\I/O
status\Current protection\PHPTUC1\Outputs |
||
|
PHPTUC1 |
3I<(1) |
37(1) |
OUT |
LD0.PHPTUC1.Str.phsA |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
ST_A |
Start
phase A |
Monitoring\I/O
status\Current protection\PHPTUC1\Outputs |
|||
|
PHPTUC1 |
3I<(1) |
37(1) |
OUT |
LD0.PHPTUC1.Str.phsB |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
ST_B |
Start
phase B |
Monitoring\I/O
status\Current protection\PHPTUC1\Outputs |
|||
|
PHPTUC1 |
3I<(1) |
37(1) |
OUT |
LD0.PHPTUC1.Str.phsC |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
ST_C |
Start
phase C |
Monitoring\I/O
status\Current protection\PHPTUC1\Outputs |
|||
|
PHPTUC1 |
3I<(1) |
37(1) |
OUT |
LD0.PHPTUC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
(A,B,C) |
Monitoring\I/O
status\Current protection\PHPTUC1\Outputs |
||
|
PHPTUC1 |
3I<(1) |
37(1) |
OUT |
LD0.PHPTUC1.Op.phsA |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPR_A |
Operate
phase A |
Monitoring\I/O
status\Current protection\PHPTUC1\Outputs |
|||
|
PHPTUC1 |
3I<(1) |
37(1) |
OUT |
LD0.PHPTUC1.Op.phsB |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPR_B |
Operate
phase B |
Monitoring\I/O
status\Current protection\PHPTUC1\Outputs |
|||
|
PHPTUC1 |
3I<(1) |
37(1) |
OUT |
LD0.PHPTUC1.Op.phsC |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPR_C |
Operate
phase C |
Monitoring\I/O
status\Current protection\PHPTUC1\Outputs |
|||
|
PHPTUC1 |
3I<(1) |
37(1) |
MON |
LD0.PHPTUC1.Beh.stVal |
INS |
Enum |
ST |
B |
PHPTUC1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
PHPTUC1 |
3I<(1) |
37(1) |
MON |
LD0.PHPTUC1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\PHPTUC1\Monitored data |
||||
|
PHPTUC1 |
3I<(1) |
37(1) |
SET |
LD0.PHPTUC1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\PHPTUC1 |
|||
|
PHPTUC1 |
3I<(1) |
37(1) |
SET |
LD0.PHPTUC1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.50 |
Start
value |
Current
setting to start |
0.01...1.00
xIn |
Settings\Settings\Current
protection\PHPTUC1 |
IL1TCTR1 |
||
|
PHPTUC1 |
3I<(1) |
37(1) |
SET |
LD0.PHPTUC1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
2000 |
Operate
delay time |
Operate
delay time |
50...200000
ms |
Settings\Settings\Current
protection\PHPTUC1 |
|||
|
PHPTUC1 |
3I<(1) |
37(1) |
SET |
LD0.PHPTUC1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\PHPTUC1 |
|||
|
PHPTUC1 |
3I<(1) |
37(1) |
SET |
LD0.PHPTUC1.BlkValA.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.10 |
Current
block value |
Low
current setting to block internally |
0.00...0.50
xIn |
Settings\Settings\Current
protection\PHPTUC1 |
IL1TCTR1 |
||
|
PHPTUC1 |
3I<(1) |
37(1) |
SET |
LD0.PHPTUC1.OpModPh.setVal |
ING |
Enum |
SP |
B |
1 |
Operation
mode |
Number
of phases needed to start |
1=Three
Phase; 2=Single Phase |
Settings\Settings\Current
protection\PHPTUC1 |
|||
|
PHPTUC1 |
3I<(1) |
37(1) |
TES |
LD0.PHPTUC1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
PHPTUC1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
PHPTUC1 |
3I<(1) |
37(1) |
VER |
LD0.PHPTUC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
INP |
LD0.PHLPTOC1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\PHLPTOC1\Inputs |
||||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
INP |
LD0.PHLPTOC1.InEnaMult.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ENA_MULT |
Enable
signal for current multiplier |
Monitoring\I/O
status\Current protection\PHLPTOC1\Inputs |
||||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
OUT |
LD0.PHLPTOC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
(A,B,C) |
Monitoring\I/O
status\Current protection\PHLPTOC1\Outputs |
||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
OUT |
LD0.PHLPTOC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
(A,B,C) |
Monitoring\I/O
status\Current protection\PHLPTOC1\Outputs |
||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
MON |
LD0.PHLPTOC1.Beh.stVal |
INS |
Enum |
ST |
B |
PHLPTOC1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
MON |
LD0.PHLPTOC1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\PHLPTOC1\Monitored data |
||||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
SET |
LD0.PHLPTOC1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\PHLPTOC1 |
|||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
SET |
LD0.PHLPTOC1.NumPh.setVal |
ING |
Enum |
SP |
B |
1 |
Num
of start phases |
Number
of phases required for operate activation |
1=1
out of 3; 2=2 out of 3; 3=3 out of 3 |
Settings\Settings\Current
protection\PHLPTOC1 |
|||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
SET |
LD0.PHLPTOC1.StrValMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Start
value Mult |
Multiplier
for scaling the start value |
0.8...10.0 |
Settings\Settings\Current
protection\PHLPTOC1 |
|||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
SET |
LD0.PHLPTOC1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.00 |
Start
value |
Start
value |
0.05...5.00
xIn |
Settings\Settings\Current
protection\PHLPTOC1 |
IL1TCTR1 |
||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
SET |
LD0.PHLPTOC1.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Time
multiplier |
Time
multiplier in IEC/ANSI IDMT curves |
0.05...15.0 |
Settings\Settings\Current
protection\PHLPTOC1 |
|||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
SET |
LD0.PHLPTOC1.TypRsCrv.setVal |
ING |
Enum |
SG |
B |
1 |
Type
of reset curve |
Selection
of reset curve type |
1=Immediate;
2=Def time reset; 3=Inverse reset |
Settings\Settings\Current
protection\PHLPTOC1 |
|||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
SET |
LD0.PHLPTOC1.TmACrv.setCharact |
CURVE |
Enum |
SG |
B,I |
3 |
Operating
curve type |
Selection
of time delay curve type |
1=ANSI
Ext. inv.; 2=ANSI Very inv.; 3=ANSI Norm. inv.; 4=ANSI Mod. inv.; 5=ANSI Def.
Time; 6=L.T.E. inv.; 7=L.T.V. inv.; 8=L.T. inv.; 9=IEC Norm. inv.; 10=IEC
Very inv.; 11=IEC inv.; 12=IEC Ext. inv.; 13=IEC S.T. inv.; 14=IEC L.T. inv.;
15=IEC Def. Time; 17=Programmable; 18=RI type; 19=RD type |
Settings\Settings\Current
protection\PHLPTOC1 |
|||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
SET |
LD0.PHLPTOC1.TmACrv.setParA |
CURVE |
FLOAT32 |
SP |
B,I |
28.2000 |
Curve
parameter A |
Parameter
A for customer programmable curve |
0.0086...120.0000 |
Settings\Settings\Current
protection\PHLPTOC1 |
|||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
SET |
LD0.PHLPTOC1.TmACrv.setParB |
CURVE |
FLOAT32 |
SP |
B,I |
0.1217 |
Curve
parameter B |
Parameter
B for customer programmable curve |
0.0000...0.7120 |
Settings\Settings\Current
protection\PHLPTOC1 |
|||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
SET |
LD0.PHLPTOC1.TmACrv.setParC |
CURVE |
FLOAT32 |
SP |
B,I |
2.00 |
Curve
parameter C |
Parameter
C for customer programmable curve |
0.02...2.00 |
Settings\Settings\Current
protection\PHLPTOC1 |
|||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
SET |
LD0.PHLPTOC1.TmACrv.setParD |
CURVE |
FLOAT32 |
SP |
B,I |
29.10 |
Curve
parameter D |
Parameter
D for customer programmable curve |
0.46...30.00 |
Settings\Settings\Current
protection\PHLPTOC1 |
|||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
SET |
LD0.PHLPTOC1.TmACrv.setParE |
CURVE |
FLOAT32 |
SP |
B,I |
1.0 |
Curve
parameter E |
Parameter
E for customer programmable curve |
0.0...1.0 |
Settings\Settings\Current
protection\PHLPTOC1 |
|||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
SET |
LD0.PHLPTOC1.MinOpTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
20...60000
ms |
Settings\Settings\Current
protection\PHLPTOC1 |
|||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
SET |
LD0.PHLPTOC1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
40 |
Operate
delay time |
Operate
delay time |
40...200000
ms |
Settings\Settings\Current
protection\PHLPTOC1 |
|||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
SET |
LD0.PHLPTOC1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\PHLPTOC1 |
|||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
SET |
LD0.PHLPTOC1.AMeasMod.setVal |
ING |
Enum |
SP |
B |
2 |
Measurement
mode |
Selects
used measurement mode |
1=RMS;
2=DFT; 3=Peak-to-Peak |
Settings\Settings\Current
protection\PHLPTOC1 |
|||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
TES |
LD0.PHLPTOC1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
PHLPTOC1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
PHLPTOC1 |
3I>(1) |
51P-1(1) |
VER |
LD0.PHLPTOC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
C |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
NSPTOC1 |
I2>(1) |
46(1) |
INP |
LD0.NSPTOC1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\NSPTOC1\Inputs |
||||
|
NSPTOC1 |
I2>(1) |
46(1) |
INP |
LD0.NSPTOC1.InEnaMult.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ENA_MULT |
Enable
signal for current multiplier |
Monitoring\I/O
status\Current protection\NSPTOC1\Inputs |
||||
|
NSPTOC1 |
I2>(1) |
46(1) |
OUT |
LD0.NSPTOC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Current protection\NSPTOC1\Outputs |
|||
|
NSPTOC1 |
I2>(1) |
46(1) |
OUT |
LD0.NSPTOC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Current protection\NSPTOC1\Outputs |
|||
|
NSPTOC1 |
I2>(1) |
46(1) |
MON |
LD0.NSPTOC1.Beh.stVal |
INS |
Enum |
ST |
B |
NSPTOC1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
NSPTOC1 |
I2>(1) |
46(1) |
MON |
LD0.NSPTOC1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\NSPTOC1\Monitored data |
||||
|
NSPTOC1 |
I2>(1) |
46(1) |
SET |
LD0.NSPTOC1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\NSPTOC1 |
|||
|
NSPTOC1 |
I2>(1) |
46(1) |
SET |
LD0.NSPTOC1.StrValMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Start
value Mult |
Multiplier
for scaling the start value |
0.8...10.0 |
Settings\Settings\Current
protection\NSPTOC1 |
|||
|
NSPTOC1 |
I2>(1) |
46(1) |
SET |
LD0.NSPTOC1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.30 |
Start
value |
Start
value |
0.01...5.00
xIn |
Settings\Settings\Current
protection\NSPTOC1 |
IL1TCTR1 |
||
|
NSPTOC1 |
I2>(1) |
46(1) |
SET |
LD0.NSPTOC1.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Time
multiplier |
Time
multiplier in IEC/ANSI IDMT curves |
0.05...15.0 |
Settings\Settings\Current
protection\NSPTOC1 |
|||
|
NSPTOC1 |
I2>(1) |
46(1) |
SET |
LD0.NSPTOC1.TypRsCrv.setVal |
ING |
Enum |
SG |
B |
1 |
Type
of reset curve |
Selection
of reset curve type |
1=Immediate;
2=Def time reset; 3=Inverse reset |
Settings\Settings\Current
protection\NSPTOC1 |
|||
|
NSPTOC1 |
I2>(1) |
46(1) |
SET |
LD0.NSPTOC1.TmACrv.setCharact |
CURVE |
Enum |
SG |
B,I |
5 |
Operating
curve type |
Selection
of time delay curve type |
1=ANSI
Ext. inv.; 2=ANSI Very inv.; 3=ANSI Norm. inv.; 4=ANSI Mod. inv.; 5=ANSI Def.
Time; 6=L.T.E. inv.; 7=L.T.V. inv.; 8=L.T. inv.; 9=IEC Norm. inv.; 10=IEC
Very inv.; 11=IEC inv.; 12=IEC Ext. inv.; 13=IEC S.T. inv.; 14=IEC L.T. inv.;
15=IEC Def. Time; 17=Programmable; 18=RI type; 19=RD type |
Settings\Settings\Current
protection\NSPTOC1 |
|||
|
NSPTOC1 |
I2>(1) |
46(1) |
SET |
LD0.NSPTOC1.TmACrv.setParA |
CURVE |
FLOAT32 |
SP |
B,I |
28.2000 |
Curve
parameter A |
Parameter
A for customer programmable curve |
0.0086...120.0000 |
Settings\Settings\Current
protection\NSPTOC1 |
|||
|
NSPTOC1 |
I2>(1) |
46(1) |
SET |
LD0.NSPTOC1.TmACrv.setParB |
CURVE |
FLOAT32 |
SP |
B,I |
0.1217 |
Curve
parameter B |
Parameter
B for customer programmable curve |
0.0000...0.7120 |
Settings\Settings\Current
protection\NSPTOC1 |
|||
|
NSPTOC1 |
I2>(1) |
46(1) |
SET |
LD0.NSPTOC1.TmACrv.setParC |
CURVE |
FLOAT32 |
SP |
B,I |
2.00 |
Curve
parameter C |
Parameter
C for customer programmable curve |
0.02...2.00 |
Settings\Settings\Current
protection\NSPTOC1 |
|||
|
NSPTOC1 |
I2>(1) |
46(1) |
SET |
LD0.NSPTOC1.TmACrv.setParD |
CURVE |
FLOAT32 |
SP |
B,I |
29.10 |
Curve
parameter D |
Parameter
D for customer programmable curve |
0.46...30.00 |
Settings\Settings\Current
protection\NSPTOC1 |
|||
|
NSPTOC1 |
I2>(1) |
46(1) |
SET |
LD0.NSPTOC1.TmACrv.setParE |
CURVE |
FLOAT32 |
SP |
B,I |
1.0 |
Curve
parameter E |
Parameter
E for customer programmable curve |
0.0...1.0 |
Settings\Settings\Current
protection\NSPTOC1 |
|||
|
NSPTOC1 |
I2>(1) |
46(1) |
SET |
LD0.NSPTOC1.MinOpTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
20...60000
ms |
Settings\Settings\Current
protection\NSPTOC1 |
|||
|
NSPTOC1 |
I2>(1) |
46(1) |
SET |
LD0.NSPTOC1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
1000 |
Operate
delay time |
Operate
delay time |
40...200000
ms |
Settings\Settings\Current
protection\NSPTOC1 |
|||
|
NSPTOC1 |
I2>(1) |
46(1) |
SET |
LD0.NSPTOC1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\NSPTOC1 |
|||
|
NSPTOC1 |
I2>(1) |
46(1) |
TES |
LD0.NSPTOC1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
NSPTOC1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
NSPTOC1 |
I2>(1) |
46(1) |
VER |
LD0.NSPTOC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
NSPTOC2 |
I2>(2) |
46(2) |
INP |
LD0.NSPTOC2.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\NSPTOC2\Inputs |
||||
|
NSPTOC2 |
I2>(2) |
46(2) |
INP |
LD0.NSPTOC2.InEnaMult.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ENA_MULT |
Enable
signal for current multiplier |
Monitoring\I/O
status\Current protection\NSPTOC2\Inputs |
||||
|
NSPTOC2 |
I2>(2) |
46(2) |
OUT |
LD0.NSPTOC2.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Current protection\NSPTOC2\Outputs |
|||
|
NSPTOC2 |
I2>(2) |
46(2) |
OUT |
LD0.NSPTOC2.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Current protection\NSPTOC2\Outputs |
|||
|
NSPTOC2 |
I2>(2) |
46(2) |
MON |
LD0.NSPTOC2.Beh.stVal |
INS |
Enum |
ST |
B |
NSPTOC2 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
NSPTOC2 |
I2>(2) |
46(2) |
MON |
LD0.NSPTOC2.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\NSPTOC2\Monitored data |
||||
|
NSPTOC2 |
I2>(2) |
46(2) |
SET |
LD0.NSPTOC2.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\NSPTOC2 |
|||
|
NSPTOC2 |
I2>(2) |
46(2) |
SET |
LD0.NSPTOC2.StrValMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Start
value Mult |
Multiplier
for scaling the start value |
0.8...10.0 |
Settings\Settings\Current
protection\NSPTOC2 |
|||
|
NSPTOC2 |
I2>(2) |
46(2) |
SET |
LD0.NSPTOC2.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.3 |
Start
value |
Start
value |
0.01...5.00
xIn |
Settings\Settings\Current
protection\NSPTOC2 |
IL1TCTR1 |
||
|
NSPTOC2 |
I2>(2) |
46(2) |
SET |
LD0.NSPTOC2.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Time
multiplier |
Time
multiplier in IEC/ANSI IDMT curves |
0.05...15.0 |
Settings\Settings\Current
protection\NSPTOC2 |
|||
|
NSPTOC2 |
I2>(2) |
46(2) |
SET |
LD0.NSPTOC2.TypRsCrv.setVal |
ING |
Enum |
SG |
B |
1 |
Type
of reset curve |
Selection
of reset curve type |
1=Immediate;
2=Def time reset; 3=Inverse reset |
Settings\Settings\Current
protection\NSPTOC2 |
|||
|
NSPTOC2 |
I2>(2) |
46(2) |
SET |
LD0.NSPTOC2.TmACrv.setCharact |
CURVE |
Enum |
SG |
B,I |
5 |
Operating
curve type |
Selection
of time delay curve type |
1=ANSI
Ext. inv.; 2=ANSI Very inv.; 3=ANSI Norm. inv.; 4=ANSI Mod. inv.; 5=ANSI Def.
Time; 6=L.T.E. inv.; 7=L.T.V. inv.; 8=L.T. inv.; 9=IEC Norm. inv.; 10=IEC
Very inv.; 11=IEC inv.; 12=IEC Ext. inv.; 13=IEC S.T. inv.; 14=IEC L.T. inv.;
15=IEC Def. Time; 17=Programmable; 18=RI type; 19=RD type |
Settings\Settings\Current
protection\NSPTOC2 |
|||
|
NSPTOC2 |
I2>(2) |
46(2) |
SET |
LD0.NSPTOC2.TmACrv.setParA |
CURVE |
FLOAT32 |
SP |
B,I |
28.2000 |
Curve
parameter A |
Parameter
A for customer programmable curve |
0.0086...120.0000 |
Settings\Settings\Current
protection\NSPTOC2 |
|||
|
NSPTOC2 |
I2>(2) |
46(2) |
SET |
LD0.NSPTOC2.TmACrv.setParB |
CURVE |
FLOAT32 |
SP |
B,I |
0.1217 |
Curve
parameter B |
Parameter
B for customer programmable curve |
0.0000...0.7120 |
Settings\Settings\Current
protection\NSPTOC2 |
|||
|
NSPTOC2 |
I2>(2) |
46(2) |
SET |
LD0.NSPTOC2.TmACrv.setParC |
CURVE |
FLOAT32 |
SP |
B,I |
2.00 |
Curve
parameter C |
Parameter
C for customer programmable curve |
0.02...2.00 |
Settings\Settings\Current
protection\NSPTOC2 |
|||
|
NSPTOC2 |
I2>(2) |
46(2) |
SET |
LD0.NSPTOC2.TmACrv.setParD |
CURVE |
FLOAT32 |
SP |
B,I |
29.10 |
Curve
parameter D |
Parameter
D for customer programmable curve |
0.46...30.00 |
Settings\Settings\Current
protection\NSPTOC2 |
|||
|
NSPTOC2 |
I2>(2) |
46(2) |
SET |
LD0.NSPTOC2.TmACrv.setParE |
CURVE |
FLOAT32 |
SP |
B,I |
1.0 |
Curve
parameter E |
Parameter
E for customer programmable curve |
0.0...1.0 |
Settings\Settings\Current
protection\NSPTOC2 |
|||
|
NSPTOC2 |
I2>(2) |
46(2) |
SET |
LD0.NSPTOC2.MinOpTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
20...60000
ms |
Settings\Settings\Current
protection\NSPTOC2 |
|||
|
NSPTOC2 |
I2>(2) |
46(2) |
SET |
LD0.NSPTOC2.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
1000 |
Operate
delay time |
Operate
delay time |
40...200000
ms |
Settings\Settings\Current
protection\NSPTOC2 |
|||
|
NSPTOC2 |
I2>(2) |
46(2) |
SET |
LD0.NSPTOC2.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\NSPTOC2 |
|||
|
NSPTOC2 |
I2>(2) |
46(2) |
TES |
LD0.NSPTOC2.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
NSPTOC2 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
NSPTOC2 |
I2>(2) |
46(2) |
VER |
LD0.NSPTOC2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
CCBRBRF1 |
3I>/Io>BF(1) |
51BF/51NBF |
INP |
LD0.CCBRBRF1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
CBFP operation |
Monitoring\I/O
status\Other protection\CCBRBRF1\Inputs |
||||
|
CCBRBRF1 |
3I>/Io>BF(1) |
51BF/51NBF |
INP |
LD0.CCBRBRF1.InStr.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
START |
CBFP
start command |
Monitoring\I/O
status\Other protection\CCBRBRF1\Inputs |
||||
|
CCBRBRF1 |
3I>/Io>BF(1) |
51BF/51NBF |
INP |
LD0.CCBRBRF1.InPosCls.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
POSCLOSE |
CB
in closed position |
Monitoring\I/O
status\Other protection\CCBRBRF1\Inputs |
||||
|
CCBRBRF1 |
3I>/Io>BF(1) |
51BF/51NBF |
INP |
LD0.CCBRBRF1.InCBFlt.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
CB_FAULT |
CB
faulty and unable to trip |
Monitoring\I/O
status\Other protection\CCBRBRF1\Inputs |
||||
|
CCBRBRF1 |
3I>/Io>BF(1) |
51BF/51NBF |
OUT |
LD0.CCBRBRF1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatIed |
P,H |
CB_FAULT_AL |
Delayed
CB failure alarm |
Monitoring\I/O
status\Other protection\CCBRBRF1\Outputs |
|||
|
CCBRBRF1 |
3I>/Io>BF(1) |
51BF/51NBF |
OUT |
LD0.CCBRBRF1.OpEx.general |
ACT |
BOOLEAN |
ST |
B |
StatIed |
P,H,T |
TRBU |
Backup
trip |
Monitoring\I/O
status\Other protection\CCBRBRF1\Outputs |
|||
|
CCBRBRF1 |
3I>/Io>BF(1) |
51BF/51NBF |
OUT |
LD0.CCBRBRF1.OpIn.general |
ACT |
BOOLEAN |
ST |
B |
StatIed |
P,H,T |
TRRET |
Retrip |
Monitoring\I/O
status\Other protection\CCBRBRF1\Outputs |
|||
|
CCBRBRF1 |
3I>/Io>BF(1) |
51BF/51NBF |
MON |
LD0.CCBRBRF1.Beh.stVal |
INS |
Enum |
ST |
B |
CCBRBRF1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
CCBRBRF1 |
3I>/Io>BF(1) |
51BF/51NBF |
SET |
LD0.CCBRBRF1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Other
protection\CCBRBRF1 |
|||
|
CCBRBRF1 |
3I>/Io>BF(1) |
51BF/51NBF |
SET |
LD0.CCBRBRF1.DetValA.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.30 |
Current
value |
Operating
phase current |
0.05...1.00
xIn |
Settings\Settings\Other
protection\CCBRBRF1 |
IL1TCTR1 |
||
|
CCBRBRF1 |
3I>/Io>BF(1) |
51BF/51NBF |
SET |
LD0.CCBRBRF1.FailTmms.setVal |
ING |
INT32 |
SP |
B |
150 |
CB
failure delay |
Delay
timer for backup trip |
0...60000
ms |
Settings\Settings\Other
protection\CCBRBRF1 |
|||
|
CCBRBRF1 |
3I>/Io>BF(1) |
51BF/51NBF |
SET |
LD0.CCBRBRF1.TPTrTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Retrip
time |
Delay
timer for retrip |
0...60000
ms |
Settings\Settings\Other
protection\CCBRBRF1 |
|||
|
CCBRBRF1 |
3I>/Io>BF(1) |
51BF/51NBF |
SET |
LD0.CCBRBRF1.ReTrMod.setVal |
ING |
Enum |
SP |
B |
1 |
CB
fail retrip mode |
Operating
mode of retrip logic |
1=Off;
2=Without Check; 3=Current check |
Settings\Settings\Other
protection\CCBRBRF1 |
|||
|
CCBRBRF1 |
3I>/Io>BF(1) |
51BF/51NBF |
SET |
LD0.CCBRBRF1.FailMod.setVal |
ING |
Enum |
SP |
B |
1 |
CB
failure mode |
Operating
mode of function |
1=Current;
2=Breaker status; 3=Both |
Settings\Settings\Other
protection\CCBRBRF1 |
|||
|
CCBRBRF1 |
3I>/Io>BF(1) |
51BF/51NBF |
SET |
LD0.CCBRBRF1.DetValARes.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.30 |
Current
value Res |
Operating
residual current |
0.05...1.00
xIn |
Settings\Settings\Other
protection\CCBRBRF1 |
RESTCTR1 |
||
|
CCBRBRF1 |
3I>/Io>BF(1) |
51BF/51NBF |
SET |
LD0.CCBRBRF1.AMeasMod.setVal |
ING |
Enum |
SP |
B |
2 |
Measurement
mode |
Phase
current measurement mode of function |
2=DFT;
3=Peak-to-Peak |
Settings\Settings\Other
protection\CCBRBRF1 |
|||
|
CCBRBRF1 |
3I>/Io>BF(1) |
51BF/51NBF |
SET |
LD0.CCBRBRF1.CBAlmTmms.setVal |
ING |
INT32 |
SP |
B |
5000 |
CB
fault delay |
Circuit
breaker faulty delay |
0...60000
ms |
Settings\Settings\Other
protection\CCBRBRF1 |
|||
|
CCBRBRF1 |
3I>/Io>BF(1) |
51BF/51NBF |
SET |
LD0.CCBRBRF1.OpExMod.setVal |
ING |
Enum |
SP |
B |
1 |
CB
failure trip mode |
Backup
trip current check mode |
1=2
out of 4; 2=1 out of 3; 3=1 out of 4 |
Settings\Settings\Other
protection\CCBRBRF1 |
|||
|
CCBRBRF1 |
3I>/Io>BF(1) |
51BF/51NBF |
SET |
LD0.CCBRBRF1.TrPlsTmms.setVal |
ING |
INT32 |
SP |
B |
150 |
Trip
pulse time |
Pulse
length of retrip and backup trip outputs |
0...60000
ms |
Settings\Settings\Other
protection\CCBRBRF1 |
|||
|
CCBRBRF1 |
3I>/Io>BF(1) |
51BF/51NBF |
TES |
LD0.CCBRBRF1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
CCBRBRF1 |
Test
control for outputs |
0=Reset;
25=Activate CB_FAULT_AL; 26=Deactive CB_FAULT_AL; 27=Activate TRBU;
28=Deactive TRBU; 29=Activate TRRET; 30=Deactive TRRET |
Tests\Function
tests\Other protection |
|||
|
CCBRBRF1 |
3I>/Io>BF(1) |
51BF/51NBF |
VER |
LD0.CCBRBRF1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
SSCBR1 |
CBCM(1) |
CBCM |
INP |
LD0.SSCBR1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
input status |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Inputs |
||||
|
SSCBR1 |
CBCM(1) |
CBCM |
INP |
LD0.SSCBR1.InSprChStr.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
SPR_CHR_ST |
CB
spring charging started input |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Inputs |
||||
|
SSCBR1 |
CBCM(1) |
CBCM |
INP |
LD0.SSCBR1.InSprCha.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
SPR_CHR |
CB
spring charged input |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Inputs |
||||
|
SSCBR1 |
CBCM(1) |
CBCM |
INP |
LD0.SSCBR1.InPresAlm.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
PRES_ALM_IN |
Binary
pressure alarm input |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Inputs |
||||
|
SSCBR1 |
CBCM(1) |
CBCM |
INP |
LD0.SSCBR1.InPresLO.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
PRES_LO_IN |
Binary
pressure input for lockout indication |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Inputs |
||||
|
SSCBR1 |
CBCM(1) |
CBCM |
INP |
LD0.SSCBR1.InPosOpn.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
POSOPEN |
Signal
for open position of apparatus from I/O |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Inputs |
||||
|
SSCBR1 |
CBCM(1) |
CBCM |
INP |
LD0.SSCBR1.InPosCls.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
POSCLOSE |
Signal
for closeposition of apparatus from I/O |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Inputs |
||||
|
SSCBR1 |
CBCM(1) |
CBCM |
INP |
LD0.SSCBR1.RsAccAPwr.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
RST_IPOW |
Reset
accumulation energy |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Inputs |
||||
|
SSCBR1 |
CBCM(1) |
CBCM |
INP |
LD0.SSCBR1.RsCBWear.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
RST_CB_WEAR |
Reset
input for CB remaining life and operation counter |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Inputs |
||||
|
SSCBR1 |
CBCM(1) |
CBCM |
INP |
LD0.SSCBR1.RsTrvTm.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
RST_TRV_T |
Reset
input for CB closing and opening travel times |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Inputs |
||||
|
SSCBR1 |
CBCM(1) |
CBCM |
INP |
LD0.SSCBR1.RsSprChaTm.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
RST_SPR_T |
Reset
input for the charging time of the CB spring |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Inputs |
||||
|
SSCBR1 |
CBCM(1) |
CBCM |
OUT |
LD0.SSCBR1.OpnAlm.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIed |
P,H |
TRV_T_OP_ALM |
CB
open travel time exceeded set value |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Outputs |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
OUT |
LD0.SSCBR1.ClsAlm.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIed |
P,H |
TRV_T_CL_ALM |
CB
close travel time exceeded set value |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Outputs |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
OUT |
LD0.SSCBR1.SprChaAlm.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIed |
P,H |
SPR_CHR_ALM |
Spring
charging time has crossed the set value |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Outputs |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
OUT |
LD0.SSCBR1.OpNumAlm.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIed |
P,H |
OPR_ALM |
Number
of CB operations exceeds alarm limit |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Outputs |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
OUT |
LD0.SSCBR1.OpNumLO.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIed |
P,H |
OPR_LO |
Number
of CB operations exceeds lockout limit |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Outputs |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
OUT |
LD0.SSCBR1.LonTmAlm.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIed |
P,H |
MON_ALM |
CB
'not operated for long time' alarm |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Outputs |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
OUT |
LD0.SSCBR1.PresAlm.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIed |
P,H |
PRES_ALM |
Pressure
below alarm level |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Outputs |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
OUT |
LD0.SSCBR1.PresLO.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIed |
P,H |
PRES_LO |
Pressure
below lockout level |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Outputs |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
OUT |
LD0.SSCBR1.PosOpn.stVal |
SPS |
BOOLEAN |
ST |
B |
OPENPOS |
CB
is in open position |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Outputs |
|||||
|
SSCBR1 |
CBCM(1) |
CBCM |
OUT |
LD0.SSCBR1.PosIvd.stVal |
SPS |
BOOLEAN |
ST |
B |
INVALIDPOS |
CB
is in invalid position (not positively open or closed) |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Outputs |
|||||
|
SSCBR1 |
CBCM(1) |
CBCM |
OUT |
LD0.SSCBR1.PosCls.stVal |
SPS |
BOOLEAN |
ST |
B |
CLOSEPOS |
CB
is in closed position |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Outputs |
|||||
|
SSCBR1 |
CBCM(1) |
CBCM |
OUT |
LD0.SSCBR1.APwrAlm.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIed |
P,H |
IPOW_ALM |
Accumulated
currents power (Iyt),exceeded alarm limit |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Outputs |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
OUT |
LD0.SSCBR1.APwrLO.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIed |
P,H |
IPOW_LO |
Accumulated
currents power (Iyt),exceeded lockout limit |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Outputs |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
OUT |
LD0.SSCBR1.CBLifAlm.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIed |
P,H |
CB_LIFE_ALM |
Remaining
life of CB exceeded alarm limit |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Outputs |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CTR |
LD0.SSCBR1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CTR |
LD0.SSCBR1.RsAccAPwr.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
SSCBR1
acc.energy |
Resets
SSCBR1 accumulation energy |
0=Cancel;
1=Clear |
Clear\Clear |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CTR |
LD0.SSCBR1.RsCBWear.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
SSCBR1
rem.life |
Reset
SSCBR1 CB remaining life and operation counter |
0=Cancel;
1=Clear |
Clear\Clear |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CTR |
LD0.SSCBR1.RsTrvTm.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
SSCBR1
travel times |
Reset
CB closing and opening travel times |
0=Cancel;
1=Clear |
Clear\Clear |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CTR |
LD0.SSCBR1.RsSprChaTm.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
SSCBR1
spr.charge t |
Reset
the charging time of the CB spring |
0=Cancel;
1=Clear |
Clear\Clear |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
MON |
LD0.SSCBR1.Beh.stVal |
INS |
Enum |
ST |
B |
SSCBR1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
SSCBR1 |
CBCM(1) |
CBCM |
MON |
LD0.SSCBR1.OpCnt.stVal |
INS |
INT32 |
ST |
B |
StatIed |
P,H |
NO_OPR |
Number
of CB operation cycle |
0...99999 |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Monitored data |
||
|
SSCBR1 |
CBCM(1) |
CBCM |
MON |
LD0.SSCBR1.InaTmdCnt.stVal |
INS |
INT32 |
ST |
B |
INA_DAYS |
The
number of days CB has been inactive |
0...9999 |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Monitored data |
||||
|
SSCBR1 |
CBCM(1) |
CBCM |
MON |
LD0.SSCBR1.TmmsOpn.mag.f |
MV |
FLOAT32 |
MX |
B |
T_TRV_OP |
Travel
time of the CB during opening operation |
0...60000
ms |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Monitored data |
||||
|
SSCBR1 |
CBCM(1) |
CBCM |
MON |
LD0.SSCBR1.TmmsCls.mag.f |
MV |
FLOAT32 |
MX |
B |
T_TRV_CL |
Travel
time of the CB during closing operation |
0...60000
ms |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Monitored data |
||||
|
SSCBR1 |
CBCM(1) |
CBCM |
MON |
LD0.SSCBR1.TmsSprCha.mag.f |
MV |
FLOAT32 |
MX |
B |
T_SPR_CHR |
The
charging time of the CB spring |
0.00...99.99
s |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Monitored data |
||||
|
SSCBR1 |
CBCM(1) |
CBCM |
MON |
LD0.SSCBR1.RmnLifPhA.stVal |
INS |
INT32 |
ST |
B |
CB_LIFE_A |
CB
Remaining life phase A |
-9999...9999 |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Monitored data |
||||
|
SSCBR1 |
CBCM(1) |
CBCM |
MON |
LD0.SSCBR1.RmnLifPhB.stVal |
INS |
INT32 |
ST |
B |
CB_LIFE_B |
CB
Remaining life phase B |
-9999...9999 |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Monitored data |
||||
|
SSCBR1 |
CBCM(1) |
CBCM |
MON |
LD0.SSCBR1.RmnLifPhC.stVal |
INS |
INT32 |
ST |
B |
CB_LIFE_C |
CB
Remaining life phase C |
-9999...9999 |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Monitored data |
||||
|
SSCBR1 |
CBCM(1) |
CBCM |
MON |
LD0.SSCBR1.AccAPwrPhA.mag.f |
MV |
FLOAT32 |
MX |
B |
IPOW_A |
Accumulated
currents power (Iyt), phase A |
0.000...30000.000 |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Monitored data |
||||
|
SSCBR1 |
CBCM(1) |
CBCM |
MON |
LD0.SSCBR1.AccAPwrPhB.mag.f |
MV |
FLOAT32 |
MX |
B |
IPOW_B |
Accumulated
currents power (Iyt), phase B |
0.000...30000.000 |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Monitored data |
||||
|
SSCBR1 |
CBCM(1) |
CBCM |
MON |
LD0.SSCBR1.AccAPwrPhC.mag.f |
MV |
FLOAT32 |
MX |
B |
IPOW_C |
Accumulated
currents power (Iyt), phase C |
0.000...30000.000 |
Monitoring\I/O
status\Condition monitoring\SSCBR1\Monitored data |
||||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.CorOpnTmms.setVal |
ING |
INT32 |
SP |
B |
10 |
Opening
time Cor |
Correction
factor for open travel time in ms |
0...100
ms |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.OpnAlmTmms.setVal |
ING |
INT32 |
SP |
B |
40 |
Open
alarm time |
Alarm
level setting for open travel time in ms |
0...200
ms |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.ClsAlmTmms.setVal |
ING |
INT32 |
SP |
B |
40 |
Close
alarm time |
Alarm
level Setting for close travel time in ms |
0...200
ms |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.CorClsTmms.setVal |
ING |
INT32 |
SP |
B |
10 |
Closing
time Cor |
Correction
factor for CB close travel time in ms |
0...100
ms |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.AlmOpNum.setVal |
ING |
INT32 |
SP |
B |
200 |
Alarm
Op number |
Alarm
limit for number of operations |
0...9999 |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.LOOpNum.setVal |
ING |
INT32 |
SP |
B |
300 |
Lockout
Op number |
Lock
out limit for number of operations |
0...9999 |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.AlmAccAPwr.setMag.f |
ASG |
FLOAT32 |
SP |
B |
2500.00 |
Alm
Acc currents Pwr |
Setting
of alarm level for accumulated currents power |
0.00...20000.00 |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.SprChaTmms.setVal |
ING |
INT32 |
SP |
B |
1000 |
Spring
charge time |
Setting
of alarm for spring charging time of CB in ms |
0...60000
ms |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.CorDifTmms.setVal |
ING |
INT32 |
SP |
B |
5 |
Difference
Cor time |
Corr.
factor for time dif in aux. and main contacts open time |
-10...10
ms |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.AccStopA.setMag.f |
ASG |
FLOAT32 |
SP |
B |
10.00 |
Acc
stop current |
RMS
current setting below which engy acm stops |
5.00...500.00
A |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.LOAccAPwr.setMag.f |
ASG |
FLOAT32 |
SP |
B |
2500.00 |
LO
Acc currents Pwr |
Lockout
limit setting for accumulated currents power |
0.00...20000.00 |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.OpNumRtg.setVal |
ING |
INT32 |
SP |
B |
10000 |
Op
number rated |
Number
of operations possible at rated current |
1...99999 |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.DirCoef.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
-1.50 |
Directional
Coef |
Directional
coefficient for CB life calculation |
-3.00...-0.50 |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.PresAlTmms.setVal |
ING |
INT32 |
SP |
B |
10 |
Pressure
alarm time |
Time
delay for gas pressure alarm in ms |
0...60000
ms |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.LifAlmLev.setVal |
ING |
INT32 |
SP |
B |
500 |
Life
alarm level |
Alarm
level for CB remaining life |
0...99999 |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.OpNumFlt.setVal |
ING |
INT32 |
SP |
B |
1000 |
Op
number fault |
Number
of operations possible at rated fault current |
1...10000 |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.PresLOTmms.setVal |
ING |
INT32 |
SP |
B |
10 |
Pres
lockout time |
Time
delay for gas pressure lockout in ms |
0...60000
ms |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.CntIniVal.setVal |
ING |
INT32 |
SP |
B,I |
0 |
Counter
initial Val |
The
operation numbers counter initialization value |
0...9999 |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.InaAlmTmd.setVal |
ING |
INT32 |
SP |
B,I |
2000 |
Inactive
Alm days |
Alarm
limit value of the inactive days counter |
0...9999 |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.IniInaTmd.setVal |
ING |
INT32 |
SP |
B,I |
0 |
Ini
inactive days |
Initial
value of the inactive days counter |
0...9999 |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.InaAlmTmh.setVal |
ING |
INT32 |
SP |
B,I |
0 |
Inactive
Alm hours |
Alarm
time of the inactive days counter in hours |
0...23
h |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.IniRmnLif.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
5000 |
Initial
CB Rmn life |
Initial
value for the CB remaining life |
0...9999 |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.AExpn.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
2.00 |
Current
exponent |
Current
exponent setting for energy calculation |
0.00...2.00 |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.AOpRtg.setMag.f |
ASG |
FLOAT32 |
SP |
B |
1000.00 |
Rated
Op current |
Rated
operating current of the breaker |
100.00...5000.00
A |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.AFltRtg.setMag.f |
ASG |
FLOAT32 |
SP |
B |
5000.00 |
Rated
fault current |
Rated
fault current of the breaker |
500.00...75000.00
A |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
CFG |
LD0.SSCBR1.IniAccAPwr.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.00 |
Ini
Acc currents Pwr |
Initial
value for accumulation energy (Iyt) |
0.00...20000.00 |
Configuration\Condition
monitoring\SSCBR1 |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
TES |
LD0.SSCBR1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
SSCBR1 |
Test
control for outputs |
0=Reset;
63=Act. TRV_T_OP_ALM; 64=Deact. TRV_T_OP_ALM; 65=Act. TRV_T_CL_ALM; 66=Deact.
TRV_T_CL_ALM; 71=Activate SPR_CHR_ALM; 72=Deactive SPR_CHR_ALM; 73=Activate
OPR_ALM; 74=Deactive OPR_ALM; 75=Activate OPR_LO; 76=Deactive OPR_LO;
77=Activate IPOW_ALM; 78=Deactive IPOW_ALM; 79=Activate IPOW_LO; 80=Deactive
IPOW_LO; 81=Activate CB_LIFE_ALM; 82=Deactive CB_LIFE_ALM; 83=Activate
MON_ALM; 84=Deactive MON_ALM; 85=Activate PRES_ALM; 86=Deactive PRES_ALM;
87=Activate PRES_LO; 88=Deactive PRES_LO; 89=Activate OPENPOS; 90=Deactive
OPENPOS; 91=Activate INVALIDPOS; 92=Deactive INVALIDPOS; 93=Activate CLOSEPOS;
94=Deactive CLOSEPOS |
Tests\Function
tests\Condition monitoring |
|||
|
SSCBR1 |
CBCM(1) |
CBCM |
VER |
LD0.SSCBR1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
D |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
Global
conditioning |
INP |
LD0.LEDPTRC1.Mod.blockIn |
INC |
BOOLEAN |
EX |
0 |
(Mode) |
|||||||||
|
Global
conditioning |
INP |
LD0.LEDPTRC1.Op.general |
ACT |
BOOLEAN |
ST |
0 |
StatIed |
P,H |
(Operate) |
(A,B,C,N) |
||||||
|
Global
conditioning |
INP |
LD0.LEDPTRC1.Str.general |
ACD |
BOOLEAN |
ST |
0 |
StatIed |
P,H |
(Start) |
(A,B,C,N) |
||||||
|
Global
conditioning |
OUT |
LD0.LEDPTRC1.Op.general |
ACT |
BOOLEAN |
ST |
0 |
StatIed |
P,H |
(Operate) |
(A,B,C,N) |
||||||
|
Global
conditioning |
OUT |
LD0.LEDPTRC1.Op.phsA |
ACT |
BOOLEAN |
ST |
StatIed |
P,H |
(Operate) |
||||||||
|
Global
conditioning |
OUT |
LD0.LEDPTRC1.Op.phsB |
ACT |
BOOLEAN |
ST |
StatIed |
P,H |
(Operate) |
||||||||
|
Global
conditioning |
OUT |
LD0.LEDPTRC1.Op.phsC |
ACT |
BOOLEAN |
ST |
StatIed |
P,H |
(Operate) |
||||||||
|
Global
conditioning |
OUT |
LD0.LEDPTRC1.Op.neut |
ACT |
BOOLEAN |
ST |
StatIed |
P,H |
(Operate) |
||||||||
|
Global
conditioning |
OUT |
LD0.LEDPTRC1.Str.general |
ACD |
BOOLEAN |
ST |
0 |
StatIed |
P,H |
(Start) |
(A,B,C,N) |
||||||
|
Global
conditioning |
OUT |
LD0.LEDPTRC1.Str.phsA |
ACD |
BOOLEAN |
ST |
StatIed |
P,H |
(Start) |
||||||||
|
Global
conditioning |
OUT |
LD0.LEDPTRC1.Str.phsB |
ACD |
BOOLEAN |
ST |
StatIed |
P,H |
(Start) |
||||||||
|
Global
conditioning |
OUT |
LD0.LEDPTRC1.Str.phsC |
ACD |
BOOLEAN |
ST |
StatIed |
P,H |
(Start) |
||||||||
|
Global
conditioning |
OUT |
LD0.LEDPTRC1.Str.neut |
ACD |
BOOLEAN |
ST |
StatIed |
P,H |
(Start) |
||||||||
|
Global
conditioning |
CTR |
LD0.LEDPTRC1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
I |
(Mode) |
|||||||||
|
Global
conditioning |
MON |
LD0.LEDPTRC1.Str.dirGeneral |
ACD |
Enum |
ST |
StatIed |
P,H |
(Start) |
||||||||
|
Global
conditioning |
MON |
LD0.LEDPTRC1.Str.dirPhsA |
ACD |
Enum |
ST |
StatIed |
P,H |
(Start) |
||||||||
|
Global
conditioning |
MON |
LD0.LEDPTRC1.Str.dirPhsB |
ACD |
Enum |
ST |
StatIed |
P,H |
(Start) |
||||||||
|
Global
conditioning |
MON |
LD0.LEDPTRC1.Str.dirPhsC |
ACD |
Enum |
ST |
StatIed |
P,H |
(Start) |
||||||||
|
Global
conditioning |
MON |
LD0.LEDPTRC1.Str.dirNeut |
ACD |
Enum |
ST |
StatIed |
P,H |
(Start) |
||||||||
|
Global
conditioning |
VER |
LD0.LEDPTRC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
D |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
TRPPTRC1 |
Master
Trip(1) |
94/86(1) |
INP |
LD0.TRPPTRC1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
of function |
Monitoring\I/O
status\Trip logic\TRPPTRC1\Inputs |
||||
|
TRPPTRC1 |
Master
Trip(1) |
94/86(1) |
INP |
LD0.TRPPTRC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
0 |
StatIO |
P |
OPERATE |
Operate |
Monitoring\I/O
status\Trip logic\TRPPTRC1\Inputs |
||
|
TRPPTRC1 |
Master
Trip(1) |
94/86(1) |
INP |
LD0.TRPPTRC1.LORs.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
RST_LKOUT |
Input
for resetting the circuit breaker lockout function |
Monitoring\I/O
status\Trip logic\TRPPTRC1\Inputs |
||||
|
TRPPTRC1 |
Master
Trip(1) |
94/86(1) |
OUT |
LD0.TRPPTRC1.Tr.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
TRIP |
General
trip output signal |
Monitoring\I/O
status\Trip logic\TRPPTRC1\Outputs |
|||
|
TRPPTRC1 |
Master
Trip(1) |
94/86(1) |
OUT |
LD0.TRPPTRC1.ClsLO.stVal |
SPS |
BOOLEAN |
ST |
B |
CL_LKOUT |
Circuit
breaker lockout output (set until reset) |
Monitoring\I/O
status\Trip logic\TRPPTRC1\Outputs |
|||||
|
TRPPTRC1 |
Master
Trip(1) |
94/86(1) |
CTR |
LD0.TRPPTRC1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Trip
logic\TRPPTRC1 |
|||
|
TRPPTRC1 |
Master
Trip(1) |
94/86(1) |
CTR |
LD0.TRPPTRC1.LORs.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B,H |
0 |
TRPPTRC1 |
Reset
TRPPTRC1 lockout and latch |
0=Cancel;
1=Clear |
Clear\Clear |
|||
|
TRPPTRC1 |
Master
Trip(1) |
94/86(1) |
CTR |
LD0.TRPPTRC1.TrRs.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Reset
latched trip) |
||||||||
|
TRPPTRC1 |
Master
Trip(1) |
94/86(1) |
MON |
LD0.TRPPTRC1.Beh.stVal |
INS |
Enum |
ST |
B |
TRPPTRC1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
TRPPTRC1 |
Master
Trip(1) |
94/86(1) |
CFG |
LD0.TRPPTRC1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Trip
logic\TRPPTRC1 |
|||
|
TRPPTRC1 |
Master
Trip(1) |
94/86(1) |
CFG |
LD0.TRPPTRC1.TrPlsTmms.setVal |
ING |
INT32 |
SP |
B |
150 |
Trip
pulse time |
Minimum
duration of trip output signal |
20...60000
ms |
Configuration\Trip
logic\TRPPTRC1 |
|||
|
TRPPTRC1 |
Master
Trip(1) |
94/86(1) |
CFG |
LD0.TRPPTRC1.TrOutMod.setVal |
ING |
Enum |
SP |
B |
1 |
Trip
output mode |
Select
the operation mode for trip output |
1=Non-latched;
2=Latched; 3=Lockout |
Configuration\Trip
logic\TRPPTRC1 |
|||
|
TRPPTRC1 |
Master
Trip(1) |
94/86(1) |
VER |
LD0.TRPPTRC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
D |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
TRPPTRC2 |
Master
Trip(2) |
94/86(2) |
INP |
LD0.TRPPTRC2.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
of function |
Monitoring\I/O
status\Trip logic\TRPPTRC2\Inputs |
||||
|
TRPPTRC2 |
Master
Trip(2) |
94/86(2) |
INP |
LD0.TRPPTRC2.Op.general |
ACT |
BOOLEAN |
ST |
B |
0 |
StatIO |
P |
OPERATE |
Operate |
Monitoring\I/O
status\Trip logic\TRPPTRC2\Inputs |
||
|
TRPPTRC2 |
Master
Trip(2) |
94/86(2) |
INP |
LD0.TRPPTRC2.LORs.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
RST_LKOUT |
Input
for resetting the circuit breaker lockout function |
Monitoring\I/O
status\Trip logic\TRPPTRC2\Inputs |
||||
|
TRPPTRC2 |
Master
Trip(2) |
94/86(2) |
OUT |
LD0.TRPPTRC2.Tr.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
TRIP |
General
trip output signal |
Monitoring\I/O
status\Trip logic\TRPPTRC2\Outputs |
|||
|
TRPPTRC2 |
Master
Trip(2) |
94/86(2) |
OUT |
LD0.TRPPTRC2.ClsLO.stVal |
SPS |
BOOLEAN |
ST |
B |
CL_LKOUT |
Circuit
breaker lockout output (set until reset) |
Monitoring\I/O
status\Trip logic\TRPPTRC2\Outputs |
|||||
|
TRPPTRC2 |
Master
Trip(2) |
94/86(2) |
CTR |
LD0.TRPPTRC2.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Trip
logic\TRPPTRC2 |
|||
|
TRPPTRC2 |
Master
Trip(2) |
94/86(2) |
CTR |
LD0.TRPPTRC2.LORs.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B,H |
0 |
TRPPTRC2 |
Reset
TRPPTRC2 lockout and latch |
0=Cancel;
1=Clear |
Clear\Clear |
|||
|
TRPPTRC2 |
Master
Trip(2) |
94/86(2) |
CTR |
LD0.TRPPTRC2.TrRs.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Reset
latched trip) |
||||||||
|
TRPPTRC2 |
Master
Trip(2) |
94/86(2) |
MON |
LD0.TRPPTRC2.Beh.stVal |
INS |
Enum |
ST |
B |
TRPPTRC2 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
TRPPTRC2 |
Master
Trip(2) |
94/86(2) |
CFG |
LD0.TRPPTRC2.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Trip
logic\TRPPTRC2 |
|||
|
TRPPTRC2 |
Master
Trip(2) |
94/86(2) |
CFG |
LD0.TRPPTRC2.TrPlsTmms.setVal |
ING |
INT32 |
SP |
B |
150 |
Trip
pulse time |
Minimum
duration of trip output signal |
20...60000
ms |
Configuration\Trip
logic\TRPPTRC2 |
|||
|
TRPPTRC2 |
Master
Trip(2) |
94/86(2) |
CFG |
LD0.TRPPTRC2.TrOutMod.setVal |
ING |
Enum |
SP |
B |
1 |
Trip
output mode |
Select
the operation mode for trip output |
1=Non-latched;
2=Latched; 3=Lockout |
Configuration\Trip
logic\TRPPTRC2 |
|||
|
TRPPTRC2 |
Master
Trip(2) |
94/86(2) |
VER |
LD0.TRPPTRC2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
D |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
TPGAPC1 |
TP(1) |
TP(1) |
INP |
LD0.TPGAPC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
0 |
OUT1 |
Output
1 status |
Monitoring\I/O
status\Generic timers\TPGAPC1\Outputs |
||||
|
TPGAPC1 |
TP(1) |
TP(1) |
INP |
LD0.TPGAPC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
0 |
OUT2 |
Output
2 status |
Monitoring\I/O
status\Generic timers\TPGAPC1\Outputs |
||||
|
TPGAPC1 |
TP(1) |
TP(1) |
OUT |
LD0.TPGAPC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
0 |
OUT1 |
Output
1 status |
Monitoring\I/O
status\Generic timers\TPGAPC1\Outputs |
||||
|
TPGAPC1 |
TP(1) |
TP(1) |
OUT |
LD0.TPGAPC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
0 |
OUT2 |
Output
2 status |
Monitoring\I/O
status\Generic timers\TPGAPC1\Outputs |
||||
|
TPGAPC1 |
TP(1) |
TP(1) |
CFG |
LD0.TPGAPC1.PlsTmms.setVal |
ING |
INT32 |
SP |
B |
150 |
Pulse
time |
Minimum
pulse time |
0...60000
ms |
Configuration\Generic
timers\TPGAPC1 |
|||
|
TPGAPC1 |
TP(1) |
TP(1) |
VER |
LD0.TPGAPC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
TPGAPC2 |
TP(2) |
TP(2) |
INP |
LD0.TPGAPC2.Str.general |
ACD |
BOOLEAN |
ST |
B |
0 |
OUT1 |
Output
1 status |
Monitoring\I/O
status\Generic timers\TPGAPC2\Outputs |
||||
|
TPGAPC2 |
TP(2) |
TP(2) |
INP |
LD0.TPGAPC2.Op.general |
ACT |
BOOLEAN |
ST |
B |
0 |
OUT2 |
Output
2 status |
Monitoring\I/O
status\Generic timers\TPGAPC2\Outputs |
||||
|
TPGAPC2 |
TP(2) |
TP(2) |
OUT |
LD0.TPGAPC2.Str.general |
ACD |
BOOLEAN |
ST |
B |
0 |
OUT1 |
Output
1 status |
Monitoring\I/O
status\Generic timers\TPGAPC2\Outputs |
||||
|
TPGAPC2 |
TP(2) |
TP(2) |
OUT |
LD0.TPGAPC2.Op.general |
ACT |
BOOLEAN |
ST |
B |
0 |
OUT2 |
Output
2 status |
Monitoring\I/O
status\Generic timers\TPGAPC2\Outputs |
||||
|
TPGAPC2 |
TP(2) |
TP(2) |
CFG |
LD0.TPGAPC2.PlsTmms.setVal |
ING |
INT32 |
SP |
B |
150 |
Pulse
time |
Minimum
pulse time |
0...60000
ms |
Configuration\Generic
timers\TPGAPC2 |
|||
|
TPGAPC2 |
TP(2) |
TP(2) |
VER |
LD0.TPGAPC2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
TPGAPC3 |
TP(3) |
TP(3) |
INP |
LD0.TPGAPC3.Str.general |
ACD |
BOOLEAN |
ST |
B |
0 |
OUT1 |
Output
1 status |
Monitoring\I/O
status\Generic timers\TPGAPC3\Outputs |
||||
|
TPGAPC3 |
TP(3) |
TP(3) |
INP |
LD0.TPGAPC3.Op.general |
ACT |
BOOLEAN |
ST |
B |
0 |
OUT2 |
Output
2 status |
Monitoring\I/O
status\Generic timers\TPGAPC3\Outputs |
||||
|
TPGAPC3 |
TP(3) |
TP(3) |
OUT |
LD0.TPGAPC3.Str.general |
ACD |
BOOLEAN |
ST |
B |
0 |
OUT1 |
Output
1 status |
Monitoring\I/O
status\Generic timers\TPGAPC3\Outputs |
||||
|
TPGAPC3 |
TP(3) |
TP(3) |
OUT |
LD0.TPGAPC3.Op.general |
ACT |
BOOLEAN |
ST |
B |
0 |
OUT2 |
Output
2 status |
Monitoring\I/O
status\Generic timers\TPGAPC3\Outputs |
||||
|
TPGAPC3 |
TP(3) |
TP(3) |
CFG |
LD0.TPGAPC3.PlsTmms.setVal |
ING |
INT32 |
SP |
B |
150 |
Pulse
time |
Minimum
pulse time |
0...60000
ms |
Configuration\Generic
timers\TPGAPC3 |
|||
|
TPGAPC3 |
TP(3) |
TP(3) |
VER |
LD0.TPGAPC3.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
TPGAPC4 |
TP(4) |
TP(4) |
INP |
LD0.TPGAPC4.Str.general |
ACD |
BOOLEAN |
ST |
B |
0 |
OUT1 |
Output
1 status |
Monitoring\I/O
status\Generic timers\TPGAPC4\Outputs |
||||
|
TPGAPC4 |
TP(4) |
TP(4) |
INP |
LD0.TPGAPC4.Op.general |
ACT |
BOOLEAN |
ST |
B |
0 |
OUT2 |
Output
2 status |
Monitoring\I/O
status\Generic timers\TPGAPC4\Outputs |
||||
|
TPGAPC4 |
TP(4) |
TP(4) |
OUT |
LD0.TPGAPC4.Str.general |
ACD |
BOOLEAN |
ST |
B |
0 |
OUT1 |
Output
1 status |
Monitoring\I/O
status\Generic timers\TPGAPC4\Outputs |
||||
|
TPGAPC4 |
TP(4) |
TP(4) |
OUT |
LD0.TPGAPC4.Op.general |
ACT |
BOOLEAN |
ST |
B |
0 |
OUT2 |
Output
2 status |
Monitoring\I/O
status\Generic timers\TPGAPC4\Outputs |
||||
|
TPGAPC4 |
TP(4) |
TP(4) |
CFG |
LD0.TPGAPC4.PlsTmms.setVal |
ING |
INT32 |
SP |
B |
150 |
Pulse
time |
Minimum
pulse time |
0...60000
ms |
Configuration\Generic
timers\TPGAPC4 |
|||
|
TPGAPC4 |
TP(4) |
TP(4) |
VER |
LD0.TPGAPC4.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
FLTMSTA1 |
INP |
LD0.FLTMSTA1.Mod.blockIn |
INC |
BOOLEAN |
EX |
0 |
(Mode) |
|||||||||
|
FLTMSTA1 |
INP |
LD0.FLTMSTA1.InOp.stVal |
SPS |
BOOLEAN |
ST |
0 |
(Operate
input for triggering) |
|||||||||
|
FLTMSTA1 |
INP |
LD0.FLTMSTA1.InStr.stVal |
SPS |
BOOLEAN |
ST |
0 |
(Start
input for triggering) |
|||||||||
|
FLTMSTA1 |
CTR |
LD0.FLTMSTA1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Fault
record |
|||||
|
FLTMSTA1 |
CTR |
LD0.FLTMSTA1.RecRs.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Fault
records |
Reset
fault records |
0=Cancel;
1=Clear |
Clear\Clear |
|||||
|
FLTMSTA1 |
CTR |
LD0.FLTMSTA1.SelRow.Oper.ctlVal |
INC |
INT32 |
CO |
(Select
recording) |
||||||||||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.OpCnt.stVal |
INS |
INT32 |
ST |
B |
MeasReg |
P |
Fault
number |
Fault
record number |
0...999999 |
Monitoring\Recorded
data\Fault record |
||||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.OpCnt.t |
INS |
Timestamp |
ST |
B |
MeasReg |
P |
Time
and date |
Fault
record time stamp |
Monitoring\Recorded
data\Fault record |
|||||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.ProFcn.stVal |
INS |
Enum |
ST |
B |
MeasReg |
P |
Protection |
Protection
function |
0=Unknown;
1=PHLPTOC1; 2=PHLPTOC2; 6=PHHPTOC1; 7=PHHPTOC2; 8=PHHPTOC3; 9=PHHPTOC4;
12=PHIPTOC1; 13=PHIPTOC2; 17=EFLPTOC1; 18=EFLPTOC2; 19=EFLPTOC3; 22=EFHPTOC1;
23=EFHPTOC2; 24=EFHPTOC3; 25=EFHPTOC4; 30=EFIPTOC1; 31=EFIPTOC2; 32=EFIPTOC3;
35=NSPTOC1; 36=NSPTOC2; -7=INTRPTEF1; -5=STTPMSU1; -3=JAMPTOC1; 41=PDNSPTOC1;
44=T1PTTR1; 46=T2PTTR1; 48=MPTTR1; 50=DEFLPDEF1; 51=DEFLPDEF2; 53=DEFHPDEF1;
56=EFPADM1; 57=EFPADM2; 58=EFPADM3; 59=FRPFRQ1; 60=FRPFRQ2; 61=FRPFRQ3; 62=FRPFRQ4;
63=FRPFRQ5; 64=FRPFRQ6; 65=LSHDPFRQ1; 66=LSHDPFRQ2; 67=LSHDPFRQ3;
68=LSHDPFRQ4; 69=LSHDPFRQ5; 71=DPHLPDOC1; 72=DPHLPDOC2; 74=DPHHPDOC1;
77=MAPGAPC1; 78=MAPGAPC2; 79=MAPGAPC3; 85=MNSPTOC1; 86=MNSPTOC2;
88=LOFLPTUC1; 90=TR2PTDF1; 91=LNPLDF1; 92=LREFPNDF1; 94=MPDIF1; 96=HREFPDIF1;
100=ROVPTOV1; 101=ROVPTOV2; 102=ROVPTOV3; 104=PHPTOV1; 105=PHPTOV2;
106=PHPTOV3; 108=PHPTUV1; 109=PHPTUV2; 110=PHPTUV3; 112=NSPTOV1; 113=NSPTOV2;
116=PSPTUV1; 118=ARCSARC1; 119=ARCSARC2; 120=ARCSARC3; -96=SPHIPTOC1; -93=SPHLPTOC2;
-92=SPHLPTOC1; -89=SPHHPTOC2; -88=SPHHPTOC1; -86=SPHPTUV3; -85=SPHPTUV2;
-84=SPHPTUV1; -82=SPHPTOV3; -81=SPHPTOV2; -80=SPHPTOV1; -25=OEPVPH4;
-24=OEPVPH3; -23=OEPVPH2; -22=OEPVPH1; -19=PSPTOV2; -18=PSPTOV1;
-15=PREVPTOC1; -12=PHPTUC2; -11=PHPTUC1; -9=PHIZ1; 5=PHLTPTOC1; 20=EFLPTOC4;
26=EFHPTOC5; 27=EFHPTOC6; 37=NSPTOC3; 38=NSPTOC4; 45=T1PTTR2; 54=DEFHPDEF2;
75=DPHHPDOC2; 89=LOFLPTUC2; 103=ROVPTOV4; 117=PSPTUV2 |
Monitoring\Recorded
data\Fault record |
||||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Start
duration |
Maximum
start duration of all stages during the fault |
0.00...100.00
% |
Monitoring\Recorded
data\Fault record |
||||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.OpTm.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Operate
time |
Operate
time |
0.000...999999.999
s |
Monitoring\Recorded
data\Fault record |
||||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.FltZ.cVal.mag.f |
CMV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Fault
resistance |
Fault
resistance |
0.00...999.99
ohm |
Monitoring\Recorded
data\Fault record |
||||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.FltDisKm.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Fault
distance |
Distance
to fault measured in pu |
0.00...9999.99
pu |
Monitoring\Recorded
data\Fault record |
||||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.ActSG.stVal |
INC |
INT32 |
ST |
B |
MeasReg |
P |
Active
group |
Active
setting group |
1...6 |
Monitoring\Recorded
data\Fault record |
||||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.ShotPntr.stVal |
INS |
INT32 |
ST |
B |
MeasReg |
P |
Shot
pointer |
Autoreclosing
shot pointer value |
0...7 |
Monitoring\Recorded
data\Fault record |
||||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.DifAmpsN.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Diff
current Io |
Differential
current residual |
0.000...80.000
pu |
Monitoring\Recorded
data\Fault record |
||||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.RstAmpsN.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Bias
current Io |
Bias
current residual |
0.000...50.000
pu |
Monitoring\Recorded
data\Fault record |
||||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.MaxAmpsA.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Max
current IL1 |
Maximum
phase A current |
0.000...50.000
xIn |
Monitoring\Recorded
data\Fault record |
IL1TCTR1 |
|||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.MaxAmpsB.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Max
current IL2 |
Maximum
phase B current |
0.000...50.000
xIn |
Monitoring\Recorded
data\Fault record |
IL1TCTR1 |
|||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.MaxAmpsC.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Max
current IL3 |
Maximum
phase C current |
0.000...50.000
xIn |
Monitoring\Recorded
data\Fault record |
IL1TCTR1 |
|||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.MaxAmpsN.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Max
current Io |
Maximum
residual current |
0.000...50.000
xIn |
Monitoring\Recorded
data\Fault record |
RESTCTR1 |
|||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.AmpsA.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Current
IL1 |
Phase
A current |
0.000...50.000
xIn |
Monitoring\Recorded
data\Fault record |
IL1TCTR1 |
|||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.AmpsB.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Current
IL2 |
Phase
B current |
0.000...50.000
xIn |
Monitoring\Recorded
data\Fault record |
IL1TCTR1 |
|||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.AmpsC.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Current
IL3 |
Phase
C current |
0.000...50.000
xIn |
Monitoring\Recorded
data\Fault record |
IL1TCTR1 |
|||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.AmpsN.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Current
Io |
Residual
current |
0.000...50.000
xIn |
Monitoring\Recorded
data\Fault record |
RESTCTR1 |
|||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.AmpsNClc.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Current
Io-Calc |
Calculated
residual current |
0.000...50.000
xIn |
Monitoring\Recorded
data\Fault record |
IL1TCTR1 |
|||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.AmpsPsSeq.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Current
Ps-Seq |
Positive
sequence current |
0.000...50.000
xIn |
Monitoring\Recorded
data\Fault record |
IL1TCTR1 |
|||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.AmpsNgSeq.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Current
Ng-Seq |
Negative
sequence current |
0.000...50.000
xIn |
Monitoring\Recorded
data\Fault record |
IL1TCTR1 |
|||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.VoltsA.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Voltage
UL1 |
Phase
A voltage |
0.000...4.000
xUn |
Monitoring\Recorded
data\Fault record |
UL1TVTR1 |
|||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.VoltsB.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Voltage
UL2 |
Phase
B voltage |
0.000...4.000
xUn |
Monitoring\Recorded
data\Fault record |
UL1TVTR1 |
|||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.VoltsC.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Voltage
UL3 |
Phase
C voltage |
0.000...4.000
xUn |
Monitoring\Recorded
data\Fault record |
UL1TVTR1 |
|||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.VoltsAB.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Voltage
U12 |
Phase
A to phase B voltage |
0.000...4.000
xUn |
Monitoring\Recorded
data\Fault record |
UL1TVTR1 |
|||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.VoltsBC.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Voltage
U23 |
Phase
B to phase C voltage |
0.000...4.000
xUn |
Monitoring\Recorded
data\Fault record |
UL1TVTR1 |
|||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.VoltsCA.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Voltage
U31 |
Phase
C to phase A voltage |
0.000...4.000
xUn |
Monitoring\Recorded
data\Fault record |
UL1TVTR1 |
|||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.VoltsN.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Voltage
Uo |
Residual
voltage |
0.000...4.000
xUn |
Monitoring\Recorded
data\Fault record |
RESTVTR1 |
|||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.VZroSeq.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Voltage
Zro-Seq |
Zero
sequence voltage |
0.000...4.000
xUn |
Monitoring\Recorded
data\Fault record |
UL1TVTR1 |
|||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.VPsSeq.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Voltage
Ps-Seq |
Positive
sequence voltage |
0.000...4.000
xUn |
Monitoring\Recorded
data\Fault record |
UL1TVTR1 |
|||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.VNgSeq.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Voltage
Ng-Seq |
Negative
sequence voltage |
0.000...4.000
xUn |
Monitoring\Recorded
data\Fault record |
UL1TVTR1 |
|||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.MaxTmpRl.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
PTTR
thermal level |
PTTR
calculated temperature of the protected object relative to the operate level |
0.00...99.99 |
Monitoring\Recorded
data\Fault record |
||||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.PDNS1MxRat.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
PDNSPTOC1
rat. I2/I1 |
PDNSPTOC1
ratio I2/I1 |
0.00...999.99
% |
Monitoring\Recorded
data\Fault record |
||||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.DifNAngN.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Angle
Uo - Io |
Angle
residual voltage - residual current |
-180.00...180.00
deg |
Monitoring\Recorded
data\Fault record |
||||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.DifAAngBC.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Angle
U23 - IL1 |
Angle
phase B to phase C voltage - phase A current |
-180.00...180.00
deg |
Monitoring\Recorded
data\Fault record |
||||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.DifBAngCA.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Angle
U31 - IL2 |
Angle
phase C to phase A voltage - phase B current |
-180.00...180.00
deg |
Monitoring\Recorded
data\Fault record |
||||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.DifCAngAB.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Angle
U12 - IL3 |
Angle
phase A to phase B voltage - phase C current |
-180.00...180.00
deg |
Monitoring\Recorded
data\Fault record |
||||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.Hz.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Frequency |
Frequency |
30.00...80.00
Hz |
Monitoring\Recorded
data\Fault record |
||||
|
FLTMSTA1 |
MON |
LD0.FLTMSTA1.HzS.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasReg |
P |
Frequency
gradient |
Frequency
gradient |
-10.00...10.00
Hz/s |
Monitoring\Recorded
data\Fault record |
||||
|
FLTMSTA1 |
CFG |
LD0.FLTMSTA1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Fault
record |
|||||
|
FLTMSTA1 |
CFG |
LD0.FLTMSTA1.TrgSet.setVal |
ING |
Enum |
SP |
B |
0 |
Trig
mode |
Triggering
mode |
0=From
all faults; 1=From operate; 2=From only start |
Configuration\Fault
record |
|||||
|
FLTMSTA1 |
CFG |
LD0.FLTMSTA1.AMeasMod.setVal |
ING |
Enum |
SP |
B |
2 |
A
measurement mode |
Selects
used measurement mode phase currents and residual current |
1=RMS;
2=DFT; 3=Peak-to-Peak |
Configuration\Fault
record |
|||||
|
FLTMSTA1 |
VER |
LD0.FLTMSTA1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
E |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
PTGAPC1 |
PT(1) |
PT(1) |
INP |
LD0.PTGAPC1.In1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN1 |
Input
1 status |
Monitoring\I/O
status\Generic timers\PTGAPC1\Inputs |
||||
|
PTGAPC1 |
PT(1) |
PT(1) |
INP |
LD0.PTGAPC1.In2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN2 |
Input
2 status |
Monitoring\I/O
status\Generic timers\PTGAPC1\Inputs |
||||
|
PTGAPC1 |
PT(1) |
PT(1) |
INP |
LD0.PTGAPC1.In3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN3 |
Input
3 status |
Monitoring\I/O
status\Generic timers\PTGAPC1\Inputs |
||||
|
PTGAPC1 |
PT(1) |
PT(1) |
INP |
LD0.PTGAPC1.In4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN4 |
Input
4 status |
Monitoring\I/O
status\Generic timers\PTGAPC1\Inputs |
||||
|
PTGAPC1 |
PT(1) |
PT(1) |
INP |
LD0.PTGAPC1.In5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN5 |
Input
5 status |
Monitoring\I/O
status\Generic timers\PTGAPC1\Inputs |
||||
|
PTGAPC1 |
PT(1) |
PT(1) |
INP |
LD0.PTGAPC1.In6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN6 |
Input
6 status |
Monitoring\I/O
status\Generic timers\PTGAPC1\Inputs |
||||
|
PTGAPC1 |
PT(1) |
PT(1) |
INP |
LD0.PTGAPC1.In7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN7 |
Input
7 status |
Monitoring\I/O
status\Generic timers\PTGAPC1\Inputs |
||||
|
PTGAPC1 |
PT(1) |
PT(1) |
INP |
LD0.PTGAPC1.In8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN8 |
Input
8 status |
Monitoring\I/O
status\Generic timers\PTGAPC1\Inputs |
||||
|
PTGAPC1 |
PT(1) |
PT(1) |
OUT |
LD0.PTGAPC1.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
Q1 |
Output
1 status |
Monitoring\I/O
status\Generic timers\PTGAPC1\Outputs |
|||||
|
PTGAPC1 |
PT(1) |
PT(1) |
OUT |
LD0.PTGAPC1.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
Q2 |
Output
2 status |
Monitoring\I/O
status\Generic timers\PTGAPC1\Outputs |
|||||
|
PTGAPC1 |
PT(1) |
PT(1) |
OUT |
LD0.PTGAPC1.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
Q3 |
Output
3 status |
Monitoring\I/O
status\Generic timers\PTGAPC1\Outputs |
|||||
|
PTGAPC1 |
PT(1) |
PT(1) |
OUT |
LD0.PTGAPC1.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
Q4 |
Output
4 status |
Monitoring\I/O
status\Generic timers\PTGAPC1\Outputs |
|||||
|
PTGAPC1 |
PT(1) |
PT(1) |
OUT |
LD0.PTGAPC1.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
Q5 |
Output
5 status |
Monitoring\I/O
status\Generic timers\PTGAPC1\Outputs |
|||||
|
PTGAPC1 |
PT(1) |
PT(1) |
OUT |
LD0.PTGAPC1.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
Q6 |
Output
6 status |
Monitoring\I/O
status\Generic timers\PTGAPC1\Outputs |
|||||
|
PTGAPC1 |
PT(1) |
PT(1) |
OUT |
LD0.PTGAPC1.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
Q7 |
Output
7 status |
Monitoring\I/O
status\Generic timers\PTGAPC1\Outputs |
|||||
|
PTGAPC1 |
PT(1) |
PT(1) |
OUT |
LD0.PTGAPC1.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
Q8 |
Output
8 status |
Monitoring\I/O
status\Generic timers\PTGAPC1\Outputs |
|||||
|
PTGAPC1 |
PT(1) |
PT(1) |
CFG |
LD0.PTGAPC1.PlsTmms1.setVal |
ING |
INT32 |
SP |
B |
0 |
Pulse
delay time 1 |
Pulse
delay time |
0...3600000
ms |
Configuration\Generic
timers\PTGAPC1 |
|||
|
PTGAPC1 |
PT(1) |
PT(1) |
CFG |
LD0.PTGAPC1.PlsTmms2.setVal |
ING |
INT32 |
SP |
B |
0 |
Pulse
delay time 2 |
Pulse
delay time |
0...3600000
ms |
Configuration\Generic
timers\PTGAPC1 |
|||
|
PTGAPC1 |
PT(1) |
PT(1) |
CFG |
LD0.PTGAPC1.PlsTmms3.setVal |
ING |
INT32 |
SP |
B |
0 |
Pulse
delay time 3 |
Pulse
delay time |
0...3600000
ms |
Configuration\Generic
timers\PTGAPC1 |
|||
|
PTGAPC1 |
PT(1) |
PT(1) |
CFG |
LD0.PTGAPC1.PlsTmms4.setVal |
ING |
INT32 |
SP |
B |
0 |
Pulse
delay time 4 |
Pulse
delay time |
0...3600000
ms |
Configuration\Generic
timers\PTGAPC1 |
|||
|
PTGAPC1 |
PT(1) |
PT(1) |
CFG |
LD0.PTGAPC1.PlsTmms5.setVal |
ING |
INT32 |
SP |
B |
0 |
Pulse
delay time 5 |
Pulse
delay time |
0...3600000
ms |
Configuration\Generic
timers\PTGAPC1 |
|||
|
PTGAPC1 |
PT(1) |
PT(1) |
CFG |
LD0.PTGAPC1.PlsTmms6.setVal |
ING |
INT32 |
SP |
B |
0 |
Pulse
delay time 6 |
Pulse
delay time |
0...3600000
ms |
Configuration\Generic
timers\PTGAPC1 |
|||
|
PTGAPC1 |
PT(1) |
PT(1) |
CFG |
LD0.PTGAPC1.PlsTmms7.setVal |
ING |
INT32 |
SP |
B |
0 |
Pulse
delay time 7 |
Pulse
delay time |
0...3600000
ms |
Configuration\Generic
timers\PTGAPC1 |
|||
|
PTGAPC1 |
PT(1) |
PT(1) |
CFG |
LD0.PTGAPC1.PlsTmms8.setVal |
ING |
INT32 |
SP |
B |
0 |
Pulse
delay time 8 |
Pulse
delay time |
0...3600000
ms |
Configuration\Generic
timers\PTGAPC1 |
|||
|
PTGAPC1 |
PT(1) |
PT(1) |
VER |
LD0.PTGAPC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
PTGAPC2 |
PT(2) |
PT(2) |
INP |
LD0.PTGAPC2.In1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN1 |
Input
1 status |
Monitoring\I/O
status\Generic timers\PTGAPC2\Inputs |
||||
|
PTGAPC2 |
PT(2) |
PT(2) |
INP |
LD0.PTGAPC2.In2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN2 |
Input
2 status |
Monitoring\I/O
status\Generic timers\PTGAPC2\Inputs |
||||
|
PTGAPC2 |
PT(2) |
PT(2) |
INP |
LD0.PTGAPC2.In3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN3 |
Input
3 status |
Monitoring\I/O
status\Generic timers\PTGAPC2\Inputs |
||||
|
PTGAPC2 |
PT(2) |
PT(2) |
INP |
LD0.PTGAPC2.In4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN4 |
Input
4 status |
Monitoring\I/O
status\Generic timers\PTGAPC2\Inputs |
||||
|
PTGAPC2 |
PT(2) |
PT(2) |
INP |
LD0.PTGAPC2.In5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN5 |
Input
5 status |
Monitoring\I/O
status\Generic timers\PTGAPC2\Inputs |
||||
|
PTGAPC2 |
PT(2) |
PT(2) |
INP |
LD0.PTGAPC2.In6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN6 |
Input
6 status |
Monitoring\I/O
status\Generic timers\PTGAPC2\Inputs |
||||
|
PTGAPC2 |
PT(2) |
PT(2) |
INP |
LD0.PTGAPC2.In7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN7 |
Input
7 status |
Monitoring\I/O
status\Generic timers\PTGAPC2\Inputs |
||||
|
PTGAPC2 |
PT(2) |
PT(2) |
INP |
LD0.PTGAPC2.In8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN8 |
Input
8 status |
Monitoring\I/O
status\Generic timers\PTGAPC2\Inputs |
||||
|
PTGAPC2 |
PT(2) |
PT(2) |
OUT |
LD0.PTGAPC2.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
Q1 |
Output
1 status |
Monitoring\I/O
status\Generic timers\PTGAPC2\Outputs |
|||||
|
PTGAPC2 |
PT(2) |
PT(2) |
OUT |
LD0.PTGAPC2.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
Q2 |
Output
2 status |
Monitoring\I/O
status\Generic timers\PTGAPC2\Outputs |
|||||
|
PTGAPC2 |
PT(2) |
PT(2) |
OUT |
LD0.PTGAPC2.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
Q3 |
Output
3 status |
Monitoring\I/O
status\Generic timers\PTGAPC2\Outputs |
|||||
|
PTGAPC2 |
PT(2) |
PT(2) |
OUT |
LD0.PTGAPC2.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
Q4 |
Output
4 status |
Monitoring\I/O
status\Generic timers\PTGAPC2\Outputs |
|||||
|
PTGAPC2 |
PT(2) |
PT(2) |
OUT |
LD0.PTGAPC2.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
Q5 |
Output
5 status |
Monitoring\I/O
status\Generic timers\PTGAPC2\Outputs |
|||||
|
PTGAPC2 |
PT(2) |
PT(2) |
OUT |
LD0.PTGAPC2.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
Q6 |
Output
6 status |
Monitoring\I/O
status\Generic timers\PTGAPC2\Outputs |
|||||
|
PTGAPC2 |
PT(2) |
PT(2) |
OUT |
LD0.PTGAPC2.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
Q7 |
Output
7 status |
Monitoring\I/O
status\Generic timers\PTGAPC2\Outputs |
|||||
|
PTGAPC2 |
PT(2) |
PT(2) |
OUT |
LD0.PTGAPC2.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
Q8 |
Output
8 status |
Monitoring\I/O
status\Generic timers\PTGAPC2\Outputs |
|||||
|
PTGAPC2 |
PT(2) |
PT(2) |
CFG |
LD0.PTGAPC2.PlsTmms1.setVal |
ING |
INT32 |
SP |
B |
0 |
Pulse
delay time 1 |
Pulse
delay time |
0...3600000
ms |
Configuration\Generic
timers\PTGAPC2 |
|||
|
PTGAPC2 |
PT(2) |
PT(2) |
CFG |
LD0.PTGAPC2.PlsTmms2.setVal |
ING |
INT32 |
SP |
B |
0 |
Pulse
delay time 2 |
Pulse
delay time |
0...3600000
ms |
Configuration\Generic
timers\PTGAPC2 |
|||
|
PTGAPC2 |
PT(2) |
PT(2) |
CFG |
LD0.PTGAPC2.PlsTmms3.setVal |
ING |
INT32 |
SP |
B |
0 |
Pulse
delay time 3 |
Pulse
delay time |
0...3600000
ms |
Configuration\Generic
timers\PTGAPC2 |
|||
|
PTGAPC2 |
PT(2) |
PT(2) |
CFG |
LD0.PTGAPC2.PlsTmms4.setVal |
ING |
INT32 |
SP |
B |
0 |
Pulse
delay time 4 |
Pulse
delay time |
0...3600000
ms |
Configuration\Generic
timers\PTGAPC2 |
|||
|
PTGAPC2 |
PT(2) |
PT(2) |
CFG |
LD0.PTGAPC2.PlsTmms5.setVal |
ING |
INT32 |
SP |
B |
0 |
Pulse
delay time 5 |
Pulse
delay time |
0...3600000
ms |
Configuration\Generic
timers\PTGAPC2 |
|||
|
PTGAPC2 |
PT(2) |
PT(2) |
CFG |
LD0.PTGAPC2.PlsTmms6.setVal |
ING |
INT32 |
SP |
B |
0 |
Pulse
delay time 6 |
Pulse
delay time |
0...3600000
ms |
Configuration\Generic
timers\PTGAPC2 |
|||
|
PTGAPC2 |
PT(2) |
PT(2) |
CFG |
LD0.PTGAPC2.PlsTmms7.setVal |
ING |
INT32 |
SP |
B |
0 |
Pulse
delay time 7 |
Pulse
delay time |
0...3600000
ms |
Configuration\Generic
timers\PTGAPC2 |
|||
|
PTGAPC2 |
PT(2) |
PT(2) |
CFG |
LD0.PTGAPC2.PlsTmms8.setVal |
ING |
INT32 |
SP |
B |
0 |
Pulse
delay time 8 |
Pulse
delay time |
0...3600000
ms |
Configuration\Generic
timers\PTGAPC2 |
|||
|
PTGAPC2 |
PT(2) |
PT(2) |
VER |
LD0.PTGAPC2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
INP |
LD0.TOFGAPC1.In1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN1 |
Input
1 status |
Monitoring\I/O
status\Generic timers\TOFGAPC1\Inputs |
||||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
INP |
LD0.TOFGAPC1.In2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN2 |
Input
2 status |
Monitoring\I/O
status\Generic timers\TOFGAPC1\Inputs |
||||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
INP |
LD0.TOFGAPC1.In3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN3 |
Input
3 status |
Monitoring\I/O
status\Generic timers\TOFGAPC1\Inputs |
||||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
INP |
LD0.TOFGAPC1.In4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN4 |
Input
4 status |
Monitoring\I/O
status\Generic timers\TOFGAPC1\Inputs |
||||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
INP |
LD0.TOFGAPC1.In5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN5 |
Input
5 status |
Monitoring\I/O
status\Generic timers\TOFGAPC1\Inputs |
||||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
INP |
LD0.TOFGAPC1.In6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN6 |
Input
6 status |
Monitoring\I/O
status\Generic timers\TOFGAPC1\Inputs |
||||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
INP |
LD0.TOFGAPC1.In7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN7 |
Input
7 status |
Monitoring\I/O
status\Generic timers\TOFGAPC1\Inputs |
||||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
INP |
LD0.TOFGAPC1.In8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN8 |
Input
8 status |
Monitoring\I/O
status\Generic timers\TOFGAPC1\Inputs |
||||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
OUT |
LD0.TOFGAPC1.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
Q1 |
Output
1 status |
Monitoring\I/O
status\Generic timers\TOFGAPC1\Outputs |
|||||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
OUT |
LD0.TOFGAPC1.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
Q2 |
Output
2 status |
Monitoring\I/O
status\Generic timers\TOFGAPC1\Outputs |
|||||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
OUT |
LD0.TOFGAPC1.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
Q3 |
Output
3 status |
Monitoring\I/O
status\Generic timers\TOFGAPC1\Outputs |
|||||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
OUT |
LD0.TOFGAPC1.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
Q4 |
Output
4 status |
Monitoring\I/O
status\Generic timers\TOFGAPC1\Outputs |
|||||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
OUT |
LD0.TOFGAPC1.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
Q5 |
Output
5 status |
Monitoring\I/O
status\Generic timers\TOFGAPC1\Outputs |
|||||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
OUT |
LD0.TOFGAPC1.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
Q6 |
Output
6 status |
Monitoring\I/O
status\Generic timers\TOFGAPC1\Outputs |
|||||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
OUT |
LD0.TOFGAPC1.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
Q7 |
Output
7 status |
Monitoring\I/O
status\Generic timers\TOFGAPC1\Outputs |
|||||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
OUT |
LD0.TOFGAPC1.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
Q8 |
Output
8 status |
Monitoring\I/O
status\Generic timers\TOFGAPC1\Outputs |
|||||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
CFG |
LD0.TOFGAPC1.OffDlTmms1.setVal |
ING |
INT32 |
SP |
B |
300 |
Off
delay time 1 |
Off
delay time |
0...3600000
ms |
Configuration\Generic
timers\TOFGAPC1 |
|||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
CFG |
LD0.TOFGAPC1.OffDlTmms2.setVal |
ING |
INT32 |
SP |
B |
0 |
Off
delay time 2 |
Off
delay time |
0...3600000
ms |
Configuration\Generic
timers\TOFGAPC1 |
|||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
CFG |
LD0.TOFGAPC1.OffDlTmms3.setVal |
ING |
INT32 |
SP |
B |
0 |
Off
delay time 3 |
Off
delay time |
0...3600000
ms |
Configuration\Generic
timers\TOFGAPC1 |
|||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
CFG |
LD0.TOFGAPC1.OffDlTmms4.setVal |
ING |
INT32 |
SP |
B |
0 |
Off
delay time 4 |
Off
delay time |
0...3600000
ms |
Configuration\Generic
timers\TOFGAPC1 |
|||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
CFG |
LD0.TOFGAPC1.OffDlTmms5.setVal |
ING |
INT32 |
SP |
B |
0 |
Off
delay time 5 |
Off
delay time |
0...3600000
ms |
Configuration\Generic
timers\TOFGAPC1 |
|||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
CFG |
LD0.TOFGAPC1.OffDlTmms6.setVal |
ING |
INT32 |
SP |
B |
0 |
Off
delay time 6 |
Off
delay time |
0...3600000
ms |
Configuration\Generic
timers\TOFGAPC1 |
|||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
CFG |
LD0.TOFGAPC1.OffDlTmms7.setVal |
ING |
INT32 |
SP |
B |
0 |
Off
delay time 7 |
Off
delay time |
0...3600000
ms |
Configuration\Generic
timers\TOFGAPC1 |
|||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
CFG |
LD0.TOFGAPC1.OffDlTmms8.setVal |
ING |
INT32 |
SP |
B |
0 |
Off
delay time 8 |
Off
delay time |
0...3600000
ms |
Configuration\Generic
timers\TOFGAPC1 |
|||
|
TOFGAPC1 |
TOF(1) |
TOF(1) |
VER |
LD0.TOFGAPC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
INP |
LD0.TOFGAPC2.In1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN1 |
Input
1 status |
Monitoring\I/O
status\Generic timers\TOFGAPC2\Inputs |
||||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
INP |
LD0.TOFGAPC2.In2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN2 |
Input
2 status |
Monitoring\I/O
status\Generic timers\TOFGAPC2\Inputs |
||||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
INP |
LD0.TOFGAPC2.In3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN3 |
Input
3 status |
Monitoring\I/O
status\Generic timers\TOFGAPC2\Inputs |
||||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
INP |
LD0.TOFGAPC2.In4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN4 |
Input
4 status |
Monitoring\I/O
status\Generic timers\TOFGAPC2\Inputs |
||||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
INP |
LD0.TOFGAPC2.In5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN5 |
Input
5 status |
Monitoring\I/O
status\Generic timers\TOFGAPC2\Inputs |
||||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
INP |
LD0.TOFGAPC2.In6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN6 |
Input
6 status |
Monitoring\I/O
status\Generic timers\TOFGAPC2\Inputs |
||||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
INP |
LD0.TOFGAPC2.In7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN7 |
Input
7 status |
Monitoring\I/O
status\Generic timers\TOFGAPC2\Inputs |
||||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
INP |
LD0.TOFGAPC2.In8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN8 |
Input
8 status |
Monitoring\I/O
status\Generic timers\TOFGAPC2\Inputs |
||||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
OUT |
LD0.TOFGAPC2.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
Q1 |
Output
1 status |
Monitoring\I/O
status\Generic timers\TOFGAPC2\Outputs |
|||||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
OUT |
LD0.TOFGAPC2.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
Q2 |
Output
2 status |
Monitoring\I/O
status\Generic timers\TOFGAPC2\Outputs |
|||||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
OUT |
LD0.TOFGAPC2.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
Q3 |
Output
3 status |
Monitoring\I/O
status\Generic timers\TOFGAPC2\Outputs |
|||||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
OUT |
LD0.TOFGAPC2.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
Q4 |
Output
4 status |
Monitoring\I/O
status\Generic timers\TOFGAPC2\Outputs |
|||||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
OUT |
LD0.TOFGAPC2.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
Q5 |
Output
5 status |
Monitoring\I/O
status\Generic timers\TOFGAPC2\Outputs |
|||||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
OUT |
LD0.TOFGAPC2.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
Q6 |
Output
6 status |
Monitoring\I/O
status\Generic timers\TOFGAPC2\Outputs |
|||||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
OUT |
LD0.TOFGAPC2.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
Q7 |
Output
7 status |
Monitoring\I/O
status\Generic timers\TOFGAPC2\Outputs |
|||||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
OUT |
LD0.TOFGAPC2.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
Q8 |
Output
8 status |
Monitoring\I/O
status\Generic timers\TOFGAPC2\Outputs |
|||||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
CFG |
LD0.TOFGAPC2.OffDlTmms1.setVal |
ING |
INT32 |
SP |
B |
0 |
Off
delay time 1 |
Off
delay time |
0...3600000
ms |
Configuration\Generic
timers\TOFGAPC2 |
|||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
CFG |
LD0.TOFGAPC2.OffDlTmms2.setVal |
ING |
INT32 |
SP |
B |
0 |
Off
delay time 2 |
Off
delay time |
0...3600000
ms |
Configuration\Generic
timers\TOFGAPC2 |
|||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
CFG |
LD0.TOFGAPC2.OffDlTmms3.setVal |
ING |
INT32 |
SP |
B |
0 |
Off
delay time 3 |
Off
delay time |
0...3600000
ms |
Configuration\Generic
timers\TOFGAPC2 |
|||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
CFG |
LD0.TOFGAPC2.OffDlTmms4.setVal |
ING |
INT32 |
SP |
B |
0 |
Off
delay time 4 |
Off
delay time |
0...3600000
ms |
Configuration\Generic
timers\TOFGAPC2 |
|||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
CFG |
LD0.TOFGAPC2.OffDlTmms5.setVal |
ING |
INT32 |
SP |
B |
0 |
Off
delay time 5 |
Off
delay time |
0...3600000
ms |
Configuration\Generic
timers\TOFGAPC2 |
|||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
CFG |
LD0.TOFGAPC2.OffDlTmms6.setVal |
ING |
INT32 |
SP |
B |
0 |
Off
delay time 6 |
Off
delay time |
0...3600000
ms |
Configuration\Generic
timers\TOFGAPC2 |
|||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
CFG |
LD0.TOFGAPC2.OffDlTmms7.setVal |
ING |
INT32 |
SP |
B |
0 |
Off
delay time 7 |
Off
delay time |
0...3600000
ms |
Configuration\Generic
timers\TOFGAPC2 |
|||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
CFG |
LD0.TOFGAPC2.OffDlTmms8.setVal |
ING |
INT32 |
SP |
B |
0 |
Off
delay time 8 |
Off
delay time |
0...3600000
ms |
Configuration\Generic
timers\TOFGAPC2 |
|||
|
TOFGAPC2 |
TOF(2) |
TOF(2) |
VER |
LD0.TOFGAPC2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
TONGAPC1 |
TON(1) |
TON(1) |
INP |
LD0.TONGAPC1.In1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN1 |
Input
1 |
Monitoring\I/O
status\Generic timers\TONGAPC1\Inputs |
||||
|
TONGAPC1 |
TON(1) |
TON(1) |
INP |
LD0.TONGAPC1.In2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN2 |
Input
2 |
Monitoring\I/O
status\Generic timers\TONGAPC1\Inputs |
||||
|
TONGAPC1 |
TON(1) |
TON(1) |
INP |
LD0.TONGAPC1.In3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN3 |
Input
3 |
Monitoring\I/O
status\Generic timers\TONGAPC1\Inputs |
||||
|
TONGAPC1 |
TON(1) |
TON(1) |
INP |
LD0.TONGAPC1.In4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN4 |
Input
4 |
Monitoring\I/O
status\Generic timers\TONGAPC1\Inputs |
||||
|
TONGAPC1 |
TON(1) |
TON(1) |
INP |
LD0.TONGAPC1.In5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN5 |
Input
5 |
Monitoring\I/O
status\Generic timers\TONGAPC1\Inputs |
||||
|
TONGAPC1 |
TON(1) |
TON(1) |
INP |
LD0.TONGAPC1.In6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN6 |
Input
6 |
Monitoring\I/O
status\Generic timers\TONGAPC1\Inputs |
||||
|
TONGAPC1 |
TON(1) |
TON(1) |
INP |
LD0.TONGAPC1.In7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN7 |
Input
7 |
Monitoring\I/O
status\Generic timers\TONGAPC1\Inputs |
||||
|
TONGAPC1 |
TON(1) |
TON(1) |
INP |
LD0.TONGAPC1.In8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN8 |
Input
8 |
Monitoring\I/O
status\Generic timers\TONGAPC1\Inputs |
||||
|
TONGAPC1 |
TON(1) |
TON(1) |
OUT |
LD0.TONGAPC1.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
Q1 |
Output
1 |
Monitoring\I/O
status\Generic timers\TONGAPC1\Outputs |
|||||
|
TONGAPC1 |
TON(1) |
TON(1) |
OUT |
LD0.TONGAPC1.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
Q2 |
Output
2 |
Monitoring\I/O
status\Generic timers\TONGAPC1\Outputs |
|||||
|
TONGAPC1 |
TON(1) |
TON(1) |
OUT |
LD0.TONGAPC1.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
Q3 |
Output
3 |
Monitoring\I/O
status\Generic timers\TONGAPC1\Outputs |
|||||
|
TONGAPC1 |
TON(1) |
TON(1) |
OUT |
LD0.TONGAPC1.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
Q4 |
Output
4 |
Monitoring\I/O
status\Generic timers\TONGAPC1\Outputs |
|||||
|
TONGAPC1 |
TON(1) |
TON(1) |
OUT |
LD0.TONGAPC1.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
Q5 |
Output
5 |
Monitoring\I/O
status\Generic timers\TONGAPC1\Outputs |
|||||
|
TONGAPC1 |
TON(1) |
TON(1) |
OUT |
LD0.TONGAPC1.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
Q6 |
Output
6 |
Monitoring\I/O
status\Generic timers\TONGAPC1\Outputs |
|||||
|
TONGAPC1 |
TON(1) |
TON(1) |
OUT |
LD0.TONGAPC1.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
Q7 |
Output
7 |
Monitoring\I/O
status\Generic timers\TONGAPC1\Outputs |
|||||
|
TONGAPC1 |
TON(1) |
TON(1) |
OUT |
LD0.TONGAPC1.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
Q8 |
Output
8 |
Monitoring\I/O
status\Generic timers\TONGAPC1\Outputs |
|||||
|
TONGAPC1 |
TON(1) |
TON(1) |
CFG |
LD0.TONGAPC1.OnDlTmms1.setVal |
ING |
INT32 |
SP |
B |
600 |
On
delay time 1 |
On
delay time |
0...3600000
ms |
Configuration\Generic
timers\TONGAPC1 |
|||
|
TONGAPC1 |
TON(1) |
TON(1) |
CFG |
LD0.TONGAPC1.OnDlTmms2.setVal |
ING |
INT32 |
SP |
B |
600 |
On
delay time 2 |
On
delay time |
0...3600000
ms |
Configuration\Generic
timers\TONGAPC1 |
|||
|
TONGAPC1 |
TON(1) |
TON(1) |
CFG |
LD0.TONGAPC1.OnDlTmms3.setVal |
ING |
INT32 |
SP |
B |
600 |
On
delay time 3 |
On
delay time |
0...3600000
ms |
Configuration\Generic
timers\TONGAPC1 |
|||
|
TONGAPC1 |
TON(1) |
TON(1) |
CFG |
LD0.TONGAPC1.OnDlTmms4.setVal |
ING |
INT32 |
SP |
B |
600 |
On
delay time 4 |
On
delay time |
0...3600000
ms |
Configuration\Generic
timers\TONGAPC1 |
|||
|
TONGAPC1 |
TON(1) |
TON(1) |
CFG |
LD0.TONGAPC1.OnDlTmms5.setVal |
ING |
INT32 |
SP |
B |
0 |
On
delay time 5 |
On
delay time |
0...3600000
ms |
Configuration\Generic
timers\TONGAPC1 |
|||
|
TONGAPC1 |
TON(1) |
TON(1) |
CFG |
LD0.TONGAPC1.OnDlTmms6.setVal |
ING |
INT32 |
SP |
B |
0 |
On
delay time 6 |
On
delay time |
0...3600000
ms |
Configuration\Generic
timers\TONGAPC1 |
|||
|
TONGAPC1 |
TON(1) |
TON(1) |
CFG |
LD0.TONGAPC1.OnDlTmms7.setVal |
ING |
INT32 |
SP |
B |
0 |
On
delay time 7 |
On
delay time |
0...3600000
ms |
Configuration\Generic
timers\TONGAPC1 |
|||
|
TONGAPC1 |
TON(1) |
TON(1) |
CFG |
LD0.TONGAPC1.OnDlTmms8.setVal |
ING |
INT32 |
SP |
B |
0 |
On
delay time 8 |
On
delay time |
0...3600000
ms |
Configuration\Generic
timers\TONGAPC1 |
|||
|
TONGAPC1 |
TON(1) |
TON(1) |
VER |
LD0.TONGAPC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
TONGAPC2 |
TON(2) |
TON(2) |
INP |
LD0.TONGAPC2.In1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN1 |
Input
1 |
Monitoring\I/O
status\Generic timers\TONGAPC2\Inputs |
||||
|
TONGAPC2 |
TON(2) |
TON(2) |
INP |
LD0.TONGAPC2.In2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN2 |
Input
2 |
Monitoring\I/O
status\Generic timers\TONGAPC2\Inputs |
||||
|
TONGAPC2 |
TON(2) |
TON(2) |
INP |
LD0.TONGAPC2.In3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN3 |
Input
3 |
Monitoring\I/O
status\Generic timers\TONGAPC2\Inputs |
||||
|
TONGAPC2 |
TON(2) |
TON(2) |
INP |
LD0.TONGAPC2.In4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN4 |
Input
4 |
Monitoring\I/O
status\Generic timers\TONGAPC2\Inputs |
||||
|
TONGAPC2 |
TON(2) |
TON(2) |
INP |
LD0.TONGAPC2.In5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN5 |
Input
5 |
Monitoring\I/O
status\Generic timers\TONGAPC2\Inputs |
||||
|
TONGAPC2 |
TON(2) |
TON(2) |
INP |
LD0.TONGAPC2.In6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN6 |
Input
6 |
Monitoring\I/O
status\Generic timers\TONGAPC2\Inputs |
||||
|
TONGAPC2 |
TON(2) |
TON(2) |
INP |
LD0.TONGAPC2.In7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN7 |
Input
7 |
Monitoring\I/O
status\Generic timers\TONGAPC2\Inputs |
||||
|
TONGAPC2 |
TON(2) |
TON(2) |
INP |
LD0.TONGAPC2.In8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
IN8 |
Input
8 |
Monitoring\I/O
status\Generic timers\TONGAPC2\Inputs |
||||
|
TONGAPC2 |
TON(2) |
TON(2) |
OUT |
LD0.TONGAPC2.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
Q1 |
Output
1 |
Monitoring\I/O
status\Generic timers\TONGAPC2\Outputs |
|||||
|
TONGAPC2 |
TON(2) |
TON(2) |
OUT |
LD0.TONGAPC2.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
Q2 |
Output
2 |
Monitoring\I/O
status\Generic timers\TONGAPC2\Outputs |
|||||
|
TONGAPC2 |
TON(2) |
TON(2) |
OUT |
LD0.TONGAPC2.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
Q3 |
Output
3 |
Monitoring\I/O
status\Generic timers\TONGAPC2\Outputs |
|||||
|
TONGAPC2 |
TON(2) |
TON(2) |
OUT |
LD0.TONGAPC2.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
Q4 |
Output
4 |
Monitoring\I/O
status\Generic timers\TONGAPC2\Outputs |
|||||
|
TONGAPC2 |
TON(2) |
TON(2) |
OUT |
LD0.TONGAPC2.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
Q5 |
Output
5 |
Monitoring\I/O
status\Generic timers\TONGAPC2\Outputs |
|||||
|
TONGAPC2 |
TON(2) |
TON(2) |
OUT |
LD0.TONGAPC2.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
Q6 |
Output
6 |
Monitoring\I/O
status\Generic timers\TONGAPC2\Outputs |
|||||
|
TONGAPC2 |
TON(2) |
TON(2) |
OUT |
LD0.TONGAPC2.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
Q7 |
Output
7 |
Monitoring\I/O
status\Generic timers\TONGAPC2\Outputs |
|||||
|
TONGAPC2 |
TON(2) |
TON(2) |
OUT |
LD0.TONGAPC2.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
Q8 |
Output
8 |
Monitoring\I/O
status\Generic timers\TONGAPC2\Outputs |
|||||
|
TONGAPC2 |
TON(2) |
TON(2) |
CFG |
LD0.TONGAPC2.OnDlTmms1.setVal |
ING |
INT32 |
SP |
B |
0 |
On
delay time 1 |
On
delay time |
0...3600000
ms |
Configuration\Generic
timers\TONGAPC2 |
|||
|
TONGAPC2 |
TON(2) |
TON(2) |
CFG |
LD0.TONGAPC2.OnDlTmms2.setVal |
ING |
INT32 |
SP |
B |
0 |
On
delay time 2 |
On
delay time |
0...3600000
ms |
Configuration\Generic
timers\TONGAPC2 |
|||
|
TONGAPC2 |
TON(2) |
TON(2) |
CFG |
LD0.TONGAPC2.OnDlTmms3.setVal |
ING |
INT32 |
SP |
B |
0 |
On
delay time 3 |
On
delay time |
0...3600000
ms |
Configuration\Generic
timers\TONGAPC2 |
|||
|
TONGAPC2 |
TON(2) |
TON(2) |
CFG |
LD0.TONGAPC2.OnDlTmms4.setVal |
ING |
INT32 |
SP |
B |
0 |
On
delay time 4 |
On
delay time |
0...3600000
ms |
Configuration\Generic
timers\TONGAPC2 |
|||
|
TONGAPC2 |
TON(2) |
TON(2) |
CFG |
LD0.TONGAPC2.OnDlTmms5.setVal |
ING |
INT32 |
SP |
B |
0 |
On
delay time 5 |
On
delay time |
0...3600000
ms |
Configuration\Generic
timers\TONGAPC2 |
|||
|
TONGAPC2 |
TON(2) |
TON(2) |
CFG |
LD0.TONGAPC2.OnDlTmms6.setVal |
ING |
INT32 |
SP |
B |
0 |
On
delay time 6 |
On
delay time |
0...3600000
ms |
Configuration\Generic
timers\TONGAPC2 |
|||
|
TONGAPC2 |
TON(2) |
TON(2) |
CFG |
LD0.TONGAPC2.OnDlTmms7.setVal |
ING |
INT32 |
SP |
B |
0 |
On
delay time 7 |
On
delay time |
0...3600000
ms |
Configuration\Generic
timers\TONGAPC2 |
|||
|
TONGAPC2 |
TON(2) |
TON(2) |
CFG |
LD0.TONGAPC2.OnDlTmms8.setVal |
ING |
INT32 |
SP |
B |
0 |
On
delay time 8 |
On
delay time |
0...3600000
ms |
Configuration\Generic
timers\TONGAPC2 |
|||
|
TONGAPC2 |
TON(2) |
TON(2) |
VER |
LD0.TONGAPC2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
SRGAPC1 |
SR(1) |
SR(1) |
INP |
LD0.SRGAPC1.Set1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S1 |
Set
Q1 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC1\Inputs |
||||
|
SRGAPC1 |
SR(1) |
SR(1) |
INP |
LD0.SRGAPC1.Set2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S2 |
Set
Q2 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC1\Inputs |
||||
|
SRGAPC1 |
SR(1) |
SR(1) |
INP |
LD0.SRGAPC1.Set3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S3 |
Set
Q3 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC1\Inputs |
||||
|
SRGAPC1 |
SR(1) |
SR(1) |
INP |
LD0.SRGAPC1.Set4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S4 |
Set
Q4 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC1\Inputs |
||||
|
SRGAPC1 |
SR(1) |
SR(1) |
INP |
LD0.SRGAPC1.Set5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S5 |
Set
Q5 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC1\Inputs |
||||
|
SRGAPC1 |
SR(1) |
SR(1) |
INP |
LD0.SRGAPC1.Set6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S6 |
Set
Q6 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC1\Inputs |
||||
|
SRGAPC1 |
SR(1) |
SR(1) |
INP |
LD0.SRGAPC1.Set7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S7 |
Set
Q7 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC1\Inputs |
||||
|
SRGAPC1 |
SR(1) |
SR(1) |
INP |
LD0.SRGAPC1.Set8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S8 |
Set
Q8 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC1\Inputs |
||||
|
SRGAPC1 |
SR(1) |
SR(1) |
INP |
LD0.SRGAPC1.Rs1.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R1 |
Resets
Q1 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC1\Inputs |
||||
|
SRGAPC1 |
SR(1) |
SR(1) |
INP |
LD0.SRGAPC1.Rs2.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R2 |
Resets
Q2 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC1\Inputs |
||||
|
SRGAPC1 |
SR(1) |
SR(1) |
INP |
LD0.SRGAPC1.Rs3.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R3 |
Resets
Q3 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC1\Inputs |
||||
|
SRGAPC1 |
SR(1) |
SR(1) |
INP |
LD0.SRGAPC1.Rs4.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R4 |
Resets
Q4 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC1\Inputs |
||||
|
SRGAPC1 |
SR(1) |
SR(1) |
INP |
LD0.SRGAPC1.Rs5.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R5 |
Resets
Q5 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC1\Inputs |
||||
|
SRGAPC1 |
SR(1) |
SR(1) |
INP |
LD0.SRGAPC1.Rs6.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R6 |
Resets
Q6 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC1\Inputs |
||||
|
SRGAPC1 |
SR(1) |
SR(1) |
INP |
LD0.SRGAPC1.Rs7.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R7 |
Resets
Q7 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC1\Inputs |
||||
|
SRGAPC1 |
SR(1) |
SR(1) |
INP |
LD0.SRGAPC1.Rs8.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R8 |
Resets
Q8 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC1\Inputs |
||||
|
SRGAPC1 |
SR(1) |
SR(1) |
OUT |
LD0.SRGAPC1.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
Q1 |
Q1
status |
Monitoring\I/O
status\Generic logic\SRGAPC1\Outputs |
|||||
|
SRGAPC1 |
SR(1) |
SR(1) |
OUT |
LD0.SRGAPC1.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
Q2 |
Q2
status |
Monitoring\I/O
status\Generic logic\SRGAPC1\Outputs |
|||||
|
SRGAPC1 |
SR(1) |
SR(1) |
OUT |
LD0.SRGAPC1.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
Q3 |
Q3
status |
Monitoring\I/O
status\Generic logic\SRGAPC1\Outputs |
|||||
|
SRGAPC1 |
SR(1) |
SR(1) |
OUT |
LD0.SRGAPC1.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
Q4 |
Q4
status |
Monitoring\I/O
status\Generic logic\SRGAPC1\Outputs |
|||||
|
SRGAPC1 |
SR(1) |
SR(1) |
OUT |
LD0.SRGAPC1.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
Q5 |
Q5
status |
Monitoring\I/O
status\Generic logic\SRGAPC1\Outputs |
|||||
|
SRGAPC1 |
SR(1) |
SR(1) |
OUT |
LD0.SRGAPC1.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
Q6 |
Q6
status |
Monitoring\I/O
status\Generic logic\SRGAPC1\Outputs |
|||||
|
SRGAPC1 |
SR(1) |
SR(1) |
OUT |
LD0.SRGAPC1.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
Q7 |
Q7
status |
Monitoring\I/O
status\Generic logic\SRGAPC1\Outputs |
|||||
|
SRGAPC1 |
SR(1) |
SR(1) |
OUT |
LD0.SRGAPC1.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
Q8 |
Q8
status |
Monitoring\I/O
status\Generic logic\SRGAPC1\Outputs |
|||||
|
SRGAPC1 |
SR(1) |
SR(1) |
CTR |
LD0.SRGAPC1.Rs1.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q1 |
Resets
Q1 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC1 |
|||
|
SRGAPC1 |
SR(1) |
SR(1) |
CTR |
LD0.SRGAPC1.Rs2.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q2 |
Resets
Q2 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC1 |
|||
|
SRGAPC1 |
SR(1) |
SR(1) |
CTR |
LD0.SRGAPC1.Rs3.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q3 |
Resets
Q3 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC1 |
|||
|
SRGAPC1 |
SR(1) |
SR(1) |
CTR |
LD0.SRGAPC1.Rs4.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q4 |
Resets
Q4 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC1 |
|||
|
SRGAPC1 |
SR(1) |
SR(1) |
CTR |
LD0.SRGAPC1.Rs5.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q5 |
Resets
Q5 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC1 |
|||
|
SRGAPC1 |
SR(1) |
SR(1) |
CTR |
LD0.SRGAPC1.Rs6.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q6 |
Resets
Q6 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC1 |
|||
|
SRGAPC1 |
SR(1) |
SR(1) |
CTR |
LD0.SRGAPC1.Rs7.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q7 |
Resets
Q7 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC1 |
|||
|
SRGAPC1 |
SR(1) |
SR(1) |
CTR |
LD0.SRGAPC1.Rs8.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q8 |
Resets
Q8 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC1 |
|||
|
SRGAPC1 |
SR(1) |
SR(1) |
CFG |
LD0.SRGAPC1.Rs1.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q1 |
Resets
Q1 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC1 |
|||
|
SRGAPC1 |
SR(1) |
SR(1) |
CFG |
LD0.SRGAPC1.Rs2.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q2 |
Resets
Q2 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC1 |
|||
|
SRGAPC1 |
SR(1) |
SR(1) |
CFG |
LD0.SRGAPC1.Rs3.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q3 |
Resets
Q3 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC1 |
|||
|
SRGAPC1 |
SR(1) |
SR(1) |
CFG |
LD0.SRGAPC1.Rs4.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q4 |
Resets
Q4 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC1 |
|||
|
SRGAPC1 |
SR(1) |
SR(1) |
CFG |
LD0.SRGAPC1.Rs5.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q5 |
Resets
Q5 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC1 |
|||
|
SRGAPC1 |
SR(1) |
SR(1) |
CFG |
LD0.SRGAPC1.Rs6.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q6 |
Resets
Q6 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC1 |
|||
|
SRGAPC1 |
SR(1) |
SR(1) |
CFG |
LD0.SRGAPC1.Rs7.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q7 |
Resets
Q7 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC1 |
|||
|
SRGAPC1 |
SR(1) |
SR(1) |
CFG |
LD0.SRGAPC1.Rs8.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q8 |
Resets
Q8 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC1 |
|||
|
SRGAPC1 |
SR(1) |
SR(1) |
VER |
LD0.SRGAPC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
SRGAPC2 |
SR(2) |
SR(2) |
INP |
LD0.SRGAPC2.Set1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S1 |
Set
Q1 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC2\Inputs |
||||
|
SRGAPC2 |
SR(2) |
SR(2) |
INP |
LD0.SRGAPC2.Set2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S2 |
Set
Q2 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC2\Inputs |
||||
|
SRGAPC2 |
SR(2) |
SR(2) |
INP |
LD0.SRGAPC2.Set3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S3 |
Set
Q3 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC2\Inputs |
||||
|
SRGAPC2 |
SR(2) |
SR(2) |
INP |
LD0.SRGAPC2.Set4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S4 |
Set
Q4 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC2\Inputs |
||||
|
SRGAPC2 |
SR(2) |
SR(2) |
INP |
LD0.SRGAPC2.Set5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S5 |
Set
Q5 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC2\Inputs |
||||
|
SRGAPC2 |
SR(2) |
SR(2) |
INP |
LD0.SRGAPC2.Set6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S6 |
Set
Q6 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC2\Inputs |
||||
|
SRGAPC2 |
SR(2) |
SR(2) |
INP |
LD0.SRGAPC2.Set7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S7 |
Set
Q7 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC2\Inputs |
||||
|
SRGAPC2 |
SR(2) |
SR(2) |
INP |
LD0.SRGAPC2.Set8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S8 |
Set
Q8 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC2\Inputs |
||||
|
SRGAPC2 |
SR(2) |
SR(2) |
INP |
LD0.SRGAPC2.Rs1.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R1 |
Resets
Q1 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC2\Inputs |
||||
|
SRGAPC2 |
SR(2) |
SR(2) |
INP |
LD0.SRGAPC2.Rs2.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R2 |
Resets
Q2 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC2\Inputs |
||||
|
SRGAPC2 |
SR(2) |
SR(2) |
INP |
LD0.SRGAPC2.Rs3.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R3 |
Resets
Q3 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC2\Inputs |
||||
|
SRGAPC2 |
SR(2) |
SR(2) |
INP |
LD0.SRGAPC2.Rs4.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R4 |
Resets
Q4 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC2\Inputs |
||||
|
SRGAPC2 |
SR(2) |
SR(2) |
INP |
LD0.SRGAPC2.Rs5.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R5 |
Resets
Q5 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC2\Inputs |
||||
|
SRGAPC2 |
SR(2) |
SR(2) |
INP |
LD0.SRGAPC2.Rs6.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R6 |
Resets
Q6 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC2\Inputs |
||||
|
SRGAPC2 |
SR(2) |
SR(2) |
INP |
LD0.SRGAPC2.Rs7.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R7 |
Resets
Q7 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC2\Inputs |
||||
|
SRGAPC2 |
SR(2) |
SR(2) |
INP |
LD0.SRGAPC2.Rs8.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R8 |
Resets
Q8 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC2\Inputs |
||||
|
SRGAPC2 |
SR(2) |
SR(2) |
OUT |
LD0.SRGAPC2.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
Q1 |
Q1
status |
Monitoring\I/O
status\Generic logic\SRGAPC2\Outputs |
|||||
|
SRGAPC2 |
SR(2) |
SR(2) |
OUT |
LD0.SRGAPC2.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
Q2 |
Q2
status |
Monitoring\I/O
status\Generic logic\SRGAPC2\Outputs |
|||||
|
SRGAPC2 |
SR(2) |
SR(2) |
OUT |
LD0.SRGAPC2.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
Q3 |
Q3
status |
Monitoring\I/O
status\Generic logic\SRGAPC2\Outputs |
|||||
|
SRGAPC2 |
SR(2) |
SR(2) |
OUT |
LD0.SRGAPC2.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
Q4 |
Q4
status |
Monitoring\I/O
status\Generic logic\SRGAPC2\Outputs |
|||||
|
SRGAPC2 |
SR(2) |
SR(2) |
OUT |
LD0.SRGAPC2.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
Q5 |
Q5
status |
Monitoring\I/O
status\Generic logic\SRGAPC2\Outputs |
|||||
|
SRGAPC2 |
SR(2) |
SR(2) |
OUT |
LD0.SRGAPC2.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
Q6 |
Q6
status |
Monitoring\I/O
status\Generic logic\SRGAPC2\Outputs |
|||||
|
SRGAPC2 |
SR(2) |
SR(2) |
OUT |
LD0.SRGAPC2.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
Q7 |
Q7
status |
Monitoring\I/O
status\Generic logic\SRGAPC2\Outputs |
|||||
|
SRGAPC2 |
SR(2) |
SR(2) |
OUT |
LD0.SRGAPC2.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
Q8 |
Q8
status |
Monitoring\I/O
status\Generic logic\SRGAPC2\Outputs |
|||||
|
SRGAPC2 |
SR(2) |
SR(2) |
CTR |
LD0.SRGAPC2.Rs1.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q1 |
Resets
Q1 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC2 |
|||
|
SRGAPC2 |
SR(2) |
SR(2) |
CTR |
LD0.SRGAPC2.Rs2.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q2 |
Resets
Q2 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC2 |
|||
|
SRGAPC2 |
SR(2) |
SR(2) |
CTR |
LD0.SRGAPC2.Rs3.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q3 |
Resets
Q3 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC2 |
|||
|
SRGAPC2 |
SR(2) |
SR(2) |
CTR |
LD0.SRGAPC2.Rs4.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q4 |
Resets
Q4 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC2 |
|||
|
SRGAPC2 |
SR(2) |
SR(2) |
CTR |
LD0.SRGAPC2.Rs5.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q5 |
Resets
Q5 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC2 |
|||
|
SRGAPC2 |
SR(2) |
SR(2) |
CTR |
LD0.SRGAPC2.Rs6.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q6 |
Resets
Q6 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC2 |
|||
|
SRGAPC2 |
SR(2) |
SR(2) |
CTR |
LD0.SRGAPC2.Rs7.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q7 |
Resets
Q7 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC2 |
|||
|
SRGAPC2 |
SR(2) |
SR(2) |
CTR |
LD0.SRGAPC2.Rs8.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q8 |
Resets
Q8 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC2 |
|||
|
SRGAPC2 |
SR(2) |
SR(2) |
CFG |
LD0.SRGAPC2.Rs1.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q1 |
Resets
Q1 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC2 |
|||
|
SRGAPC2 |
SR(2) |
SR(2) |
CFG |
LD0.SRGAPC2.Rs2.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q2 |
Resets
Q2 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC2 |
|||
|
SRGAPC2 |
SR(2) |
SR(2) |
CFG |
LD0.SRGAPC2.Rs3.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q3 |
Resets
Q3 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC2 |
|||
|
SRGAPC2 |
SR(2) |
SR(2) |
CFG |
LD0.SRGAPC2.Rs4.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q4 |
Resets
Q4 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC2 |
|||
|
SRGAPC2 |
SR(2) |
SR(2) |
CFG |
LD0.SRGAPC2.Rs5.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q5 |
Resets
Q5 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC2 |
|||
|
SRGAPC2 |
SR(2) |
SR(2) |
CFG |
LD0.SRGAPC2.Rs6.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q6 |
Resets
Q6 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC2 |
|||
|
SRGAPC2 |
SR(2) |
SR(2) |
CFG |
LD0.SRGAPC2.Rs7.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q7 |
Resets
Q7 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC2 |
|||
|
SRGAPC2 |
SR(2) |
SR(2) |
CFG |
LD0.SRGAPC2.Rs8.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q8 |
Resets
Q8 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC2 |
|||
|
SRGAPC2 |
SR(2) |
SR(2) |
VER |
LD0.SRGAPC2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
MVGAPC1 |
MV(1) |
MV(1) |
INP |
LD0.MVGAPC1.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q1 |
Q1
status |
Monitoring\I/O
status\Generic logic\MVGAPC1\Outputs |
||
|
MVGAPC1 |
MV(1) |
MV(1) |
INP |
LD0.MVGAPC1.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q2 |
Q2
status |
Monitoring\I/O
status\Generic logic\MVGAPC1\Outputs |
||
|
MVGAPC1 |
MV(1) |
MV(1) |
INP |
LD0.MVGAPC1.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q3 |
Q3
status |
Monitoring\I/O
status\Generic logic\MVGAPC1\Outputs |
||
|
MVGAPC1 |
MV(1) |
MV(1) |
INP |
LD0.MVGAPC1.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q4 |
Q4
status |
Monitoring\I/O
status\Generic logic\MVGAPC1\Outputs |
||
|
MVGAPC1 |
MV(1) |
MV(1) |
INP |
LD0.MVGAPC1.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q5 |
Q5
status |
Monitoring\I/O
status\Generic logic\MVGAPC1\Outputs |
||
|
MVGAPC1 |
MV(1) |
MV(1) |
INP |
LD0.MVGAPC1.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q6 |
Q6
status |
Monitoring\I/O
status\Generic logic\MVGAPC1\Outputs |
||
|
MVGAPC1 |
MV(1) |
MV(1) |
INP |
LD0.MVGAPC1.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q7 |
Q7
status |
Monitoring\I/O
status\Generic logic\MVGAPC1\Outputs |
||
|
MVGAPC1 |
MV(1) |
MV(1) |
INP |
LD0.MVGAPC1.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q8 |
Q8
status |
Monitoring\I/O
status\Generic logic\MVGAPC1\Outputs |
||
|
MVGAPC1 |
MV(1) |
MV(1) |
OUT |
LD0.MVGAPC1.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q1 |
Q1
status |
Monitoring\I/O
status\Generic logic\MVGAPC1\Outputs |
||
|
MVGAPC1 |
MV(1) |
MV(1) |
OUT |
LD0.MVGAPC1.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q2 |
Q2
status |
Monitoring\I/O
status\Generic logic\MVGAPC1\Outputs |
||
|
MVGAPC1 |
MV(1) |
MV(1) |
OUT |
LD0.MVGAPC1.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q3 |
Q3
status |
Monitoring\I/O
status\Generic logic\MVGAPC1\Outputs |
||
|
MVGAPC1 |
MV(1) |
MV(1) |
OUT |
LD0.MVGAPC1.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q4 |
Q4
status |
Monitoring\I/O
status\Generic logic\MVGAPC1\Outputs |
||
|
MVGAPC1 |
MV(1) |
MV(1) |
OUT |
LD0.MVGAPC1.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q5 |
Q5
status |
Monitoring\I/O
status\Generic logic\MVGAPC1\Outputs |
||
|
MVGAPC1 |
MV(1) |
MV(1) |
OUT |
LD0.MVGAPC1.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q6 |
Q6
status |
Monitoring\I/O
status\Generic logic\MVGAPC1\Outputs |
||
|
MVGAPC1 |
MV(1) |
MV(1) |
OUT |
LD0.MVGAPC1.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q7 |
Q7
status |
Monitoring\I/O
status\Generic logic\MVGAPC1\Outputs |
||
|
MVGAPC1 |
MV(1) |
MV(1) |
OUT |
LD0.MVGAPC1.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q8 |
Q8
status |
Monitoring\I/O
status\Generic logic\MVGAPC1\Outputs |
||
|
MVGAPC1 |
MV(1) |
MV(1) |
CFG |
LD0.MVGAPC1.Q1.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC1
Q1 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC1\Output 1 |
||||
|
MVGAPC1 |
MV(1) |
MV(1) |
CFG |
LD0.MVGAPC1.Q2.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC1
Q2 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC1\Output 2 |
||||
|
MVGAPC1 |
MV(1) |
MV(1) |
CFG |
LD0.MVGAPC1.Q3.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC1
Q3 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC1\Output 3 |
||||
|
MVGAPC1 |
MV(1) |
MV(1) |
CFG |
LD0.MVGAPC1.Q4.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC1
Q4 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC1\Output 4 |
||||
|
MVGAPC1 |
MV(1) |
MV(1) |
CFG |
LD0.MVGAPC1.Q5.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC1
Q5 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC1\Output 5 |
||||
|
MVGAPC1 |
MV(1) |
MV(1) |
CFG |
LD0.MVGAPC1.Q6.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC1
Q6 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC1\Output 6 |
||||
|
MVGAPC1 |
MV(1) |
MV(1) |
CFG |
LD0.MVGAPC1.Q7.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC1
Q7 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC1\Output 7 |
||||
|
MVGAPC1 |
MV(1) |
MV(1) |
CFG |
LD0.MVGAPC1.Q8.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC1
Q8 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC1\Output 8 |
||||
|
MVGAPC1 |
MV(1) |
MV(1) |
VER |
LD0.MVGAPC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
MVGAPC2 |
MV(2) |
MV(2) |
INP |
LD0.MVGAPC2.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q1 |
Q1
status |
Monitoring\I/O
status\Generic logic\MVGAPC2\Outputs |
||
|
MVGAPC2 |
MV(2) |
MV(2) |
INP |
LD0.MVGAPC2.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q2 |
Q2
status |
Monitoring\I/O
status\Generic logic\MVGAPC2\Outputs |
||
|
MVGAPC2 |
MV(2) |
MV(2) |
INP |
LD0.MVGAPC2.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q3 |
Q3
status |
Monitoring\I/O
status\Generic logic\MVGAPC2\Outputs |
||
|
MVGAPC2 |
MV(2) |
MV(2) |
INP |
LD0.MVGAPC2.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q4 |
Q4
status |
Monitoring\I/O
status\Generic logic\MVGAPC2\Outputs |
||
|
MVGAPC2 |
MV(2) |
MV(2) |
INP |
LD0.MVGAPC2.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q5 |
Q5
status |
Monitoring\I/O
status\Generic logic\MVGAPC2\Outputs |
||
|
MVGAPC2 |
MV(2) |
MV(2) |
INP |
LD0.MVGAPC2.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q6 |
Q6
status |
Monitoring\I/O
status\Generic logic\MVGAPC2\Outputs |
||
|
MVGAPC2 |
MV(2) |
MV(2) |
INP |
LD0.MVGAPC2.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q7 |
Q7
status |
Monitoring\I/O
status\Generic logic\MVGAPC2\Outputs |
||
|
MVGAPC2 |
MV(2) |
MV(2) |
INP |
LD0.MVGAPC2.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q8 |
Q8
status |
Monitoring\I/O
status\Generic logic\MVGAPC2\Outputs |
||
|
MVGAPC2 |
MV(2) |
MV(2) |
OUT |
LD0.MVGAPC2.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q1 |
Q1
status |
Monitoring\I/O
status\Generic logic\MVGAPC2\Outputs |
||
|
MVGAPC2 |
MV(2) |
MV(2) |
OUT |
LD0.MVGAPC2.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q2 |
Q2
status |
Monitoring\I/O
status\Generic logic\MVGAPC2\Outputs |
||
|
MVGAPC2 |
MV(2) |
MV(2) |
OUT |
LD0.MVGAPC2.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q3 |
Q3
status |
Monitoring\I/O
status\Generic logic\MVGAPC2\Outputs |
||
|
MVGAPC2 |
MV(2) |
MV(2) |
OUT |
LD0.MVGAPC2.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q4 |
Q4
status |
Monitoring\I/O
status\Generic logic\MVGAPC2\Outputs |
||
|
MVGAPC2 |
MV(2) |
MV(2) |
OUT |
LD0.MVGAPC2.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q5 |
Q5
status |
Monitoring\I/O
status\Generic logic\MVGAPC2\Outputs |
||
|
MVGAPC2 |
MV(2) |
MV(2) |
OUT |
LD0.MVGAPC2.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q6 |
Q6
status |
Monitoring\I/O
status\Generic logic\MVGAPC2\Outputs |
||
|
MVGAPC2 |
MV(2) |
MV(2) |
OUT |
LD0.MVGAPC2.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q7 |
Q7
status |
Monitoring\I/O
status\Generic logic\MVGAPC2\Outputs |
||
|
MVGAPC2 |
MV(2) |
MV(2) |
OUT |
LD0.MVGAPC2.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q8 |
Q8
status |
Monitoring\I/O
status\Generic logic\MVGAPC2\Outputs |
||
|
MVGAPC2 |
MV(2) |
MV(2) |
CFG |
LD0.MVGAPC2.Q1.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC2
Q1 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC2\Output 1 |
||||
|
MVGAPC2 |
MV(2) |
MV(2) |
CFG |
LD0.MVGAPC2.Q2.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC2
Q2 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC2\Output 2 |
||||
|
MVGAPC2 |
MV(2) |
MV(2) |
CFG |
LD0.MVGAPC2.Q3.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC2
Q3 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC2\Output 3 |
||||
|
MVGAPC2 |
MV(2) |
MV(2) |
CFG |
LD0.MVGAPC2.Q4.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC2
Q4 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC2\Output 4 |
||||
|
MVGAPC2 |
MV(2) |
MV(2) |
CFG |
LD0.MVGAPC2.Q5.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC2
Q5 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC2\Output 5 |
||||
|
MVGAPC2 |
MV(2) |
MV(2) |
CFG |
LD0.MVGAPC2.Q6.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC2
Q6 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC2\Output 6 |
||||
|
MVGAPC2 |
MV(2) |
MV(2) |
CFG |
LD0.MVGAPC2.Q7.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC2
Q7 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC2\Output 7 |
||||
|
MVGAPC2 |
MV(2) |
MV(2) |
CFG |
LD0.MVGAPC2.Q8.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC2
Q8 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC2\Output 8 |
||||
|
MVGAPC2 |
MV(2) |
MV(2) |
VER |
LD0.MVGAPC2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
INP |
LD0.SPCGGIO1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Inputs |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
INP |
LD0.SPCGGIO1.SPCSO1.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O1 |
Output
1 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
INP |
LD0.SPCGGIO1.SPCSO2.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O2 |
Output
2 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
INP |
LD0.SPCGGIO1.SPCSO3.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O3 |
Output
3 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
INP |
LD0.SPCGGIO1.SPCSO4.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O4 |
Output
4 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
INP |
LD0.SPCGGIO1.SPCSO5.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O5 |
Output
5 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
INP |
LD0.SPCGGIO1.SPCSO6.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O6 |
Output
6 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
INP |
LD0.SPCGGIO1.SPCSO7.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O7 |
Output
7 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
INP |
LD0.SPCGGIO1.SPCSO8.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O8 |
Output
8 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
INP |
LD0.SPCGGIO1.SPCSO9.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O9 |
Output
9 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
INP |
LD0.SPCGGIO1.SPCSO10.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O10 |
Output
10 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
INP |
LD0.SPCGGIO1.SPCSO11.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O11 |
Output
11 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
INP |
LD0.SPCGGIO1.SPCSO12.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O12 |
Output
12 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
INP |
LD0.SPCGGIO1.SPCSO13.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O13 |
Output
13 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
INP |
LD0.SPCGGIO1.SPCSO14.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O14 |
Output
14 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
INP |
LD0.SPCGGIO1.SPCSO15.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O15 |
Output
15 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
INP |
LD0.SPCGGIO1.SPCSO16.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O16 |
Output
16 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
OUT |
LD0.SPCGGIO1.SPCSO1.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O1 |
Output
1 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
OUT |
LD0.SPCGGIO1.SPCSO2.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O2 |
Output
2 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
OUT |
LD0.SPCGGIO1.SPCSO3.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O3 |
Output
3 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
OUT |
LD0.SPCGGIO1.SPCSO4.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O4 |
Output
4 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
OUT |
LD0.SPCGGIO1.SPCSO5.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O5 |
Output
5 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
OUT |
LD0.SPCGGIO1.SPCSO6.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O6 |
Output
6 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
OUT |
LD0.SPCGGIO1.SPCSO7.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O7 |
Output
7 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
OUT |
LD0.SPCGGIO1.SPCSO8.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O8 |
Output
8 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
OUT |
LD0.SPCGGIO1.SPCSO9.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O9 |
Output
9 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
OUT |
LD0.SPCGGIO1.SPCSO10.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O10 |
Output
10 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
OUT |
LD0.SPCGGIO1.SPCSO11.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O11 |
Output
11 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
OUT |
LD0.SPCGGIO1.SPCSO12.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O12 |
Output
12 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
OUT |
LD0.SPCGGIO1.SPCSO13.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O13 |
Output
13 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
OUT |
LD0.SPCGGIO1.SPCSO14.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O14 |
Output
14 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
OUT |
LD0.SPCGGIO1.SPCSO15.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O15 |
Output
15 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
OUT |
LD0.SPCGGIO1.SPCSO16.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O16 |
Output
16 status |
Monitoring\I/O
status\Generic logic\SPCGGIO1\Outputs |
||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CTR |
LD0.SPCGGIO1.SPCSO1.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
1 |
Trig
output 1 |
Control\SPCGGIO1 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CTR |
LD0.SPCGGIO1.SPCSO2.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
2 |
Trig
output 2 |
Control\SPCGGIO1 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CTR |
LD0.SPCGGIO1.SPCSO3.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
3 |
Trig
output 3 |
Control\SPCGGIO1 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CTR |
LD0.SPCGGIO1.SPCSO4.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
4 |
Trig
output 4 |
Control\SPCGGIO1 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CTR |
LD0.SPCGGIO1.SPCSO5.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
5 |
Trig
output 5 |
Control\SPCGGIO1 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CTR |
LD0.SPCGGIO1.SPCSO6.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
6 |
Trig
output 6 |
Control\SPCGGIO1 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CTR |
LD0.SPCGGIO1.SPCSO7.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
7 |
Trig
output 7 |
Control\SPCGGIO1 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CTR |
LD0.SPCGGIO1.SPCSO8.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
8 |
Trig
output 8 |
Control\SPCGGIO1 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CTR |
LD0.SPCGGIO1.SPCSO9.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
9 |
Trig
output 9 |
Control\SPCGGIO1 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CTR |
LD0.SPCGGIO1.SPCSO10.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
10 |
Trig
output 10 |
Control\SPCGGIO1 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CTR |
LD0.SPCGGIO1.SPCSO11.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
11 |
Trig
output 11 |
Control\SPCGGIO1 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CTR |
LD0.SPCGGIO1.SPCSO12.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
12 |
Trig
output 12 |
Control\SPCGGIO1 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CTR |
LD0.SPCGGIO1.SPCSO13.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
13 |
Trig
output 13 |
Control\SPCGGIO1 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CTR |
LD0.SPCGGIO1.SPCSO14.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
14 |
Trig
output 14 |
Control\SPCGGIO1 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CTR |
LD0.SPCGGIO1.SPCSO15.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
15 |
Trig
output 15 |
Control\SPCGGIO1 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CTR |
LD0.SPCGGIO1.SPCSO16.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
16 |
Trig
output 16 |
Control\SPCGGIO1 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO1.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO1\Output 1 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO1.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
500 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO1\Output 1 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO1.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO1
Output 1 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO1\Output 1 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO2.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO1\Output 2 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO2.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
500 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO1\Output 2 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO2.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO1
Output 2 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO1\Output 2 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO3.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO1\Output 3 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO3.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
500 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO1\Output 3 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO3.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO1
Output 3 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO1\Output 3 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO4.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO1\Output 4 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO4.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
500 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO1\Output 4 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO4.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO1
Output 4 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO1\Output 4 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO5.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
0 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO1\Output 5 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO5.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
500 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO1\Output 5 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO5.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO1
Output 5 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO1\Output 5 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO6.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
0 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO1\Output 6 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO6.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
500 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO1\Output 6 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO6.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO1
Output 6 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO1\Output 6 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO7.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
0 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO1\Output 7 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO7.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
500 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO1\Output 7 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO7.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO1
Output 7 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO1\Output 7 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO8.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
0 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO1\Output 8 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO8.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
500 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO1\Output 8 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO8.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO1
Output 8 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO1\Output 8 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO9.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO1\Output 9 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO9.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO1\Output 9 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO9.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO1
Output 9 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO1\Output 9 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO10.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO1\Output 10 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO10.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO1\Output 10 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO10.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO1
Output 10 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO1\Output 10 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO11.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO1\Output 11 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO11.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO1\Output 11 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO11.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO1
Output 11 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO1\Output 11 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO12.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO1\Output 12 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO12.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO1\Output 12 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO12.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO1
Output 12 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO1\Output 12 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO13.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO1\Output 13 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO13.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO1\Output 13 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO13.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO1
Output 13 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO1\Output 13 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO14.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO1\Output 14 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO14.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO1\Output 14 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO14.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO1
Output 14 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO1\Output 14 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO15.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO1\Output 15 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO15.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO1\Output 15 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO15.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO1
Output 15 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO1\Output 15 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO16.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO1\Output 16 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO16.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO1\Output 16 |
|||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.SPCSO16.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO1
Output 16 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO1\Output 16 |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
CFG |
LD0.SPCGGIO1.LocRemRst.setVal |
SPG |
BOOLEAN |
SP |
B |
0 |
Loc
Rem restriction |
Local
remote switch restriction |
Configuration\Generic
logic\SPCGGIO1\General |
||||
|
SPCGGIO1 |
SPC(1) |
SPC(1) |
VER |
LD0.SPCGGIO1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
INP |
LD0.SPCGGIO2.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Inputs |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
INP |
LD0.SPCGGIO2.SPCSO1.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O1 |
Output
1 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
INP |
LD0.SPCGGIO2.SPCSO2.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O2 |
Output
2 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
INP |
LD0.SPCGGIO2.SPCSO3.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O3 |
Output
3 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
INP |
LD0.SPCGGIO2.SPCSO4.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O4 |
Output
4 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
INP |
LD0.SPCGGIO2.SPCSO5.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O5 |
Output
5 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
INP |
LD0.SPCGGIO2.SPCSO6.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O6 |
Output
6 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
INP |
LD0.SPCGGIO2.SPCSO7.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O7 |
Output
7 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
INP |
LD0.SPCGGIO2.SPCSO8.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O8 |
Output
8 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
INP |
LD0.SPCGGIO2.SPCSO9.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O9 |
Output
9 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
INP |
LD0.SPCGGIO2.SPCSO10.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O10 |
Output
10 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
INP |
LD0.SPCGGIO2.SPCSO11.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O11 |
Output
11 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
INP |
LD0.SPCGGIO2.SPCSO12.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O12 |
Output
12 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
INP |
LD0.SPCGGIO2.SPCSO13.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O13 |
Output
13 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
INP |
LD0.SPCGGIO2.SPCSO14.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O14 |
Output
14 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
INP |
LD0.SPCGGIO2.SPCSO15.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O15 |
Output
15 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
INP |
LD0.SPCGGIO2.SPCSO16.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O16 |
Output
16 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
OUT |
LD0.SPCGGIO2.SPCSO1.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O1 |
Output
1 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
OUT |
LD0.SPCGGIO2.SPCSO2.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O2 |
Output
2 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
OUT |
LD0.SPCGGIO2.SPCSO3.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O3 |
Output
3 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
OUT |
LD0.SPCGGIO2.SPCSO4.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O4 |
Output
4 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
OUT |
LD0.SPCGGIO2.SPCSO5.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O5 |
Output
5 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
OUT |
LD0.SPCGGIO2.SPCSO6.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O6 |
Output
6 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
OUT |
LD0.SPCGGIO2.SPCSO7.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O7 |
Output
7 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
OUT |
LD0.SPCGGIO2.SPCSO8.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O8 |
Output
8 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
OUT |
LD0.SPCGGIO2.SPCSO9.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O9 |
Output
9 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
OUT |
LD0.SPCGGIO2.SPCSO10.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O10 |
Output
10 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
OUT |
LD0.SPCGGIO2.SPCSO11.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O11 |
Output
11 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
OUT |
LD0.SPCGGIO2.SPCSO12.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O12 |
Output
12 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
OUT |
LD0.SPCGGIO2.SPCSO13.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O13 |
Output
13 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
OUT |
LD0.SPCGGIO2.SPCSO14.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O14 |
Output
14 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
OUT |
LD0.SPCGGIO2.SPCSO15.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O15 |
Output
15 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
OUT |
LD0.SPCGGIO2.SPCSO16.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O16 |
Output
16 status |
Monitoring\I/O
status\Generic logic\SPCGGIO2\Outputs |
||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CTR |
LD0.SPCGGIO2.SPCSO1.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
1 |
Trig
output 1 |
Control\SPCGGIO2 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CTR |
LD0.SPCGGIO2.SPCSO2.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
2 |
Trig
output 2 |
Control\SPCGGIO2 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CTR |
LD0.SPCGGIO2.SPCSO3.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
3 |
Trig
output 3 |
Control\SPCGGIO2 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CTR |
LD0.SPCGGIO2.SPCSO4.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
4 |
Trig
output 4 |
Control\SPCGGIO2 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CTR |
LD0.SPCGGIO2.SPCSO5.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
5 |
Trig
output 5 |
Control\SPCGGIO2 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CTR |
LD0.SPCGGIO2.SPCSO6.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
6 |
Trig
output 6 |
Control\SPCGGIO2 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CTR |
LD0.SPCGGIO2.SPCSO7.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
7 |
Trig
output 7 |
Control\SPCGGIO2 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CTR |
LD0.SPCGGIO2.SPCSO8.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
8 |
Trig
output 8 |
Control\SPCGGIO2 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CTR |
LD0.SPCGGIO2.SPCSO9.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
9 |
Trig
output 9 |
Control\SPCGGIO2 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CTR |
LD0.SPCGGIO2.SPCSO10.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
10 |
Trig
output 10 |
Control\SPCGGIO2 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CTR |
LD0.SPCGGIO2.SPCSO11.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
11 |
Trig
output 11 |
Control\SPCGGIO2 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CTR |
LD0.SPCGGIO2.SPCSO12.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
12 |
Trig
output 12 |
Control\SPCGGIO2 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CTR |
LD0.SPCGGIO2.SPCSO13.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
13 |
Trig
output 13 |
Control\SPCGGIO2 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CTR |
LD0.SPCGGIO2.SPCSO14.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
14 |
Trig
output 14 |
Control\SPCGGIO2 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CTR |
LD0.SPCGGIO2.SPCSO15.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
15 |
Trig
output 15 |
Control\SPCGGIO2 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CTR |
LD0.SPCGGIO2.SPCSO16.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
16 |
Trig
output 16 |
Control\SPCGGIO2 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO1.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO2\Output 1 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO1.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO2\Output 1 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO1.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO2
Output 1 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO2\Output 1 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO2.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO2\Output 2 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO2.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO2\Output 2 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO2.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO2
Output 2 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO2\Output 2 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO3.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO2\Output 3 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO3.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO2\Output 3 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO3.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO2
Output 3 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO2\Output 3 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO4.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO2\Output 4 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO4.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO2\Output 4 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO4.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO2
Output 4 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO2\Output 4 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO5.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO2\Output 5 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO5.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO2\Output 5 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO5.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO2
Output 5 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO2\Output 5 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO6.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO2\Output 6 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO6.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO2\Output 6 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO6.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO2
Output 6 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO2\Output 6 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO7.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO2\Output 7 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO7.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO2\Output 7 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO7.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO2
Output 7 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO2\Output 7 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO8.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO2\Output 8 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO8.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO2\Output 8 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO8.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO2
Output 8 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO2\Output 8 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO9.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO2\Output 9 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO9.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO2\Output 9 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO9.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO2
Output 9 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO2\Output 9 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO10.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO2\Output 10 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO10.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO2\Output 10 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO10.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO2
Output 10 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO2\Output 10 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO11.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO2\Output 11 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO11.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO2\Output 11 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO11.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO2
Output 11 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO2\Output 11 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO12.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO2\Output 12 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO12.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO2\Output 12 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO12.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO2
Output 12 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO2\Output 12 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO13.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO2\Output 13 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO13.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO2\Output 13 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO13.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO2
Output 13 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO2\Output 13 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO14.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO2\Output 14 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO14.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO2\Output 14 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO14.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO2
Output 14 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO2\Output 14 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO15.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO2\Output 15 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO15.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO2\Output 15 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO15.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO2
Output 15 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO2\Output 15 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO16.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO2\Output 16 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO16.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO2\Output 16 |
|||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.SPCSO16.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO2
Output 16 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO2\Output 16 |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
CFG |
LD0.SPCGGIO2.LocRemRst.setVal |
SPG |
BOOLEAN |
SP |
B |
0 |
Loc
Rem restriction |
Local
remote switch restriction |
Configuration\Generic
logic\SPCGGIO2\General |
||||
|
SPCGGIO2 |
SPC(2) |
SPC(2) |
VER |
LD0.SPCGGIO2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
T1PTTR1 |
3Ith>F(1) |
49F |
INP |
LD0.T1PTTR1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLK_OPR |
Block
signal for operate outputs |
Monitoring\I/O
status\Current protection\T1PTTR1\Inputs |
||||
|
T1PTTR1 |
3Ith>F(1) |
49F |
INP |
LD0.T1PTTR1.InEnaMult.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ENA_MULT |
Enable
Current multiplier |
Monitoring\I/O
status\Current protection\T1PTTR1\Inputs |
||||
|
T1PTTR1 |
3Ith>F(1) |
49F |
INP |
LD0.T1PTTR1.TmpUsed.mag.f |
MV |
FLOAT32 |
MX |
B |
0 |
TEMP_AMB |
The
ambient temperature used in the calculation |
-99...999
°C |
Monitoring\I/O
status\Current protection\T1PTTR1\Monitored data |
|||
|
T1PTTR1 |
3Ith>F(1) |
49F |
OUT |
LD0.T1PTTR1.AlmThm.general |
ACT |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
ALARM |
Thermal
Alarm |
Monitoring\I/O
status\Current protection\T1PTTR1\Outputs |
|||
|
T1PTTR1 |
3Ith>F(1) |
49F |
OUT |
LD0.T1PTTR1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Current protection\T1PTTR1\Outputs |
|||
|
T1PTTR1 |
3Ith>F(1) |
49F |
OUT |
LD0.T1PTTR1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Current protection\T1PTTR1\Outputs |
|||
|
T1PTTR1 |
3Ith>F(1) |
49F |
OUT |
LD0.T1PTTR1.InhRec.stVal |
SPS |
BOOLEAN |
ST |
B |
BLK_CLOSE |
Thermal
overload indicator. To inhibite reclose. |
Monitoring\I/O
status\Current protection\T1PTTR1\Outputs |
|||||
|
T1PTTR1 |
3Ith>F(1) |
49F |
CTR |
LD0.T1PTTR1.RsTmp.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
T1PTTR1
temperature |
Reset
T1PTTR1 tempetature |
0=Cancel;
1=Clear |
Clear\Clear |
|||
|
T1PTTR1 |
3Ith>F(1) |
49F |
MON |
LD0.T1PTTR1.Beh.stVal |
INS |
Enum |
ST |
B |
T1PTTR1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
T1PTTR1 |
3Ith>F(1) |
49F |
MON |
LD0.T1PTTR1.Tmp.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasFlt |
P |
TEMP |
The
calculated temperature of the protected object |
-100.0...9999.9
°C |
Monitoring\I/O
status\Current protection\T1PTTR1\Monitored data |
||
|
T1PTTR1 |
3Ith>F(1) |
49F |
MON |
LD0.T1PTTR1.TmpRl.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasFlt |
P |
TEMP_RL |
The
calculated temperature of the protected object relative to the operate level |
0.00...99.99 |
Monitoring\I/O
status\Current protection\T1PTTR1\Monitored data |
||
|
T1PTTR1 |
3Ith>F(1) |
49F |
MON |
LD0.T1PTTR1.TmsOp.stVal |
INS |
INT32 |
ST |
B |
T_OPERATE |
Estimated
time to operate |
0...60000
s |
Monitoring\I/O
status\Current protection\T1PTTR1\Monitored data |
||||
|
T1PTTR1 |
3Ith>F(1) |
49F |
MON |
LD0.T1PTTR1.TmsRecEna.stVal |
INS |
INT32 |
ST |
B |
T_ENA_CLOSE |
Estimated
time to deactivate BLK_CLOSE |
0...60000
s |
Monitoring\I/O
status\Current protection\T1PTTR1\Monitored data |
||||
|
T1PTTR1 |
3Ith>F(1) |
49F |
SET |
LD0.T1PTTR1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\T1PTTR1 |
|||
|
T1PTTR1 |
3Ith>F(1) |
49F |
SET |
LD0.T1PTTR1.TmpMax.setMag.f |
ASG |
FLOAT32 |
SG |
B |
90.0 |
Maximum
temperature |
Temperature
level for operate |
20.0...200.0
°C |
Settings\Settings\Current
protection\T1PTTR1 |
|||
|
T1PTTR1 |
3Ith>F(1) |
49F |
SET |
LD0.T1PTTR1.AlmVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
80.0 |
Alarm
value |
Temperature
level for start (alarm) |
20.0...150.0
°C |
Settings\Settings\Current
protection\T1PTTR1 |
|||
|
T1PTTR1 |
3Ith>F(1) |
49F |
SET |
LD0.T1PTTR1.ConsTms.setVal |
ING |
INT32 |
SG |
B |
2700 |
Time
constant |
Time
constant of the line in seconds. |
60...60000
s |
Settings\Settings\Current
protection\T1PTTR1 |
|||
|
T1PTTR1 |
3Ith>F(1) |
49F |
SET |
LD0.T1PTTR1.AMult.setVal |
ING |
INT32 |
SG |
B |
1 |
Current
multiplier |
Current
multiplier when function is used for parallel lines |
1...5 |
Settings\Settings\Current
protection\T1PTTR1 |
|||
|
T1PTTR1 |
3Ith>F(1) |
49F |
SET |
LD0.T1PTTR1.ARef.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.00 |
Current
reference |
The
load current leading to Temperature raise temperature |
0.05...4.00
xIn |
Settings\Settings\Current
protection\T1PTTR1 |
IL1TCTR1 |
||
|
T1PTTR1 |
3Ith>F(1) |
49F |
SET |
LD0.T1PTTR1.EnvTmpSet.setMag.f |
ASG |
FLOAT32 |
SG |
B |
40 |
Env
temperature Set |
Ambient
temperature used when no external temperature measurement available |
-50...100
°C |
Settings\Settings\Current
protection\T1PTTR1 |
|||
|
T1PTTR1 |
3Ith>F(1) |
49F |
SET |
LD0.T1PTTR1.IniTmp.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.0 |
Initial
temperature |
Temperature
raise above ambient temperature at startup |
-50.0...100.0
°C |
Settings\Settings\Current
protection\T1PTTR1 |
|||
|
T1PTTR1 |
3Ith>F(1) |
49F |
SET |
LD0.T1PTTR1.RecTmpSet.setMag.f |
ASG |
FLOAT32 |
SG |
B |
70.0 |
Reclose
temperature |
Temperature
for reset of block reclose after operate |
20.0...150.0
°C |
Settings\Settings\Current
protection\T1PTTR1 |
|||
|
T1PTTR1 |
3Ith>F(1) |
49F |
SET |
LD0.T1PTTR1.TmpR.setMag.f |
ASG |
FLOAT32 |
SG |
B |
75.0 |
Temperature
rise |
End
temperature rise above ambient |
0.0...200.0
°C |
Settings\Settings\Current
protection\T1PTTR1 |
|||
|
T1PTTR1 |
3Ith>F(1) |
49F |
TES |
LD0.T1PTTR1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
T1PTTR1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE;
17=Activate ALARM; 18=Deactive ALARM; 21=Activate BLK_CLOSE; 22=Deactive
BLK_CLOSE |
Tests\Function
tests\Current protection |
|||
|
T1PTTR1 |
3Ith>F(1) |
49F |
VER |
LD0.T1PTTR1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
D |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
Current
(Io,CT) |
CTR |
LD0.RESTCTR1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
I |
(Mode) |
|||||||||
|
Current
(Io,CT) |
CFG |
LD0.RESTCTR1.Cor.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
1.000 |
Amplitude
corr. |
Amplitude
correction |
0.900...1.100 |
Configuration\Analog
inputs\Current (Io,CT) |
|||||
|
Current
(Io,CT) |
CFG |
LD0.RESTCTR1.ARtg.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
120 |
Primary
current |
Primary
current |
1.0...6000.0
A |
Configuration\Analog
inputs\Current (Io,CT) |
|||||
|
Current
(Io,CT) |
CFG |
LD0.RESTCTR1.ARtgSec.setVal |
ING |
Enum |
SP |
B,I |
2 |
Secondary
current |
Secondary
current |
1=0.2A;
2=1A; 3=5A |
Configuration\Analog
inputs\Current (Io,CT) |
|||||
|
Current
(Io,CT) |
CFG |
LD0.RESTCTR1.RevPol.setVal |
SPG |
BOOLEAN |
SP |
B,I |
0 |
Reverse
polarity |
Reverse
the polarity of the residual CT |
Configuration\Analog
inputs\Current (Io,CT) |
||||||
|
Current
(Io,CT) |
VER |
LD0.RESTCTR1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
X120
(AIM) |
X120
(AIM) |
X120
(AIM) |
CTR |
LD0.XGGIO120.Mod.Oper.ctlVal |
INC |
Enum |
CO |
I |
(Mode) |
|||||||
|
X120
(AIM) |
X120
(AIM) |
X120
(AIM) |
MON |
LD0.XGGIO120.Ind1.stVal |
SPS |
BOOLEAN |
ST |
B,# |
StatIO |
P |
X120-Input
1 |
Connectors
1-2c |
Monitoring\I/O
status\Binary input values\X120 (AIM) |
|||
|
X120
(AIM) |
X120
(AIM) |
X120
(AIM) |
MON |
LD0.XGGIO120.Ind2.stVal |
SPS |
BOOLEAN |
ST |
B,# |
StatIO |
P |
X120-Input
2 |
Connectors
3-2c |
Monitoring\I/O
status\Binary input values\X120 (AIM) |
|||
|
X120
(AIM) |
X120
(AIM) |
X120
(AIM) |
MON |
LD0.XGGIO120.Ind3.stVal |
SPS |
BOOLEAN |
ST |
B,# |
StatIO |
P |
X120-Input
3 |
Connectors
4-2c |
Monitoring\I/O
status\Binary input values\X120 (AIM) |
|||
|
X120
(AIM) |
X120
(AIM) |
X120
(AIM) |
MON |
LD0.XGGIO120.Ind4.stVal |
SPS |
BOOLEAN |
ST |
B,# |
StatIO |
P |
X120-Input
4 |
Connectors
5-6 |
Monitoring\I/O
status\Binary input values\X120 (AIM) |
|||
|
X120
(AIM) |
X120
(AIM) |
X120
(AIM) |
CFG |
LD0.XGGIO120.OpDlTmms1.setVal |
ING |
INT32 |
SP |
B,I,# |
5 |
Input
1 filter time |
Connectors
1-2c |
5...1000
ms |
Configuration\I/O
modules\X120 (AIM)\Input filtering |
|||
|
X120
(AIM) |
X120
(AIM) |
X120
(AIM) |
CFG |
LD0.XGGIO120.OpDlTmms2.setVal |
ING |
INT32 |
SP |
B,I,# |
5 |
Input
2 filter time |
Connectors
3-2c |
5...1000
ms |
Configuration\I/O
modules\X120 (AIM)\Input filtering |
|||
|
X120
(AIM) |
X120
(AIM) |
X120
(AIM) |
CFG |
LD0.XGGIO120.OpDlTmms3.setVal |
ING |
INT32 |
SP |
B,I,# |
5 |
Input
3 filter time |
Connectors
4-2c |
5...1000
ms |
Configuration\I/O
modules\X120 (AIM)\Input filtering |
|||
|
X120
(AIM) |
X120
(AIM) |
X120
(AIM) |
CFG |
LD0.XGGIO120.OpDlTmms4.setVal |
ING |
INT32 |
SP |
B,I,# |
5 |
Input
4 filter time |
Connectors
5-6 |
5...1000
ms |
Configuration\I/O
modules\X120 (AIM)\Input filtering |
|||
|
X120
(AIM) |
X120
(AIM) |
X120
(AIM) |
CFG |
LD0.XGGIO120.DiInvert1.setVal |
SPG |
BOOLEAN |
SP |
B,I,# |
0 |
Input
1 inversion |
Connectors
1-2c |
Configuration\I/O
modules\X120 (AIM)\Input inversion |
||||
|
X120
(AIM) |
X120
(AIM) |
X120
(AIM) |
CFG |
LD0.XGGIO120.DiInvert2.setVal |
SPG |
BOOLEAN |
SP |
B,I,# |
0 |
Input
2 inversion |
Connectors
3-2c |
Configuration\I/O
modules\X120 (AIM)\Input inversion |
||||
|
X120
(AIM) |
X120
(AIM) |
X120
(AIM) |
CFG |
LD0.XGGIO120.DiInvert3.setVal |
SPG |
BOOLEAN |
SP |
B,I,# |
0 |
Input
3 inversion |
Connectors
4-2c |
Configuration\I/O
modules\X120 (AIM)\Input inversion |
||||
|
X120
(AIM) |
X120
(AIM) |
X120
(AIM) |
CFG |
LD0.XGGIO120.DiInvert4.setVal |
SPG |
BOOLEAN |
SP |
B,I,# |
0 |
Input
4 inversion |
Connectors
5-6 |
Configuration\I/O
modules\X120 (AIM)\Input inversion |
||||
|
X120
(AIM) |
X120
(AIM) |
X120
(AIM) |
INF |
LD0.XGGIO120.EEName.hwRev |
DPL |
VisString255
(20) |
DC |
B |
0 |
HW
revision |
Card
HW revision |
Information\HW
modules\X120 (AIM) |
||||
|
X120
(AIM) |
X120
(AIM) |
X120
(AIM) |
INF |
LD0.XGGIO120.EEName.serNum |
DPL |
VisString255
(20) |
DC |
B |
0 |
Serial
number |
Card
serial number |
Information\HW
modules\X120 (AIM) |
||||
|
X120
(AIM) |
X120
(AIM) |
X120
(AIM) |
INF |
LD0.XGGIO120.EEName.eArtNum |
DPL |
VisString255
(20) |
EX |
B |
0 |
Article
number |
Card
article number |
Information\HW
modules\X120 (AIM) |
||||
|
X120
(AIM) |
X120
(AIM) |
X120
(AIM) |
INF |
LD0.XGGIO120.EEName.eManDate |
DPL |
VisString255
(20) |
EX |
B |
0 |
Manufacturing
date |
Card
manufacturing date |
Information\HW
modules\X120 (AIM) |
||||
|
X120
(AIM) |
X120
(AIM) |
X120
(AIM) |
INF |
LD0.XGGIO120.EEName.eTestDate |
DPL |
VisString255
(20) |
EX |
B |
0 |
Test
date |
Card
test date |
Information\HW
modules\X120 (AIM) |
||||
|
X120
(AIM) |
X120
(AIM) |
X120
(AIM) |
VER |
LD0.XGGIO120.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
C |
(Name
plate) |
|||||||
|
X120
(AIM) |
X120
(AIM) |
X120
(AIM) |
VER |
LD0.XGGIO120.EEName.swRev |
DPL |
VisString255
(20) |
DC |
- |
(Card
information) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
RESCMMXU1 |
Io |
In |
INP |
LD0.RESCMMXU1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for all binary outputs |
Monitoring\I/O
status\Measurements\RESCMMXU1\Inputs |
||||
|
RESCMMXU1 |
Io |
In |
OUT |
LD0.RESCMMXU1.HiAlm.stVal |
SPS |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
HIGH_ALARM |
High
alarm |
Monitoring\I/O
status\Measurements\RESCMMXU1\Outputs |
|||
|
RESCMMXU1 |
Io |
In |
OUT |
LD0.RESCMMXU1.HiWrn.stVal |
SPS |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
HIGH_WARN |
High
warning |
Monitoring\I/O
status\Measurements\RESCMMXU1\Outputs |
|||
|
RESCMMXU1 |
Io |
In |
CTR |
LD0.RESCMMXU1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Measurements\RESCMMXU1 |
|||
|
RESCMMXU1 |
Io |
In |
CTR |
LD0.RESCMSTA1.RecRs.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(RESCMMXU1
demands) |
||||||||
|
RESCMMXU1 |
Io |
In |
MON |
LD0.RESCMMXU1.A.res.instCVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
Io-A |
Measured
residual current |
0.00...40.00
xIn |
Measurements\RESCMMXU1 |
||
|
RESCMMXU1 |
Io |
In |
MON |
LD0.RESCMMXU1.A.res.instCVal.ang.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
I_ANGL_RES |
Residual
current angle |
-180.00...180.00
deg |
Monitoring\I/O
status\Measurements\RESCMMXU1\Monitored data |
||
|
RESCMMXU1 |
Io |
In |
MON |
LD0.RESCMMXU1.A.res.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
I_DB_RES |
Residual
current Amplitude, magnitude of reported value |
0.00...40.00
xIn |
Monitoring\I/O
status\Measurements\RESCMMXU1\Monitored data |
||
|
RESCMMXU1 |
Io |
In |
MON |
LD0.RESCMMXU1.A.res.range |
WYE |
Enum |
MX |
B |
MeasFlt |
P |
I_RANGE_RES |
Residual
current Amplitude range |
0=normal;
1=high; 2=low; 3=high-high; 4=low-low |
Monitoring\I/O
status\Measurements\RESCMMXU1\Monitored data |
||
|
RESCMMXU1 |
Io |
In |
MON |
LD0.RESCMSTA1.AvAmps.mag.f |
MV |
FLOAT32 |
MX |
B |
I_DMD_RES |
Demand
value of residual current |
0.00...40.00
xIn |
Monitoring\I/O
status\Measurements\RESCMMXU1\Monitored data |
RESTCTR1 |
|||
|
RESCMMXU1 |
Io |
In |
MON |
LD0.RESCMSTA1.MaxAmps.mag.f |
MV |
FLOAT32 |
MX |
B |
Max
demand Io |
Maximum
demand for residual current |
0.00...40.00
xIn |
Monitoring\Recorded
data\Measurements\RESCMMXU1 |
RESTCTR1 |
|||
|
RESCMMXU1 |
Io |
In |
MON |
LD0.RESCMSTA1.MaxAmps.t |
MV |
Timestamp |
MX |
B |
Time
max demand Io |
Time
of maximum demand residual current |
Monitoring\Recorded
data\Measurements\RESCMMXU1 |
|||||
|
RESCMMXU1 |
Io |
In |
MON |
LD0.RESCMSTA1.MinAmps.mag.f |
MV |
FLOAT32 |
MX |
B |
Min
demand Io |
Minimum
demand for residual current |
0.00...40.00
xIn |
Monitoring\Recorded
data\Measurements\RESCMMXU1 |
RESTCTR1 |
|||
|
RESCMMXU1 |
Io |
In |
MON |
LD0.RESCMSTA1.MinAmps.t |
MV |
Timestamp |
MX |
B |
Time
min demand Io |
Time
of minimum demand residual current |
Monitoring\Recorded
data\Measurements\RESCMMXU1 |
|||||
|
RESCMMXU1 |
Io |
In |
CFG |
LD0.RESCMMXU1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Measurements\RESCMMXU1 |
|||
|
RESCMMXU1 |
Io |
In |
CFG |
LD0.RESCMMXU1.A.res.db |
WYE |
INT32U |
CF |
B,I |
2500 |
A
deadband res |
Deadband
configuration value for integral calculation. (percentage of difference
between min and max as 0,001 % s) |
100...100000 |
Configuration\Measurements\RESCMMXU1 |
|||
|
RESCMMXU1 |
Io |
In |
CFG |
LD0.RESCMMXU1.A.res.rangeC.hhLim.f |
WYE |
FLOAT32 |
CF |
B,I |
0.20 |
A
Hi high limit res |
High
alarm current limit |
0.00...40.00
xIn |
Configuration\Measurements\RESCMMXU1 |
|||
|
RESCMMXU1 |
Io |
In |
CFG |
LD0.RESCMMXU1.A.res.rangeC.hLim.f |
WYE |
FLOAT32 |
CF |
B,I |
0.05 |
A
high limit res |
High
warning current limit |
0.00...40.00
xIn |
Configuration\Measurements\RESCMMXU1 |
|||
|
RESCMMXU1 |
Io |
In |
CFG |
LD0.RESCMMXU1.AMeasMod.setVal |
ING |
Enum |
SP |
B |
2 |
Measurement
mode |
Selects
used measurement mode |
1=RMS;
2=DFT |
Configuration\Measurements\RESCMMXU1 |
|||
|
RESCMMXU1 |
Io |
In |
VER |
LD0.RESCMMXU1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|||||||
|
RESCMMXU1 |
Io |
In |
VER |
LD0.RESCMSTA1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
Voltage
(3U,VT) |
CFG |
LD0.UL1TVTR1.Cor.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
1.000 |
Amplitude
corr. A |
Phase
A Voltage phasor magnitude correction of an external voltage transformer |
0.900...1.100 |
Configuration\Analog
inputs\Voltage (3U,VT) |
|||||
|
Voltage
(3U,VT) |
CFG |
LD0.UL1TVTR1.VRtg.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
20.000 |
Primary
voltage |
Primary
rated voltage |
0.100...440.000
kV |
Configuration\Analog
inputs\Voltage (3U,VT) |
|||||
|
Voltage
(3U,VT) |
CFG |
LD0.UL1TVTR1.VRtgScy.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
100 |
Secondary
voltage |
Secondary
rated voltage |
60...210
V |
Configuration\Analog
inputs\Voltage (3U,VT) |
|||||
|
Voltage
(3U,VT) |
CFG |
LD0.UL1TVTR1.VConnType.setVal |
ING |
Enum |
SP |
B,I |
1 |
VT
connection |
Wye,
delta, U12 or UL1 VT connection |
1=Wye/Delta |
Configuration\Analog
inputs\Voltage (3U,VT) |
|||||
|
Voltage
(3U,VT) |
CFG |
LD0.UL1TVTR1.VInType.setVal |
ING |
Enum |
SP |
B,I |
1 |
Voltage
input type |
Type
of the voltage input |
1=Voltage
trafo |
Configuration\Analog
inputs\Voltage (3U,VT) |
|||||
|
Voltage
(3U,VT) |
CFG |
LD0.UL2TVTR1.Cor.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
1.000 |
Amplitude
corr. B |
Phase
B Voltage phasor magnitude correction of an external voltage transformer |
0.900...1.100 |
Configuration\Analog
inputs\Voltage (3U,VT) |
|||||
|
Voltage
(3U,VT) |
CFG |
LD0.UL3TVTR1.Cor.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
1.000 |
Amplitude
corr. C |
Phase
C Voltage phasor magnitude correction of an external voltage transformer |
0.900...1.100 |
Configuration\Analog
inputs\Voltage (3U,VT) |
|||||
|
Voltage
(3U,VT) |
VER |
LD0.UL1TVTR1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
C |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
Voltage
(Uo,VT) |
CTR |
LD0.RESTVTR1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
I |
(Mode) |
|||||||||
|
Voltage
(Uo,VT) |
CFG |
LD0.RESTVTR1.Cor.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
1.000 |
Amplitude
corr. |
Amplitude
correction |
0.900...1.100 |
Configuration\Analog
inputs\Voltage (Uo,VT) |
|||||
|
Voltage
(Uo,VT) |
CFG |
LD0.RESTVTR1.VRtg.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
11.547 |
Primary
voltage |
Primary
voltage |
0.1...440.000
kV |
Configuration\Analog
inputs\Voltage (Uo,VT) |
|||||
|
Voltage
(Uo,VT) |
CFG |
LD0.RESTVTR1.VRtgScy.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
100 |
Secondary
voltage |
Secondary
voltage |
60...210
V |
Configuration\Analog
inputs\Voltage (Uo,VT) |
|||||
|
Voltage
(Uo,VT) |
VER |
LD0.RESTVTR1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
C |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
VMMXU1 |
3U |
3U |
INP |
LD0.VMMXU1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for all binary outputs |
Monitoring\I/O
status\Measurements\VMMXU1\Inputs |
||||
|
VMMXU1 |
3U |
3U |
OUT |
LD0.VMMXU1.HiAlm.stVal |
SPS |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
HIGH_ALARM |
High
alarm |
Monitoring\I/O
status\Measurements\VMMXU1\Outputs |
|||
|
VMMXU1 |
3U |
3U |
OUT |
LD0.VMMXU1.HiWrn.stVal |
SPS |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
HIGH_WARN |
High
warning |
Monitoring\I/O
status\Measurements\VMMXU1\Outputs |
|||
|
VMMXU1 |
3U |
3U |
OUT |
LD0.VMMXU1.LoWrn.stVal |
SPS |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
LOW_WARN |
Low
warning |
Monitoring\I/O
status\Measurements\VMMXU1\Outputs |
|||
|
VMMXU1 |
3U |
3U |
OUT |
LD0.VMMXU1.LoAlm.stVal |
SPS |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
LOW_ALARM |
Low
alarm |
Monitoring\I/O
status\Measurements\VMMXU1\Outputs |
|||
|
VMMXU1 |
3U |
3U |
CTR |
LD0.VMMXU1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Measurements\VMMXU1 |
|||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMMXU1.PhV.phsA.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U_INST_A |
UL1
Amplitude, magnitude of instantaneous value |
0.00...5.00
xUn |
Monitoring\I/O
status\Measurements\VMMXU1\Monitored data |
||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMMXU1.PhV.phsA.cVal.ang.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U_ANGL_A |
UL1
angle |
-180.00...180.00
deg |
Monitoring\I/O
status\Measurements\VMMXU1\Monitored data |
||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMMXU1.PhV.phsB.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U_INST_B |
UL2
Amplitude, magnitude of instantaneous value |
0.00...5.00
xUn |
Monitoring\I/O
status\Measurements\VMMXU1\Monitored data |
||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMMXU1.PhV.phsB.cVal.ang.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U_ANGL_B |
UL2
angle |
-180.00...180.00
deg |
Monitoring\I/O
status\Measurements\VMMXU1\Monitored data |
||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMMXU1.PhV.phsC.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U_INST_C |
UL3
Amplitude, magnitude of instantaneous value |
0.00...5.00
xUn |
Monitoring\I/O
status\Measurements\VMMXU1\Monitored data |
||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMMXU1.PhV.phsC.cVal.ang.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U_ANGL_C |
UL3
angle |
-180.00...180.00
deg |
Monitoring\I/O
status\Measurements\VMMXU1\Monitored data |
||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMMXU1.PPV.phsAB.instCVal.mag.f |
DEL |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U12-kV |
Measured
phase to phase voltage amplitude phase AB |
0.00...4.00
xUn |
Measurements\VMMXU1 |
||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMMXU1.PPV.phsAB.instCVal.ang.f |
DEL |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U_ANGL_AB |
U12
angle |
-180.00...180.00
deg |
Monitoring\I/O
status\Measurements\VMMXU1\Monitored data |
||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMMXU1.PPV.phsAB.cVal.mag.f |
DEL |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U_DB_AB |
U12
Amplitude, magnitude of reported value |
0.00...4.00
xUn |
Monitoring\I/O
status\Measurements\VMMXU1\Monitored data |
||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMMXU1.PPV.phsAB.range |
DEL |
Enum |
MX |
B |
MeasFlt |
P |
U_RANGE_AB |
U12
Amplitude range |
0=normal;
1=high; 2=low; 3=high-high; 4=low-low |
Monitoring\I/O
status\Measurements\VMMXU1\Monitored data |
||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMMXU1.PPV.phsBC.instCVal.mag.f |
DEL |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U23-kV |
Measured
phase to phase voltage amplitude phase BC |
0.00...4.00
xUn |
Measurements\VMMXU1 |
||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMMXU1.PPV.phsBC.instCVal.ang.f |
DEL |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U_ANGL_BC |
U23
angle |
-180.00...180.00
deg |
Monitoring\I/O
status\Measurements\VMMXU1\Monitored data |
||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMMXU1.PPV.phsBC.cVal.mag.f |
DEL |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U_DB_BC |
U23
Amplitude, magnitude of reported value |
0.00...4.00
xUn |
Monitoring\I/O
status\Measurements\VMMXU1\Monitored data |
||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMMXU1.PPV.phsBC.range |
DEL |
Enum |
MX |
B |
MeasFlt |
P |
U_RANGE_BC |
U23
Amplitude range |
0=normal;
1=high; 2=low; 3=high-high; 4=low-low |
Monitoring\I/O
status\Measurements\VMMXU1\Monitored data |
||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMMXU1.PPV.phsCA.instCVal.mag.f |
DEL |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U31-kV |
Measured
phase to phase voltage amplitude phase CA |
0.00...4.00
xUn |
Measurements\VMMXU1 |
||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMMXU1.PPV.phsCA.instCVal.ang.f |
DEL |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U_ANGL_CA |
U31
angle |
-180.00...180.00
deg |
Monitoring\I/O
status\Measurements\VMMXU1\Monitored data |
||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMMXU1.PPV.phsCA.cVal.mag.f |
DEL |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U_DB_CA |
U31
Amplitude, magnitude of reported value |
0.00...4.00
xUn |
Monitoring\I/O
status\Measurements\VMMXU1\Monitored data |
||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMMXU1.PPV.phsCA.range |
DEL |
Enum |
MX |
B |
MeasFlt |
P |
U_RANGE_CA |
U31
Amplitude range |
0=normal;
1=high; 2=low; 3=high-high; 4=low-low |
Monitoring\I/O
status\Measurements\VMMXU1\Monitored data |
||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMSTA1.AvVPhsA.mag.f |
MV |
FLOAT32 |
MX |
B |
U_DMD_A |
Demand
value of UL1 voltage |
0.00...5.00
xUn |
Monitoring\I/O
status\Measurements\VMMXU1\Monitored data |
UL1TVTR1 |
|||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMSTA1.AvVPhsB.mag.f |
MV |
FLOAT32 |
MX |
B |
U_DMD_B |
Demand
value of UL2 voltage |
0.00...5.00
xUn |
Monitoring\I/O
status\Measurements\VMMXU1\Monitored data |
UL1TVTR1 |
|||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMSTA1.AvVPhsC.mag.f |
MV |
FLOAT32 |
MX |
B |
U_DMD_C |
Demand
value of UL3 voltage |
0.00...5.00
xUn |
Monitoring\I/O
status\Measurements\VMMXU1\Monitored data |
UL1TVTR1 |
|||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMSTA1.AvVPhsAB.mag.f |
MV |
FLOAT32 |
MX |
B |
U_DMD_AB |
Demand
value of U12 voltage |
0.00...4.00
xUn |
Monitoring\I/O
status\Measurements\VMMXU1\Monitored data |
UL1TVTR1 |
|||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMSTA1.AvVPhsBC.mag.f |
MV |
FLOAT32 |
MX |
B |
U_DMD_BC |
Demand
value of U23 voltage |
0.00...4.00
xUn |
Monitoring\I/O
status\Measurements\VMMXU1\Monitored data |
UL1TVTR1 |
|||
|
VMMXU1 |
3U |
3U |
MON |
LD0.VMSTA1.AvVPhsCA.mag.f |
MV |
FLOAT32 |
MX |
B |
U_DMD_CA |
Demand
value of U31 voltage |
0.00...4.00
xUn |
Monitoring\I/O
status\Measurements\VMMXU1\Monitored data |
UL1TVTR1 |
|||
|
VMMXU1 |
3U |
3U |
CFG |
LD0.VMMXU1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Measurements\VMMXU1 |
|||
|
VMMXU1 |
3U |
3U |
CFG |
LD0.VMMXU1.PPV.phsAB.db |
DEL |
INT32U |
CF |
B,I |
10000 |
V
deadband |
Deadband
configuration value for integral calculation. (percentage of difference
between min and max as 0,001 % s) |
100...100000 |
Configuration\Measurements\VMMXU1 |
|||
|
VMMXU1 |
3U |
3U |
CFG |
LD0.VMMXU1.PPV.phsAB.rangeC.hhLim.f |
DEL |
FLOAT32 |
CF |
B,I |
1.40 |
V
high high limit |
High
alarm voltage limit |
0.00...4.00
xUn |
Configuration\Measurements\VMMXU1 |
|||
|
VMMXU1 |
3U |
3U |
CFG |
LD0.VMMXU1.PPV.phsAB.rangeC.hLim.f |
DEL |
FLOAT32 |
CF |
B,I |
1.20 |
V
high limit |
High
warning voltage limit |
0.00...4.00
xUn |
Configuration\Measurements\VMMXU1 |
|||
|
VMMXU1 |
3U |
3U |
CFG |
LD0.VMMXU1.PPV.phsAB.rangeC.lLim.f |
DEL |
FLOAT32 |
CF |
B,I |
0.00 |
V
low limit |
Low
warning voltage limit |
0.00...4.00
xUn |
Configuration\Measurements\VMMXU1 |
|||
|
VMMXU1 |
3U |
3U |
CFG |
LD0.VMMXU1.PPV.phsAB.rangeC.llLim.f |
DEL |
FLOAT32 |
CF |
B,I |
0.00 |
V
low low limit |
Low
alarm voltage limit |
0.00...4.00
xUn |
Configuration\Measurements\VMMXU1 |
|||
|
VMMXU1 |
3U |
3U |
CFG |
LD0.VMMXU1.VMeasMod.setVal |
ING |
Enum |
SP |
B |
2 |
Measurement
mode |
Selects
used measurement mode |
1=RMS;
2=DFT |
Configuration\Measurements\VMMXU1 |
|||
|
VMMXU1 |
3U |
3U |
CFG |
LD0.VMMXU1.NumPh.setVal |
ING |
Enum |
SP |
B |
1 |
Num
of phases |
Number
of phases required by limit supervision |
1=1
out of 3; 2=2 out of 3; 3=3 out of 3 |
Configuration\Measurements\VMMXU1 |
|||
|
VMMXU1 |
3U |
3U |
VER |
LD0.VMMXU1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|||||||
|
VMMXU1 |
3U |
3U |
VER |
LD0.VMSTA1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
CTR |
LD0.VSMSQI1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Measurements\VSMSQI1 |
|||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
MON |
LD0.VSMSQI1.SeqV.c1.instCVal.mag.f |
SEQ |
FLOAT32 |
MX |
B |
MeasFlt |
P |
PsSeq-kV |
Measured
positive sequence voltage |
0.00...4.00
xUn |
Measurements\VSMSQI1 |
||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
MON |
LD0.VSMSQI1.SeqV.c1.instCVal.ang.f |
SEQ |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U1_ANGL |
Positive
sequence voltage angle |
-180.00...180.00
deg |
Monitoring\I/O
status\Measurements\VSMSQI1\Monitored data |
||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
MON |
LD0.VSMSQI1.SeqV.c1.cVal.mag.f |
SEQ |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U1_DB |
Positive
sequence voltage amplitude, reported value |
0.00...4.00
xUn |
Monitoring\I/O
status\Measurements\VSMSQI1\Monitored data |
||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
MON |
LD0.VSMSQI1.SeqV.c1.range |
SEQ |
Enum |
MX |
B |
MeasFlt |
P |
U1_RANGE |
Positive
sequence voltage amplitude range |
0=normal;
1=high; 2=low; 3=high-high; 4=low-low |
Monitoring\I/O
status\Measurements\VSMSQI1\Monitored data |
||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
MON |
LD0.VSMSQI1.SeqV.c2.instCVal.mag.f |
SEQ |
FLOAT32 |
MX |
B |
MeasFlt |
P |
NgSeq-kV |
Measured
negative sequence voltage |
0.00...4.00
xUn |
Measurements\VSMSQI1 |
||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
MON |
LD0.VSMSQI1.SeqV.c2.instCVal.ang.f |
SEQ |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U2_ANGL |
Negative
sequence voltage angle |
-180.00...180.00
deg |
Monitoring\I/O
status\Measurements\VSMSQI1\Monitored data |
||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
MON |
LD0.VSMSQI1.SeqV.c2.cVal.mag.f |
SEQ |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U2_DB |
Negative
sequence voltage amplitude, reported value |
0.00...4.00
xUn |
Monitoring\I/O
status\Measurements\VSMSQI1\Monitored data |
||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
MON |
LD0.VSMSQI1.SeqV.c2.range |
SEQ |
Enum |
MX |
B |
MeasFlt |
P |
U2_RANGE |
Negative
sequence voltage amplitude range |
0=normal;
1=high; 2=low; 3=high-high; 4=low-low |
Monitoring\I/O
status\Measurements\VSMSQI1\Monitored data |
||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
MON |
LD0.VSMSQI1.SeqV.c3.instCVal.mag.f |
SEQ |
FLOAT32 |
MX |
B |
MeasFlt |
P |
ZroSeq-kV |
Measured
zero sequence voltage |
0.00...4.00
xUn |
Measurements\VSMSQI1 |
||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
MON |
LD0.VSMSQI1.SeqV.c3.instCVal.ang.f |
SEQ |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U0_ANGL |
Zero
sequence voltage angle |
-180.00...180.00
deg |
Monitoring\I/O
status\Measurements\VSMSQI1\Monitored data |
||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
MON |
LD0.VSMSQI1.SeqV.c3.cVal.mag.f |
SEQ |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U0_DB |
Zero
sequence voltage amplitude, reported value |
0.00...4.00
xUn |
Monitoring\I/O
status\Measurements\VSMSQI1\Monitored data |
||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
MON |
LD0.VSMSQI1.SeqV.c3.range |
SEQ |
Enum |
MX |
B |
MeasFlt |
P |
U0_RANGE |
Zero
sequence voltage amplitude range |
0=normal;
1=high; 2=low; 3=high-high; 4=low-low |
Monitoring\I/O
status\Measurements\VSMSQI1\Monitored data |
||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
CFG |
LD0.VSMSQI1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Measurements\VSMSQI1 |
|||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
CFG |
LD0.VSMSQI1.SeqV.c1.db |
SEQ |
INT32U |
CF |
B,I |
10000 |
Ps
Seq V deadband |
Deadband
configuration value for positive sequence voltage for integral calculation.
(percentage of difference between min and max as 0,001 % s) |
100...100000 |
Configuration\Measurements\VSMSQI1 |
|||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
CFG |
LD0.VSMSQI1.SeqV.c1.rangeC.hhLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
1.40 |
Ps
Seq V Hi high Lim |
High
alarm voltage limit for positive sequence voltage |
0.00...4.00
xUn |
Configuration\Measurements\VSMSQI1 |
|||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
CFG |
LD0.VSMSQI1.SeqV.c1.rangeC.hLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
1.20 |
Ps
Seq V high limit |
High
warning voltage limit for positive sequence voltage |
0.00...4.00
xUn |
Configuration\Measurements\VSMSQI1 |
|||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
CFG |
LD0.VSMSQI1.SeqV.c1.rangeC.lLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
0.00 |
Ps
Seq V low limit |
Low
warning voltage limit for positive sequence voltage |
0.00...4.00
xUn |
Configuration\Measurements\VSMSQI1 |
|||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
CFG |
LD0.VSMSQI1.SeqV.c1.rangeC.llLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
0.00 |
Ps
Seq V low low Lim |
Low
alarm voltage limit for positive sequence voltage |
0.00...4.00
xUn |
Configuration\Measurements\VSMSQI1 |
|||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
CFG |
LD0.VSMSQI1.SeqV.c2.db |
SEQ |
INT32U |
CF |
B,I |
10000 |
Ng
Seq V deadband |
Deadband
configuration value for negative sequence voltage for integral calculation.
(percentage of difference between min and max as 0,001 % s) |
100...100000 |
Configuration\Measurements\VSMSQI1 |
|||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
CFG |
LD0.VSMSQI1.SeqV.c2.rangeC.hhLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
0.20 |
Ng
Seq V Hi high Lim |
High
alarm voltage limit for negative sequence voltage |
0.00...4.00
xUn |
Configuration\Measurements\VSMSQI1 |
|||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
CFG |
LD0.VSMSQI1.SeqV.c2.rangeC.hLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
0.05 |
Ng
Seq V High limit |
High
warning voltage limit for negative sequence voltage |
0.00...4.00
xUn |
Configuration\Measurements\VSMSQI1 |
|||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
CFG |
LD0.VSMSQI1.SeqV.c2.rangeC.lLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
0.00 |
Ng
Seq V low limit |
Low
warning voltage limit for negative sequence voltage |
0.00...4.00
xUn |
Configuration\Measurements\VSMSQI1 |
|||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
CFG |
LD0.VSMSQI1.SeqV.c2.rangeC.llLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
0.00 |
Ng
Seq V low low Lim |
Low
alarm voltage limit for negative sequence voltage |
0.00...4.00
xUn |
Configuration\Measurements\VSMSQI1 |
|||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
CFG |
LD0.VSMSQI1.SeqV.c3.db |
SEQ |
INT32U |
CF |
B,I |
10000 |
Zro
V deadband |
Deadband
configuration value for zero sequence voltage for integral calculation.
(percentage of difference between min and max as 0,001 % s) |
100...100000 |
Configuration\Measurements\VSMSQI1 |
|||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
CFG |
LD0.VSMSQI1.SeqV.c3.rangeC.hhLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
0.20 |
Zro
V Hi high Lim |
High
alarm voltage limit for zero sequence voltage |
0.00...4.00
xUn |
Configuration\Measurements\VSMSQI1 |
|||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
CFG |
LD0.VSMSQI1.SeqV.c3.rangeC.hLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
0.05 |
Zro
V High limit |
High
warning voltage limit for zero sequence voltage |
0.00...4.00
xUn |
Configuration\Measurements\VSMSQI1 |
|||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
CFG |
LD0.VSMSQI1.SeqV.c3.rangeC.lLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
0.00 |
Zro
V low limit |
Low
warning voltage limit for zero sequence voltage |
0.00...4.00
xUn |
Configuration\Measurements\VSMSQI1 |
|||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
CFG |
LD0.VSMSQI1.SeqV.c3.rangeC.llLim.f |
SEQ |
FLOAT32 |
CF |
B,I |
0.00 |
Zro
V low low Lim |
Low
alarm voltage limit for zero sequence voltage |
0.00...4.00
xUn |
Configuration\Measurements\VSMSQI1 |
|||
|
VSMSQI1 |
U1,U2,U0 |
U1,U2,U0 |
VER |
LD0.VSMSQI1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
RESVMMXU1 |
Uo |
Vn |
INP |
LD0.RESVMMXU1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for all binary outputs |
Monitoring\I/O
status\Measurements\RESVMMXU1\Inputs |
||||
|
RESVMMXU1 |
Uo |
Vn |
OUT |
LD0.RESVMMXU1.HiAlm.stVal |
SPS |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
HIGH_ALARM |
High
alarm |
Monitoring\I/O
status\Measurements\RESVMMXU1\Outputs |
|||
|
RESVMMXU1 |
Uo |
Vn |
OUT |
LD0.RESVMMXU1.HiWrn.stVal |
SPS |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
HIGH_WARN |
High
warning |
Monitoring\I/O
status\Measurements\RESVMMXU1\Outputs |
|||
|
RESVMMXU1 |
Uo |
Vn |
CTR |
LD0.RESVMMXU1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Measurements\RESVMMXU1 |
|||
|
RESVMMXU1 |
Uo |
Vn |
CTR |
LD0.RESVMSTA1.RecRs.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(RESVMMXU1
demands) |
||||||||
|
RESVMMXU1 |
Uo |
Vn |
MON |
LD0.RESVMMXU1.PhV.res.instCVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
Uo-kV |
Measured
residual voltage |
0.00...4.00
xUn |
Measurements\RESVMMXU1 |
||
|
RESVMMXU1 |
Uo |
Vn |
MON |
LD0.RESVMMXU1.PhV.res.instCVal.ang.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U_ANGL_RES |
Residual
voltage angle |
-180.00...180.00
deg |
Monitoring\I/O
status\Measurements\RESVMMXU1\Monitored data |
||
|
RESVMMXU1 |
Uo |
Vn |
MON |
LD0.RESVMMXU1.PhV.res.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
U_DB_RES |
Residual
voltage Amplitude, magnitude of reported value |
0.00...4.00
xUn |
Monitoring\I/O
status\Measurements\RESVMMXU1\Monitored data |
||
|
RESVMMXU1 |
Uo |
Vn |
MON |
LD0.RESVMMXU1.PhV.res.range |
WYE |
Enum |
MX |
B |
MeasFlt |
P |
U_RANGE_RES |
Residual
voltage Amplitude range |
0=normal;
1=high; 2=low; 3=high-high; 4=low-low |
Monitoring\I/O
status\Measurements\RESVMMXU1\Monitored data |
||
|
RESVMMXU1 |
Uo |
Vn |
MON |
LD0.RESVMSTA1.AvVolts.mag.f |
MV |
FLOAT32 |
MX |
B |
U_DMD_RES |
Demand
value of residual voltage |
0.00...4.00
xUn |
Monitoring\I/O
status\Measurements\RESVMMXU1\Monitored data |
RESTVTR1 |
|||
|
RESVMMXU1 |
Uo |
Vn |
CFG |
LD0.RESVMMXU1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Measurements\RESVMMXU1 |
|||
|
RESVMMXU1 |
Uo |
Vn |
CFG |
LD0.RESVMMXU1.PhV.res.db |
WYE |
INT32U |
CF |
B,I |
10000 |
V
deadband res |
Deadband
configuration value for integral calculation. (percentage of difference
between min and max as 0,001 % s) |
100...100000 |
Configuration\Measurements\RESVMMXU1 |
|||
|
RESVMMXU1 |
Uo |
Vn |
CFG |
LD0.RESVMMXU1.PhV.res.rangeC.hhLim.f |
WYE |
FLOAT32 |
CF |
B,I |
0.20 |
V
Hi high limit res |
High
alarm voltage limit |
0.00...4.00
xUn |
Configuration\Measurements\RESVMMXU1 |
|||
|
RESVMMXU1 |
Uo |
Vn |
CFG |
LD0.RESVMMXU1.PhV.res.rangeC.hLim.f |
WYE |
FLOAT32 |
CF |
B,I |
0.05 |
V
high limit res |
High
warning voltage limit |
0.00...4.00
xUn |
Configuration\Measurements\RESVMMXU1 |
|||
|
RESVMMXU1 |
Uo |
Vn |
CFG |
LD0.RESVMMXU1.VMeasMod.setVal |
ING |
Enum |
SP |
B |
2 |
Measurement
mode |
Selects
used measurement mode |
1=RMS;
2=DFT |
Configuration\Measurements\RESVMMXU1 |
|||
|
RESVMMXU1 |
Uo |
Vn |
VER |
LD0.RESVMMXU1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|||||||
|
RESVMMXU1 |
Uo |
Vn |
VER |
LD0.RESVMSTA1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
X130
(AIM) |
X130
(AIM) |
X130
(AIM) |
OUT |
LD0.XAUGGIO130.Ind9.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
Input
9 |
Connectors
39-40 |
Monitoring\I/O
status\Binary input values\X130 (AIM) |
|||
|
X130
(AIM) |
X130
(AIM) |
X130
(AIM) |
OUT |
LD0.XAUGGIO130.Ind10.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
Input
10 |
Connectors
41-42 |
Monitoring\I/O
status\Binary input values\X130 (AIM) |
|||
|
X130
(AIM) |
X130
(AIM) |
X130
(AIM) |
OUT |
LD0.XAUGGIO130.Ind11.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
Input
11 |
Connectors
43-44 |
Monitoring\I/O
status\Binary input values\X130 (AIM) |
|||
|
X130
(AIM) |
X130
(AIM) |
X130
(AIM) |
CTR |
LD0.XAUGGIO130.Mod.Oper.ctlVal |
INC |
Enum |
CO |
I |
(Mode) |
|||||||
|
X130
(AIM) |
X130
(AIM) |
X130
(AIM) |
CFG |
LD0.XAUGGIO130.OpDlTmms9.setVal |
ING |
INT32 |
SP |
B,I |
5 |
Input
9 filter time |
Connectors
39-40 |
5...1000
ms |
Configuration\I/O
modules\X130 (AIM)\Input filtering |
|||
|
X130
(AIM) |
X130
(AIM) |
X130
(AIM) |
CFG |
LD0.XAUGGIO130.OpDlTmms10.setVal |
ING |
INT32 |
SP |
B,I |
5 |
Input
10 filter time |
Connectors
41-42 |
5...1000
ms |
Configuration\I/O
modules\X130 (AIM)\Input filtering |
|||
|
X130
(AIM) |
X130
(AIM) |
X130
(AIM) |
CFG |
LD0.XAUGGIO130.OpDlTmms11.setVal |
ING |
INT32 |
SP |
B,I |
5 |
Input
11 filter time |
Connectors
43-44 |
5...1000
ms |
Configuration\I/O
modules\X130 (AIM)\Input filtering |
|||
|
X130
(AIM) |
X130
(AIM) |
X130
(AIM) |
CFG |
LD0.XAUGGIO130.DiInvert9.setVal |
SPG |
BOOLEAN |
SP |
B,I |
0 |
Input
9 inversion |
Connectors
39-40 |
Configuration\I/O
modules\X130 (AIM)\Input inversion |
||||
|
X130
(AIM) |
X130
(AIM) |
X130
(AIM) |
CFG |
LD0.XAUGGIO130.DiInvert10.setVal |
SPG |
BOOLEAN |
SP |
B,I |
0 |
Input
10 inversion |
Connectors
41-42 |
Configuration\I/O
modules\X130 (AIM)\Input inversion |
||||
|
X130
(AIM) |
X130
(AIM) |
X130
(AIM) |
CFG |
LD0.XAUGGIO130.DiInvert11.setVal |
SPG |
BOOLEAN |
SP |
B,I |
0 |
Input
11 inversion |
Connectors
43-44 |
Configuration\I/O
modules\X130 (AIM)\Input inversion |
||||
|
X130
(AIM) |
X130
(AIM) |
X130
(AIM) |
INF |
LD0.XAUGGIO130.EEName.hwRev |
DPL |
VisString255
(20) |
DC |
B |
0 |
HW
revision |
Card
HW revision |
Information\HW
modules\X130 (AIM) |
||||
|
X130
(AIM) |
X130
(AIM) |
X130
(AIM) |
INF |
LD0.XAUGGIO130.EEName.serNum |
DPL |
VisString255
(20) |
DC |
B |
0 |
Serial
number |
Card
serial number |
Information\HW
modules\X130 (AIM) |
||||
|
X130
(AIM) |
X130
(AIM) |
X130
(AIM) |
INF |
LD0.XAUGGIO130.EEName.eArtNum |
DPL |
VisString255
(20) |
EX |
B |
0 |
Article
number |
Card
article number |
Information\HW
modules\X130 (AIM) |
||||
|
X130
(AIM) |
X130
(AIM) |
X130
(AIM) |
INF |
LD0.XAUGGIO130.EEName.eManDate |
DPL |
VisString255
(20) |
EX |
B |
0 |
Manufacturing
date |
Card
manufacturing date |
Information\HW
modules\X130 (AIM) |
||||
|
X130
(AIM) |
X130
(AIM) |
X130
(AIM) |
INF |
LD0.XAUGGIO130.EEName.eTestDate |
DPL |
VisString255
(20) |
EX |
B |
0 |
Test
date |
Card
test date |
Information\HW
modules\X130 (AIM) |
||||
|
X130
(AIM) |
X130
(AIM) |
X130
(AIM) |
VER |
LD0.XAUGGIO130.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
X130
(AIM) |
X130
(AIM) |
X130
(AIM) |
VER |
LD0.XAUGGIO130.EEName.swRev |
DPL |
VisString255
(20) |
DC |
- |
(Card
information) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
EFIPTOC1 |
Io>>>(1) |
50N/51N |
INP |
LD0.EFIPTOC1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\EFIPTOC1\Inputs |
||||
|
EFIPTOC1 |
Io>>>(1) |
50N/51N |
INP |
LD0.EFIPTOC1.InEnaMult.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ENA_MULT |
Enable
signal for current multiplier |
Monitoring\I/O
status\Current protection\EFIPTOC1\Inputs |
||||
|
EFIPTOC1 |
Io>>>(1) |
50N/51N |
OUT |
LD0.EFIPTOC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Current protection\EFIPTOC1\Outputs |
|||
|
EFIPTOC1 |
Io>>>(1) |
50N/51N |
OUT |
LD0.EFIPTOC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Current protection\EFIPTOC1\Outputs |
|||
|
EFIPTOC1 |
Io>>>(1) |
50N/51N |
MON |
LD0.EFIPTOC1.Beh.stVal |
INS |
Enum |
ST |
B |
EFIPTOC1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
EFIPTOC1 |
Io>>>(1) |
50N/51N |
MON |
LD0.EFIPTOC1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\EFIPTOC1\Monitored data |
||||
|
EFIPTOC1 |
Io>>>(1) |
50N/51N |
SET |
LD0.EFIPTOC1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\EFIPTOC1 |
|||
|
EFIPTOC1 |
Io>>>(1) |
50N/51N |
SET |
LD0.EFIPTOC1.StrValMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Start
value Mult |
Multiplier
for scaling the start value |
0.8...10.0 |
Settings\Settings\Current
protection\EFIPTOC1 |
|||
|
EFIPTOC1 |
Io>>>(1) |
50N/51N |
SET |
LD0.EFIPTOC1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
3.00 |
Start
value |
Start
value |
1.00...40.00
xIn |
Settings\Settings\Current
protection\EFIPTOC1 |
RESTCTR1 |
||
|
EFIPTOC1 |
Io>>>(1) |
50N/51N |
SET |
LD0.EFIPTOC1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
20 |
Operate
delay time |
Operate
delay time |
20...200000
ms |
Settings\Settings\Current
protection\EFIPTOC1 |
|||
|
EFIPTOC1 |
Io>>>(1) |
50N/51N |
SET |
LD0.EFIPTOC1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\EFIPTOC1 |
|||
|
EFIPTOC1 |
Io>>>(1) |
50N/51N |
SET |
LD0.EFIPTOC1.AResSigSel.setVal |
ING |
Enum |
SP |
B,I |
1 |
Io
signal Sel |
Selection
for used Io signal |
1=Measured
Io |
Settings\Settings\Current
protection\EFIPTOC1 |
|||
|
EFIPTOC1 |
Io>>>(1) |
50N/51N |
TES |
LD0.EFIPTOC1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
EFIPTOC1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
EFIPTOC1 |
Io>>>(1) |
50N/51N |
VER |
LD0.EFIPTOC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
D |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
LREFPNDF1 |
dIoLo> |
87NL |
INP |
LD0.LREFPDIF1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Differential prot\LREFPNDF1\Inputs |
||||
|
LREFPNDF1 |
dIoLo> |
87NL |
OUT |
LD0.LREFPDIF1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Differential prot\LREFPNDF1\Outputs |
|||
|
LREFPNDF1 |
dIoLo> |
87NL |
OUT |
LD0.LREFPDIF1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Differential prot\LREFPNDF1\Outputs |
|||
|
LREFPNDF1 |
dIoLo> |
87NL |
OUT |
LD0.LREFPDIF1.Blk2Hst.general |
ACT |
BOOLEAN |
ST |
B |
BLK2H |
2nd
harmonic block |
Monitoring\I/O
status\Differential prot\LREFPNDF1\Outputs |
|||||
|
LREFPNDF1 |
dIoLo> |
87NL |
CTR |
LD0.LREFPHAR1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
I |
(Mode) |
|||||||
|
LREFPNDF1 |
dIoLo> |
87NL |
MON |
LD0.LREFPDIF1.Beh.stVal |
INS |
Enum |
ST |
B |
LREFPNDF1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
LREFPNDF1 |
dIoLo> |
87NL |
MON |
LD0.LREFPDIF1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Differential prot\LREFPNDF1\Monitored data |
||||
|
LREFPNDF1 |
dIoLo> |
87NL |
MON |
LD0.LREFPDIF1.DifAClc.res.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
ID_COSPHI |
Directional
differential current Id cosphi |
0.00...80.00
xIn |
Monitoring\I/O
status\Differential prot\LREFPNDF1\Monitored data |
||||
|
LREFPNDF1 |
dIoLo> |
87NL |
MON |
LD0.LREFPDIF1.RstA.res.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
IB |
Bias
current |
0.00...80.00
xIn |
Monitoring\I/O
status\Differential prot\LREFPNDF1\Monitored data |
||||
|
LREFPNDF1 |
dIoLo> |
87NL |
MON |
LD0.LREFPHAR1.Str.general |
ACD |
BOOLEAN |
ST |
B |
RES2H |
2nd
harmonic restraint |
Monitoring\I/O
status\Differential prot\LREFPNDF1\Monitored data |
|||||
|
LREFPNDF1 |
dIoLo> |
87NL |
SET |
LD0.LREFPDIF1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Differential
prot\LREFPNDF1 |
|||
|
LREFPNDF1 |
dIoLo> |
87NL |
SET |
LD0.LREFPDIF1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Differential
prot\LREFPNDF1 |
|||
|
LREFPNDF1 |
dIoLo> |
87NL |
SET |
LD0.LREFPDIF1.LoSet.setVal |
ING |
INT32 |
SG |
B |
5 |
Operate
value |
Operate
value |
5...50
%In |
Settings\Settings\Differential
prot\LREFPNDF1 |
|||
|
LREFPNDF1 |
dIoLo> |
87NL |
SET |
LD0.LREFPDIF1.CTConnTyp.setVal |
ING |
Enum |
SP |
B |
2 |
CT
connection type |
CT
connection type |
1=Type
1; 2=Type 2 |
Settings\Settings\Differential
prot\LREFPNDF1 |
|||
|
LREFPNDF1 |
dIoLo> |
87NL |
SET |
LD0.LREFPDIF1.RstMod.setVal |
ING |
Enum |
SG |
B |
1 |
Restraint
mode |
Restraint
mode |
1=None;
2=Harmonic2 |
Settings\Settings\Differential
prot\LREFPNDF1 |
|||
|
LREFPNDF1 |
dIoLo> |
87NL |
SET |
LD0.LREFPDIF1.MinOpTmms.setVal |
ING |
INT32 |
SG |
B |
40 |
Minimum
operate time |
Minimum
operate time |
40...300000
ms |
Settings\Settings\Differential
prot\LREFPNDF1 |
|||
|
LREFPNDF1 |
dIoLo> |
87NL |
SET |
LD0.LREFPHAR1.PhStr.setMag.f |
ASG |
FLOAT32 |
SG |
B |
50
|
Start
value 2.H |
The
ratio of the 2. harmonic to fundamental component required for blocking |
10...50
%In |
Settings\Settings\Differential
prot\LREFPNDF1 |
|||
|
LREFPNDF1 |
dIoLo> |
87NL |
TES |
LD0.LREFPDIF1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
LREFPNDF1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE;
35=Activate BLK2H; 36=Deactive BLK2H |
Tests\Function
tests\Differential prot |
|||
|
LREFPNDF1 |
dIoLo> |
87NL |
VER |
LD0.LREFPDIF1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
LREFPNDF1 |
dIoLo> |
87NL |
VER |
LD0.LREFPHAR1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
INP |
LD0.EFLPTOC1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\EFLPTOC1\Inputs |
||||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
INP |
LD0.EFLPTOC1.InEnaMult.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ENA_MULT |
Enable
signal for current multiplier |
Monitoring\I/O
status\Current protection\EFLPTOC1\Inputs |
||||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
OUT |
LD0.EFLPTOC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Current protection\EFLPTOC1\Outputs |
|||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
OUT |
LD0.EFLPTOC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Current protection\EFLPTOC1\Outputs |
|||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
MON |
LD0.EFLPTOC1.Beh.stVal |
INS |
Enum |
ST |
B |
EFLPTOC1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
MON |
LD0.EFLPTOC1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\EFLPTOC1\Monitored data |
||||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
SET |
LD0.EFLPTOC1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\EFLPTOC1 |
|||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
SET |
LD0.EFLPTOC1.AMeasMod.setVal |
ING |
Enum |
SP |
B |
2 |
Measurement
mode |
Selects
used measurement mode |
1=RMS;
2=DFT; 3=Peak-to-Peak |
Settings\Settings\Current
protection\EFLPTOC1 |
|||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
SET |
LD0.EFLPTOC1.StrValMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Start
value Mult |
Multiplier
for scaling the start value |
0.8...10.0 |
Settings\Settings\Current
protection\EFLPTOC1 |
|||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
SET |
LD0.EFLPTOC1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.50 |
Start
value |
Start
value |
0.010...5.000
xIn |
Settings\Settings\Current
protection\EFLPTOC1 |
RESTCTR1 |
||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
SET |
LD0.EFLPTOC1.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.00 |
Time
multiplier |
Time
multiplier in IEC/ANSI IDMT curves |
0.05...15.00 |
Settings\Settings\Current
protection\EFLPTOC1 |
|||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
SET |
LD0.EFLPTOC1.TmACrv.setCharact |
CURVE |
Enum |
SG |
B,I |
2 |
Operating
curve type |
Selection
of time delay curve type |
1=ANSI
Ext. inv.; 2=ANSI Very inv.; 3=ANSI Norm. inv.; 4=ANSI Mod. inv.; 5=ANSI Def.
Time; 6=L.T.E. inv.; 7=L.T.V. inv.; 8=L.T. inv.; 9=IEC Norm. inv.; 10=IEC
Very inv.; 11=IEC inv.; 12=IEC Ext. inv.; 13=IEC S.T. inv.; 14=IEC L.T. inv.;
15=IEC Def. Time; 17=Programmable; 18=RI type; 19=RD type |
Settings\Settings\Current
protection\EFLPTOC1 |
|||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
SET |
LD0.EFLPTOC1.TmACrv.setParA |
CURVE |
FLOAT32 |
SP |
B,I |
28.2000 |
Curve
parameter A |
Parameter
A for customer programmable curve |
0.0086...120.0000 |
Settings\Settings\Current
protection\EFLPTOC1 |
|||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
SET |
LD0.EFLPTOC1.TmACrv.setParB |
CURVE |
FLOAT32 |
SP |
B,I |
0.1217 |
Curve
parameter B |
Parameter
B for customer programmable curve |
0.0000...0.7120 |
Settings\Settings\Current
protection\EFLPTOC1 |
|||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
SET |
LD0.EFLPTOC1.TmACrv.setParC |
CURVE |
FLOAT32 |
SP |
B,I |
2.00 |
Curve
parameter C |
Parameter
C for customer programmable curve |
0.02...2.00 |
Settings\Settings\Current
protection\EFLPTOC1 |
|||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
SET |
LD0.EFLPTOC1.TmACrv.setParD |
CURVE |
FLOAT32 |
SP |
B,I |
29.10 |
Curve
parameter D |
Parameter
D for customer programmable curve |
0.46...30.00 |
Settings\Settings\Current
protection\EFLPTOC1 |
|||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
SET |
LD0.EFLPTOC1.TmACrv.setParE |
CURVE |
FLOAT32 |
SP |
B,I |
1.0 |
Curve
parameter E |
Parameter
E for customer programmable curve |
0.0...1.0 |
Settings\Settings\Current
protection\EFLPTOC1 |
|||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
SET |
LD0.EFLPTOC1.MinOpTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
20...60000
ms |
Settings\Settings\Current
protection\EFLPTOC1 |
|||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
SET |
LD0.EFLPTOC1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
40 |
Operate
delay time |
Operate
delay time |
40...200000
ms |
Settings\Settings\Current
protection\EFLPTOC1 |
|||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
SET |
LD0.EFLPTOC1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\EFLPTOC1 |
|||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
SET |
LD0.EFLPTOC1.TypRsCrv.setVal |
ING |
Enum |
SG |
B |
1 |
Type
of reset curve |
Selection
of reset curve type |
1=Immediate;
2=Def time reset; 3=Inverse reset |
Settings\Settings\Current
protection\EFLPTOC1 |
|||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
SET |
LD0.EFLPTOC1.AResSigSel.setVal |
ING |
Enum |
SP |
B,I |
1 |
Io
signal Sel |
Selection
for used Io signal |
1=Measured
Io |
Settings\Settings\Current
protection\EFLPTOC1 |
|||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
TES |
LD0.EFLPTOC1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
EFLPTOC1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
EFLPTOC1 |
Io>(1) |
51N-1(1) |
VER |
LD0.EFLPTOC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
E |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
INP |
LD0.EFHPTOC1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\EFHPTOC1\Inputs |
||||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
INP |
LD0.EFHPTOC1.InEnaMult.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ENA_MULT |
Enable
signal for current multiplier |
Monitoring\I/O
status\Current protection\EFHPTOC1\Inputs |
||||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
OUT |
LD0.EFHPTOC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Current protection\EFHPTOC1\Outputs |
|||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
OUT |
LD0.EFHPTOC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Current protection\EFHPTOC1\Outputs |
|||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
MON |
LD0.EFHPTOC1.Beh.stVal |
INS |
Enum |
ST |
B |
EFHPTOC1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
MON |
LD0.EFHPTOC1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\EFHPTOC1\Monitored data |
||||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
SET |
LD0.EFHPTOC1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\EFHPTOC1 |
|||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
SET |
LD0.EFHPTOC1.AMeasMod.setVal |
ING |
Enum |
SP |
B |
2 |
Measurement
mode |
Selects
used measurement mode |
1=RMS;
2=DFT; 3=Peak-to-Peak |
Settings\Settings\Current
protection\EFHPTOC1 |
|||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
SET |
LD0.EFHPTOC1.StrValMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Start
value Mult |
Multiplier
for scaling the start value |
0.8...10.0 |
Settings\Settings\Current
protection\EFHPTOC1 |
|||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
SET |
LD0.EFHPTOC1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.00 |
Start
value |
Start
value |
0.10...40.00
xIn |
Settings\Settings\Current
protection\EFHPTOC1 |
RESTCTR1 |
||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
SET |
LD0.EFHPTOC1.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.00 |
Time
multiplier |
Time
multiplier in IEC/ANSI IDMT curves |
0.05...15.00 |
Settings\Settings\Current
protection\EFHPTOC1 |
|||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
SET |
LD0.EFHPTOC1.TmACrv.setCharact |
CURVE |
Enum |
SG |
B,I |
5 |
Operating
curve type |
Selection
of time delay curve type |
1=ANSI
Ext. inv.; 3=ANSI Norm. inv.; 5=ANSI Def. Time; 9=IEC Norm. inv.; 10=IEC Very
inv.; 12=IEC Ext. inv.; 15=IEC Def. Time; 17=Programmable |
Settings\Settings\Current
protection\EFHPTOC1 |
|||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
SET |
LD0.EFHPTOC1.TmACrv.setParA |
CURVE |
FLOAT32 |
SP |
B,I |
28.2000 |
Curve
parameter A |
Parameter
A for customer programmable curve |
0.0086...120.0000 |
Settings\Settings\Current
protection\EFHPTOC1 |
|||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
SET |
LD0.EFHPTOC1.TmACrv.setParB |
CURVE |
FLOAT32 |
SP |
B,I |
0.1217 |
Curve
parameter B |
Parameter
B for customer programmable curve |
0.0000...0.7120 |
Settings\Settings\Current
protection\EFHPTOC1 |
|||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
SET |
LD0.EFHPTOC1.TmACrv.setParC |
CURVE |
FLOAT32 |
SP |
B,I |
2.00 |
Curve
parameter C |
Parameter
C for customer programmable curve |
0.02...2.00 |
Settings\Settings\Current
protection\EFHPTOC1 |
|||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
SET |
LD0.EFHPTOC1.TmACrv.setParD |
CURVE |
FLOAT32 |
SP |
B,I |
29.10 |
Curve
parameter D |
Parameter
D for customer programmable curve |
0.46...30.00 |
Settings\Settings\Current
protection\EFHPTOC1 |
|||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
SET |
LD0.EFHPTOC1.TmACrv.setParE |
CURVE |
FLOAT32 |
SP |
B,I |
1.0 |
Curve
parameter E |
Parameter
E for customer programmable curve |
0.0...1.0 |
Settings\Settings\Current
protection\EFHPTOC1 |
|||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
SET |
LD0.EFHPTOC1.MinOpTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
20...60000
ms |
Settings\Settings\Current
protection\EFHPTOC1 |
|||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
SET |
LD0.EFHPTOC1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
1000 |
Operate
delay time |
Operate
delay time |
40...200000
ms |
Settings\Settings\Current
protection\EFHPTOC1 |
|||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
SET |
LD0.EFHPTOC1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\EFHPTOC1 |
|||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
SET |
LD0.EFHPTOC1.TypRsCrv.setVal |
ING |
Enum |
SG |
B |
1 |
Type
of reset curve |
Selection
of reset curve type |
1=Immediate;
2=Def time reset; 3=Inverse reset |
Settings\Settings\Current
protection\EFHPTOC1 |
|||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
SET |
LD0.EFHPTOC1.AResSigSel.setVal |
ING |
Enum |
SP |
B,I |
1 |
Io
signal Sel |
Selection
for used Io signal |
1=Measured
Io |
Settings\Settings\Current
protection\EFHPTOC1 |
|||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
TES |
LD0.EFHPTOC1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
EFHPTOC1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
EFHPTOC1 |
Io>>(1) |
51N-2(1) |
VER |
LD0.EFHPTOC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
D |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
INP |
LD0.EFHPTOC2.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\EFHPTOC2\Inputs |
||||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
INP |
LD0.EFHPTOC2.InEnaMult.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ENA_MULT |
Enable
signal for current multiplier |
Monitoring\I/O
status\Current protection\EFHPTOC2\Inputs |
||||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
OUT |
LD0.EFHPTOC2.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Current protection\EFHPTOC2\Outputs |
|||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
OUT |
LD0.EFHPTOC2.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Current protection\EFHPTOC2\Outputs |
|||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
MON |
LD0.EFHPTOC2.Beh.stVal |
INS |
Enum |
ST |
B |
EFHPTOC2 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
MON |
LD0.EFHPTOC2.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\EFHPTOC2\Monitored data |
||||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
SET |
LD0.EFHPTOC2.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\EFHPTOC2 |
|||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
SET |
LD0.EFHPTOC2.AMeasMod.setVal |
ING |
Enum |
SP |
B |
2 |
Measurement
mode |
Selects
used measurement mode |
1=RMS;
2=DFT; 3=Peak-to-Peak |
Settings\Settings\Current
protection\EFHPTOC2 |
|||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
SET |
LD0.EFHPTOC2.StrValMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Start
value Mult |
Multiplier
for scaling the start value |
0.8...10.0 |
Settings\Settings\Current
protection\EFHPTOC2 |
|||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
SET |
LD0.EFHPTOC2.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
2.00 |
Start
value |
Start
value |
0.10...40.00
xIn |
Settings\Settings\Current
protection\EFHPTOC2 |
RESTCTR1 |
||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
SET |
LD0.EFHPTOC2.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.00 |
Time
multiplier |
Time
multiplier in IEC/ANSI IDMT curves |
0.05...15.00 |
Settings\Settings\Current
protection\EFHPTOC2 |
|||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
SET |
LD0.EFHPTOC2.TmACrv.setCharact |
CURVE |
Enum |
SG |
B,I |
5 |
Operating
curve type |
Selection
of time delay curve type |
1=ANSI
Ext. inv.; 3=ANSI Norm. inv.; 5=ANSI Def. Time; 9=IEC Norm. inv.; 10=IEC Very
inv.; 12=IEC Ext. inv.; 15=IEC Def. Time; 17=Programmable |
Settings\Settings\Current
protection\EFHPTOC2 |
|||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
SET |
LD0.EFHPTOC2.TmACrv.setParA |
CURVE |
FLOAT32 |
SP |
B,I |
28.2000 |
Curve
parameter A |
Parameter
A for customer programmable curve |
0.0086...120.0000 |
Settings\Settings\Current
protection\EFHPTOC2 |
|||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
SET |
LD0.EFHPTOC2.TmACrv.setParB |
CURVE |
FLOAT32 |
SP |
B,I |
0.1217 |
Curve
parameter B |
Parameter
B for customer programmable curve |
0.0000...0.7120 |
Settings\Settings\Current
protection\EFHPTOC2 |
|||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
SET |
LD0.EFHPTOC2.TmACrv.setParC |
CURVE |
FLOAT32 |
SP |
B,I |
2.00 |
Curve
parameter C |
Parameter
C for customer programmable curve |
0.02...2.00 |
Settings\Settings\Current
protection\EFHPTOC2 |
|||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
SET |
LD0.EFHPTOC2.TmACrv.setParD |
CURVE |
FLOAT32 |
SP |
B,I |
29.10 |
Curve
parameter D |
Parameter
D for customer programmable curve |
0.46...30.00 |
Settings\Settings\Current
protection\EFHPTOC2 |
|||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
SET |
LD0.EFHPTOC2.TmACrv.setParE |
CURVE |
FLOAT32 |
SP |
B,I |
1.0 |
Curve
parameter E |
Parameter
E for customer programmable curve |
0.0...1.0 |
Settings\Settings\Current
protection\EFHPTOC2 |
|||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
SET |
LD0.EFHPTOC2.MinOpTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
20...60000
ms |
Settings\Settings\Current
protection\EFHPTOC2 |
|||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
SET |
LD0.EFHPTOC2.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
300 |
Operate
delay time |
Operate
delay time |
40...200000
ms |
Settings\Settings\Current
protection\EFHPTOC2 |
|||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
SET |
LD0.EFHPTOC2.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\EFHPTOC2 |
|||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
SET |
LD0.EFHPTOC2.TypRsCrv.setVal |
ING |
Enum |
SG |
B |
1 |
Type
of reset curve |
Selection
of reset curve type |
1=Immediate;
2=Def time reset; 3=Inverse reset |
Settings\Settings\Current
protection\EFHPTOC2 |
|||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
SET |
LD0.EFHPTOC2.AResSigSel.setVal |
ING |
Enum |
SP |
B,I |
1 |
Io
signal Sel |
Selection
for used Io signal |
1=Measured
Io |
Settings\Settings\Current
protection\EFHPTOC2 |
|||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
TES |
LD0.EFHPTOC2.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
EFHPTOC2 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
EFHPTOC2 |
Io>>(2) |
51N-2(2) |
VER |
LD0.EFHPTOC2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
D |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
DARREC1 |
O->I |
79 |
INP |
LD0.DARREC1.InInhRec.stVal |
SPS |
BOOLEAN |
ST |
A |
0 |
INHIBIT_RECL |
Interrupts
and inhibits reclosing sequence |
Monitoring\I/O
status\Control\DARREC1\Inputs |
||||
|
DARREC1 |
O->I |
79 |
INP |
LD0.DARREC1.InBlkThm.stVal |
SPS |
BOOLEAN |
ST |
A |
0 |
BLK_THERM |
Blocks
and holds the reclose shot from the thermal overload |
Monitoring\I/O
status\Control\DARREC1\Inputs |
||||
|
DARREC1 |
O->I |
79 |
INP |
LD0.DARREC1.InReClsOn.stVal |
SPS |
BOOLEAN |
ST |
A |
0 |
RECL_ON |
Level
sensitive signal for allowing (high) / not allowing (low) reclosing |
Monitoring\I/O
status\Control\DARREC1\Inputs |
||||
|
DARREC1 |
O->I |
79 |
INP |
LD0.DARREC1.InBlkRclTm.stVal |
SPS |
BOOLEAN |
ST |
A |
0 |
BLK_RCLM_T |
Blocks
and resets reclaim time |
Monitoring\I/O
status\Control\DARREC1\Inputs |
||||
|
DARREC1 |
O->I |
79 |
INP |
LD0.DARREC1.InCBPos.stVal |
SPS |
BOOLEAN |
ST |
A |
0 |
CB_POS |
Circuit
breaker position input |
Monitoring\I/O
status\Control\DARREC1\Inputs |
||||
|
DARREC1 |
O->I |
79 |
INP |
LD0.DARREC1.InCBRdy.stVal |
SPS |
BOOLEAN |
ST |
A |
1 |
CB_READY |
Circuit
breaker status signal |
Monitoring\I/O
status\Control\DARREC1\Inputs |
||||
|
DARREC1 |
O->I |
79 |
INP |
LD0.DARREC1.InSynChk.stVal |
SPS |
BOOLEAN |
ST |
A |
0 |
SYNC |
Synchronizing
check fulfilled |
Monitoring\I/O
status\Control\DARREC1\Inputs |
||||
|
DARREC1 |
O->I |
79 |
INP |
LD0.DARREC1.InIncrPntr.stVal |
SPS |
BOOLEAN |
ST |
A |
0 |
INC_SHOTP |
A
zone sequence coordination signal |
Monitoring\I/O
status\Control\DARREC1\Inputs |
||||
|
DARREC1 |
O->I |
79 |
INP |
LD0.DARREC1.InIni1.stVal |
SPS |
BOOLEAN |
ST |
A |
0 |
INIT_1 |
AR
initialization / blocking signal 1 |
Monitoring\I/O
status\Control\DARREC1\Inputs |
||||
|
DARREC1 |
O->I |
79 |
INP |
LD0.DARREC1.InIni2.stVal |
SPS |
BOOLEAN |
ST |
A |
0 |
INIT_2 |
AR
initialization / blocking signal 2 |
Monitoring\I/O
status\Control\DARREC1\Inputs |
||||
|
DARREC1 |
O->I |
79 |
INP |
LD0.DARREC1.InIni3.stVal |
SPS |
BOOLEAN |
ST |
A |
0 |
INIT_3 |
AR
initialization / blocking signal 3 |
Monitoring\I/O
status\Control\DARREC1\Inputs |
||||
|
DARREC1 |
O->I |
79 |
INP |
LD0.DARREC1.InIni4.stVal |
SPS |
BOOLEAN |
ST |
A |
0 |
INIT_4 |
AR
initialization / blocking signal 4 |
Monitoring\I/O
status\Control\DARREC1\Inputs |
||||
|
DARREC1 |
O->I |
79 |
INP |
LD0.DARREC1.InIni5.stVal |
SPS |
BOOLEAN |
ST |
A |
0 |
INIT_5 |
AR
initialization / blocking signal 5 |
Monitoring\I/O
status\Control\DARREC1\Inputs |
||||
|
DARREC1 |
O->I |
79 |
INP |
LD0.DARREC1.InIni6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
INIT_6 |
AR
initialization / blocking signal 6 |
Monitoring\I/O
status\Control\DARREC1\Inputs |
||||
|
DARREC1 |
O->I |
79 |
INP |
LD0.DARREC1.InDlIni2.stVal |
SPS |
BOOLEAN |
ST |
A |
0 |
DEL_INIT_2 |
Delayed
AR initialization / blocking signal 2 |
Monitoring\I/O
status\Control\DARREC1\Inputs |
||||
|
DARREC1 |
O->I |
79 |
INP |
LD0.DARREC1.InDlIni3.stVal |
SPS |
BOOLEAN |
ST |
A |
0 |
DEL_INIT_3 |
Delayed
AR initialization / blocking signal 3 |
Monitoring\I/O
status\Control\DARREC1\Inputs |
||||
|
DARREC1 |
O->I |
79 |
INP |
LD0.DARREC1.InDlIni4.stVal |
SPS |
BOOLEAN |
ST |
A |
0 |
DEL_INIT_4 |
Delayed
AR initialization / blocking signal 4 |
Monitoring\I/O
status\Control\DARREC1\Inputs |
||||
|
DARREC1 |
O->I |
79 |
INP |
LD0.DARREC1.InBlkRecTm.stVal |
SPS |
BOOLEAN |
ST |
A |
0 |
BLK_RECL_T |
Blocks
and resets reclose time |
Monitoring\I/O
status\Control\DARREC1\Inputs |
||||
|
DARREC1 |
O->I |
79 |
OUT |
LD0.DARREC1.Op.general |
ACT |
BOOLEAN |
ST |
A |
StatNrml |
P,H,T |
CLOSE_CB |
Close
(reclose) command for circuit breaker |
(A,B,C) |
Monitoring\I/O
status\Control\DARREC1\Outputs |
||
|
DARREC1 |
O->I |
79 |
OUT |
LD0.DARREC1.OpOpn.general |
ACT |
BOOLEAN |
ST |
A |
StatNrml |
P,H |
OPEN_CB |
Open
command for circuit breaker |
(A,B,C) |
Monitoring\I/O
status\Control\DARREC1\Outputs |
||
|
DARREC1 |
O->I |
79 |
OUT |
LD0.DARREC1.LO.stVal |
SPS |
BOOLEAN |
ST |
A |
StatNrml |
P,H |
LOCKED |
Signal
indicating that AR is locked out |
Monitoring\I/O
status\Control\DARREC1\Outputs |
|||
|
DARREC1 |
O->I |
79 |
OUT |
LD0.DARREC1.RdyRec.stVal |
SPS |
BOOLEAN |
ST |
A |
StatIed |
P,H |
READY |
Indicates
that the AR is ready for a new sequence |
Monitoring\I/O
status\Control\DARREC1\Outputs |
|||
|
DARREC1 |
O->I |
79 |
OUT |
LD0.DARREC1.UnsRec.stVal |
SPS |
BOOLEAN |
ST |
A |
StatNrml |
P,H |
UNSUC_RECL |
Indicates
an unsuccessful reclosing sequence |
Monitoring\I/O
status\Control\DARREC1\Outputs |
|||
|
DARREC1 |
O->I |
79 |
OUT |
LD0.DARREC1.PrgRec.stVal |
SPS |
BOOLEAN |
ST |
A |
StatNrml |
P,H |
INPRO |
Reclosing
shot in progress, activated during dead time |
Monitoring\I/O
status\Control\DARREC1\Outputs |
|||
|
DARREC1 |
O->I |
79 |
OUT |
LD0.DARREC1.WtMstr.stVal |
SPS |
BOOLEAN |
ST |
A |
StatIed |
P,H |
CMD_WAIT |
Wait
for master command |
Monitoring\I/O
status\Control\DARREC1\Outputs |
|||
|
DARREC1 |
O->I |
79 |
OUT |
LD0.DARREC1.ProCrd.stVal |
SPS |
BOOLEAN |
ST |
A |
PROT_CRD |
A
signal for coordination between the AR and the protection |
Monitoring\I/O
status\Control\DARREC1\Outputs |
|||||
|
DARREC1 |
O->I |
79 |
OUT |
LD0.DARREC1.AROn.stVal |
SPS |
BOOLEAN |
ST |
A |
StatIed |
P,H |
AR_ON |
Autoreclosing
allowed |
Monitoring\I/O
status\Control\DARREC1\Outputs |
|||
|
DARREC1 |
O->I |
79 |
CTR |
LD0.DARREC1.RsRec.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
DARREC1
reset |
DARREC1
reset to initial condition |
0=Cancel;
1=Clear |
Clear\Clear |
|||
|
DARREC1 |
O->I |
79 |
CTR |
LD0.DARREC1.RsCnt.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
DARREC1
counters |
DARREC1
all counters reset |
0=Cancel;
1=Clear |
Clear\Clear |
|||
|
DARREC1 |
O->I |
79 |
CTR |
LD0.DARREC1.DsaCnt.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Signal
for counter disabling) |
||||||||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.Beh.stVal |
INS |
Enum |
ST |
B |
DARREC1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.AutoRecSt.stVal |
INS |
Enum |
ST |
A |
StatIed |
P,H |
STATUS |
AR
status signal for IEC61850 |
-2=Unsuccessful;
-1=Not defined; 1=Ready; 2=In progress; 3=Successful |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.ActRec.stVal |
SPS |
BOOLEAN |
ST |
A |
StatIed |
P,H |
ACTIVE |
Reclosing
sequence is in progress |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
|||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.SucRec.stVal |
SPS |
BOOLEAN |
ST |
A |
StatNrml |
P,H |
SUC_RECL |
Indicates
a successful reclosing sequence |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
|||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.UnsCBCls.stVal |
SPS |
BOOLEAN |
ST |
A |
StatIed |
P,H |
UNSUC_CB |
Indicates
an unsuccessful CB closing |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
|||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.PrgRec1.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIed |
P,H |
INPRO_1 |
Reclosing
shot in progress, shot 1 |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
|||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.PrgRec2.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIed |
P,H |
INPRO_2 |
Reclosing
shot in progress, shot 2 |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
|||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.PrgRec3.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIed |
P,H |
INPRO_3 |
Reclosing
shot in progress, shot 3 |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
|||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.PrgRec4.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIed |
P,H |
INPRO_4 |
Reclosing
shot in progress, shot 4 |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
|||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.PrgRec5.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIed |
P,H |
INPRO_5 |
Reclosing
shot in progress, shot 5 |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
|||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.PrgDsr.stVal |
SPS |
BOOLEAN |
ST |
A |
StatIed |
P,H |
DISCR_INPRO |
Signal
indicating that discrimination time is in progress |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
|||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.PrgCutOut.stVal |
SPS |
BOOLEAN |
ST |
A |
StatIed |
P,H |
CUTOUT_INPRO |
Signal
indicating that cut-out time is in progress |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
|||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.OpCntRs.stVal |
INC |
INT32 |
ST |
A |
COUNTER |
Resetable
operation counter, all shots |
0...2147483647 |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
||||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.OpCnt1.stVal |
INS |
INT32 |
ST |
A |
CNT_SHOT1 |
Resetable
operation counter, shot 1 |
0...2147483647 |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
||||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.OpCnt2.stVal |
INS |
INT32 |
ST |
A |
CNT_SHOT2 |
Resetable
operation counter, shot 2 |
0...2147483647 |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
||||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.OpCnt3.stVal |
INS |
INT32 |
ST |
A |
CNT_SHOT3 |
Resetable
operation counter, shot 3 |
0...2147483647 |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
||||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.OpCnt4.stVal |
INS |
INT32 |
ST |
A |
CNT_SHOT4 |
Resetable
operation counter, shot 4 |
0...2147483647 |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
||||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.OpCnt5.stVal |
INS |
INT32 |
ST |
A |
CNT_SHOT5 |
Resetable
operation counter, shot 5 |
0...2147483647 |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
||||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.FrqOpCnt.stVal |
INS |
INT32 |
ST |
A |
FRQ_OPR_CNT |
Frequent
operation counter |
0...2147483647 |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
||||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.FrqOpAlm.stVal |
SPS |
BOOLEAN |
ST |
A |
StatIed |
P,H |
FRQ_OPR_AL |
Frequent
operation counter alarm |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
|||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.DsaCnt.stVal |
SPC |
BOOLEAN |
ST |
B |
DISA_COUNT |
Signal
for counter disabling |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
|||||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.RclTmStr.stVal |
SPS |
BOOLEAN |
ST |
StatIed |
P,H |
(Reclaim
time started) |
||||||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.CBManCls.stVal |
SPS |
BOOLEAN |
ST |
A |
StatIed |
P,H |
MAN_CB_CL |
Indicates
CB manual closing during reclosing sequence |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
|||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.ShotPntr.stVal |
INS |
INT32 |
ST |
A |
StatIed |
P,H |
SHOT_PTR |
Shot
pointer value |
0...6 |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
||
|
DARREC1 |
O->I |
79 |
MON |
LD0.DARREC1.SOF.stVal |
SPS |
BOOLEAN |
ST |
A |
SOTF |
Switch-onto-fault |
Monitoring\I/O
status\Control\DARREC1\Monitored data |
|||||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off/On |
1=on;
5=off |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.AutoIni.setVal |
ING |
INT32 |
SP |
B,I |
0 |
Auto
init |
Defines
INIT lines that are activated at auto initiation |
0...63 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.RecOp.setVal |
ING |
Enum |
SP |
B |
1 |
Reclosing
operation |
Reclosing
operation (Off, External Ctl / On) |
1=Off;
2=External Ctl; 3=On |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.ManClsMod.setVal |
SPG |
BOOLEAN |
SP |
A |
0 |
Manual
close mode |
Manual
close mode |
Settings\Settings\Control\DARREC1 |
||||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.WtClsTmms.setVal |
ING |
INT32 |
SP |
A |
250 |
Wait
close time |
Allowed
CB closing time after reclose command |
50...10000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.MaxWtTmms.setVal |
ING |
INT32 |
SP |
A |
10000 |
Max
wait time |
Maximum
wait time for haltDeadTime release |
100...1800000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.PlsTmms.setVal |
ING |
INT32 |
SP |
B |
300 |
Close
pulse time |
CB
close pulse time |
10...10000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.MaxBlkTmms.setVal |
ING |
INT32 |
SP |
A |
10000 |
Max
Thm block time |
Maximum
wait time for thermal blocking signal deactivation |
100...1800000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.CutOutTmms.setVal |
ING |
INT32 |
SP |
A |
10000 |
Cut-out
time |
Cutout
time for protection coordination |
0...1800000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.RclTmms.setVal |
ING |
INT32 |
SP |
B |
10000 |
Reclaim
time |
Reclaim
time |
100...1800000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.DsrTmms1.setVal |
ING |
INT32 |
SP |
A |
0 |
Dsr
time shot 1 |
Discrimination
time for first reclosing |
0...10000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.DsrTmms2.setVal |
ING |
INT32 |
SP |
A |
0 |
Dsr
time shot 2 |
Discrimination
time for second reclosing |
0...10000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.DsrTmms3.setVal |
ING |
INT32 |
SP |
A |
0 |
Dsr
time shot 3 |
Discrimination
time for third reclosing |
0...10000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.DsrTmms4.setVal |
ING |
INT32 |
SP |
A |
0 |
Dsr
time shot 4 |
Discrimination
time for fourth reclosing |
0...10000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.TermPrio.setVal |
ING |
Enum |
SP |
B |
1 |
Terminal
priority |
Terminal
priority |
1=None;
2=Low (follower); 3=High (master) |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.SynSet.setVal |
ING |
INT32 |
SP |
B |
0 |
Synchronisation
set |
Selection
for synchronizing requirement for reclosing |
0...127 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.AutoWtTmms.setVal |
ING |
INT32 |
SP |
A |
2000 |
Auto
wait time |
Wait
time for reclosing condition fullfilling |
0...60000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.AutoLORst.setVal |
SPG |
BOOLEAN |
SP |
A |
0 |
Auto
lockout reset |
Automatic
lockout reset |
Settings\Settings\Control\DARREC1 |
||||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.ProtCrdLim.setVal |
ING |
INT32 |
SP |
A |
2 |
Protection
crd limit |
Protection
coordination shot limit |
1...5 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.ProtCrdMod.setVal |
ING |
Enum |
SP |
A |
1 |
Protection
crd mode |
Protection
coordination mode |
1=No
condition; 2=AR inoperative; 3=CB close manual; 4=AR inop, CB man; 5=Always |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.AutoIniCnd.setVal |
ING |
Enum |
SP |
B |
1 |
Auto
initiation cnd |
Auto
initiation condition |
1=Not
allowed; 2=When sync fails; 3=CB doesn't close; 4=Both |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.TrLin.setVal |
ING |
INT32 |
SP |
A |
19 |
Tripping
line |
Tripping
line, defines INIT inputs which cause OPEN_CB activation |
0...63 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.CtlLin.setVal |
ING |
INT32 |
SP |
A |
19 |
Control
line |
Control
line, defines INIT inputs which are protection signals |
0...63 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.EnaShotJmp.setVal |
SPG |
BOOLEAN |
SP |
A |
0 |
Enable
shot jump |
Enable
shot jumping |
Settings\Settings\Control\DARREC1 |
||||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.CBClsPosSt.setVal |
SPG |
BOOLEAN |
SP |
A |
0 |
CB
closed Pos status |
Circuit
breaker closed position status |
Settings\Settings\Control\DARREC1 |
||||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.Ena4DISOF.setVal |
SPG |
BOOLEAN |
SP |
B,I |
0 |
Fourth
delay in SOTF |
Sets
4th delay into use for all DEL_INIT signals during SOTF |
Settings\Settings\Control\DARREC1 |
||||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.Rec1Tmms.setVal |
ING |
INT32 |
SP |
B |
500 |
First
reclose time |
Dead
time for CBB1 |
0...300000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.Rec2Tmms.setVal |
ING |
INT32 |
SP |
B |
1000 |
Second
reclose time |
Dead
time for CBB2 |
0...300000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.Rec3Tmms.setVal |
ING |
INT32 |
SP |
B |
2000 |
Third
reclose time |
Dead
time for CBB3 |
0...300000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.Rec4Tmms.setVal |
ING |
INT32 |
SP |
B |
5000 |
Fourth
reclose time |
Dead
time for CBB4 |
0...300000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.Rec5Tmms.setVal |
ING |
INT32 |
SP |
B |
5000 |
Fifth
reclose time |
Dead
time for CBB5 |
0...300000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.Rec6Tmms.setVal |
ING |
INT32 |
SP |
B |
5000 |
Sixth
reclose time |
Dead
time for CBB6 |
0...300000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.Rec7Tmms.setVal |
ING |
INT32 |
SP |
B |
5000 |
Seventh
reclose time |
Dead
time for CBB7 |
0...300000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.IniSigCBB1.setVal |
ING |
INT32 |
SP |
B |
3 |
Init
signals CBB1 |
Initiation
lines for CBB1 |
0...63 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.IniSigCBB2.setVal |
ING |
INT32 |
SP |
B |
3 |
Init
signals CBB2 |
Initiation
lines for CBB2 |
0...63 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.IniSigCBB3.setVal |
ING |
INT32 |
SP |
B |
3 |
Init
signals CBB3 |
Initiation
lines for CBB3 |
0...63 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.IniSigCBB4.setVal |
ING |
INT32 |
SP |
B |
3 |
Init
signals CBB4 |
Initiation
lines for CBB4 |
0...63 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.IniSigCBB5.setVal |
ING |
INT32 |
SP |
B |
0 |
Init
signals CBB5 |
Initiation
lines for CBB5 |
0...63 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.IniSigCBB6.setVal |
ING |
INT32 |
SP |
B |
0 |
Init
signals CBB6 |
Initiation
lines for CBB6 |
0...63 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.IniSigCBB7.setVal |
ING |
INT32 |
SP |
B |
0 |
Init
signals CBB7 |
Initiation
lines for CBB7 |
0...63 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.BlkSigCBB1.setVal |
ING |
INT32 |
SP |
A |
0 |
Blk
signals CBB1 |
Blocking
lines for CBB1 |
0...63 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.BlkSigCBB2.setVal |
ING |
INT32 |
SP |
A |
0 |
Blk
signals CBB2 |
Blocking
lines for CBB2 |
0...63 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.BlkSigCBB3.setVal |
ING |
INT32 |
SP |
A |
0 |
Blk
signals CBB3 |
Blocking
lines for CBB3 |
0...63 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.BlkSigCBB4.setVal |
ING |
INT32 |
SP |
A |
0 |
Blk
signals CBB4 |
Blocking
lines for CBB4 |
0...63 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.BlkSigCBB5.setVal |
ING |
INT32 |
SP |
A |
0 |
Blk
signals CBB5 |
Blocking
lines for CBB5 |
0...63 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.BlkSigCBB6.setVal |
ING |
INT32 |
SP |
A |
0 |
Blk
signals CBB6 |
Blocking
lines for CBB6 |
0...63 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.BlkSigCBB7.setVal |
ING |
INT32 |
SP |
A |
0 |
Blk
signals CBB7 |
Blocking
lines for CBB7 |
0...63 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.ShotNum1.setVal |
ING |
INT32 |
SP |
A |
1 |
Shot
number CBB1 |
Shot
number for CBB1 |
0...5 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.ShotNum2.setVal |
ING |
INT32 |
SP |
A |
2 |
Shot
number CBB2 |
Shot
number for CBB2 |
0...5 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.ShotNum3.setVal |
ING |
INT32 |
SP |
B |
3 |
Shot
number CBB3 |
Shot
number for CBB3 |
0...5 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.ShotNum4.setVal |
ING |
INT32 |
SP |
B |
4 |
Shot
number CBB4 |
Shot
number for CBB4 |
0...5 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.ShotNum5.setVal |
ING |
INT32 |
SP |
B |
0 |
Shot
number CBB5 |
Shot
number for CBB5 |
0...5 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.ShotNum6.setVal |
ING |
INT32 |
SP |
A |
0 |
Shot
number CBB6 |
Shot
number for CBB6 |
0...5 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.ShotNum7.setVal |
ING |
INT32 |
SP |
A |
0 |
Shot
number CBB7 |
Shot
number for CBB7 |
0...5 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.Str2Tmms1.setVal |
ING |
INT32 |
SP |
A |
0 |
Str
2 delay shot 1 |
Delay
time for start2, 1st reclose |
0...300000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.Str2Tmms2.setVal |
ING |
INT32 |
SP |
A |
0 |
Str
2 delay shot 2 |
Delay
time for start2 2nd reclose |
0...300000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.Str2Tmms3.setVal |
ING |
INT32 |
SP |
A |
0 |
Str
2 delay shot 3 |
Delay
time for start2 3rd reclose |
0...300000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.Str2Tmms4.setVal |
ING |
INT32 |
SP |
A |
0 |
Str
2 delay shot 4 |
Delay
time for start2, 4th reclose |
0...300000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.Str3Tmms1.setVal |
ING |
INT32 |
SP |
A |
0 |
Str
3 delay shot 1 |
Delay
time for start3, 1st reclose |
0...300000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.Str3Tmms2.setVal |
ING |
INT32 |
SP |
A |
0 |
Str
3 delay shot 2 |
Delay
time for start3 2nd reclose |
0...300000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.Str3Tmms3.setVal |
ING |
INT32 |
SP |
A |
0 |
Str
3 delay shot 3 |
Delay
time for start3 3rd reclose |
0...300000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.Str3Tmms4.setVal |
ING |
INT32 |
SP |
A |
0 |
Str
3 delay shot 4 |
Delay
time for start3, 4th reclose |
0...300000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.Str4Tmms1.setVal |
ING |
INT32 |
SP |
A |
0 |
Str
4 delay shot 1 |
Delay
time for start4, 1st reclose |
0...300000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.Str4Tmms2.setVal |
ING |
INT32 |
SP |
A |
0 |
Str
4 delay shot 2 |
Delay
time for start4 2nd reclose |
0...300000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.Str4Tmms3.setVal |
ING |
INT32 |
SP |
A |
0 |
Str
4 delay shot 3 |
Delay
time for start4 3rd reclose |
0...300000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.Str4Tmms4.setVal |
ING |
INT32 |
SP |
A |
0 |
Str
4 delay shot 4 |
Delay
time for start4, 4th reclose |
0...300000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.FrqCntLim.setVal |
ING |
INT32 |
SP |
B |
250 |
Frq
Op counter limit |
Frequent
operation counter lockout limit |
0...250 |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.FrqCntTmm.setVal |
ING |
INT32 |
SP |
B |
1 |
Frq
Op counter time |
Frequent
operation counter time |
1...250
min |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.FrqRcvTmm.setVal |
ING |
INT32 |
SP |
B |
1 |
Frq
Op recovery time |
Frequent
operation counter recovery time |
1...250
min |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
SET |
LD0.DARREC1.MaxTrTmms.setVal |
ING |
INT32 |
SP |
A |
10000 |
Max
trip time |
Maximum
wait time for deactivation of protection signals |
100...10000
ms |
Settings\Settings\Control\DARREC1 |
|||
|
DARREC1 |
O->I |
79 |
TES |
LD0.DARREC1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
DARREC1 |
Test
control for outputs |
0=Reset;
47=Activate OPEN_CB; 48=Deactive OPEN_CB; 49=Activate CLOSE_CB; 50=Deactive
CLOSE_CB; 51=Activate CMD_WAIT; 52=Deactive CMD_WAIT; 53=Activate PROT_CRD;
54=Deactive PROT_CRD; 55=Activate INPRO; 56=Deactive INPRO; 57=Activate
LOCKED; 58=Deactive LOCKED; 59=Activate UNSUC_RECL; 60=Deactive UNSUC_RECL;
61=Activate AR_ON; 62=Deactive AR_ON; 121=Activate READY; 122=Deactive READY |
Tests\Function
tests\Control |
|||
|
DARREC1 |
O->I |
79 |
VER |
LD0.DARREC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
C |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
PHIZ1 |
PHIZ1 |
PHIZ1 |
INP |
LD0.PHIZ1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Other protection\PHIZ1\Inputs |
||||
|
PHIZ1 |
PHIZ1 |
PHIZ1 |
OUT |
LD0.PHIZ1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Other protection\PHIZ1\Outputs |
|||
|
PHIZ1 |
PHIZ1 |
PHIZ1 |
MON |
LD0.PHIZ1.Beh.stVal |
INS |
Enum |
ST |
B |
PHIZ1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
PHIZ1 |
PHIZ1 |
PHIZ1 |
MON |
LD0.PHIZ1.Str.general |
ACD |
BOOLEAN |
ST |
StatNrml |
P,H |
(Start) |
||||||
|
PHIZ1 |
PHIZ1 |
PHIZ1 |
MON |
LD0.PHIZ1.Str.dirGeneral |
ACD |
Enum |
ST |
StatNrml |
P,H |
(Start) |
||||||
|
PHIZ1 |
PHIZ1 |
PHIZ1 |
MON |
LD0.PHIZ1.Pos.stVal |
DPS |
Enum |
ST |
B |
Position |
Position |
0=intermediate;
1=open; 2=closed; 3=faulty |
Monitoring\I/O
status\Other protection\PHIZ1\Monitored data |
||||
|
PHIZ1 |
PHIZ1 |
PHIZ1 |
SET |
LD0.PHIZ1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Other
protection\PHIZ1 |
|||
|
PHIZ1 |
PHIZ1 |
PHIZ1 |
SET |
LD0.PHIZ1.SysType.setVal |
ING |
Enum |
SP |
B,I |
1 |
System
type |
System
Type |
1=Grounded;
2=Ungrounded |
Settings\Settings\Other
protection\PHIZ1 |
|||
|
PHIZ1 |
PHIZ1 |
PHIZ1 |
SET |
LD0.PHIZ1.SecLvl.setVal |
ING |
INT32 |
SG |
B,I |
5 |
Security
Level |
Security
Level |
1...10 |
Settings\Settings\Other
protection\PHIZ1 |
|||
|
PHIZ1 |
PHIZ1 |
PHIZ1 |
TES |
LD0.PHIZ1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
PHIZ1 |
Test
control for outputs |
0=Reset;
9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Other protection |
|||
|
PHIZ1 |
PHIZ1 |
PHIZ1 |
VER |
LD0.PHIZ1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
INP |
LD0.EFLPTOC4.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\EFLPTOC4\Inputs |
||||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
INP |
LD0.EFLPTOC4.InEnaMult.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ENA_MULT |
Enable
signal for current multiplier |
Monitoring\I/O
status\Current protection\EFLPTOC4\Inputs |
||||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
OUT |
LD0.EFLPTOC4.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Current protection\EFLPTOC4\Outputs |
|||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
OUT |
LD0.EFLPTOC4.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Current protection\EFLPTOC4\Outputs |
|||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
MON |
LD0.EFLPTOC4.Beh.stVal |
INS |
Enum |
ST |
B |
EFLPTOC4 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
MON |
LD0.EFLPTOC4.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\EFLPTOC4\Monitored data |
||||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
SET |
LD0.EFLPTOC4.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\EFLPTOC4 |
|||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
SET |
LD0.EFLPTOC4.AMeasMod.setVal |
ING |
Enum |
SP |
B |
2 |
Measurement
mode |
Selects
used measurement mode |
1=RMS;
2=DFT; 3=Peak-to-Peak |
Settings\Settings\Current
protection\EFLPTOC4 |
|||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
SET |
LD0.EFLPTOC4.StrValMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Start
value Mult |
Multiplier
for scaling the start value |
0.8...10.0 |
Settings\Settings\Current
protection\EFLPTOC4 |
|||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
SET |
LD0.EFLPTOC4.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.010 |
Start
value |
Start
value |
0.010...5.000
xIn |
Settings\Settings\Current
protection\EFLPTOC4 |
RESTCTR1 |
||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
SET |
LD0.EFLPTOC4.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.00 |
Time
multiplier |
Time
multiplier in IEC/ANSI IDMT curves |
0.05...15.00 |
Settings\Settings\Current
protection\EFLPTOC4 |
|||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
SET |
LD0.EFLPTOC4.TmACrv.setCharact |
CURVE |
Enum |
SG |
B,I |
3 |
Operating
curve type |
Selection
of time delay curve type |
1=ANSI
Ext. inv.; 2=ANSI Very inv.; 3=ANSI Norm. inv.; 4=ANSI Mod. inv.; 5=ANSI Def.
Time; 6=L.T.E. inv.; 7=L.T.V. inv.; 8=L.T. inv.; 9=IEC Norm. inv.; 10=IEC
Very inv.; 11=IEC inv.; 12=IEC Ext. inv.; 13=IEC S.T. inv.; 14=IEC L.T. inv.;
15=IEC Def. Time; 17=Programmable; 18=RI type; 19=RD type |
Settings\Settings\Current
protection\EFLPTOC4 |
|||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
SET |
LD0.EFLPTOC4.TmACrv.setParA |
CURVE |
FLOAT32 |
SP |
B,I |
28.2000 |
Curve
parameter A |
Parameter
A for customer programmable curve |
0.0086...120.0000 |
Settings\Settings\Current
protection\EFLPTOC4 |
|||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
SET |
LD0.EFLPTOC4.TmACrv.setParB |
CURVE |
FLOAT32 |
SP |
B,I |
0.1217 |
Curve
parameter B |
Parameter
B for customer programmable curve |
0.0000...0.7120 |
Settings\Settings\Current
protection\EFLPTOC4 |
|||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
SET |
LD0.EFLPTOC4.TmACrv.setParC |
CURVE |
FLOAT32 |
SP |
B,I |
2.00 |
Curve
parameter C |
Parameter
C for customer programmable curve |
0.02...2.00 |
Settings\Settings\Current
protection\EFLPTOC4 |
|||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
SET |
LD0.EFLPTOC4.TmACrv.setParD |
CURVE |
FLOAT32 |
SP |
B,I |
29.10 |
Curve
parameter D |
Parameter
D for customer programmable curve |
0.46...30.00 |
Settings\Settings\Current
protection\EFLPTOC4 |
|||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
SET |
LD0.EFLPTOC4.TmACrv.setParE |
CURVE |
FLOAT32 |
SP |
B,I |
1.0 |
Curve
parameter E |
Parameter
E for customer programmable curve |
0.0...1.0 |
Settings\Settings\Current
protection\EFLPTOC4 |
|||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
SET |
LD0.EFLPTOC4.MinOpTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
20...60000
ms |
Settings\Settings\Current
protection\EFLPTOC4 |
|||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
SET |
LD0.EFLPTOC4.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
40 |
Operate
delay time |
Operate
delay time |
40...200000
ms |
Settings\Settings\Current
protection\EFLPTOC4 |
|||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
SET |
LD0.EFLPTOC4.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\EFLPTOC4 |
|||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
SET |
LD0.EFLPTOC4.TypRsCrv.setVal |
ING |
Enum |
SG |
B |
1 |
Type
of reset curve |
Selection
of reset curve type |
1=Immediate;
2=Def time reset; 3=Inverse reset |
Settings\Settings\Current
protection\EFLPTOC4 |
|||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
SET |
LD0.EFLPTOC4.AResSigSel.setVal |
ING |
Enum |
SP |
B,I |
1 |
Io
signal Sel |
Selection
for used Io signal |
1=Measured
Io |
Settings\Settings\Current
protection\EFLPTOC4 |
|||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
TES |
LD0.EFLPTOC4.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
EFLPTOC4 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
EFLPTOC4 |
Io>(4) |
51N-1(4) |
VER |
LD0.EFLPTOC4.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
E |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
INP |
LD0.PHHPTOC1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\PHHPTOC1\Inputs |
||||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
INP |
LD0.PHHPTOC1.InEnaMult.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ENA_MULT |
Enable
signal for current multiplier |
Monitoring\I/O
status\Current protection\PHHPTOC1\Inputs |
||||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
OUT |
LD0.PHHPTOC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
(A,B,C) |
Monitoring\I/O
status\Current protection\PHHPTOC1\Outputs |
||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
OUT |
LD0.PHHPTOC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
(A,B,C) |
Monitoring\I/O
status\Current protection\PHHPTOC1\Outputs |
||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
MON |
LD0.PHHPTOC1.Beh.stVal |
INS |
Enum |
ST |
B |
PHHPTOC1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
MON |
LD0.PHHPTOC1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\PHHPTOC1\Monitored data |
||||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
SET |
LD0.PHHPTOC1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\PHHPTOC1 |
|||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
SET |
LD0.PHHPTOC1.NumPh.setVal |
ING |
Enum |
SP |
B |
1 |
Num
of start phases |
Number
of phases required for operate activation |
1=1
out of 3; 2=2 out of 3; 3=3 out of 3 |
Settings\Settings\Current
protection\PHHPTOC1 |
|||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
SET |
LD0.PHHPTOC1.StrValMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Start
value Mult |
Multiplier
for scaling the start value |
0.8...10.0 |
Settings\Settings\Current
protection\PHHPTOC1 |
|||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
SET |
LD0.PHHPTOC1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
2.00 |
Start
value |
Start
value |
0.10...40.00
xIn |
Settings\Settings\Current
protection\PHHPTOC1 |
IL1TCTR1 |
||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
SET |
LD0.PHHPTOC1.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Time
multiplier |
Time
multiplier in IEC/ANSI IDMT curves |
0.05...15.0 |
Settings\Settings\Current
protection\PHHPTOC1 |
|||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
SET |
LD0.PHHPTOC1.TypRsCrv.setVal |
ING |
Enum |
SG |
B |
1 |
Type
of reset curve |
Selection
of reset curve type |
1=Immediate;
2=Def time reset; 3=Inverse reset |
Settings\Settings\Current
protection\PHHPTOC1 |
|||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
SET |
LD0.PHHPTOC1.TmACrv.setCharact |
CURVE |
Enum |
SG |
B,I |
5 |
Operating
curve type |
Selection
of time delay curve type |
1=ANSI
Ext. inv.; 3=ANSI Norm. inv.; 5=ANSI Def. Time; 9=IEC Norm. inv.; 10=IEC Very
inv.; 12=IEC Ext. inv.; 15=IEC Def. Time; 17=Programmable |
Settings\Settings\Current
protection\PHHPTOC1 |
|||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
SET |
LD0.PHHPTOC1.TmACrv.setParA |
CURVE |
FLOAT32 |
SP |
B,I |
28.2000 |
Curve
parameter A |
Parameter
A for customer programmable curve |
0.0086...120.0000 |
Settings\Settings\Current
protection\PHHPTOC1 |
|||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
SET |
LD0.PHHPTOC1.TmACrv.setParB |
CURVE |
FLOAT32 |
SP |
B,I |
0.1217 |
Curve
parameter B |
Parameter
B for customer programmable curve |
0.0000...0.7120 |
Settings\Settings\Current
protection\PHHPTOC1 |
|||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
SET |
LD0.PHHPTOC1.TmACrv.setParC |
CURVE |
FLOAT32 |
SP |
B,I |
2.00 |
Curve
parameter C |
Parameter
C for customer programmable curve |
0.02...2.00 |
Settings\Settings\Current
protection\PHHPTOC1 |
|||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
SET |
LD0.PHHPTOC1.TmACrv.setParD |
CURVE |
FLOAT32 |
SP |
B,I |
29.10 |
Curve
parameter D |
Parameter
D for customer programmable curve |
0.46...30.00 |
Settings\Settings\Current
protection\PHHPTOC1 |
|||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
SET |
LD0.PHHPTOC1.TmACrv.setParE |
CURVE |
FLOAT32 |
SP |
B,I |
1.0 |
Curve
parameter E |
Parameter
E for customer programmable curve |
0.0...1.0 |
Settings\Settings\Current
protection\PHHPTOC1 |
|||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
SET |
LD0.PHHPTOC1.MinOpTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
20...60000
ms |
Settings\Settings\Current
protection\PHHPTOC1 |
|||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
SET |
LD0.PHHPTOC1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
1000 |
Operate
delay time |
Operate
delay time |
40...200000
ms |
Settings\Settings\Current
protection\PHHPTOC1 |
|||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
SET |
LD0.PHHPTOC1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\PHHPTOC1 |
|||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
SET |
LD0.PHHPTOC1.AMeasMod.setVal |
ING |
Enum |
SP |
B |
2 |
Measurement
mode |
Selects
used measurement mode |
1=RMS;
2=DFT; 3=Peak-to-Peak |
Settings\Settings\Current
protection\PHHPTOC1 |
|||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
TES |
LD0.PHHPTOC1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
PHHPTOC1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
PHHPTOC1 |
3I>>(1) |
51P-2(1) |
VER |
LD0.PHHPTOC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
D |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
INP |
LD0.PHLTPTOC1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\PHLTPTOC1\Inputs |
||||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
INP |
LD0.PHLTPTOC1.InEnaMult.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ENA_MULT |
Enable
signal for current multiplier |
Monitoring\I/O
status\Current protection\PHLTPTOC1\Inputs |
||||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
OUT |
LD0.PHLTPTOC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
(A,B,C) |
Monitoring\I/O
status\Current protection\PHLTPTOC1\Outputs |
||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
OUT |
LD0.PHLTPTOC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
(A,B,C) |
Monitoring\I/O
status\Current protection\PHLTPTOC1\Outputs |
||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
MON |
LD0.PHLTPTOC1.Beh.stVal |
INS |
Enum |
ST |
B |
PHLTPTOC1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
MON |
LD0.PHLTPTOC1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\PHLTPTOC1\Monitored data |
||||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
SET |
LD0.PHLTPTOC1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\PHLTPTOC1 |
|||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
SET |
LD0.PHLTPTOC1.NumPh.setVal |
ING |
Enum |
SP |
B |
1 |
Num
of start phases |
Number
of phases required for operate activation |
1=1
out of 3; 2=2 out of 3; 3=3 out of 3 |
Settings\Settings\Current
protection\PHLTPTOC1 |
|||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
SET |
LD0.PHLTPTOC1.StrValMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Start
value Mult |
Multiplier
for scaling the start value |
0.8...10.0 |
Settings\Settings\Current
protection\PHLTPTOC1 |
|||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
SET |
LD0.PHLTPTOC1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
2.00 |
Start
value |
Start
value |
0.05...5.00
xIn |
Settings\Settings\Current
protection\PHLTPTOC1 |
IL1TCTR1 |
||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
SET |
LD0.PHLTPTOC1.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Time
multiplier |
Time
multiplier in IEC/ANSI IDMT curves |
1.0...15.0 |
Settings\Settings\Current
protection\PHLTPTOC1 |
|||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
SET |
LD0.PHLTPTOC1.TypRsCrv.setVal |
ING |
Enum |
SG |
B |
1 |
Type
of reset curve |
Selection
of reset curve type |
1=Immediate;
2=Def time reset; 3=Inverse reset |
Settings\Settings\Current
protection\PHLTPTOC1 |
|||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
SET |
LD0.PHLTPTOC1.TmACrv.setCharact |
CURVE |
Enum |
SG |
B,I |
5 |
Operating
curve type |
Selection
of time delay curve type |
1=LT
Ext Inv; 2=LT Very Inv; 3=LT Inv; 4=LT Mod Inv; 5=Long DT; 6=Very LT Ext Inv;
7=Very LT Very Inv; 8=Very LT Inv; 9=LT Normal Inv; 14=IEC LT Inv;
17=Programmable |
Settings\Settings\Current
protection\PHLTPTOC1 |
|||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
SET |
LD0.PHLTPTOC1.TmACrv.setParA |
CURVE |
FLOAT32 |
SP |
B,I |
28.2000 |
Curve
parameter A |
Parameter
A for customer programmable curve |
0.0086...120.0 |
Settings\Settings\Current
protection\PHLTPTOC1 |
|||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
SET |
LD0.PHLTPTOC1.TmACrv.setParB |
CURVE |
FLOAT32 |
SP |
B,I |
0.1217 |
Curve
parameter B |
Parameter
B for customer programmable curve |
0.0000...0.7120 |
Settings\Settings\Current
protection\PHLTPTOC1 |
|||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
SET |
LD0.PHLTPTOC1.TmACrv.setParC |
CURVE |
FLOAT32 |
SP |
B,I |
2.00 |
Curve
parameter C |
Parameter
C for customer programmable curve |
0.02...2.0 |
Settings\Settings\Current
protection\PHLTPTOC1 |
|||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
SET |
LD0.PHLTPTOC1.TmACrv.setParD |
CURVE |
FLOAT32 |
SP |
B,I |
29.10 |
Curve
parameter D |
Parameter
D for customer programmable curve |
0.46...30.0 |
Settings\Settings\Current
protection\PHLTPTOC1 |
|||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
SET |
LD0.PHLTPTOC1.TmACrv.setParE |
CURVE |
FLOAT32 |
SP |
B,I |
1.0 |
Curve
parameter E |
Parameter
E for customer programmable curve |
0.0...1.0 |
Settings\Settings\Current
protection\PHLTPTOC1 |
|||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
SET |
LD0.PHLTPTOC1.MinOpTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
20...60000
ms |
Settings\Settings\Current
protection\PHLTPTOC1 |
|||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
SET |
LD0.PHLTPTOC1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
40 |
Operate
delay time |
Operate
delay time |
40...200000
ms |
Settings\Settings\Current
protection\PHLTPTOC1 |
|||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
SET |
LD0.PHLTPTOC1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\PHLTPTOC1 |
|||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
SET |
LD0.PHLTPTOC1.AMeasMod.setVal |
ING |
Enum |
SP |
B |
2 |
Measurement
mode |
Selects
used measurement mode |
1=RMS;
2=DFT; 3=Peak-to-Peak |
Settings\Settings\Current
protection\PHLTPTOC1 |
|||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
TES |
LD0.PHLTPTOC1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
PHLTPTOC1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
PHLTPTOC1 |
3I>(3) |
PHLTPTOC1 |
VER |
LD0.PHLTPTOC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
PHIPTOC1 |
3I>>>(1) |
50P/51P(1) |
INP |
LD0.PHIPTOC1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\PHIPTOC1\Inputs |
||||
|
PHIPTOC1 |
3I>>>(1) |
50P/51P(1) |
INP |
LD0.PHIPTOC1.InEnaMult.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ENA_MULT |
Enable
signal for current multiplier |
Monitoring\I/O
status\Current protection\PHIPTOC1\Inputs |
||||
|
PHIPTOC1 |
3I>>>(1) |
50P/51P(1) |
OUT |
LD0.PHIPTOC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
(A,B,C) |
Monitoring\I/O
status\Current protection\PHIPTOC1\Outputs |
||
|
PHIPTOC1 |
3I>>>(1) |
50P/51P(1) |
OUT |
LD0.PHIPTOC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
(A,B,C) |
Monitoring\I/O
status\Current protection\PHIPTOC1\Outputs |
||
|
PHIPTOC1 |
3I>>>(1) |
50P/51P(1) |
MON |
LD0.PHIPTOC1.Beh.stVal |
INS |
Enum |
ST |
B |
PHIPTOC1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
PHIPTOC1 |
3I>>>(1) |
50P/51P(1) |
MON |
LD0.PHIPTOC1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\PHIPTOC1\Monitored data |
||||
|
PHIPTOC1 |
3I>>>(1) |
50P/51P(1) |
SET |
LD0.PHIPTOC1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\PHIPTOC1 |
|||
|
PHIPTOC1 |
3I>>>(1) |
50P/51P(1) |
SET |
LD0.PHIPTOC1.NumPh.setVal |
ING |
Enum |
SP |
B |
1 |
Num
of start phases |
Number
of phases required for operate activation |
1=1
out of 3; 2=2 out of 3; 3=3 out of 3 |
Settings\Settings\Current
protection\PHIPTOC1 |
|||
|
PHIPTOC1 |
3I>>>(1) |
50P/51P(1) |
SET |
LD0.PHIPTOC1.StrValMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Start
value Mult |
Multiplier
for scaling the start value |
0.8...10.0 |
Settings\Settings\Current
protection\PHIPTOC1 |
|||
|
PHIPTOC1 |
3I>>>(1) |
50P/51P(1) |
SET |
LD0.PHIPTOC1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
4.00 |
Start
value |
Start
value |
1.00...40.00
xIn |
Settings\Settings\Current
protection\PHIPTOC1 |
IL1TCTR1 |
||
|
PHIPTOC1 |
3I>>>(1) |
50P/51P(1) |
SET |
LD0.PHIPTOC1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
20 |
Operate
delay time |
Operate
delay time |
20...200000
ms |
Settings\Settings\Current
protection\PHIPTOC1 |
|||
|
PHIPTOC1 |
3I>>>(1) |
50P/51P(1) |
SET |
LD0.PHIPTOC1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\PHIPTOC1 |
|||
|
PHIPTOC1 |
3I>>>(1) |
50P/51P(1) |
TES |
LD0.PHIPTOC1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
PHIPTOC1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
PHIPTOC1 |
3I>>>(1) |
50P/51P(1) |
VER |
LD0.PHIPTOC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
C |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
PDNSPTOC1 |
I2/I1> |
46PD |
INP |
LD0.PDNSPTOC1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\PDNSPTOC1\Inputs |
||||
|
PDNSPTOC1 |
I2/I1> |
46PD |
OUT |
LD0.PDNSPTOC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Current protection\PDNSPTOC1\Outputs |
|||
|
PDNSPTOC1 |
I2/I1> |
46PD |
OUT |
LD0.PDNSPTOC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Current protection\PDNSPTOC1\Outputs |
|||
|
PDNSPTOC1 |
I2/I1> |
46PD |
MON |
LD0.PDNSPTOC1.Beh.stVal |
INS |
Enum |
ST |
B |
PDNSPTOC1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
PDNSPTOC1 |
I2/I1> |
46PD |
MON |
LD0.PDNSPTOC1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\PDNSPTOC1\Monitored data |
||||
|
PDNSPTOC1 |
I2/I1> |
46PD |
MON |
LD0.PDNSPTOC1.ImbNgA.mag.f |
MV |
FLOAT32 |
MX |
B |
RATIO_I2_I1 |
Measured
current ratio I2 / I1 |
0.00...999.99
% |
Monitoring\I/O
status\Current protection\PDNSPTOC1\Monitored data |
||||
|
PDNSPTOC1 |
I2/I1> |
46PD |
SET |
LD0.PDNSPTOC1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\PDNSPTOC1 |
|||
|
PDNSPTOC1 |
I2/I1> |
46PD |
SET |
LD0.PDNSPTOC1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
10 |
Start
value |
Start
value |
10...100
% |
Settings\Settings\Current
protection\PDNSPTOC1 |
|||
|
PDNSPTOC1 |
I2/I1> |
46PD |
SET |
LD0.PDNSPTOC1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
1000 |
Operate
delay time |
Operate
delay time |
100...30000
ms |
Settings\Settings\Current
protection\PDNSPTOC1 |
|||
|
PDNSPTOC1 |
I2/I1> |
46PD |
SET |
LD0.PDNSPTOC1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\PDNSPTOC1 |
|||
|
PDNSPTOC1 |
I2/I1> |
46PD |
SET |
LD0.PDNSPTOC1.MinPhA.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.30 |
Min
phase current |
Minimum
phase current |
0.05...0.30
xIn |
Settings\Settings\Current
protection\PDNSPTOC1 |
IL1TCTR1 |
||
|
PDNSPTOC1 |
I2/I1> |
46PD |
TES |
LD0.PDNSPTOC1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
PDNSPTOC1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
PDNSPTOC1 |
I2/I1> |
46PD |
VER |
LD0.PDNSPTOC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
CCRDIF1 |
MCS
3I |
MCS
3I |
INP |
LD0.CCRDIF1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for all binary outputs |
Monitoring\I/O
status\Condition monitoring\CCRDIF1\Inputs |
||||
|
CCRDIF1 |
MCS
3I |
MCS
3I |
OUT |
LD0.CCRDIF1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatIed |
P,H |
FAIL |
Fail
output |
Monitoring\I/O
status\Condition monitoring\CCRDIF1\Outputs |
|||
|
CCRDIF1 |
MCS
3I |
MCS
3I |
OUT |
LD0.CCRDIF1.Alm.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIed |
P,H |
ALARM |
Alarm
output |
Monitoring\I/O
status\Condition monitoring\CCRDIF1\Outputs |
|||
|
CCRDIF1 |
MCS
3I |
MCS
3I |
CTR |
LD0.CCRDIF1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
On / Off |
1=on;
5=off |
Configuration\Condition
monitoring\CCRDIF1 |
|||
|
CCRDIF1 |
MCS
3I |
MCS
3I |
MON |
LD0.CCRDIF1.Beh.stVal |
INS |
Enum |
ST |
B |
CCRDIF1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
CCRDIF1 |
MCS
3I |
MCS
3I |
MON |
LD0.CCRDIF1.DifAClc.res.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
IDIFF |
Differential
current |
0.00...40.00
xIn |
Monitoring\I/O
status\Condition monitoring\CCRDIF1\Monitored data |
||||
|
CCRDIF1 |
MCS
3I |
MCS
3I |
CFG |
LD0.CCRDIF1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
On / Off |
1=on;
5=off |
Configuration\Condition
monitoring\CCRDIF1 |
|||
|
CCRDIF1 |
MCS
3I |
MCS
3I |
CFG |
LD0.CCRDIF1.StrVal.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.05 |
Start
value |
Minimum
operate current differential level |
0.05...0.20
xIn |
Configuration\Condition
monitoring\CCRDIF1 |
IL1TCTR1 |
||
|
CCRDIF1 |
MCS
3I |
MCS
3I |
CFG |
LD0.CCRDIF1.MaxOpA.setMag.f |
ASG |
FLOAT32 |
SP |
B |
1.5 |
Max
operate current |
Block
of the function at high phase current |
1.00...5.00
xIn |
Configuration\Condition
monitoring\CCRDIF1 |
IL1TCTR1 |
||
|
CCRDIF1 |
MCS
3I |
MCS
3I |
TES |
LD0.CCRDIF1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
CCRDIF1 |
Test
control for outputs |
0=Reset;
17=Activate ALARM; 18=Deactive ALARM; 113=Activate FAIL; 114=Deactive FAIL |
Tests\Function
tests\Condition monitoring |
|||
|
CCRDIF1 |
MCS
3I |
MCS
3I |
VER |
LD0.CCRDIF1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
SECRSYN1 |
SYNC |
25 |
INP |
LD0.SECRSYN1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Blocking
signal of the synchro check and voltage check function |
Monitoring\I/O
status\Control\SECRSYN1\Inputs |
||||
|
SECRSYN1 |
SYNC |
25 |
INP |
LD0.SECRSYN1.ClsRq.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
CL_COMMAND |
External
closing request |
Monitoring\I/O
status\Control\SECRSYN1\Inputs |
||||
|
SECRSYN1 |
SYNC |
25 |
INP |
LD0.SECRSYN1.ByPss.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
BYPASS |
Request
to bypass synchronism check and voltage check |
Monitoring\I/O
status\Control\SECRSYN1\Inputs |
||||
|
SECRSYN1 |
SYNC |
25 |
OUT |
LD0.SECRSYN1.Rel.stVal |
SPS |
BOOLEAN |
ST |
B |
SYNC_OK |
Systems
in synchronism |
Monitoring\I/O
status\Control\SECRSYN1\Outputs |
|||||
|
SECRSYN1 |
SYNC |
25 |
OUT |
LD0.SECRSYN1.SynPrg.stVal |
SPS |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
SYNC_INPRO |
Synchronizing
in progress |
Monitoring\I/O
status\Control\SECRSYN1\Outputs |
|||
|
SECRSYN1 |
SYNC |
25 |
OUT |
LD0.SECRSYN1.FailCmd.stVal |
SPS |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
CMD_FAIL_AL |
CB
closing request failed |
Monitoring\I/O
status\Control\SECRSYN1\Outputs |
|||
|
SECRSYN1 |
SYNC |
25 |
OUT |
LD0.SECRSYN1.FailSyn.stVal |
SPS |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
CL_FAIL_AL |
CB
closing failed |
Monitoring\I/O
status\Control\SECRSYN1\Outputs |
|||
|
SECRSYN1 |
SYNC |
25 |
OUT |
LD0.SECRSYN1.LLDBInd.stVal |
SPS |
BOOLEAN |
ST |
B |
LLDB |
Live
Line, Dead Bus |
Monitoring\I/O
status\Control\SECRSYN1\Outputs |
|||||
|
SECRSYN1 |
SYNC |
25 |
OUT |
LD0.SECRSYN1.LLLBInd.stVal |
SPS |
BOOLEAN |
ST |
B |
LLLB |
Live
Line, Live Bus |
Monitoring\I/O
status\Control\SECRSYN1\Outputs |
|||||
|
SECRSYN1 |
SYNC |
25 |
OUT |
LD0.SECRSYN1.DLLBInd.stVal |
SPS |
BOOLEAN |
ST |
B |
DLLB |
Dead
Line, Live Bus |
Monitoring\I/O
status\Control\SECRSYN1\Outputs |
|||||
|
SECRSYN1 |
SYNC |
25 |
OUT |
LD0.SECRSYN1.DLDBInd.stVal |
SPS |
BOOLEAN |
ST |
B |
DLDB |
Dead
Line, Dead Bus |
Monitoring\I/O
status\Control\SECRSYN1\Outputs |
|||||
|
SECRSYN1 |
SYNC |
25 |
MON |
LD0.SECRSYN1.Beh.stVal |
INS |
Enum |
ST |
B |
SECRSYN1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
SECRSYN1 |
SYNC |
25 |
MON |
LD0.SECRSYN1.VInd.stVal |
SPS |
BOOLEAN |
ST |
B |
U_DIFF_SYNC |
Voltage
difference out of limit for synchronizing |
Monitoring\I/O
status\Control\SECRSYN1\Monitored data |
|||||
|
SECRSYN1 |
SYNC |
25 |
MON |
LD0.SECRSYN1.AngInd.stVal |
SPS |
BOOLEAN |
ST |
B |
PH_DIF_SYNC |
Phase
angle difference out of limit for synchronizing |
Monitoring\I/O
status\Control\SECRSYN1\Monitored data |
|||||
|
SECRSYN1 |
SYNC |
25 |
MON |
LD0.SECRSYN1.HzInd.stVal |
SPS |
BOOLEAN |
ST |
B |
FR_DIFF_SYNC |
Frequency
difference out of limit for synchronizing |
Monitoring\I/O
status\Control\SECRSYN1\Monitored data |
|||||
|
SECRSYN1 |
SYNC |
25 |
MON |
LD0.SECRSYN1.DifVClc.mag.f |
MV |
FLOAT32 |
MX |
B |
U_DIFF_MEAS |
Calculated
voltage amplitude difference |
0.00...1.00
xUn |
Monitoring\I/O
status\Control\SECRSYN1\Monitored data |
||||
|
SECRSYN1 |
SYNC |
25 |
MON |
LD0.SECRSYN1.DifHzClc.mag.f |
MV |
FLOAT32 |
MX |
B |
FR_DIFF_MEAS |
Calculated
voltage frequency difference |
0.000...0.100
xFn |
Monitoring\I/O
status\Control\SECRSYN1\Monitored data |
||||
|
SECRSYN1 |
SYNC |
25 |
MON |
LD0.SECRSYN1.DifAngClc.mag.f |
MV |
FLOAT32 |
MX |
B |
PH_DIFF_MEAS |
Calculated
voltage phase angle difference |
0.00...180.00
deg |
Monitoring\I/O
status\Control\SECRSYN1\Monitored data |
||||
|
SECRSYN1 |
SYNC |
25 |
MON |
LD0.SECRSYN1.EnSt.stVal |
INS |
Enum |
ST |
B |
StatUrg |
P,H |
ENERG_STATE |
Energization
state of Line and Bus |
0=Unknown;
1=Both Live; 2=Live L, Dead B; 3=Dead L, Live B; 4=Both Dead |
Monitoring\I/O
status\Control\SECRSYN1\Monitored data |
||
|
SECRSYN1 |
SYNC |
25 |
SET |
LD0.SECRSYN1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Control\SECRSYN1 |
|||
|
SECRSYN1 |
SYNC |
25 |
SET |
LD0.SECRSYN1.DifV.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.05 |
Difference
voltage |
Maximum
voltage difference limit |
0.01...0.50
xUn |
Settings\Settings\Control\SECRSYN1 |
|||
|
SECRSYN1 |
SYNC |
25 |
SET |
LD0.SECRSYN1.DifHz.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.001 |
Difference
frequency |
Maximum
frequency difference limit |
0.001...0.100
xFn |
Settings\Settings\Control\SECRSYN1 |
|||
|
SECRSYN1 |
SYNC |
25 |
SET |
LD0.SECRSYN1.DifAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
5 |
Difference
angle |
Maximum
angle difference limit |
5...90
deg |
Settings\Settings\Control\SECRSYN1 |
|||
|
SECRSYN1 |
SYNC |
25 |
SET |
LD0.SECRSYN1.LivDeaMod.setVal |
ING |
Enum |
SG |
B |
1 |
Live
dead mode |
Energizing
check mode |
-1=Off;
1=Both Dead; 2=Live L, Dead B; 3=Dead L, Live B; 4=Dead Bus, L Any; 5=Dead L,
Bus Any; 6=One Live, Dead; 7=Not Both Live |
Settings\Settings\Control\SECRSYN1 |
|||
|
SECRSYN1 |
SYNC |
25 |
SET |
LD0.SECRSYN1.DeaLinVal.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.2 |
Dead
line value |
Voltage
low limit line for energizing check |
0.1...0.8
xUn |
Settings\Settings\Control\SECRSYN1 |
UL1TVTR2 |
||
|
SECRSYN1 |
SYNC |
25 |
SET |
LD0.SECRSYN1.LivLinVal.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.5 |
Live
line value |
Voltage
high limit line for energizing check |
0.2...1.0
xUn |
Settings\Settings\Control\SECRSYN1 |
UL1TVTR2 |
||
|
SECRSYN1 |
SYNC |
25 |
SET |
LD0.SECRSYN1.DeaBusVal.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.2 |
Dead
bus value |
Voltage
low limit bus for energizing check |
0.1...0.8
xUn |
Settings\Settings\Control\SECRSYN1 |
UL1TVTR1 |
||
|
SECRSYN1 |
SYNC |
25 |
SET |
LD0.SECRSYN1.LivBusVal.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.5 |
Live
bus value |
Voltage
high limit bus for energizing check |
0.2...1.0
xUn |
Settings\Settings\Control\SECRSYN1 |
UL1TVTR1 |
||
|
SECRSYN1 |
SYNC |
25 |
SET |
LD0.SECRSYN1.PlsTmms.setVal |
ING |
INT32 |
SP |
B |
200 |
Close
pulse |
Breaker
closing pulse duration |
200...60000
ms |
Settings\Settings\Control\SECRSYN1 |
|||
|
SECRSYN1 |
SYNC |
25 |
SET |
LD0.SECRSYN1.BkrTmms.setVal |
ING |
INT32 |
SP |
B |
60 |
Closing
time of CB |
Closing
time of the breaker |
40...250
ms |
Settings\Settings\Control\SECRSYN1 |
|||
|
SECRSYN1 |
SYNC |
25 |
SET |
LD0.SECRSYN1.OpModSC.setVal |
ING |
Enum |
SP |
B |
2 |
Synchro
check mode |
Synchro
check operation mode |
1=Off;
2=Synchronous; 3=Asynchronous |
Settings\Settings\Control\SECRSYN1 |
|||
|
SECRSYN1 |
SYNC |
25 |
SET |
LD0.SECRSYN1.OpModCtl.setVal |
ING |
Enum |
SP |
B |
1 |
Control
mode |
Selection
of synchro check command or Continuous control mode |
1=Continuous;
2=Command |
Settings\Settings\Control\SECRSYN1 |
|||
|
SECRSYN1 |
SYNC |
25 |
SET |
LD0.SECRSYN1.MaxVEn.setMag.f |
ASG |
FLOAT32 |
SP |
B |
1.05 |
Max
energizing V |
Maximum
voltage for energizing |
0.50...1.15
xUn |
Settings\Settings\Control\SECRSYN1 |
|||
|
SECRSYN1 |
SYNC |
25 |
SET |
LD0.SECRSYN1.PhSht.setMag.f |
ASG |
FLOAT32 |
SP |
B |
180 |
Phase
shift |
Correction
of phase difference between measured U_BUS and U_LINE |
-180...180
deg |
Settings\Settings\Control\SECRSYN1 |
|||
|
SECRSYN1 |
SYNC |
25 |
SET |
LD0.SECRSYN1.EnTmms.setVal |
ING |
INT32 |
SP |
B |
100 |
Energizing
time |
Time
delay for energizing check |
100...60000
ms |
Settings\Settings\Control\SECRSYN1 |
|||
|
SECRSYN1 |
SYNC |
25 |
SET |
LD0.SECRSYN1.MaxSynTmms.setVal |
ING |
INT32 |
SP |
B |
2000 |
Maximum
Syn time |
Maximum
time to accept synchronizing |
100...6000000
ms |
Settings\Settings\Control\SECRSYN1 |
|||
|
SECRSYN1 |
SYNC |
25 |
SET |
LD0.SECRSYN1.MinSynTmms.setVal |
ING |
INT32 |
SP |
B |
0 |
Minimum
Syn time |
Minimum
time to accept synchronizing |
0...60000
ms |
Settings\Settings\Control\SECRSYN1 |
|||
|
SECRSYN1 |
SYNC |
25 |
TES |
LD0.SECRSYN1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
SECRSYN1 |
Test
control for outputs |
0=Reset;
-39=Activate SYNC_INPRO; -40=Deactive SYNC_INPRO; -41=Activate SYNC_OK;
-42=Deactive SYNC_OK; -43=Activate CL_FAIL_AL; -44=Deactive CL_FAIL_AL;
-45=Activate CMD_FAIL_AL; -46=Deactive CMD_FAIL_AL; -47=Activate LLDB;
-48=Deactive LLDB; -49=Activate LLLB; -50=Deactive LLLB; -51=Activate DLLB;
-52=Deactive DLLB; -53=Activate DLDB; -54=Deactive DLDB |
Tests\Function
tests\Control |
|||
|
SECRSYN1 |
SYNC |
25 |
VER |
LD0.SECRSYN1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
FMMXU1 |
f |
f |
CTR |
LD0.FMMXU1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Measurements\FMMXU1 |
|||
|
FMMXU1 |
f |
f |
MON |
LD0.FMMXU1.Hz.instMag.f |
MV |
FLOAT32 |
MX |
B |
MeasFlt |
P |
f-Hz |
Measured
frequency |
35.00...75.00
Hz |
Measurements\FMMXU1 |
||
|
FMMXU1 |
f |
f |
MON |
LD0.FMMXU1.Hz.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasFlt |
P |
F_DB |
Frequency,
reported value |
35.00...75.00
Hz |
Monitoring\I/O
status\Measurements\FMMXU1\Monitored data |
||
|
FMMXU1 |
f |
f |
MON |
LD0.FMMXU1.Hz.range |
MV |
Enum |
MX |
B |
MeasFlt |
P |
F_RANGE |
Measured
frequency range |
0=normal;
1=high; 2=low; 3=high-high; 4=low-low |
Monitoring\I/O
status\Measurements\FMMXU1\Monitored data |
||
|
FMMXU1 |
f |
f |
CFG |
LD0.FMMXU1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Measurements\FMMXU1 |
|||
|
FMMXU1 |
f |
f |
CFG |
LD0.FMMXU1.Hz.db |
MV |
INT32U |
CF |
B,I |
1000 |
F
deadband |
Deadband
configuration value for integral calculation (percentage of difference
between min and max as 0,001 % s) |
100...100000 |
Configuration\Measurements\FMMXU1 |
|||
|
FMMXU1 |
f |
f |
CFG |
LD0.FMMXU1.Hz.rangeC.hhLim.f |
MV |
FLOAT32 |
CF |
B,I |
70.00 |
F
high high limit |
High
alarm frequency limit |
35.00...75.00
Hz |
Configuration\Measurements\FMMXU1 |
|||
|
FMMXU1 |
f |
f |
CFG |
LD0.FMMXU1.Hz.rangeC.hLim.f |
MV |
FLOAT32 |
CF |
B,I |
65.00 |
F
high limit |
High
warning frequency limit |
35.00...75.00
Hz |
Configuration\Measurements\FMMXU1 |
|||
|
FMMXU1 |
f |
f |
CFG |
LD0.FMMXU1.Hz.rangeC.lLim.f |
MV |
FLOAT32 |
CF |
B,I |
55.00 |
F
low limit |
Low
warning frequency limit |
35.00...75.00
Hz |
Configuration\Measurements\FMMXU1 |
|||
|
FMMXU1 |
f |
f |
CFG |
LD0.FMMXU1.Hz.rangeC.llLim.f |
MV |
FLOAT32 |
CF |
B,I |
50.00 |
F
low low limit |
Low
alarm frequency limit |
35.00...75.00
Hz |
Configuration\Measurements\FMMXU1 |
|||
|
FMMXU1 |
f |
f |
VER |
LD0.FMMXU1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
ROVPTOV1 |
Uo>(1) |
59G(1) |
INP |
LD0.ROVPTOV1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Voltage protection\ROVPTOV1\Inputs |
||||
|
ROVPTOV1 |
Uo>(1) |
59G(1) |
OUT |
LD0.ROVPTOV1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Voltage protection\ROVPTOV1\Outputs |
|||
|
ROVPTOV1 |
Uo>(1) |
59G(1) |
OUT |
LD0.ROVPTOV1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Voltage protection\ROVPTOV1\Outputs |
|||
|
ROVPTOV1 |
Uo>(1) |
59G(1) |
MON |
LD0.ROVPTOV1.Beh.stVal |
INS |
Enum |
ST |
B |
ROVPTOV1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
ROVPTOV1 |
Uo>(1) |
59G(1) |
MON |
LD0.ROVPTOV1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Voltage protection\ROVPTOV1\Monitored data |
||||
|
ROVPTOV1 |
Uo>(1) |
59G(1) |
SET |
LD0.ROVPTOV1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Voltage
protection\ROVPTOV1 |
|||
|
ROVPTOV1 |
Uo>(1) |
59G(1) |
SET |
LD0.ROVPTOV1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.030 |
Start
value |
Residual
overvoltage start value |
0.010...1.000
xUn |
Settings\Settings\Voltage
protection\ROVPTOV1 |
RESTVTR1 |
||
|
ROVPTOV1 |
Uo>(1) |
59G(1) |
SET |
LD0.ROVPTOV1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
40 |
Operate
delay time |
Operate
delay time |
40...300000
ms |
Settings\Settings\Voltage
protection\ROVPTOV1 |
|||
|
ROVPTOV1 |
Uo>(1) |
59G(1) |
SET |
LD0.ROVPTOV1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Voltage
protection\ROVPTOV1 |
|||
|
ROVPTOV1 |
Uo>(1) |
59G(1) |
SET |
LD0.ROVPTOV1.VResSigSel.setVal |
ING |
Enum |
SP |
B,I |
1 |
Uo
signal Sel |
Selection
for used Uo signal |
1=Measured
Uo |
Settings\Settings\Voltage
protection\ROVPTOV1 |
|||
|
ROVPTOV1 |
Uo>(1) |
59G(1) |
TES |
LD0.ROVPTOV1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
ROVPTOV1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Voltage protection |
|||
|
ROVPTOV1 |
Uo>(1) |
59G(1) |
VER |
LD0.ROVPTOV1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
DRFLO1 |
DRFLO |
(DRFLO1) |
MON |
LD0.DRFLO1.Beh.stVal |
INS |
Enum |
ST |
B |
DRFLO1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
DRFLO1 |
DRFLO |
(DRFLO1) |
MON |
LD0.DRFLO1.FltDisKm.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasFlt |
P |
FLT_DIST |
Fault
Distance |
0.00...9999.00 |
Monitoring\I/O
status\Other protection\DRFLO1\Monitored data |
||
|
DRFLO1 |
DRFLO |
(DRFLO1) |
MON |
LD0.DRFLO1.FltDisKm.t |
MV |
Timestamp |
MX |
B |
MeasFlt |
P |
TIME_FLT_LOC |
Time
stamp |
Monitoring\I/O
status\Other protection\DRFLO1\Monitored data |
|||
|
DRFLO1 |
DRFLO |
(DRFLO1) |
MON |
LD0.DRFLO1.FltLoop.stVal |
INS |
Enum |
ST |
B |
MeasFlt |
P |
FLT_LOOP |
Fault
Loop |
1=AG
Fault; 2=BG Fault; 3=CG Fault; 4=AB Fault; 5=BC Fault; 6=CA Fault; 7=ABC
Fault; -1=ABG Fault; -2=BCG Fault; -3=CAG Fault; -4=ABCG Fault; 0=No fault |
Monitoring\I/O
status\Other protection\DRFLO1\Monitored data |
||
|
DRFLO1 |
DRFLO |
(DRFLO1) |
MON |
LD0.DRFLO1.FltZ.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasFlt |
P |
FLT_R |
FaultResistance |
0.00...999.00
ohm |
Monitoring\I/O
status\Other protection\DRFLO1\Monitored data |
||
|
DRFLO1 |
DRFLO |
(DRFLO1) |
MON |
LD0.DRFLO1.FltLoopX.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasFlt |
P |
XF_LOOP |
Loop
Reactance |
0.00...9999.00
ohm |
Monitoring\I/O
status\Other protection\DRFLO1\Monitored data |
||
|
DRFLO1 |
DRFLO |
(DRFLO1) |
SET |
LD0.DRFLO1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Other
protection\DRFLO1 |
|||
|
DRFLO1 |
DRFLO |
(DRFLO1) |
SET |
LD0.DRFLO1.LinLenKm.setMag.f |
ASG |
FLOAT32 |
SP |
B |
100 |
Line
length |
Length
of the Line in miles or Km |
0...300 |
Settings\Settings\Other
protection\DRFLO1 |
|||
|
DRFLO1 |
DRFLO |
(DRFLO1) |
SET |
LD0.DRFLO1.R1.setMag.f |
ASG |
FLOAT32 |
SP |
B |
1.000 |
R1 |
Pos
Seq Resistance in ohms/(miles or Km) |
0.000...20.000
ohm |
Settings\Settings\Other
protection\DRFLO1 |
|||
|
DRFLO1 |
DRFLO |
(DRFLO1) |
SET |
LD0.DRFLO1.X1.setMag.f |
ASG |
FLOAT32 |
SP |
B |
2.000 |
X1 |
Pos
seq reactance in ohms/(miles or Km) |
0.000...30.000
ohm |
Settings\Settings\Other
protection\DRFLO1 |
|||
|
DRFLO1 |
DRFLO |
(DRFLO1) |
SET |
LD0.DRFLO1.R0.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.010 |
R0 |
Pos
Seq Resistance in ohms/(miles or Km) |
0.000...20.000
ohm |
Settings\Settings\Other
protection\DRFLO1 |
|||
|
DRFLO1 |
DRFLO |
(DRFLO1) |
SET |
LD0.DRFLO1.X0.setMag.f |
ASG |
FLOAT32 |
SP |
B |
1.000 |
X0 |
Zero
Seq Reactance in ohms/(miles or Km) |
0.000...30.000
ohm |
Settings\Settings\Other
protection\DRFLO1 |
|||
|
DRFLO1 |
DRFLO |
(DRFLO1) |
SET |
LD0.DRFLO1.PhLevA.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.10 |
Phase
level |
Phase
Level |
0.05...5.00
xIn |
Settings\Settings\Other
protection\DRFLO1 |
IL1TCTR1 |
||
|
DRFLO1 |
DRFLO |
(DRFLO1) |
VER |
LD0.DRFLO1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
INP |
LD0.EFHPTOC3.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\EFHPTOC3\Inputs |
||||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
INP |
LD0.EFHPTOC3.InEnaMult.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ENA_MULT |
Enable
signal for current multiplier |
Monitoring\I/O
status\Current protection\EFHPTOC3\Inputs |
||||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
OUT |
LD0.EFHPTOC3.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Current protection\EFHPTOC3\Outputs |
|||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
OUT |
LD0.EFHPTOC3.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Current protection\EFHPTOC3\Outputs |
|||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
MON |
LD0.EFHPTOC3.Beh.stVal |
INS |
Enum |
ST |
B |
EFHPTOC3 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
MON |
LD0.EFHPTOC3.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\EFHPTOC3\Monitored data |
||||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
SET |
LD0.EFHPTOC3.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\EFHPTOC3 |
|||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
SET |
LD0.EFHPTOC3.AMeasMod.setVal |
ING |
Enum |
SP |
B |
2 |
Measurement
mode |
Selects
used measurement mode |
1=RMS;
2=DFT; 3=Peak-to-Peak |
Settings\Settings\Current
protection\EFHPTOC3 |
|||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
SET |
LD0.EFHPTOC3.StrValMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Start
value Mult |
Multiplier
for scaling the start value |
0.8...10.0 |
Settings\Settings\Current
protection\EFHPTOC3 |
|||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
SET |
LD0.EFHPTOC3.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.00 |
Start
value |
Start
value |
0.10...40.00
xIn |
Settings\Settings\Current
protection\EFHPTOC3 |
RESTCTR1 |
||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
SET |
LD0.EFHPTOC3.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.00 |
Time
multiplier |
Time
multiplier in IEC/ANSI IDMT curves |
0.05...15.00 |
Settings\Settings\Current
protection\EFHPTOC3 |
|||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
SET |
LD0.EFHPTOC3.TmACrv.setCharact |
CURVE |
Enum |
SG |
B,I |
5 |
Operating
curve type |
Selection
of time delay curve type |
1=ANSI
Ext. inv.; 3=ANSI Norm. inv.; 5=ANSI Def. Time; 9=IEC Norm. inv.; 10=IEC Very
inv.; 12=IEC Ext. inv.; 15=IEC Def. Time; 17=Programmable |
Settings\Settings\Current
protection\EFHPTOC3 |
|||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
SET |
LD0.EFHPTOC3.TmACrv.setParA |
CURVE |
FLOAT32 |
SP |
B,I |
28.2000 |
Curve
parameter A |
Parameter
A for customer programmable curve |
0.0086...120.0000 |
Settings\Settings\Current
protection\EFHPTOC3 |
|||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
SET |
LD0.EFHPTOC3.TmACrv.setParB |
CURVE |
FLOAT32 |
SP |
B,I |
0.1217 |
Curve
parameter B |
Parameter
B for customer programmable curve |
0.0000...0.7120 |
Settings\Settings\Current
protection\EFHPTOC3 |
|||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
SET |
LD0.EFHPTOC3.TmACrv.setParC |
CURVE |
FLOAT32 |
SP |
B,I |
2.00 |
Curve
parameter C |
Parameter
C for customer programmable curve |
0.02...2.00 |
Settings\Settings\Current
protection\EFHPTOC3 |
|||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
SET |
LD0.EFHPTOC3.TmACrv.setParD |
CURVE |
FLOAT32 |
SP |
B,I |
29.10 |
Curve
parameter D |
Parameter
D for customer programmable curve |
0.46...30.00 |
Settings\Settings\Current
protection\EFHPTOC3 |
|||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
SET |
LD0.EFHPTOC3.TmACrv.setParE |
CURVE |
FLOAT32 |
SP |
B,I |
1.0 |
Curve
parameter E |
Parameter
E for customer programmable curve |
0.0...1.0 |
Settings\Settings\Current
protection\EFHPTOC3 |
|||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
SET |
LD0.EFHPTOC3.MinOpTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
20...60000
ms |
Settings\Settings\Current
protection\EFHPTOC3 |
|||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
SET |
LD0.EFHPTOC3.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
1000 |
Operate
delay time |
Operate
delay time |
40...200000
ms |
Settings\Settings\Current
protection\EFHPTOC3 |
|||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
SET |
LD0.EFHPTOC3.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\EFHPTOC3 |
|||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
SET |
LD0.EFHPTOC3.TypRsCrv.setVal |
ING |
Enum |
SG |
B |
1 |
Type
of reset curve |
Selection
of reset curve type |
1=Immediate;
2=Def time reset; 3=Inverse reset |
Settings\Settings\Current
protection\EFHPTOC3 |
|||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
SET |
LD0.EFHPTOC3.AResSigSel.setVal |
ING |
Enum |
SP |
B,I |
2 |
Io
signal Sel |
Selection
for used Io signal |
2=Calculated
Io |
Settings\Settings\Current
protection\EFHPTOC3 |
|||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
TES |
LD0.EFHPTOC3.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
EFHPTOC3 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
EFHPTOC3 |
Io>>(3) |
EFHPTOC3 |
VER |
LD0.EFHPTOC3.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
D |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
INP |
LD0.EFHPTOC4.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\EFHPTOC4\Inputs |
||||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
INP |
LD0.EFHPTOC4.InEnaMult.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ENA_MULT |
Enable
signal for current multiplier |
Monitoring\I/O
status\Current protection\EFHPTOC4\Inputs |
||||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
OUT |
LD0.EFHPTOC4.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Current protection\EFHPTOC4\Outputs |
|||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
OUT |
LD0.EFHPTOC4.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Current protection\EFHPTOC4\Outputs |
|||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
MON |
LD0.EFHPTOC4.Beh.stVal |
INS |
Enum |
ST |
B |
EFHPTOC4 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
MON |
LD0.EFHPTOC4.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\EFHPTOC4\Monitored data |
||||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
SET |
LD0.EFHPTOC4.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\EFHPTOC4 |
|||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
SET |
LD0.EFHPTOC4.AMeasMod.setVal |
ING |
Enum |
SP |
B |
2 |
Measurement
mode |
Selects
used measurement mode |
1=RMS;
2=DFT; 3=Peak-to-Peak |
Settings\Settings\Current
protection\EFHPTOC4 |
|||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
SET |
LD0.EFHPTOC4.StrValMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Start
value Mult |
Multiplier
for scaling the start value |
0.8...10.0 |
Settings\Settings\Current
protection\EFHPTOC4 |
|||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
SET |
LD0.EFHPTOC4.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
2.00 |
Start
value |
Start
value |
0.10...40.00
xIn |
Settings\Settings\Current
protection\EFHPTOC4 |
RESTCTR1 |
||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
SET |
LD0.EFHPTOC4.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.00 |
Time
multiplier |
Time
multiplier in IEC/ANSI IDMT curves |
0.05...15.00 |
Settings\Settings\Current
protection\EFHPTOC4 |
|||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
SET |
LD0.EFHPTOC4.TmACrv.setCharact |
CURVE |
Enum |
SG |
B,I |
5 |
Operating
curve type |
Selection
of time delay curve type |
1=ANSI
Ext. inv.; 3=ANSI Norm. inv.; 5=ANSI Def. Time; 9=IEC Norm. inv.; 10=IEC Very
inv.; 12=IEC Ext. inv.; 15=IEC Def. Time; 17=Programmable |
Settings\Settings\Current
protection\EFHPTOC4 |
|||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
SET |
LD0.EFHPTOC4.TmACrv.setParA |
CURVE |
FLOAT32 |
SP |
B,I |
28.2000 |
Curve
parameter A |
Parameter
A for customer programmable curve |
0.0086...120.0000 |
Settings\Settings\Current
protection\EFHPTOC4 |
|||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
SET |
LD0.EFHPTOC4.TmACrv.setParB |
CURVE |
FLOAT32 |
SP |
B,I |
0.1217 |
Curve
parameter B |
Parameter
B for customer programmable curve |
0.0000...0.7120 |
Settings\Settings\Current
protection\EFHPTOC4 |
|||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
SET |
LD0.EFHPTOC4.TmACrv.setParC |
CURVE |
FLOAT32 |
SP |
B,I |
2.00 |
Curve
parameter C |
Parameter
C for customer programmable curve |
0.02...2.00 |
Settings\Settings\Current
protection\EFHPTOC4 |
|||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
SET |
LD0.EFHPTOC4.TmACrv.setParD |
CURVE |
FLOAT32 |
SP |
B,I |
29.10 |
Curve
parameter D |
Parameter
D for customer programmable curve |
0.46...30.00 |
Settings\Settings\Current
protection\EFHPTOC4 |
|||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
SET |
LD0.EFHPTOC4.TmACrv.setParE |
CURVE |
FLOAT32 |
SP |
B,I |
1.0 |
Curve
parameter E |
Parameter
E for customer programmable curve |
0.0...1.0 |
Settings\Settings\Current
protection\EFHPTOC4 |
|||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
SET |
LD0.EFHPTOC4.MinOpTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
20...60000
ms |
Settings\Settings\Current
protection\EFHPTOC4 |
|||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
SET |
LD0.EFHPTOC4.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
300 |
Operate
delay time |
Operate
delay time |
40...200000
ms |
Settings\Settings\Current
protection\EFHPTOC4 |
|||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
SET |
LD0.EFHPTOC4.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\EFHPTOC4 |
|||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
SET |
LD0.EFHPTOC4.TypRsCrv.setVal |
ING |
Enum |
SG |
B |
1 |
Type
of reset curve |
Selection
of reset curve type |
1=Immediate;
2=Def time reset; 3=Inverse reset |
Settings\Settings\Current
protection\EFHPTOC4 |
|||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
SET |
LD0.EFHPTOC4.AResSigSel.setVal |
ING |
Enum |
SP |
B,I |
2 |
Io
signal Sel |
Selection
for used Io signal |
2=Calculated
Io |
Settings\Settings\Current
protection\EFHPTOC4 |
|||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
TES |
LD0.EFHPTOC4.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
EFHPTOC4 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
EFHPTOC4 |
Io>>(4) |
EFHPTOC4 |
VER |
LD0.EFHPTOC4.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
D |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
EFIPTOC2 |
Io>>>(2) |
EFIPTOC2 |
INP |
LD0.EFIPTOC2.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\EFIPTOC2\Inputs |
||||
|
EFIPTOC2 |
Io>>>(2) |
EFIPTOC2 |
INP |
LD0.EFIPTOC2.InEnaMult.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ENA_MULT |
Enable
signal for current multiplier |
Monitoring\I/O
status\Current protection\EFIPTOC2\Inputs |
||||
|
EFIPTOC2 |
Io>>>(2) |
EFIPTOC2 |
OUT |
LD0.EFIPTOC2.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Current protection\EFIPTOC2\Outputs |
|||
|
EFIPTOC2 |
Io>>>(2) |
EFIPTOC2 |
OUT |
LD0.EFIPTOC2.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Current protection\EFIPTOC2\Outputs |
|||
|
EFIPTOC2 |
Io>>>(2) |
EFIPTOC2 |
MON |
LD0.EFIPTOC2.Beh.stVal |
INS |
Enum |
ST |
B |
EFIPTOC2 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
EFIPTOC2 |
Io>>>(2) |
EFIPTOC2 |
MON |
LD0.EFIPTOC2.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\EFIPTOC2\Monitored data |
||||
|
EFIPTOC2 |
Io>>>(2) |
EFIPTOC2 |
SET |
LD0.EFIPTOC2.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\EFIPTOC2 |
|||
|
EFIPTOC2 |
Io>>>(2) |
EFIPTOC2 |
SET |
LD0.EFIPTOC2.StrValMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Start
value Mult |
Multiplier
for scaling the start value |
0.8...10.0 |
Settings\Settings\Current
protection\EFIPTOC2 |
|||
|
EFIPTOC2 |
Io>>>(2) |
EFIPTOC2 |
SET |
LD0.EFIPTOC2.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
3.00 |
Start
value |
Start
value |
1.00...40.00
xIn |
Settings\Settings\Current
protection\EFIPTOC2 |
RESTCTR1 |
||
|
EFIPTOC2 |
Io>>>(2) |
EFIPTOC2 |
SET |
LD0.EFIPTOC2.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
20 |
Operate
delay time |
Operate
delay time |
20...200000
ms |
Settings\Settings\Current
protection\EFIPTOC2 |
|||
|
EFIPTOC2 |
Io>>>(2) |
EFIPTOC2 |
SET |
LD0.EFIPTOC2.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\EFIPTOC2 |
|||
|
EFIPTOC2 |
Io>>>(2) |
EFIPTOC2 |
SET |
LD0.EFIPTOC2.AResSigSel.setVal |
ING |
Enum |
SP |
B,I |
2 |
Io
signal Sel |
Selection
for used Io signal |
2=Calculated
Io |
Settings\Settings\Current
protection\EFIPTOC2 |
|||
|
EFIPTOC2 |
Io>>>(2) |
EFIPTOC2 |
TES |
LD0.EFIPTOC2.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
EFIPTOC2 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
EFIPTOC2 |
Io>>>(2) |
EFIPTOC2 |
VER |
LD0.EFIPTOC2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
D |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
LDPMSTA1 |
INP |
LD0.LDPMSTA1.RecRs.stVal |
SPC |
BOOLEAN |
ST |
0 |
(Reset
load profile rec.) |
|||||||||
|
LDPMSTA1 |
OUT |
LD0.LDPMSTA1.MemWrn.stVal |
SPS |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
Rec.
memory warning |
Recording
memory warning status |
Monitoring\Load
profile record |
|||||
|
LDPMSTA1 |
OUT |
LD0.LDPMSTA1.MemAlm.stVal |
SPS |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
Rec.
memory alarm |
Recording
memory alarm status |
Monitoring\Load
profile record |
|||||
|
LDPMSTA1 |
CTR |
LD0.LDPMSTA1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Load
profile record |
|||||
|
LDPMSTA1 |
CTR |
LD0.LDPMSTA1.RecRs.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Load
Profile record |
Reset
load profile record |
0=Cancel;
1=Clear |
Clear\Clear |
|||||
|
LDPMSTA1 |
MON |
LD0.LDPMSTA1.MemUsed.stVal |
INS |
INT32 |
ST |
B |
Rec.
memory used |
How
much recording memory is currently used |
0...100
% |
Monitoring\Load
profile record |
||||||
|
LDPMSTA1 |
CFG |
LD0.LDPMSTA1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Load
profile record |
|||||
|
LDPMSTA1 |
CFG |
LD0.LDPMSTA1.QtySel1.setVal |
ING |
Enum |
SP |
B,I |
0 |
Quantity
Sel 1 |
Select
quantity to be recorded |
0=Disabled;
1=IL1; 2=IL2; 3=IL3; 4=Io; 9=U12; 10=U23; 11=U31; 12=UL1; 13=UL2; 14=UL3;
21=S; 22=P; 23=Q; 24=PF; 29=SL1; 30=SL2; 31=SL3; 32=PL1; 33=PL2; 34=PL3;
35=QL1; 36=QL2; 37=QL3; 38=PFL1; 39=PFL2; 40=PFL3 |
Configuration\Load
profile record |
|||||
|
LDPMSTA1 |
CFG |
LD0.LDPMSTA1.QtySel2.setVal |
ING |
Enum |
SP |
B,I |
0 |
Quantity
Sel 2 |
Select
quantity to be recorded |
0=Disabled;
1=IL1; 2=IL2; 3=IL3; 4=Io; 9=U12; 10=U23; 11=U31; 12=UL1; 13=UL2; 14=UL3;
21=S; 22=P; 23=Q; 24=PF; 29=SL1; 30=SL2; 31=SL3; 32=PL1; 33=PL2; 34=PL3;
35=QL1; 36=QL2; 37=QL3; 38=PFL1; 39=PFL2; 40=PFL3 |
Configuration\Load
profile record |
|||||
|
LDPMSTA1 |
CFG |
LD0.LDPMSTA1.QtySel3.setVal |
ING |
Enum |
SP |
B,I |
0 |
Quantity
Sel 3 |
Select
quantity to be recorded |
0=Disabled;
1=IL1; 2=IL2; 3=IL3; 4=Io; 9=U12; 10=U23; 11=U31; 12=UL1; 13=UL2; 14=UL3;
21=S; 22=P; 23=Q; 24=PF; 29=SL1; 30=SL2; 31=SL3; 32=PL1; 33=PL2; 34=PL3;
35=QL1; 36=QL2; 37=QL3; 38=PFL1; 39=PFL2; 40=PFL3 |
Configuration\Load
profile record |
|||||
|
LDPMSTA1 |
CFG |
LD0.LDPMSTA1.QtySel4.setVal |
ING |
Enum |
SP |
B,I |
0 |
Quantity
Sel 4 |
Select
quantity to be recorded |
0=Disabled;
1=IL1; 2=IL2; 3=IL3; 4=Io; 9=U12; 10=U23; 11=U31; 12=UL1; 13=UL2; 14=UL3;
21=S; 22=P; 23=Q; 24=PF; 29=SL1; 30=SL2; 31=SL3; 32=PL1; 33=PL2; 34=PL3;
35=QL1; 36=QL2; 37=QL3; 38=PFL1; 39=PFL2; 40=PFL3 |
Configuration\Load
profile record |
|||||
|
LDPMSTA1 |
CFG |
LD0.LDPMSTA1.QtySel5.setVal |
ING |
Enum |
SP |
B,I |
0 |
Quantity
Sel 5 |
Select
quantity to be recorded |
0=Disabled;
1=IL1; 2=IL2; 3=IL3; 4=Io; 9=U12; 10=U23; 11=U31; 12=UL1; 13=UL2; 14=UL3;
21=S; 22=P; 23=Q; 24=PF; 29=SL1; 30=SL2; 31=SL3; 32=PL1; 33=PL2; 34=PL3;
35=QL1; 36=QL2; 37=QL3; 38=PFL1; 39=PFL2; 40=PFL3 |
Configuration\Load
profile record |
|||||
|
LDPMSTA1 |
CFG |
LD0.LDPMSTA1.QtySel6.setVal |
ING |
Enum |
SP |
B,I |
0 |
Quantity
Sel 6 |
Select
quantity to be recorded |
0=Disabled;
1=IL1; 2=IL2; 3=IL3; 4=Io; 9=U12; 10=U23; 11=U31; 12=UL1; 13=UL2; 14=UL3;
21=S; 22=P; 23=Q; 24=PF; 29=SL1; 30=SL2; 31=SL3; 32=PL1; 33=PL2; 34=PL3;
35=QL1; 36=QL2; 37=QL3; 38=PFL1; 39=PFL2; 40=PFL3 |
Configuration\Load
profile record |
|||||
|
LDPMSTA1 |
CFG |
LD0.LDPMSTA1.QtySel7.setVal |
ING |
Enum |
SP |
B,I |
0 |
Quantity
Sel 7 |
Select
quantity to be recorded |
0=Disabled;
1=IL1; 2=IL2; 3=IL3; 4=Io; 9=U12; 10=U23; 11=U31; 12=UL1; 13=UL2; 14=UL3;
21=S; 22=P; 23=Q; 24=PF; 29=SL1; 30=SL2; 31=SL3; 32=PL1; 33=PL2; 34=PL3;
35=QL1; 36=QL2; 37=QL3; 38=PFL1; 39=PFL2; 40=PFL3 |
Configuration\Load
profile record |
|||||
|
LDPMSTA1 |
CFG |
LD0.LDPMSTA1.QtySel8.setVal |
ING |
Enum |
SP |
B,I |
0 |
Quantity
Sel 8 |
Select
quantity to be recorded |
0=Disabled;
1=IL1; 2=IL2; 3=IL3; 4=Io; 9=U12; 10=U23; 11=U31; 12=UL1; 13=UL2; 14=UL3;
21=S; 22=P; 23=Q; 24=PF; 29=SL1; 30=SL2; 31=SL3; 32=PL1; 33=PL2; 34=PL3;
35=QL1; 36=QL2; 37=QL3; 38=PFL1; 39=PFL2; 40=PFL3 |
Configuration\Load
profile record |
|||||
|
LDPMSTA1 |
CFG |
LD0.LDPMSTA1.QtySel9.setVal |
ING |
Enum |
SP |
B,I |
0 |
Quantity
Sel 9 |
Select
quantity to be recorded |
0=Disabled;
1=IL1; 2=IL2; 3=IL3; 4=Io; 9=U12; 10=U23; 11=U31; 12=UL1; 13=UL2; 14=UL3;
21=S; 22=P; 23=Q; 24=PF; 29=SL1; 30=SL2; 31=SL3; 32=PL1; 33=PL2; 34=PL3;
35=QL1; 36=QL2; 37=QL3; 38=PFL1; 39=PFL2; 40=PFL3 |
Configuration\Load
profile record |
|||||
|
LDPMSTA1 |
CFG |
LD0.LDPMSTA1.QtySel10.setVal |
ING |
Enum |
SP |
B,I |
0 |
Quantity
Sel 10 |
Select
quantity to be recorded |
0=Disabled;
1=IL1; 2=IL2; 3=IL3; 4=Io; 9=U12; 10=U23; 11=U31; 12=UL1; 13=UL2; 14=UL3;
21=S; 22=P; 23=Q; 24=PF; 29=SL1; 30=SL2; 31=SL3; 32=PL1; 33=PL2; 34=PL3;
35=QL1; 36=QL2; 37=QL3; 38=PFL1; 39=PFL2; 40=PFL3 |
Configuration\Load
profile record |
|||||
|
LDPMSTA1 |
CFG |
LD0.LDPMSTA1.QtySel11.setVal |
ING |
Enum |
SP |
B,I |
0 |
Quantity
Sel 11 |
Select
quantity to be recorded |
0=Disabled;
1=IL1; 2=IL2; 3=IL3; 4=Io; 9=U12; 10=U23; 11=U31; 12=UL1; 13=UL2; 14=UL3;
21=S; 22=P; 23=Q; 24=PF; 29=SL1; 30=SL2; 31=SL3; 32=PL1; 33=PL2; 34=PL3;
35=QL1; 36=QL2; 37=QL3; 38=PFL1; 39=PFL2; 40=PFL3 |
Configuration\Load
profile record |
|||||
|
LDPMSTA1 |
CFG |
LD0.LDPMSTA1.QtySel12.setVal |
ING |
Enum |
SP |
B,I |
0 |
Quantity
Sel 12 |
Select
quantity to be recorded |
0=Disabled;
1=IL1; 2=IL2; 3=IL3; 4=Io; 9=U12; 10=U23; 11=U31; 12=UL1; 13=UL2; 14=UL3;
21=S; 22=P; 23=Q; 24=PF; 29=SL1; 30=SL2; 31=SL3; 32=PL1; 33=PL2; 34=PL3;
35=QL1; 36=QL2; 37=QL3; 38=PFL1; 39=PFL2; 40=PFL3 |
Configuration\Load
profile record |
|||||
|
LDPMSTA1 |
CFG |
LD0.LDPMSTA1.MemWrnLev.setVal |
ING |
INT32 |
SP |
B |
0 |
Mem.
warning level |
Set
memory warning level |
0...100
% |
Configuration\Load
profile record |
|||||
|
LDPMSTA1 |
CFG |
LD0.LDPMSTA1.MemAlmLev.setVal |
ING |
INT32 |
SP |
B |
0 |
Mem.
alarm level |
Set
memory alarm level |
0...100
% |
Configuration\Load
profile record |
|||||
|
LDPMSTA1 |
VER |
LD0.LDPMSTA1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
SPEMMXU1 |
SP,SE |
SP,SE |
INP |
LD0.SPEMMTR1.SupDmdRs.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
RSTACM |
Reset
of accumulated energy reading |
Monitoring\I/O
status\Measurements\SPEMMXU1\Inputs |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
CTR |
LD0.SPEMMXU1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Measurements\SPEMMXU1 |
|||
|
SPEMMXU1 |
SP,SE |
SP,SE |
CTR |
LD0.SPEMMTR1.SupDmdRs.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
SPEMMXU1
acc.energy |
Reset
of accumulated energy reading |
0=Cancel;
1=Clear |
Clear\Clear |
|||
|
SPEMMXU1 |
SP,SE |
SP,SE |
CTR |
LD0.SPEMSTA1.RecRs.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(SPEMMXU1
demands) |
||||||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.W.phsA.instCVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
PL1-kW |
Total
Active Power, Phase A |
-999999.9...999999.9
kW |
Measurements\SPEMMXU1 |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.W.phsA.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
P_DB_A |
Active
power, magnitude of reported value, Phase A |
-999999.9...999999.9
kW |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.W.phsB.instCVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
PL2-kW |
Total
Active Power, Phase B |
-999999.9...999999.9
kW |
Measurements\SPEMMXU1 |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.W.phsB.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
P_DB_B |
Active
power, magnitude of reported value, Phase B |
-999999.9...999999.9
kW |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.W.phsC.instCVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
PL3-kW |
Total
Active Power, Phase C |
-999999.9...999999.9
kW |
Measurements\SPEMMXU1 |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.W.phsC.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
P_DB_C |
Active
power, magnitude of reported value, Phase C |
-999999.9...999999.9
kW |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.VAr.phsA.instCVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
QL1-kVAr |
Total
Reactive Power, Phase A |
-999999.9...999999.9
kVAr |
Measurements\SPEMMXU1 |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.VAr.phsA.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
Q_DB_A |
Reactive
power, magnitude of reported value, Phase A |
-999999.9...999999.9
kVAr |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.VAr.phsB.instCVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
QL2-kVAr |
Total
Reactive Power, Phase B |
-999999.9...999999.9
kVAr |
Measurements\SPEMMXU1 |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.VAr.phsB.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
Q_DB_B |
Reactive
power, magnitude of reported value, Phase B |
-999999.9...999999.9
kVAr |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.VAr.phsC.instCVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
QL3-kVAr |
Total
Reactive Power, Phase C |
-999999.9...999999.9
kVAr |
Measurements\SPEMMXU1 |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.VAr.phsC.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
Q_DB_C |
Reactive
power, magnitude of reported value, Phase C |
-999999.9...999999.9
kVAr |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.VA.phsA.instCVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
SL1-kVA |
Total
Apparent Power, Phase A |
-999999.9...999999.9
kVA |
Measurements\SPEMMXU1 |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.VA.phsA.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
S_DB_A |
Apparent
power, magnitude of reported value, Phase A |
-999999.9...999999.9
kVA |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.VA.phsB.instCVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
SL2-kVA |
Total
Apparent Power, Phase B |
-999999.9...999999.9
kVA |
Measurements\SPEMMXU1 |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.VA.phsB.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
S_DB_B |
Apparent
power, magnitude of reported value, Phase B |
-999999.9...999999.9
kVA |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.VA.phsC.instCVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
SL3-kVA |
Total
Apparent Power, Phase C |
-999999.9...999999.9
kVA |
Measurements\SPEMMXU1 |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.VA.phsC.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
S_DB_C |
Apparent
power, magnitude of reported value, Phase C |
-999999.9...999999.9
kVA |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.PF.phsA.instCVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
PFL1 |
Average
Power factor, Phase A |
-1.00...1.00 |
Measurements\SPEMMXU1 |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.PF.phsA.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
PF_DB_A |
Power
factor, magnitude of reported value, Phase A |
-1.00...1.00 |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.PF.phsB.instCVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
PFL2 |
Average
Power factor, Phase B |
-1.00...1.00 |
Measurements\SPEMMXU1 |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.PF.phsB.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
PF_DB_B |
Power
factor, magnitude of reported value, Phase B |
-1.00...1.00 |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.PF.phsC.instCVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
PFL3 |
Average
Power factor, Phase C |
-1.00...1.00 |
Measurements\SPEMMXU1 |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMXU1.PF.phsC.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
MeasFlt |
P |
PF_DB_C |
Power
factor, magnitude of reported value, Phase C |
-1.00...1.00 |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMTR1.SupWhA.actVal |
BCR |
INT128 |
ST |
B |
EA_RV_ACM_A |
Accumulated
reverse active energy value, Phase A |
0...999999999
kWh |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMTR1.SupVArhA.actVal |
BCR |
INT128 |
ST |
B |
ER_RV_ACM_A |
Accumulated
reverse reactive energy value, Phase A |
0...999999999
kVArh |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMTR1.DmdWhA.actVal |
BCR |
INT128 |
ST |
B |
EA_FWD_ACM_A |
Accumulated
forward active energy value, Phase A |
0...999999999
kWh |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMTR1.DmdVArhA.actVal |
BCR |
INT128 |
ST |
B |
ER_FWD_ACM_A |
Accumulated
forward reactive energy value, Phase A |
0...999999999
kVArh |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMTR1.SupWhB.actVal |
BCR |
INT128 |
ST |
B |
EA_RV_ACM_B |
Accumulated
reverse active energy value, Phase B |
0...999999999
kWh |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMTR1.SupVArhB.actVal |
BCR |
INT128 |
ST |
B |
ER_RV_ACM_B |
Accumulated
reverse reactive energy value, Phase B |
0...999999999
kVArh |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMTR1.DmdWhB.actVal |
BCR |
INT128 |
ST |
B |
EA_FWD_ACM_B |
Accumulated
forward active energy value, Phase B |
0...999999999
kWh |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMTR1.DmdVArhB.actVal |
BCR |
INT128 |
ST |
B |
ER_FWD_ACM_B |
Accumulated
forward reactive energy value, Phase B |
0...999999999
kVArh |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMTR1.SupWhC.actVal |
BCR |
INT128 |
ST |
B |
EA_RV_ACM_C |
Accumulated
reverse active energy value, Phase C |
0...999999999
kWh |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMTR1.SupVArhC.actVal |
BCR |
INT128 |
ST |
B |
ER_RV_ACM_C |
Accumulated
reverse reactive energy value, Phase C |
0...999999999
kVArh |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMTR1.DmdWhC.actVal |
BCR |
INT128 |
ST |
B |
EA_FWD_ACM_C |
Accumulated
forward active energy value, Phase C |
0...999999999
kWh |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMMTR1.DmdVArhC.actVal |
BCR |
INT128 |
ST |
B |
ER_FWD_ACM_C |
Accumulated
forward reactive energy value, Phase C |
0...999999999
kVArh |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.AvVAPhsA.mag.f |
MV |
FLOAT32 |
MX |
B |
S_DMD_A |
Demand
value of apparent Power, Phase A |
-999999.9...999999.9
kVA |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MaxVAPhsA.mag.f |
MV |
FLOAT32 |
MX |
B |
Max
demand SL1 |
Maximum
demand for Phase A |
-999999.9...999999.9
kVA |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MaxVAPhsA.t |
MV |
Timestamp |
MX |
B |
Time
max dmd SL1 |
Time
of maximum demand phase A |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
|||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MinVAPhsA.mag.f |
MV |
FLOAT32 |
MX |
B |
Min
demand SL1 |
Minimum
demand for Phase A |
-999999.9...999999.9
kVA |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MinVAPhsA.t |
MV |
Timestamp |
MX |
B |
Time
min dmd SL1 |
Time
of minimum demand phase A |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
|||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.AvWPhsA.mag.f |
MV |
FLOAT32 |
MX |
B |
P_DMD_A |
Demand
value of active Power, Phase A |
-999999.9...999999.9
kW |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MaxWPhsA.mag.f |
MV |
FLOAT32 |
MX |
B |
Max
demand PL1 |
Maximum
demand for Phase A |
-999999.9...999999.9
kW |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MaxWPhsA.t |
MV |
Timestamp |
MX |
B |
Time
max dmd PL1 |
Time
of maximum demand phase A |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
|||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MinWPhsA.mag.f |
MV |
FLOAT32 |
MX |
B |
Min
demand PL1 |
Minimum
demand for Phase A |
-999999.9...999999.9
kW |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MinWPhsA.t |
MV |
Timestamp |
MX |
B |
Time
min dmd PL1 |
Time
of minimum demand phase A |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
|||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.AvVArPhsA.mag.f |
MV |
FLOAT32 |
MX |
B |
Q_DMD_A |
Demand
value of reactive Power, Phase A |
-999999.9...999999.9
kVAr |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MaxVArPhsA.mag.f |
MV |
FLOAT32 |
MX |
B |
Max
demand QL1 |
Maximum
demand for Phase A |
-999999.9...999999.9
kVAr |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MaxVArPhsA.t |
MV |
Timestamp |
MX |
B |
Time
max dmd QL1 |
Time
of maximum demand phase A |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
|||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MinVArPhsA.mag.f |
MV |
FLOAT32 |
MX |
B |
Min
demand QL1 |
Minimum
demand for Phase A |
-999999.9...999999.9
kVAr |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MinVArPhsA.t |
MV |
Timestamp |
MX |
B |
Time
min dmd QL1 |
Time
of minimum demand phase A |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
|||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.AvVAPhsB.mag.f |
MV |
FLOAT32 |
MX |
B |
S_DMD_B |
Demand
value of apparent Power, Phase B |
-999999.9...999999.9
kVA |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MaxVAPhsB.mag.f |
MV |
FLOAT32 |
MX |
B |
Max
demand SL2 |
Maximum
demand for Phase B |
-999999.9...999999.9
kVA |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MaxVAPhsB.t |
MV |
Timestamp |
MX |
B |
Time
max dmd SL2 |
Time
of maximum demand phase B |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
|||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MinVAPhsB.mag.f |
MV |
FLOAT32 |
MX |
B |
Min
demand SL2 |
Minimum
demand for Phase B |
-999999.9...999999.9
kVA |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MinVAPhsB.t |
MV |
Timestamp |
MX |
B |
Time
min dmd SL2 |
Time
of minimum demand phase B |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
|||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.AvWPhsB.mag.f |
MV |
FLOAT32 |
MX |
B |
P_DMD_B |
Demand
value of active Power, Phase B |
-999999.9...999999.9
kW |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MaxWPhsB.mag.f |
MV |
FLOAT32 |
MX |
B |
Max
demand PL2 |
Maximum
demand for Phase B |
-999999.9...999999.9
kW |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MaxWPhsB.t |
MV |
Timestamp |
MX |
B |
Time
max dmd PL2 |
Time
of maximum demand phase B |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
|||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MinWPhsB.mag.f |
MV |
FLOAT32 |
MX |
B |
Min
demand PL2 |
Minimum
demand for Phase B |
-999999.9...999999.9
kW |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MinWPhsB.t |
MV |
Timestamp |
MX |
B |
Time
min dmd PL2 |
Time
of minimum demand phase B |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
|||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.AvVArPhsB.mag.f |
MV |
FLOAT32 |
MX |
B |
Q_DMD_B |
Demand
value of reactive Power, Phase B |
-999999.9...999999.9
kVAr |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MaxVArPhsB.mag.f |
MV |
FLOAT32 |
MX |
B |
Max
demand QL2 |
Maximum
demand for Phase B |
-999999.9...999999.9
kVAr |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MaxVArPhsB.t |
MV |
Timestamp |
MX |
B |
Time
max dmd QL2 |
Time
of maximum demand phase B |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
|||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MinVArPhsB.mag.f |
MV |
FLOAT32 |
MX |
B |
Min
demand QL2 |
Minimum
demand for Phase B |
-999999.9...999999.9
kVAr |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MinVArPhsB.t |
MV |
Timestamp |
MX |
B |
Time
min dmd QL2 |
Time
of minimum demand phase B |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
|||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.AvVAPhsC.mag.f |
MV |
FLOAT32 |
MX |
B |
S_DMD_C |
Demand
value of apparent Power, Phase C |
-999999.9...999999.9
kVA |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MaxVAPhsC.mag.f |
MV |
FLOAT32 |
MX |
B |
Max
demand SL3 |
Maximum
demand for Phase C |
-999999.9...999999.9
kVA |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MaxVAPhsC.t |
MV |
Timestamp |
MX |
B |
Time
max dmd SL3 |
Time
of maximum demand phase C |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
|||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MinVAPhsC.mag.f |
MV |
FLOAT32 |
MX |
B |
Min
demand SL3 |
Minimum
demand for Phase C |
-999999.9...999999.9
kVA |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MinVAPhsC.t |
MV |
Timestamp |
MX |
B |
Time
min dmd SL3 |
Time
of minimum demand phase C |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
|||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.AvWPhsC.mag.f |
MV |
FLOAT32 |
MX |
B |
P_DMD_C |
Demand
value of active Power, Phase C |
-999999.9...999999.9
kW |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MaxWPhsC.mag.f |
MV |
FLOAT32 |
MX |
B |
Max
demand PL3 |
Maximum
demand for Phase C |
-999999.9...999999.9
kW |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MaxWPhsC.t |
MV |
Timestamp |
MX |
B |
Time
max dmd PL3 |
Time
of maximum demand phase C |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
|||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MinWPhsC.mag.f |
MV |
FLOAT32 |
MX |
B |
Min
demand PL3 |
Minimum
demand for Phase C |
-999999.9...999999.9
kW |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MinWPhsC.t |
MV |
Timestamp |
MX |
B |
Time
min dmd PL3 |
Time
of minimum demand phase C |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
|||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.AvVArPhsC.mag.f |
MV |
FLOAT32 |
MX |
B |
Q_DMD_C |
Demand
value of reactive Power, Phase C |
-999999.9...999999.9
kVAr |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MaxVArPhsC.mag.f |
MV |
FLOAT32 |
MX |
B |
Max
demand QL3 |
Maximum
demand for Phase C |
-999999.9...999999.9
kVAr |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MaxVArPhsC.t |
MV |
Timestamp |
MX |
B |
Time
max dmd QL3 |
Time
of maximum demand phase C |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
|||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MinVArPhsC.mag.f |
MV |
FLOAT32 |
MX |
B |
Min
demand QL3 |
Minimum
demand for Phase B |
-999999.9...999999.9
kVAr |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.MinVArPhsC.t |
MV |
Timestamp |
MX |
B |
Time
min dmd QL3 |
Time
of minimum demand phase C |
Monitoring\Recorded
data\Measurements\SPEMMXU1 |
|||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.AvPFPhsA.mag.f |
MV |
FLOAT32 |
MX |
B |
PF_DMD_A |
Demand
value of power factor, Phase A |
-1.00...1.00 |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.AvPFPhsB.mag.f |
MV |
FLOAT32 |
MX |
B |
PF_DMD_B |
Demand
value of power factor, Phase B |
-1.00...1.00 |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
MON |
LD0.SPEMSTA1.AvPFPhsC.mag.f |
MV |
FLOAT32 |
MX |
B |
PF_DMD_C |
Demand
value of power factor, Phase C |
-1.00...1.00 |
Monitoring\I/O
status\Measurements\SPEMMXU1\Monitored data |
||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
CFG |
LD0.SPEMMXU1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Measurements\SPEMMXU1 |
|||
|
SPEMMXU1 |
SP,SE |
SP,SE |
CFG |
LD0.SPEMMXU1.W.phsA.units.multiplier |
WYE |
Enum |
CF |
B,I |
3 |
Power
unit Mult |
Unit
multiplier for presentation of the power related values |
3=Kilo;
6=Mega |
Configuration\Measurements\SPEMMXU1 |
|||
|
SPEMMXU1 |
SP,SE |
SP,SE |
CFG |
LD0.SPEMMXU1.WhDir.setVal |
ING |
Enum |
SP |
B |
1 |
Active
power Dir |
Direction
of active power flow: Forward, Reverse |
1=Forward;
2=Reverse |
Configuration\Measurements\SPEMMXU1 |
|||
|
SPEMMXU1 |
SP,SE |
SP,SE |
CFG |
LD0.SPEMMXU1.VArhDir.setVal |
ING |
Enum |
SP |
B |
1 |
Reactive
power Dir |
Direction
of reactive power flow: Forward, Reverse |
1=Forward;
2=Reverse |
Configuration\Measurements\SPEMMXU1 |
|||
|
SPEMMXU1 |
SP,SE |
SP,SE |
CFG |
LD0.SPEMMTR1.SupWhA.units.multiplier |
BCR |
Enum |
CF |
B,I |
3 |
Energy
unit Mult |
Unit
multiplier for presentation of the energy related values |
3=Kilo;
6=Mega |
Configuration\Measurements\SPEMMXU1 |
|||
|
SPEMMXU1 |
SP,SE |
SP,SE |
CFG |
LD0.SPEMMTR1.IniDmdWh.setVal |
ING |
INT32 |
SP |
B |
0 |
Forward
Wh Initial |
Preset
Initial value for forward active energy |
0...999999999 |
Configuration\Measurements\SPEMMXU1 |
|||
|
SPEMMXU1 |
SP,SE |
SP,SE |
CFG |
LD0.SPEMMTR1.IniSupWh.setVal |
ING |
INT32 |
SP |
B |
0 |
Reverse
Wh Initial |
Preset
Initial value for reverse active energy |
0...999999999 |
Configuration\Measurements\SPEMMXU1 |
|||
|
SPEMMXU1 |
SP,SE |
SP,SE |
CFG |
LD0.SPEMMTR1.IniDmdVArh.setVal |
ING |
INT32 |
SP |
B |
0 |
Forward
VArh Initial |
Preset
Initial value for forward reactive energy |
0...999999999 |
Configuration\Measurements\SPEMMXU1 |
|||
|
SPEMMXU1 |
SP,SE |
SP,SE |
CFG |
LD0.SPEMMTR1.IniSupVArh.setVal |
ING |
INT32 |
SP |
B |
0 |
Reverse
VArh Initial |
Preset
Initial value for reverse reactive energy |
0...999999999 |
Configuration\Measurements\SPEMMXU1 |
|||
|
SPEMMXU1 |
SP,SE |
SP,SE |
VER |
LD0.SPEMMXU1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
VER |
LD0.SPEMMTR1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
SPEMMXU1 |
SP,SE |
SP,SE |
VER |
LD0.SPEMSTA1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
MVGAPC3 |
MV(3) |
MV(3) |
INP |
LD0.MVGAPC3.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q1 |
Q1
status |
Monitoring\I/O
status\Generic logic\MVGAPC3\Outputs |
||
|
MVGAPC3 |
MV(3) |
MV(3) |
INP |
LD0.MVGAPC3.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q2 |
Q2
status |
Monitoring\I/O
status\Generic logic\MVGAPC3\Outputs |
||
|
MVGAPC3 |
MV(3) |
MV(3) |
INP |
LD0.MVGAPC3.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q3 |
Q3
status |
Monitoring\I/O
status\Generic logic\MVGAPC3\Outputs |
||
|
MVGAPC3 |
MV(3) |
MV(3) |
INP |
LD0.MVGAPC3.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q4 |
Q4
status |
Monitoring\I/O
status\Generic logic\MVGAPC3\Outputs |
||
|
MVGAPC3 |
MV(3) |
MV(3) |
INP |
LD0.MVGAPC3.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q5 |
Q5
status |
Monitoring\I/O
status\Generic logic\MVGAPC3\Outputs |
||
|
MVGAPC3 |
MV(3) |
MV(3) |
INP |
LD0.MVGAPC3.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q6 |
Q6
status |
Monitoring\I/O
status\Generic logic\MVGAPC3\Outputs |
||
|
MVGAPC3 |
MV(3) |
MV(3) |
INP |
LD0.MVGAPC3.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q7 |
Q7
status |
Monitoring\I/O
status\Generic logic\MVGAPC3\Outputs |
||
|
MVGAPC3 |
MV(3) |
MV(3) |
INP |
LD0.MVGAPC3.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q8 |
Q8
status |
Monitoring\I/O
status\Generic logic\MVGAPC3\Outputs |
||
|
MVGAPC3 |
MV(3) |
MV(3) |
OUT |
LD0.MVGAPC3.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q1 |
Q1
status |
Monitoring\I/O
status\Generic logic\MVGAPC3\Outputs |
||
|
MVGAPC3 |
MV(3) |
MV(3) |
OUT |
LD0.MVGAPC3.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q2 |
Q2
status |
Monitoring\I/O
status\Generic logic\MVGAPC3\Outputs |
||
|
MVGAPC3 |
MV(3) |
MV(3) |
OUT |
LD0.MVGAPC3.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q3 |
Q3
status |
Monitoring\I/O
status\Generic logic\MVGAPC3\Outputs |
||
|
MVGAPC3 |
MV(3) |
MV(3) |
OUT |
LD0.MVGAPC3.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q4 |
Q4
status |
Monitoring\I/O
status\Generic logic\MVGAPC3\Outputs |
||
|
MVGAPC3 |
MV(3) |
MV(3) |
OUT |
LD0.MVGAPC3.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q5 |
Q5
status |
Monitoring\I/O
status\Generic logic\MVGAPC3\Outputs |
||
|
MVGAPC3 |
MV(3) |
MV(3) |
OUT |
LD0.MVGAPC3.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q6 |
Q6
status |
Monitoring\I/O
status\Generic logic\MVGAPC3\Outputs |
||
|
MVGAPC3 |
MV(3) |
MV(3) |
OUT |
LD0.MVGAPC3.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q7 |
Q7
status |
Monitoring\I/O
status\Generic logic\MVGAPC3\Outputs |
||
|
MVGAPC3 |
MV(3) |
MV(3) |
OUT |
LD0.MVGAPC3.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q8 |
Q8
status |
Monitoring\I/O
status\Generic logic\MVGAPC3\Outputs |
||
|
MVGAPC3 |
MV(3) |
MV(3) |
CFG |
LD0.MVGAPC3.Q1.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC3
Q1 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC3\Output 1 |
||||
|
MVGAPC3 |
MV(3) |
MV(3) |
CFG |
LD0.MVGAPC3.Q2.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC3
Q2 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC3\Output 2 |
||||
|
MVGAPC3 |
MV(3) |
MV(3) |
CFG |
LD0.MVGAPC3.Q3.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC3
Q3 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC3\Output 3 |
||||
|
MVGAPC3 |
MV(3) |
MV(3) |
CFG |
LD0.MVGAPC3.Q4.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC3
Q4 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC3\Output 4 |
||||
|
MVGAPC3 |
MV(3) |
MV(3) |
CFG |
LD0.MVGAPC3.Q5.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC3
Q5 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC3\Output 5 |
||||
|
MVGAPC3 |
MV(3) |
MV(3) |
CFG |
LD0.MVGAPC3.Q6.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC3
Q6 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC3\Output 6 |
||||
|
MVGAPC3 |
MV(3) |
MV(3) |
CFG |
LD0.MVGAPC3.Q7.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC3
Q7 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC3\Output 7 |
||||
|
MVGAPC3 |
MV(3) |
MV(3) |
CFG |
LD0.MVGAPC3.Q8.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC3
Q8 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC3\Output 8 |
||||
|
MVGAPC3 |
MV(3) |
MV(3) |
VER |
LD0.MVGAPC3.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
MVGAPC4 |
MV(4) |
MV(4) |
INP |
LD0.MVGAPC4.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q1 |
Q1
status |
Monitoring\I/O
status\Generic logic\MVGAPC4\Outputs |
||
|
MVGAPC4 |
MV(4) |
MV(4) |
INP |
LD0.MVGAPC4.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q2 |
Q2
status |
Monitoring\I/O
status\Generic logic\MVGAPC4\Outputs |
||
|
MVGAPC4 |
MV(4) |
MV(4) |
INP |
LD0.MVGAPC4.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q3 |
Q3
status |
Monitoring\I/O
status\Generic logic\MVGAPC4\Outputs |
||
|
MVGAPC4 |
MV(4) |
MV(4) |
INP |
LD0.MVGAPC4.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q4 |
Q4
status |
Monitoring\I/O
status\Generic logic\MVGAPC4\Outputs |
||
|
MVGAPC4 |
MV(4) |
MV(4) |
INP |
LD0.MVGAPC4.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q5 |
Q5
status |
Monitoring\I/O
status\Generic logic\MVGAPC4\Outputs |
||
|
MVGAPC4 |
MV(4) |
MV(4) |
INP |
LD0.MVGAPC4.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q6 |
Q6
status |
Monitoring\I/O
status\Generic logic\MVGAPC4\Outputs |
||
|
MVGAPC4 |
MV(4) |
MV(4) |
INP |
LD0.MVGAPC4.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q7 |
Q7
status |
Monitoring\I/O
status\Generic logic\MVGAPC4\Outputs |
||
|
MVGAPC4 |
MV(4) |
MV(4) |
INP |
LD0.MVGAPC4.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q8 |
Q8
status |
Monitoring\I/O
status\Generic logic\MVGAPC4\Outputs |
||
|
MVGAPC4 |
MV(4) |
MV(4) |
OUT |
LD0.MVGAPC4.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q1 |
Q1
status |
Monitoring\I/O
status\Generic logic\MVGAPC4\Outputs |
||
|
MVGAPC4 |
MV(4) |
MV(4) |
OUT |
LD0.MVGAPC4.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q2 |
Q2
status |
Monitoring\I/O
status\Generic logic\MVGAPC4\Outputs |
||
|
MVGAPC4 |
MV(4) |
MV(4) |
OUT |
LD0.MVGAPC4.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q3 |
Q3
status |
Monitoring\I/O
status\Generic logic\MVGAPC4\Outputs |
||
|
MVGAPC4 |
MV(4) |
MV(4) |
OUT |
LD0.MVGAPC4.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q4 |
Q4
status |
Monitoring\I/O
status\Generic logic\MVGAPC4\Outputs |
||
|
MVGAPC4 |
MV(4) |
MV(4) |
OUT |
LD0.MVGAPC4.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q5 |
Q5
status |
Monitoring\I/O
status\Generic logic\MVGAPC4\Outputs |
||
|
MVGAPC4 |
MV(4) |
MV(4) |
OUT |
LD0.MVGAPC4.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q6 |
Q6
status |
Monitoring\I/O
status\Generic logic\MVGAPC4\Outputs |
||
|
MVGAPC4 |
MV(4) |
MV(4) |
OUT |
LD0.MVGAPC4.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q7 |
Q7
status |
Monitoring\I/O
status\Generic logic\MVGAPC4\Outputs |
||
|
MVGAPC4 |
MV(4) |
MV(4) |
OUT |
LD0.MVGAPC4.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q8 |
Q8
status |
Monitoring\I/O
status\Generic logic\MVGAPC4\Outputs |
||
|
MVGAPC4 |
MV(4) |
MV(4) |
CFG |
LD0.MVGAPC4.Q1.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC4
Q1 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC4\Output 1 |
||||
|
MVGAPC4 |
MV(4) |
MV(4) |
CFG |
LD0.MVGAPC4.Q2.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC4
Q2 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC4\Output 2 |
||||
|
MVGAPC4 |
MV(4) |
MV(4) |
CFG |
LD0.MVGAPC4.Q3.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC4
Q3 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC4\Output 3 |
||||
|
MVGAPC4 |
MV(4) |
MV(4) |
CFG |
LD0.MVGAPC4.Q4.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC4
Q4 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC4\Output 4 |
||||
|
MVGAPC4 |
MV(4) |
MV(4) |
CFG |
LD0.MVGAPC4.Q5.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC4
Q5 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC4\Output 5 |
||||
|
MVGAPC4 |
MV(4) |
MV(4) |
CFG |
LD0.MVGAPC4.Q6.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC4
Q6 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC4\Output 6 |
||||
|
MVGAPC4 |
MV(4) |
MV(4) |
CFG |
LD0.MVGAPC4.Q7.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC4
Q7 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC4\Output 7 |
||||
|
MVGAPC4 |
MV(4) |
MV(4) |
CFG |
LD0.MVGAPC4.Q8.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC4
Q8 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC4\Output 8 |
||||
|
MVGAPC4 |
MV(4) |
MV(4) |
VER |
LD0.MVGAPC4.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
MVGAPC5 |
MV(5) |
MV(5) |
INP |
LD0.MVGAPC5.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q1 |
Q1
status |
Monitoring\I/O
status\Generic logic\MVGAPC5\Outputs |
||
|
MVGAPC5 |
MV(5) |
MV(5) |
INP |
LD0.MVGAPC5.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q2 |
Q2
status |
Monitoring\I/O
status\Generic logic\MVGAPC5\Outputs |
||
|
MVGAPC5 |
MV(5) |
MV(5) |
INP |
LD0.MVGAPC5.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q3 |
Q3
status |
Monitoring\I/O
status\Generic logic\MVGAPC5\Outputs |
||
|
MVGAPC5 |
MV(5) |
MV(5) |
INP |
LD0.MVGAPC5.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q4 |
Q4
status |
Monitoring\I/O
status\Generic logic\MVGAPC5\Outputs |
||
|
MVGAPC5 |
MV(5) |
MV(5) |
INP |
LD0.MVGAPC5.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q5 |
Q5
status |
Monitoring\I/O
status\Generic logic\MVGAPC5\Outputs |
||
|
MVGAPC5 |
MV(5) |
MV(5) |
INP |
LD0.MVGAPC5.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q6 |
Q6
status |
Monitoring\I/O
status\Generic logic\MVGAPC5\Outputs |
||
|
MVGAPC5 |
MV(5) |
MV(5) |
INP |
LD0.MVGAPC5.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q7 |
Q7
status |
Monitoring\I/O
status\Generic logic\MVGAPC5\Outputs |
||
|
MVGAPC5 |
MV(5) |
MV(5) |
INP |
LD0.MVGAPC5.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q8 |
Q8
status |
Monitoring\I/O
status\Generic logic\MVGAPC5\Outputs |
||
|
MVGAPC5 |
MV(5) |
MV(5) |
OUT |
LD0.MVGAPC5.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q1 |
Q1
status |
Monitoring\I/O
status\Generic logic\MVGAPC5\Outputs |
||
|
MVGAPC5 |
MV(5) |
MV(5) |
OUT |
LD0.MVGAPC5.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q2 |
Q2
status |
Monitoring\I/O
status\Generic logic\MVGAPC5\Outputs |
||
|
MVGAPC5 |
MV(5) |
MV(5) |
OUT |
LD0.MVGAPC5.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q3 |
Q3
status |
Monitoring\I/O
status\Generic logic\MVGAPC5\Outputs |
||
|
MVGAPC5 |
MV(5) |
MV(5) |
OUT |
LD0.MVGAPC5.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q4 |
Q4
status |
Monitoring\I/O
status\Generic logic\MVGAPC5\Outputs |
||
|
MVGAPC5 |
MV(5) |
MV(5) |
OUT |
LD0.MVGAPC5.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q5 |
Q5
status |
Monitoring\I/O
status\Generic logic\MVGAPC5\Outputs |
||
|
MVGAPC5 |
MV(5) |
MV(5) |
OUT |
LD0.MVGAPC5.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q6 |
Q6
status |
Monitoring\I/O
status\Generic logic\MVGAPC5\Outputs |
||
|
MVGAPC5 |
MV(5) |
MV(5) |
OUT |
LD0.MVGAPC5.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q7 |
Q7
status |
Monitoring\I/O
status\Generic logic\MVGAPC5\Outputs |
||
|
MVGAPC5 |
MV(5) |
MV(5) |
OUT |
LD0.MVGAPC5.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q8 |
Q8
status |
Monitoring\I/O
status\Generic logic\MVGAPC5\Outputs |
||
|
MVGAPC5 |
MV(5) |
MV(5) |
CFG |
LD0.MVGAPC5.Q1.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC5
Q1 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC5\Output 1 |
||||
|
MVGAPC5 |
MV(5) |
MV(5) |
CFG |
LD0.MVGAPC5.Q2.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC5
Q2 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC5\Output 2 |
||||
|
MVGAPC5 |
MV(5) |
MV(5) |
CFG |
LD0.MVGAPC5.Q3.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC5
Q3 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC5\Output 3 |
||||
|
MVGAPC5 |
MV(5) |
MV(5) |
CFG |
LD0.MVGAPC5.Q4.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC5
Q4 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC5\Output 4 |
||||
|
MVGAPC5 |
MV(5) |
MV(5) |
CFG |
LD0.MVGAPC5.Q5.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC5
Q5 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC5\Output 5 |
||||
|
MVGAPC5 |
MV(5) |
MV(5) |
CFG |
LD0.MVGAPC5.Q6.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC5
Q6 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC5\Output 6 |
||||
|
MVGAPC5 |
MV(5) |
MV(5) |
CFG |
LD0.MVGAPC5.Q7.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC5
Q7 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC5\Output 7 |
||||
|
MVGAPC5 |
MV(5) |
MV(5) |
CFG |
LD0.MVGAPC5.Q8.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC5
Q8 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC5\Output 8 |
||||
|
MVGAPC5 |
MV(5) |
MV(5) |
VER |
LD0.MVGAPC5.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
MVGAPC6 |
MV(6) |
MV(6) |
INP |
LD0.MVGAPC6.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q1 |
Q1
status |
Monitoring\I/O
status\Generic logic\MVGAPC6\Outputs |
||
|
MVGAPC6 |
MV(6) |
MV(6) |
INP |
LD0.MVGAPC6.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q2 |
Q2
status |
Monitoring\I/O
status\Generic logic\MVGAPC6\Outputs |
||
|
MVGAPC6 |
MV(6) |
MV(6) |
INP |
LD0.MVGAPC6.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q3 |
Q3
status |
Monitoring\I/O
status\Generic logic\MVGAPC6\Outputs |
||
|
MVGAPC6 |
MV(6) |
MV(6) |
INP |
LD0.MVGAPC6.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q4 |
Q4
status |
Monitoring\I/O
status\Generic logic\MVGAPC6\Outputs |
||
|
MVGAPC6 |
MV(6) |
MV(6) |
INP |
LD0.MVGAPC6.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q5 |
Q5
status |
Monitoring\I/O
status\Generic logic\MVGAPC6\Outputs |
||
|
MVGAPC6 |
MV(6) |
MV(6) |
INP |
LD0.MVGAPC6.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q6 |
Q6
status |
Monitoring\I/O
status\Generic logic\MVGAPC6\Outputs |
||
|
MVGAPC6 |
MV(6) |
MV(6) |
INP |
LD0.MVGAPC6.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q7 |
Q7
status |
Monitoring\I/O
status\Generic logic\MVGAPC6\Outputs |
||
|
MVGAPC6 |
MV(6) |
MV(6) |
INP |
LD0.MVGAPC6.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q8 |
Q8
status |
Monitoring\I/O
status\Generic logic\MVGAPC6\Outputs |
||
|
MVGAPC6 |
MV(6) |
MV(6) |
OUT |
LD0.MVGAPC6.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q1 |
Q1
status |
Monitoring\I/O
status\Generic logic\MVGAPC6\Outputs |
||
|
MVGAPC6 |
MV(6) |
MV(6) |
OUT |
LD0.MVGAPC6.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q2 |
Q2
status |
Monitoring\I/O
status\Generic logic\MVGAPC6\Outputs |
||
|
MVGAPC6 |
MV(6) |
MV(6) |
OUT |
LD0.MVGAPC6.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q3 |
Q3
status |
Monitoring\I/O
status\Generic logic\MVGAPC6\Outputs |
||
|
MVGAPC6 |
MV(6) |
MV(6) |
OUT |
LD0.MVGAPC6.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q4 |
Q4
status |
Monitoring\I/O
status\Generic logic\MVGAPC6\Outputs |
||
|
MVGAPC6 |
MV(6) |
MV(6) |
OUT |
LD0.MVGAPC6.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q5 |
Q5
status |
Monitoring\I/O
status\Generic logic\MVGAPC6\Outputs |
||
|
MVGAPC6 |
MV(6) |
MV(6) |
OUT |
LD0.MVGAPC6.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q6 |
Q6
status |
Monitoring\I/O
status\Generic logic\MVGAPC6\Outputs |
||
|
MVGAPC6 |
MV(6) |
MV(6) |
OUT |
LD0.MVGAPC6.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q7 |
Q7
status |
Monitoring\I/O
status\Generic logic\MVGAPC6\Outputs |
||
|
MVGAPC6 |
MV(6) |
MV(6) |
OUT |
LD0.MVGAPC6.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q8 |
Q8
status |
Monitoring\I/O
status\Generic logic\MVGAPC6\Outputs |
||
|
MVGAPC6 |
MV(6) |
MV(6) |
CFG |
LD0.MVGAPC6.Q1.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC6
Q1 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC6\Output 1 |
||||
|
MVGAPC6 |
MV(6) |
MV(6) |
CFG |
LD0.MVGAPC6.Q2.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC6
Q2 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC6\Output 2 |
||||
|
MVGAPC6 |
MV(6) |
MV(6) |
CFG |
LD0.MVGAPC6.Q3.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC6
Q3 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC6\Output 3 |
||||
|
MVGAPC6 |
MV(6) |
MV(6) |
CFG |
LD0.MVGAPC6.Q4.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC6
Q4 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC6\Output 4 |
||||
|
MVGAPC6 |
MV(6) |
MV(6) |
CFG |
LD0.MVGAPC6.Q5.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC6
Q5 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC6\Output 5 |
||||
|
MVGAPC6 |
MV(6) |
MV(6) |
CFG |
LD0.MVGAPC6.Q6.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC6
Q6 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC6\Output 6 |
||||
|
MVGAPC6 |
MV(6) |
MV(6) |
CFG |
LD0.MVGAPC6.Q7.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC6
Q7 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC6\Output 7 |
||||
|
MVGAPC6 |
MV(6) |
MV(6) |
CFG |
LD0.MVGAPC6.Q8.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC6
Q8 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC6\Output 8 |
||||
|
MVGAPC6 |
MV(6) |
MV(6) |
VER |
LD0.MVGAPC6.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
MVGAPC7 |
MV(7) |
MV(7) |
INP |
LD0.MVGAPC7.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q1 |
Q1
status |
Monitoring\I/O
status\Generic logic\MVGAPC7\Outputs |
||
|
MVGAPC7 |
MV(7) |
MV(7) |
INP |
LD0.MVGAPC7.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q2 |
Q2
status |
Monitoring\I/O
status\Generic logic\MVGAPC7\Outputs |
||
|
MVGAPC7 |
MV(7) |
MV(7) |
INP |
LD0.MVGAPC7.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q3 |
Q3
status |
Monitoring\I/O
status\Generic logic\MVGAPC7\Outputs |
||
|
MVGAPC7 |
MV(7) |
MV(7) |
INP |
LD0.MVGAPC7.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q4 |
Q4
status |
Monitoring\I/O
status\Generic logic\MVGAPC7\Outputs |
||
|
MVGAPC7 |
MV(7) |
MV(7) |
INP |
LD0.MVGAPC7.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q5 |
Q5
status |
Monitoring\I/O
status\Generic logic\MVGAPC7\Outputs |
||
|
MVGAPC7 |
MV(7) |
MV(7) |
INP |
LD0.MVGAPC7.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q6 |
Q6
status |
Monitoring\I/O
status\Generic logic\MVGAPC7\Outputs |
||
|
MVGAPC7 |
MV(7) |
MV(7) |
INP |
LD0.MVGAPC7.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q7 |
Q7
status |
Monitoring\I/O
status\Generic logic\MVGAPC7\Outputs |
||
|
MVGAPC7 |
MV(7) |
MV(7) |
INP |
LD0.MVGAPC7.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q8 |
Q8
status |
Monitoring\I/O
status\Generic logic\MVGAPC7\Outputs |
||
|
MVGAPC7 |
MV(7) |
MV(7) |
OUT |
LD0.MVGAPC7.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q1 |
Q1
status |
Monitoring\I/O
status\Generic logic\MVGAPC7\Outputs |
||
|
MVGAPC7 |
MV(7) |
MV(7) |
OUT |
LD0.MVGAPC7.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q2 |
Q2
status |
Monitoring\I/O
status\Generic logic\MVGAPC7\Outputs |
||
|
MVGAPC7 |
MV(7) |
MV(7) |
OUT |
LD0.MVGAPC7.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q3 |
Q3
status |
Monitoring\I/O
status\Generic logic\MVGAPC7\Outputs |
||
|
MVGAPC7 |
MV(7) |
MV(7) |
OUT |
LD0.MVGAPC7.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q4 |
Q4
status |
Monitoring\I/O
status\Generic logic\MVGAPC7\Outputs |
||
|
MVGAPC7 |
MV(7) |
MV(7) |
OUT |
LD0.MVGAPC7.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q5 |
Q5
status |
Monitoring\I/O
status\Generic logic\MVGAPC7\Outputs |
||
|
MVGAPC7 |
MV(7) |
MV(7) |
OUT |
LD0.MVGAPC7.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q6 |
Q6
status |
Monitoring\I/O
status\Generic logic\MVGAPC7\Outputs |
||
|
MVGAPC7 |
MV(7) |
MV(7) |
OUT |
LD0.MVGAPC7.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q7 |
Q7
status |
Monitoring\I/O
status\Generic logic\MVGAPC7\Outputs |
||
|
MVGAPC7 |
MV(7) |
MV(7) |
OUT |
LD0.MVGAPC7.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q8 |
Q8
status |
Monitoring\I/O
status\Generic logic\MVGAPC7\Outputs |
||
|
MVGAPC7 |
MV(7) |
MV(7) |
CFG |
LD0.MVGAPC7.Q1.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC7
Q1 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC7\Output 1 |
||||
|
MVGAPC7 |
MV(7) |
MV(7) |
CFG |
LD0.MVGAPC7.Q2.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC7
Q2 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC7\Output 2 |
||||
|
MVGAPC7 |
MV(7) |
MV(7) |
CFG |
LD0.MVGAPC7.Q3.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC7
Q3 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC7\Output 3 |
||||
|
MVGAPC7 |
MV(7) |
MV(7) |
CFG |
LD0.MVGAPC7.Q4.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC7
Q4 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC7\Output 4 |
||||
|
MVGAPC7 |
MV(7) |
MV(7) |
CFG |
LD0.MVGAPC7.Q5.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC7
Q5 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC7\Output 5 |
||||
|
MVGAPC7 |
MV(7) |
MV(7) |
CFG |
LD0.MVGAPC7.Q6.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC7
Q6 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC7\Output 6 |
||||
|
MVGAPC7 |
MV(7) |
MV(7) |
CFG |
LD0.MVGAPC7.Q7.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC7
Q7 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC7\Output 7 |
||||
|
MVGAPC7 |
MV(7) |
MV(7) |
CFG |
LD0.MVGAPC7.Q8.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC7
Q8 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC7\Output 8 |
||||
|
MVGAPC7 |
MV(7) |
MV(7) |
VER |
LD0.MVGAPC7.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
MVGAPC8 |
MV(8) |
MV(8) |
INP |
LD0.MVGAPC8.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q1 |
Q1
status |
Monitoring\I/O
status\Generic logic\MVGAPC8\Outputs |
||
|
MVGAPC8 |
MV(8) |
MV(8) |
INP |
LD0.MVGAPC8.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q2 |
Q2
status |
Monitoring\I/O
status\Generic logic\MVGAPC8\Outputs |
||
|
MVGAPC8 |
MV(8) |
MV(8) |
INP |
LD0.MVGAPC8.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q3 |
Q3
status |
Monitoring\I/O
status\Generic logic\MVGAPC8\Outputs |
||
|
MVGAPC8 |
MV(8) |
MV(8) |
INP |
LD0.MVGAPC8.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q4 |
Q4
status |
Monitoring\I/O
status\Generic logic\MVGAPC8\Outputs |
||
|
MVGAPC8 |
MV(8) |
MV(8) |
INP |
LD0.MVGAPC8.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q5 |
Q5
status |
Monitoring\I/O
status\Generic logic\MVGAPC8\Outputs |
||
|
MVGAPC8 |
MV(8) |
MV(8) |
INP |
LD0.MVGAPC8.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q6 |
Q6
status |
Monitoring\I/O
status\Generic logic\MVGAPC8\Outputs |
||
|
MVGAPC8 |
MV(8) |
MV(8) |
INP |
LD0.MVGAPC8.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q7 |
Q7
status |
Monitoring\I/O
status\Generic logic\MVGAPC8\Outputs |
||
|
MVGAPC8 |
MV(8) |
MV(8) |
INP |
LD0.MVGAPC8.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q8 |
Q8
status |
Monitoring\I/O
status\Generic logic\MVGAPC8\Outputs |
||
|
MVGAPC8 |
MV(8) |
MV(8) |
OUT |
LD0.MVGAPC8.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q1 |
Q1
status |
Monitoring\I/O
status\Generic logic\MVGAPC8\Outputs |
||
|
MVGAPC8 |
MV(8) |
MV(8) |
OUT |
LD0.MVGAPC8.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q2 |
Q2
status |
Monitoring\I/O
status\Generic logic\MVGAPC8\Outputs |
||
|
MVGAPC8 |
MV(8) |
MV(8) |
OUT |
LD0.MVGAPC8.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q3 |
Q3
status |
Monitoring\I/O
status\Generic logic\MVGAPC8\Outputs |
||
|
MVGAPC8 |
MV(8) |
MV(8) |
OUT |
LD0.MVGAPC8.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q4 |
Q4
status |
Monitoring\I/O
status\Generic logic\MVGAPC8\Outputs |
||
|
MVGAPC8 |
MV(8) |
MV(8) |
OUT |
LD0.MVGAPC8.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q5 |
Q5
status |
Monitoring\I/O
status\Generic logic\MVGAPC8\Outputs |
||
|
MVGAPC8 |
MV(8) |
MV(8) |
OUT |
LD0.MVGAPC8.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q6 |
Q6
status |
Monitoring\I/O
status\Generic logic\MVGAPC8\Outputs |
||
|
MVGAPC8 |
MV(8) |
MV(8) |
OUT |
LD0.MVGAPC8.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q7 |
Q7
status |
Monitoring\I/O
status\Generic logic\MVGAPC8\Outputs |
||
|
MVGAPC8 |
MV(8) |
MV(8) |
OUT |
LD0.MVGAPC8.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatIed |
P,H |
Q8 |
Q8
status |
Monitoring\I/O
status\Generic logic\MVGAPC8\Outputs |
||
|
MVGAPC8 |
MV(8) |
MV(8) |
CFG |
LD0.MVGAPC8.Q1.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC8
Q1 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC8\Output 1 |
||||
|
MVGAPC8 |
MV(8) |
MV(8) |
CFG |
LD0.MVGAPC8.Q2.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC8
Q2 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC8\Output 2 |
||||
|
MVGAPC8 |
MV(8) |
MV(8) |
CFG |
LD0.MVGAPC8.Q3.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC8
Q3 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC8\Output 3 |
||||
|
MVGAPC8 |
MV(8) |
MV(8) |
CFG |
LD0.MVGAPC8.Q4.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC8
Q4 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC8\Output 4 |
||||
|
MVGAPC8 |
MV(8) |
MV(8) |
CFG |
LD0.MVGAPC8.Q5.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC8
Q5 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC8\Output 5 |
||||
|
MVGAPC8 |
MV(8) |
MV(8) |
CFG |
LD0.MVGAPC8.Q6.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC8
Q6 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC8\Output 6 |
||||
|
MVGAPC8 |
MV(8) |
MV(8) |
CFG |
LD0.MVGAPC8.Q7.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC8
Q7 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC8\Output 7 |
||||
|
MVGAPC8 |
MV(8) |
MV(8) |
CFG |
LD0.MVGAPC8.Q8.d |
SPS |
VisString255
(64) |
DC |
B |
MVGAPC8
Q8 |
Description |
Output
description |
Configuration\Generic
logic\MVGAPC8\Output 8 |
||||
|
MVGAPC8 |
MV(8) |
MV(8) |
VER |
LD0.MVGAPC8.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
SRGAPC3 |
SR(3) |
SR(3) |
INP |
LD0.SRGAPC3.Set1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S1 |
Set
Q1 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC3\Inputs |
||||
|
SRGAPC3 |
SR(3) |
SR(3) |
INP |
LD0.SRGAPC3.Set2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S2 |
Set
Q2 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC3\Inputs |
||||
|
SRGAPC3 |
SR(3) |
SR(3) |
INP |
LD0.SRGAPC3.Set3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S3 |
Set
Q3 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC3\Inputs |
||||
|
SRGAPC3 |
SR(3) |
SR(3) |
INP |
LD0.SRGAPC3.Set4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S4 |
Set
Q4 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC3\Inputs |
||||
|
SRGAPC3 |
SR(3) |
SR(3) |
INP |
LD0.SRGAPC3.Set5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S5 |
Set
Q5 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC3\Inputs |
||||
|
SRGAPC3 |
SR(3) |
SR(3) |
INP |
LD0.SRGAPC3.Set6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S6 |
Set
Q6 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC3\Inputs |
||||
|
SRGAPC3 |
SR(3) |
SR(3) |
INP |
LD0.SRGAPC3.Set7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S7 |
Set
Q7 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC3\Inputs |
||||
|
SRGAPC3 |
SR(3) |
SR(3) |
INP |
LD0.SRGAPC3.Set8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S8 |
Set
Q8 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC3\Inputs |
||||
|
SRGAPC3 |
SR(3) |
SR(3) |
INP |
LD0.SRGAPC3.Rs1.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R1 |
Resets
Q1 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC3\Inputs |
||||
|
SRGAPC3 |
SR(3) |
SR(3) |
INP |
LD0.SRGAPC3.Rs2.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R2 |
Resets
Q2 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC3\Inputs |
||||
|
SRGAPC3 |
SR(3) |
SR(3) |
INP |
LD0.SRGAPC3.Rs3.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R3 |
Resets
Q3 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC3\Inputs |
||||
|
SRGAPC3 |
SR(3) |
SR(3) |
INP |
LD0.SRGAPC3.Rs4.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R4 |
Resets
Q4 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC3\Inputs |
||||
|
SRGAPC3 |
SR(3) |
SR(3) |
INP |
LD0.SRGAPC3.Rs5.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R5 |
Resets
Q5 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC3\Inputs |
||||
|
SRGAPC3 |
SR(3) |
SR(3) |
INP |
LD0.SRGAPC3.Rs6.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R6 |
Resets
Q6 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC3\Inputs |
||||
|
SRGAPC3 |
SR(3) |
SR(3) |
INP |
LD0.SRGAPC3.Rs7.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R7 |
Resets
Q7 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC3\Inputs |
||||
|
SRGAPC3 |
SR(3) |
SR(3) |
INP |
LD0.SRGAPC3.Rs8.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R8 |
Resets
Q8 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC3\Inputs |
||||
|
SRGAPC3 |
SR(3) |
SR(3) |
OUT |
LD0.SRGAPC3.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
Q1 |
Q1
status |
Monitoring\I/O
status\Generic logic\SRGAPC3\Outputs |
|||||
|
SRGAPC3 |
SR(3) |
SR(3) |
OUT |
LD0.SRGAPC3.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
Q2 |
Q2
status |
Monitoring\I/O
status\Generic logic\SRGAPC3\Outputs |
|||||
|
SRGAPC3 |
SR(3) |
SR(3) |
OUT |
LD0.SRGAPC3.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
Q3 |
Q3
status |
Monitoring\I/O
status\Generic logic\SRGAPC3\Outputs |
|||||
|
SRGAPC3 |
SR(3) |
SR(3) |
OUT |
LD0.SRGAPC3.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
Q4 |
Q4
status |
Monitoring\I/O
status\Generic logic\SRGAPC3\Outputs |
|||||
|
SRGAPC3 |
SR(3) |
SR(3) |
OUT |
LD0.SRGAPC3.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
Q5 |
Q5
status |
Monitoring\I/O
status\Generic logic\SRGAPC3\Outputs |
|||||
|
SRGAPC3 |
SR(3) |
SR(3) |
OUT |
LD0.SRGAPC3.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
Q6 |
Q6
status |
Monitoring\I/O
status\Generic logic\SRGAPC3\Outputs |
|||||
|
SRGAPC3 |
SR(3) |
SR(3) |
OUT |
LD0.SRGAPC3.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
Q7 |
Q7
status |
Monitoring\I/O
status\Generic logic\SRGAPC3\Outputs |
|||||
|
SRGAPC3 |
SR(3) |
SR(3) |
OUT |
LD0.SRGAPC3.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
Q8 |
Q8
status |
Monitoring\I/O
status\Generic logic\SRGAPC3\Outputs |
|||||
|
SRGAPC3 |
SR(3) |
SR(3) |
CTR |
LD0.SRGAPC3.Rs1.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q1 |
Resets
Q1 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC3 |
|||
|
SRGAPC3 |
SR(3) |
SR(3) |
CTR |
LD0.SRGAPC3.Rs2.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q2 |
Resets
Q2 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC3 |
|||
|
SRGAPC3 |
SR(3) |
SR(3) |
CTR |
LD0.SRGAPC3.Rs3.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q3 |
Resets
Q3 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC3 |
|||
|
SRGAPC3 |
SR(3) |
SR(3) |
CTR |
LD0.SRGAPC3.Rs4.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q4 |
Resets
Q4 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC3 |
|||
|
SRGAPC3 |
SR(3) |
SR(3) |
CTR |
LD0.SRGAPC3.Rs5.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q5 |
Resets
Q5 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC3 |
|||
|
SRGAPC3 |
SR(3) |
SR(3) |
CTR |
LD0.SRGAPC3.Rs6.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q6 |
Resets
Q6 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC3 |
|||
|
SRGAPC3 |
SR(3) |
SR(3) |
CTR |
LD0.SRGAPC3.Rs7.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q7 |
Resets
Q7 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC3 |
|||
|
SRGAPC3 |
SR(3) |
SR(3) |
CTR |
LD0.SRGAPC3.Rs8.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q8 |
Resets
Q8 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC3 |
|||
|
SRGAPC3 |
SR(3) |
SR(3) |
CFG |
LD0.SRGAPC3.Rs1.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q1 |
Resets
Q1 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC3 |
|||
|
SRGAPC3 |
SR(3) |
SR(3) |
CFG |
LD0.SRGAPC3.Rs2.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q2 |
Resets
Q2 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC3 |
|||
|
SRGAPC3 |
SR(3) |
SR(3) |
CFG |
LD0.SRGAPC3.Rs3.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q3 |
Resets
Q3 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC3 |
|||
|
SRGAPC3 |
SR(3) |
SR(3) |
CFG |
LD0.SRGAPC3.Rs4.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q4 |
Resets
Q4 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC3 |
|||
|
SRGAPC3 |
SR(3) |
SR(3) |
CFG |
LD0.SRGAPC3.Rs5.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q5 |
Resets
Q5 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC3 |
|||
|
SRGAPC3 |
SR(3) |
SR(3) |
CFG |
LD0.SRGAPC3.Rs6.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q6 |
Resets
Q6 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC3 |
|||
|
SRGAPC3 |
SR(3) |
SR(3) |
CFG |
LD0.SRGAPC3.Rs7.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q7 |
Resets
Q7 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC3 |
|||
|
SRGAPC3 |
SR(3) |
SR(3) |
CFG |
LD0.SRGAPC3.Rs8.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q8 |
Resets
Q8 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC3 |
|||
|
SRGAPC3 |
SR(3) |
SR(3) |
VER |
LD0.SRGAPC3.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
SRGAPC4 |
SR(4) |
SR(4) |
INP |
LD0.SRGAPC4.Set1.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S1 |
Set
Q1 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC4\Inputs |
||||
|
SRGAPC4 |
SR(4) |
SR(4) |
INP |
LD0.SRGAPC4.Set2.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S2 |
Set
Q2 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC4\Inputs |
||||
|
SRGAPC4 |
SR(4) |
SR(4) |
INP |
LD0.SRGAPC4.Set3.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S3 |
Set
Q3 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC4\Inputs |
||||
|
SRGAPC4 |
SR(4) |
SR(4) |
INP |
LD0.SRGAPC4.Set4.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S4 |
Set
Q4 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC4\Inputs |
||||
|
SRGAPC4 |
SR(4) |
SR(4) |
INP |
LD0.SRGAPC4.Set5.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S5 |
Set
Q5 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC4\Inputs |
||||
|
SRGAPC4 |
SR(4) |
SR(4) |
INP |
LD0.SRGAPC4.Set6.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S6 |
Set
Q6 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC4\Inputs |
||||
|
SRGAPC4 |
SR(4) |
SR(4) |
INP |
LD0.SRGAPC4.Set7.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S7 |
Set
Q7 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC4\Inputs |
||||
|
SRGAPC4 |
SR(4) |
SR(4) |
INP |
LD0.SRGAPC4.Set8.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
S8 |
Set
Q8 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC4\Inputs |
||||
|
SRGAPC4 |
SR(4) |
SR(4) |
INP |
LD0.SRGAPC4.Rs1.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R1 |
Resets
Q1 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC4\Inputs |
||||
|
SRGAPC4 |
SR(4) |
SR(4) |
INP |
LD0.SRGAPC4.Rs2.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R2 |
Resets
Q2 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC4\Inputs |
||||
|
SRGAPC4 |
SR(4) |
SR(4) |
INP |
LD0.SRGAPC4.Rs3.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R3 |
Resets
Q3 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC4\Inputs |
||||
|
SRGAPC4 |
SR(4) |
SR(4) |
INP |
LD0.SRGAPC4.Rs4.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R4 |
Resets
Q4 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC4\Inputs |
||||
|
SRGAPC4 |
SR(4) |
SR(4) |
INP |
LD0.SRGAPC4.Rs5.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R5 |
Resets
Q5 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC4\Inputs |
||||
|
SRGAPC4 |
SR(4) |
SR(4) |
INP |
LD0.SRGAPC4.Rs6.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R6 |
Resets
Q6 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC4\Inputs |
||||
|
SRGAPC4 |
SR(4) |
SR(4) |
INP |
LD0.SRGAPC4.Rs7.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R7 |
Resets
Q7 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC4\Inputs |
||||
|
SRGAPC4 |
SR(4) |
SR(4) |
INP |
LD0.SRGAPC4.Rs8.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
R8 |
Resets
Q8 output when set |
Monitoring\I/O
status\Generic logic\SRGAPC4\Inputs |
||||
|
SRGAPC4 |
SR(4) |
SR(4) |
OUT |
LD0.SRGAPC4.Q1.stVal |
SPS |
BOOLEAN |
ST |
B |
Q1 |
Q1
status |
Monitoring\I/O
status\Generic logic\SRGAPC4\Outputs |
|||||
|
SRGAPC4 |
SR(4) |
SR(4) |
OUT |
LD0.SRGAPC4.Q2.stVal |
SPS |
BOOLEAN |
ST |
B |
Q2 |
Q2
status |
Monitoring\I/O
status\Generic logic\SRGAPC4\Outputs |
|||||
|
SRGAPC4 |
SR(4) |
SR(4) |
OUT |
LD0.SRGAPC4.Q3.stVal |
SPS |
BOOLEAN |
ST |
B |
Q3 |
Q3
status |
Monitoring\I/O
status\Generic logic\SRGAPC4\Outputs |
|||||
|
SRGAPC4 |
SR(4) |
SR(4) |
OUT |
LD0.SRGAPC4.Q4.stVal |
SPS |
BOOLEAN |
ST |
B |
Q4 |
Q4
status |
Monitoring\I/O
status\Generic logic\SRGAPC4\Outputs |
|||||
|
SRGAPC4 |
SR(4) |
SR(4) |
OUT |
LD0.SRGAPC4.Q5.stVal |
SPS |
BOOLEAN |
ST |
B |
Q5 |
Q5
status |
Monitoring\I/O
status\Generic logic\SRGAPC4\Outputs |
|||||
|
SRGAPC4 |
SR(4) |
SR(4) |
OUT |
LD0.SRGAPC4.Q6.stVal |
SPS |
BOOLEAN |
ST |
B |
Q6 |
Q6
status |
Monitoring\I/O
status\Generic logic\SRGAPC4\Outputs |
|||||
|
SRGAPC4 |
SR(4) |
SR(4) |
OUT |
LD0.SRGAPC4.Q7.stVal |
SPS |
BOOLEAN |
ST |
B |
Q7 |
Q7
status |
Monitoring\I/O
status\Generic logic\SRGAPC4\Outputs |
|||||
|
SRGAPC4 |
SR(4) |
SR(4) |
OUT |
LD0.SRGAPC4.Q8.stVal |
SPS |
BOOLEAN |
ST |
B |
Q8 |
Q8
status |
Monitoring\I/O
status\Generic logic\SRGAPC4\Outputs |
|||||
|
SRGAPC4 |
SR(4) |
SR(4) |
CTR |
LD0.SRGAPC4.Rs1.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q1 |
Resets
Q1 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC4 |
|||
|
SRGAPC4 |
SR(4) |
SR(4) |
CTR |
LD0.SRGAPC4.Rs2.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q2 |
Resets
Q2 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC4 |
|||
|
SRGAPC4 |
SR(4) |
SR(4) |
CTR |
LD0.SRGAPC4.Rs3.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q3 |
Resets
Q3 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC4 |
|||
|
SRGAPC4 |
SR(4) |
SR(4) |
CTR |
LD0.SRGAPC4.Rs4.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q4 |
Resets
Q4 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC4 |
|||
|
SRGAPC4 |
SR(4) |
SR(4) |
CTR |
LD0.SRGAPC4.Rs5.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q5 |
Resets
Q5 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC4 |
|||
|
SRGAPC4 |
SR(4) |
SR(4) |
CTR |
LD0.SRGAPC4.Rs6.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q6 |
Resets
Q6 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC4 |
|||
|
SRGAPC4 |
SR(4) |
SR(4) |
CTR |
LD0.SRGAPC4.Rs7.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q7 |
Resets
Q7 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC4 |
|||
|
SRGAPC4 |
SR(4) |
SR(4) |
CTR |
LD0.SRGAPC4.Rs8.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q8 |
Resets
Q8 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC4 |
|||
|
SRGAPC4 |
SR(4) |
SR(4) |
CFG |
LD0.SRGAPC4.Rs1.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q1 |
Resets
Q1 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC4 |
|||
|
SRGAPC4 |
SR(4) |
SR(4) |
CFG |
LD0.SRGAPC4.Rs2.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q2 |
Resets
Q2 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC4 |
|||
|
SRGAPC4 |
SR(4) |
SR(4) |
CFG |
LD0.SRGAPC4.Rs3.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q3 |
Resets
Q3 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC4 |
|||
|
SRGAPC4 |
SR(4) |
SR(4) |
CFG |
LD0.SRGAPC4.Rs4.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q4 |
Resets
Q4 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC4 |
|||
|
SRGAPC4 |
SR(4) |
SR(4) |
CFG |
LD0.SRGAPC4.Rs5.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q5 |
Resets
Q5 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC4 |
|||
|
SRGAPC4 |
SR(4) |
SR(4) |
CFG |
LD0.SRGAPC4.Rs6.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q6 |
Resets
Q6 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC4 |
|||
|
SRGAPC4 |
SR(4) |
SR(4) |
CFG |
LD0.SRGAPC4.Rs7.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q7 |
Resets
Q7 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC4 |
|||
|
SRGAPC4 |
SR(4) |
SR(4) |
CFG |
LD0.SRGAPC4.Rs8.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
Q8 |
Resets
Q8 output when set |
0=Cancel;
1=Reset |
Configuration\Generic
logic\SRGAPC4 |
|||
|
SRGAPC4 |
SR(4) |
SR(4) |
VER |
LD0.SRGAPC4.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
INP |
LD0.SPCGGIO3.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Inputs |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
INP |
LD0.SPCGGIO3.SPCSO1.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O1 |
Output
1 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
INP |
LD0.SPCGGIO3.SPCSO2.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O2 |
Output
2 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
INP |
LD0.SPCGGIO3.SPCSO3.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O3 |
Output
3 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
INP |
LD0.SPCGGIO3.SPCSO4.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O4 |
Output
4 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
INP |
LD0.SPCGGIO3.SPCSO5.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O5 |
Output
5 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
INP |
LD0.SPCGGIO3.SPCSO6.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O6 |
Output
6 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
INP |
LD0.SPCGGIO3.SPCSO7.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O7 |
Output
7 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
INP |
LD0.SPCGGIO3.SPCSO8.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O8 |
Output
8 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
INP |
LD0.SPCGGIO3.SPCSO9.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O9 |
Output
9 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
INP |
LD0.SPCGGIO3.SPCSO10.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O10 |
Output
10 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
INP |
LD0.SPCGGIO3.SPCSO11.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O11 |
Output
11 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
INP |
LD0.SPCGGIO3.SPCSO12.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O12 |
Output
12 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
INP |
LD0.SPCGGIO3.SPCSO13.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O13 |
Output
13 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
INP |
LD0.SPCGGIO3.SPCSO14.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O14 |
Output
14 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
INP |
LD0.SPCGGIO3.SPCSO15.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O15 |
Output
15 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
INP |
LD0.SPCGGIO3.SPCSO16.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O16 |
Output
16 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
OUT |
LD0.SPCGGIO3.SPCSO1.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O1 |
Output
1 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
OUT |
LD0.SPCGGIO3.SPCSO2.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O2 |
Output
2 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
OUT |
LD0.SPCGGIO3.SPCSO3.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O3 |
Output
3 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
OUT |
LD0.SPCGGIO3.SPCSO4.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O4 |
Output
4 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
OUT |
LD0.SPCGGIO3.SPCSO5.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O5 |
Output
5 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
OUT |
LD0.SPCGGIO3.SPCSO6.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O6 |
Output
6 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
OUT |
LD0.SPCGGIO3.SPCSO7.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O7 |
Output
7 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
OUT |
LD0.SPCGGIO3.SPCSO8.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O8 |
Output
8 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
OUT |
LD0.SPCGGIO3.SPCSO9.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O9 |
Output
9 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
OUT |
LD0.SPCGGIO3.SPCSO10.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O10 |
Output
10 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
OUT |
LD0.SPCGGIO3.SPCSO11.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O11 |
Output
11 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
OUT |
LD0.SPCGGIO3.SPCSO12.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O12 |
Output
12 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
OUT |
LD0.SPCGGIO3.SPCSO13.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O13 |
Output
13 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
OUT |
LD0.SPCGGIO3.SPCSO14.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O14 |
Output
14 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
OUT |
LD0.SPCGGIO3.SPCSO15.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O15 |
Output
15 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
OUT |
LD0.SPCGGIO3.SPCSO16.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
O16 |
Output
16 status |
Monitoring\I/O
status\Generic logic\SPCGGIO3\Outputs |
||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CTR |
LD0.SPCGGIO3.SPCSO1.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
1 |
Trig
output 1 |
Control\SPCGGIO3 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CTR |
LD0.SPCGGIO3.SPCSO2.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
2 |
Trig
output 2 |
Control\SPCGGIO3 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CTR |
LD0.SPCGGIO3.SPCSO3.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
3 |
Trig
output 3 |
Control\SPCGGIO3 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CTR |
LD0.SPCGGIO3.SPCSO4.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
4 |
Trig
output 4 |
Control\SPCGGIO3 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CTR |
LD0.SPCGGIO3.SPCSO5.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
5 |
Trig
output 5 |
Control\SPCGGIO3 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CTR |
LD0.SPCGGIO3.SPCSO6.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
6 |
Trig
output 6 |
Control\SPCGGIO3 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CTR |
LD0.SPCGGIO3.SPCSO7.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
7 |
Trig
output 7 |
Control\SPCGGIO3 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CTR |
LD0.SPCGGIO3.SPCSO8.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
8 |
Trig
output 8 |
Control\SPCGGIO3 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CTR |
LD0.SPCGGIO3.SPCSO9.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
9 |
Trig
output 9 |
Control\SPCGGIO3 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CTR |
LD0.SPCGGIO3.SPCSO10.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
10 |
Trig
output 10 |
Control\SPCGGIO3 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CTR |
LD0.SPCGGIO3.SPCSO11.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
11 |
Trig
output 11 |
Control\SPCGGIO3 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CTR |
LD0.SPCGGIO3.SPCSO12.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
12 |
Trig
output 12 |
Control\SPCGGIO3 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CTR |
LD0.SPCGGIO3.SPCSO13.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
13 |
Trig
output 13 |
Control\SPCGGIO3 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CTR |
LD0.SPCGGIO3.SPCSO14.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
14 |
Trig
output 14 |
Control\SPCGGIO3 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CTR |
LD0.SPCGGIO3.SPCSO15.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
15 |
Trig
output 15 |
Control\SPCGGIO3 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CTR |
LD0.SPCGGIO3.SPCSO16.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
16 |
Trig
output 16 |
Control\SPCGGIO3 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO1.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO3\Output 1 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO1.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO3\Output 1 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO1.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO3
Output 1 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO3\Output 1 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO2.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO3\Output 2 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO2.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO3\Output 2 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO2.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO3
Output 2 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO3\Output 2 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO3.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO3\Output 3 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO3.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO3\Output 3 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO3.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO3
Output 3 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO3\Output 3 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO4.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO3\Output 4 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO4.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO3\Output 4 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO4.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO3
Output 4 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO3\Output 4 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO5.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO3\Output 5 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO5.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO3\Output 5 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO5.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO3
Output 5 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO3\Output 5 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO6.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO3\Output 6 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO6.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO3\Output 6 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO6.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO3
Output 6 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO3\Output 6 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO7.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO3\Output 7 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO7.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO3\Output 7 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO7.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO3
Output 7 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO3\Output 7 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO8.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO3\Output 8 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO8.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO3\Output 8 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO8.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO3
Output 8 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO3\Output 8 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO9.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO3\Output 9 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO9.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO3\Output 9 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO9.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO3
Output 9 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO3\Output 9 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO10.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO3\Output 10 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO10.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO3\Output 10 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO10.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO3
Output 10 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO3\Output 10 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO11.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO3\Output 11 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO11.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO3\Output 11 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO11.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO3
Output 11 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO3\Output 11 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO12.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO3\Output 12 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO12.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO3\Output 12 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO12.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO3
Output 12 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO3\Output 12 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO13.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO3\Output 13 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO13.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO3\Output 13 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO13.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO3
Output 13 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO3\Output 13 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO14.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO3\Output 14 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO14.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO3\Output 14 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO14.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO3
Output 14 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO3\Output 14 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO15.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO3\Output 15 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO15.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO3\Output 15 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO15.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO3
Output 15 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO3\Output 15 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO16.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCGGIO3\Output 16 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO16.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCGGIO3\Output 16 |
|||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.SPCSO16.d |
SPC |
VisString255
(64) |
DC |
B |
SPCGGIO3
Output 16 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCGGIO3\Output 16 |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
CFG |
LD0.SPCGGIO3.LocRemRst.setVal |
SPG |
BOOLEAN |
SP |
B |
0 |
Loc
Rem restriction |
Local
remote switch restriction |
Configuration\Generic
logic\SPCGGIO3\General |
||||
|
SPCGGIO3 |
SPC(3) |
SPC(3) |
VER |
LD0.SPCGGIO3.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
INP |
LD0.SPCRGGIO1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Generic logic\SPCRGGIO1\Inputs |
||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
OUT |
LD0.SPCRGGIO1.SPCSO1.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O1 |
Output
1 status |
Monitoring\I/O
status\Generic logic\SPCRGGIO1\Outputs |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
OUT |
LD0.SPCRGGIO1.SPCSO2.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O2 |
Output
2 status |
Monitoring\I/O
status\Generic logic\SPCRGGIO1\Outputs |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
OUT |
LD0.SPCRGGIO1.SPCSO3.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O3 |
Output
3 status |
Monitoring\I/O
status\Generic logic\SPCRGGIO1\Outputs |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
OUT |
LD0.SPCRGGIO1.SPCSO4.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O4 |
Output
4 status |
Monitoring\I/O
status\Generic logic\SPCRGGIO1\Outputs |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
OUT |
LD0.SPCRGGIO1.SPCSO5.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O5 |
Output
5 status |
Monitoring\I/O
status\Generic logic\SPCRGGIO1\Outputs |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
OUT |
LD0.SPCRGGIO1.SPCSO6.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O6 |
Output
6 status |
Monitoring\I/O
status\Generic logic\SPCRGGIO1\Outputs |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
OUT |
LD0.SPCRGGIO1.SPCSO7.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O7 |
Output
7 status |
Monitoring\I/O
status\Generic logic\SPCRGGIO1\Outputs |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
OUT |
LD0.SPCRGGIO1.SPCSO8.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O8 |
Output
8 status |
Monitoring\I/O
status\Generic logic\SPCRGGIO1\Outputs |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
OUT |
LD0.SPCRGGIO1.SPCSO9.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O9 |
Output
9 status |
Monitoring\I/O
status\Generic logic\SPCRGGIO1\Outputs |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
OUT |
LD0.SPCRGGIO1.SPCSO10.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O10 |
Output
10 status |
Monitoring\I/O
status\Generic logic\SPCRGGIO1\Outputs |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
OUT |
LD0.SPCRGGIO1.SPCSO11.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O11 |
Output
11 status |
Monitoring\I/O
status\Generic logic\SPCRGGIO1\Outputs |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
OUT |
LD0.SPCRGGIO1.SPCSO12.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O12 |
Output
12 status |
Monitoring\I/O
status\Generic logic\SPCRGGIO1\Outputs |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
OUT |
LD0.SPCRGGIO1.SPCSO13.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O13 |
Output
13 status |
Monitoring\I/O
status\Generic logic\SPCRGGIO1\Outputs |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
OUT |
LD0.SPCRGGIO1.SPCSO14.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O14 |
Output
14 status |
Monitoring\I/O
status\Generic logic\SPCRGGIO1\Outputs |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
OUT |
LD0.SPCRGGIO1.SPCSO15.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O15 |
Output
15 status |
Monitoring\I/O
status\Generic logic\SPCRGGIO1\Outputs |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
OUT |
LD0.SPCRGGIO1.SPCSO16.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O16 |
Output
16 status |
Monitoring\I/O
status\Generic logic\SPCRGGIO1\Outputs |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CTR |
LD0.SPCRGGIO1.SPCSO1.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Output
1) |
||||||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CTR |
LD0.SPCRGGIO1.SPCSO2.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Output
2) |
||||||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CTR |
LD0.SPCRGGIO1.SPCSO3.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Output
3) |
||||||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CTR |
LD0.SPCRGGIO1.SPCSO4.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Output
4) |
||||||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CTR |
LD0.SPCRGGIO1.SPCSO5.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Output
5) |
||||||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CTR |
LD0.SPCRGGIO1.SPCSO6.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Output
6) |
||||||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CTR |
LD0.SPCRGGIO1.SPCSO7.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Output
7) |
||||||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CTR |
LD0.SPCRGGIO1.SPCSO8.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Output
8) |
||||||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CTR |
LD0.SPCRGGIO1.SPCSO9.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Output
9) |
||||||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CTR |
LD0.SPCRGGIO1.SPCSO10.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Output
10) |
||||||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CTR |
LD0.SPCRGGIO1.SPCSO11.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Output
11) |
||||||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CTR |
LD0.SPCRGGIO1.SPCSO12.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Output
12) |
||||||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CTR |
LD0.SPCRGGIO1.SPCSO13.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Output
13) |
||||||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CTR |
LD0.SPCRGGIO1.SPCSO14.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Output
14) |
||||||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CTR |
LD0.SPCRGGIO1.SPCSO15.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Output
15) |
||||||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CTR |
LD0.SPCRGGIO1.SPCSO16.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Output
16) |
||||||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO1.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCRGGIO1\Output 1 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO1.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCRGGIO1\Output 1 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO1.d |
SPC |
VisString255
(64) |
DC |
B |
SPCRGGIO1
Output 1 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCRGGIO1\Output 1 |
||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO2.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCRGGIO1\Output 2 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO2.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCRGGIO1\Output 2 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO2.d |
SPC |
VisString255
(64) |
DC |
B |
SPCRGGIO1
Output 2 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCRGGIO1\Output 2 |
||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO3.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCRGGIO1\Output 3 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO3.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCRGGIO1\Output 3 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO3.d |
SPC |
VisString255
(64) |
DC |
B |
SPCRGGIO1
Output 3 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCRGGIO1\Output 3 |
||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO4.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCRGGIO1\Output 4 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO4.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCRGGIO1\Output 4 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO4.d |
SPC |
VisString255
(64) |
DC |
B |
SPCRGGIO1
Output 4 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCRGGIO1\Output 4 |
||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO5.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCRGGIO1\Output 5 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO5.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCRGGIO1\Output 5 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO5.d |
SPC |
VisString255
(64) |
DC |
B |
SPCRGGIO1
Output 5 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCRGGIO1\Output 5 |
||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO6.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCRGGIO1\Output 6 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO6.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCRGGIO1\Output 6 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO6.d |
SPC |
VisString255
(64) |
DC |
B |
SPCRGGIO1
Output 6 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCRGGIO1\Output 6 |
||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO7.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCRGGIO1\Output 7 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO7.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCRGGIO1\Output 7 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO7.d |
SPC |
VisString255
(64) |
DC |
B |
SPCRGGIO1
Output 7 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCRGGIO1\Output 7 |
||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO8.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCRGGIO1\Output 8 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO8.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCRGGIO1\Output 8 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO8.d |
SPC |
VisString255
(64) |
DC |
B |
SPCRGGIO1
Output 8 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCRGGIO1\Output 8 |
||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO9.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCRGGIO1\Output 9 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO9.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCRGGIO1\Output 9 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO9.d |
SPC |
VisString255
(64) |
DC |
B |
SPCRGGIO1
Output 9 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCRGGIO1\Output 9 |
||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO10.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCRGGIO1\Output 10 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO10.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCRGGIO1\Output 10 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO10.d |
SPC |
VisString255
(64) |
DC |
B |
SPCRGGIO1
Output 10 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCRGGIO1\Output 10 |
||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO11.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCRGGIO1\Output 11 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO11.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCRGGIO1\Output 11 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO11.d |
SPC |
VisString255
(64) |
DC |
B |
SPCRGGIO1
Output 11 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCRGGIO1\Output 11 |
||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO12.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCRGGIO1\Output 12 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO12.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCRGGIO1\Output 12 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO12.d |
SPC |
VisString255
(64) |
DC |
B |
SPCRGGIO1
Output 12 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCRGGIO1\Output 12 |
||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO13.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCRGGIO1\Output 13 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO13.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCRGGIO1\Output 13 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO13.d |
SPC |
VisString255
(64) |
DC |
B |
SPCRGGIO1
Output 13 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCRGGIO1\Output 13 |
||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO14.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCRGGIO1\Output 14 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO14.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCRGGIO1\Output 14 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO14.d |
SPC |
VisString255
(64) |
DC |
B |
SPCRGGIO1
Output 14 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCRGGIO1\Output 14 |
||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO15.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCRGGIO1\Output 15 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO15.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCRGGIO1\Output 15 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO15.d |
SPC |
VisString255
(64) |
DC |
B |
SPCRGGIO1
Output 15 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCRGGIO1\Output 15 |
||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO16.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCRGGIO1\Output 16 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO16.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCRGGIO1\Output 16 |
|||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.SPCSO16.d |
SPC |
VisString255
(64) |
DC |
B |
SPCRGGIO1
Output 16 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCRGGIO1\Output 16 |
||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
CFG |
LD0.SPCRGGIO1.LocRemRst.setVal |
SPG |
BOOLEAN |
SP |
B |
0 |
Loc
Rem restriction |
Local
remote switch restriction |
Configuration\Generic
logic\SPCRGGIO1\General |
||||
|
SPCRGGIO1 |
SPCR(1) |
SPCR(1) |
VER |
LD0.SPCRGGIO1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
INP |
LD0.SPCLGGIO1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Generic logic\SPCLGGIO1\Inputs |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
OUT |
LD0.SPCLGGIO1.SPCSO1.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O1 |
Output
1 status |
Monitoring\I/O
status\Generic logic\SPCLGGIO1\Outputs |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
OUT |
LD0.SPCLGGIO1.SPCSO2.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O2 |
Output
2 status |
Monitoring\I/O
status\Generic logic\SPCLGGIO1\Outputs |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
OUT |
LD0.SPCLGGIO1.SPCSO3.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O3 |
Output
3 status |
Monitoring\I/O
status\Generic logic\SPCLGGIO1\Outputs |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
OUT |
LD0.SPCLGGIO1.SPCSO4.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O4 |
Output
4 status |
Monitoring\I/O
status\Generic logic\SPCLGGIO1\Outputs |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
OUT |
LD0.SPCLGGIO1.SPCSO5.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O5 |
Output
5 status |
Monitoring\I/O
status\Generic logic\SPCLGGIO1\Outputs |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
OUT |
LD0.SPCLGGIO1.SPCSO6.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O6 |
Output
6 status |
Monitoring\I/O
status\Generic logic\SPCLGGIO1\Outputs |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
OUT |
LD0.SPCLGGIO1.SPCSO7.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O7 |
Output
7 status |
Monitoring\I/O
status\Generic logic\SPCLGGIO1\Outputs |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
OUT |
LD0.SPCLGGIO1.SPCSO8.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O8 |
Output
8 status |
Monitoring\I/O
status\Generic logic\SPCLGGIO1\Outputs |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
OUT |
LD0.SPCLGGIO1.SPCSO9.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O9 |
Output
9 status |
Monitoring\I/O
status\Generic logic\SPCLGGIO1\Outputs |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
OUT |
LD0.SPCLGGIO1.SPCSO10.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O10 |
Output
10 status |
Monitoring\I/O
status\Generic logic\SPCLGGIO1\Outputs |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
OUT |
LD0.SPCLGGIO1.SPCSO11.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O11 |
Output
11 status |
Monitoring\I/O
status\Generic logic\SPCLGGIO1\Outputs |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
OUT |
LD0.SPCLGGIO1.SPCSO12.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O12 |
Output
12 status |
Monitoring\I/O
status\Generic logic\SPCLGGIO1\Outputs |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
OUT |
LD0.SPCLGGIO1.SPCSO13.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O13 |
Output
13 status |
Monitoring\I/O
status\Generic logic\SPCLGGIO1\Outputs |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
OUT |
LD0.SPCLGGIO1.SPCSO14.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O14 |
Output
14 status |
Monitoring\I/O
status\Generic logic\SPCLGGIO1\Outputs |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
OUT |
LD0.SPCLGGIO1.SPCSO15.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O15 |
Output
15 status |
Monitoring\I/O
status\Generic logic\SPCLGGIO1\Outputs |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
OUT |
LD0.SPCLGGIO1.SPCSO16.stVal |
SPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
O16 |
Output
16 status |
Monitoring\I/O
status\Generic logic\SPCLGGIO1\Outputs |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CTR |
LD0.SPCLGGIO1.SPCSO1.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
1 |
Trig
output 1 |
Control\SPCLGGIO1 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CTR |
LD0.SPCLGGIO1.SPCSO2.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
2 |
Trig
output 2 |
Control\SPCLGGIO1 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CTR |
LD0.SPCLGGIO1.SPCSO3.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
3 |
Trig
output 3 |
Control\SPCLGGIO1 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CTR |
LD0.SPCLGGIO1.SPCSO4.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
4 |
Trig
output 4 |
Control\SPCLGGIO1 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CTR |
LD0.SPCLGGIO1.SPCSO5.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
5 |
Trig
output 5 |
Control\SPCLGGIO1 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CTR |
LD0.SPCLGGIO1.SPCSO6.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
6 |
Trig
output 6 |
Control\SPCLGGIO1 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CTR |
LD0.SPCLGGIO1.SPCSO7.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
7 |
Trig
output 7 |
Control\SPCLGGIO1 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CTR |
LD0.SPCLGGIO1.SPCSO8.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
8 |
Trig
output 8 |
Control\SPCLGGIO1 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CTR |
LD0.SPCLGGIO1.SPCSO9.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
9 |
Trig
output 9 |
Control\SPCLGGIO1 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CTR |
LD0.SPCLGGIO1.SPCSO10.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
10 |
Trig
output 10 |
Control\SPCLGGIO1 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CTR |
LD0.SPCLGGIO1.SPCSO11.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
11 |
Trig
output 11 |
Control\SPCLGGIO1 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CTR |
LD0.SPCLGGIO1.SPCSO12.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
12 |
Trig
output 12 |
Control\SPCLGGIO1 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CTR |
LD0.SPCLGGIO1.SPCSO13.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
13 |
Trig
output 13 |
Control\SPCLGGIO1 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CTR |
LD0.SPCLGGIO1.SPCSO14.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
14 |
Trig
output 14 |
Control\SPCLGGIO1 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CTR |
LD0.SPCLGGIO1.SPCSO15.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
15 |
Trig
output 15 |
Control\SPCLGGIO1 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CTR |
LD0.SPCLGGIO1.SPCSO16.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIG
16 |
Trig
output 16 |
Control\SPCLGGIO1 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO1.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCLGGIO1\Output 1 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO1.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCLGGIO1\Output 1 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO1.d |
SPC |
VisString255
(64) |
DC |
B |
SPCLGGIO1
Output 1 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCLGGIO1\Output 1 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO2.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCLGGIO1\Output 2 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO2.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCLGGIO1\Output 2 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO2.d |
SPC |
VisString255
(64) |
DC |
B |
SPCLGGIO1
Output 2 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCLGGIO1\Output 2 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO3.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCLGGIO1\Output 3 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO3.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCLGGIO1\Output 3 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO3.d |
SPC |
VisString255
(64) |
DC |
B |
SPCLGGIO1
Output 3 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCLGGIO1\Output 3 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO4.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCLGGIO1\Output 4 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO4.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCLGGIO1\Output 4 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO4.d |
SPC |
VisString255
(64) |
DC |
B |
SPCLGGIO1
Output 4 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCLGGIO1\Output 4 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO5.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCLGGIO1\Output 5 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO5.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCLGGIO1\Output 5 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO5.d |
SPC |
VisString255
(64) |
DC |
B |
SPCLGGIO1
Output 5 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCLGGIO1\Output 5 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO6.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCLGGIO1\Output 6 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO6.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCLGGIO1\Output 6 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO6.d |
SPC |
VisString255
(64) |
DC |
B |
SPCLGGIO1
Output 6 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCLGGIO1\Output 6 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO7.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCLGGIO1\Output 7 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO7.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCLGGIO1\Output 7 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO7.d |
SPC |
VisString255
(64) |
DC |
B |
SPCLGGIO1
Output 7 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCLGGIO1\Output 7 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO8.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCLGGIO1\Output 8 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO8.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCLGGIO1\Output 8 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO8.d |
SPC |
VisString255
(64) |
DC |
B |
SPCLGGIO1
Output 8 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCLGGIO1\Output 8 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO9.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCLGGIO1\Output 9 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO9.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCLGGIO1\Output 9 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO9.d |
SPC |
VisString255
(64) |
DC |
B |
SPCLGGIO1
Output 9 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCLGGIO1\Output 9 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO10.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCLGGIO1\Output 10 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO10.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCLGGIO1\Output 10 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO10.d |
SPC |
VisString255
(64) |
DC |
B |
SPCLGGIO1
Output 10 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCLGGIO1\Output 10 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO11.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCLGGIO1\Output 11 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO11.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCLGGIO1\Output 11 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO11.d |
SPC |
VisString255
(64) |
DC |
B |
SPCLGGIO1
Output 11 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCLGGIO1\Output 11 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO12.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCLGGIO1\Output 12 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO12.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCLGGIO1\Output 12 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO12.d |
SPC |
VisString255
(64) |
DC |
B |
SPCLGGIO1
Output 12 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCLGGIO1\Output 12 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO13.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCLGGIO1\Output 13 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO13.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCLGGIO1\Output 13 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO13.d |
SPC |
VisString255
(64) |
DC |
B |
SPCLGGIO1
Output 13 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCLGGIO1\Output 13 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO14.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCLGGIO1\Output 14 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO14.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCLGGIO1\Output 14 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO14.d |
SPC |
VisString255
(64) |
DC |
B |
SPCLGGIO1
Output 14 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCLGGIO1\Output 14 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO15.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCLGGIO1\Output 15 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO15.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCLGGIO1\Output 15 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO15.d |
SPC |
VisString255
(64) |
DC |
B |
SPCLGGIO1
Output 15 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCLGGIO1\Output 15 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO16.pulseConfig.cmdQual |
SPC |
Enum |
CF |
B,I |
-1 |
Operation
mode |
Operation
mode for generic control point |
0=Pulsed;
1=Toggle; -1=Off |
Configuration\Generic
logic\SPCLGGIO1\Output 16 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO16.pulseConfig.onDur |
SPC |
INT32U |
CF |
B,I |
1000 |
Pulse
length |
Pulse
length for pulsed operation mode |
10...3600000
ms |
Configuration\Generic
logic\SPCLGGIO1\Output 16 |
|||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.SPCSO16.d |
SPC |
VisString255
(64) |
DC |
B |
SPCLGGIO1
Output 16 |
Description |
Generic
control point description |
Configuration\Generic
logic\SPCLGGIO1\Output 16 |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
CFG |
LD0.SPCLGGIO1.LocRemRst.setVal |
SPG |
BOOLEAN |
SP |
B |
0 |
Loc
Rem restriction |
Local
remote switch restriction |
Configuration\Generic
logic\SPCLGGIO1\General |
||||
|
SPCLGGIO1 |
SPCL(1) |
SPCL(1) |
VER |
LD0.SPCLGGIO1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
INP |
LD0.SHFTGAPC1.Rs.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
RESET |
Reset
to output 1 |
Monitoring\I/O
status\Generic logic\SHFTGAPC1\Inputs |
||||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
INP |
LD0.SHFTGAPC1.HldOut.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
HOLD |
Hold
present output |
Monitoring\I/O
status\Generic logic\SHFTGAPC1\Inputs |
||||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
INP |
LD0.SHFTGAPC1.InSht.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
SHIFT |
Shift
Input |
Monitoring\I/O
status\Generic logic\SHFTGAPC1\Inputs |
||||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
OUT |
LD0.SHFTGAPC1.SPCSO1.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O1 |
Status
of output 1 |
Monitoring\I/O
status\Generic logic\SHFTGAPC1\Outputs |
|||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
OUT |
LD0.SHFTGAPC1.SPCSO2.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O2 |
Status
of output 2 |
Monitoring\I/O
status\Generic logic\SHFTGAPC1\Outputs |
|||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
OUT |
LD0.SHFTGAPC1.SPCSO3.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O3 |
Status
of output 3 |
Monitoring\I/O
status\Generic logic\SHFTGAPC1\Outputs |
|||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
OUT |
LD0.SHFTGAPC1.SPCSO4.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O4 |
Status
of output 4 |
Monitoring\I/O
status\Generic logic\SHFTGAPC1\Outputs |
|||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
OUT |
LD0.SHFTGAPC1.SPCSO5.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O5 |
Status
of output 5 |
Monitoring\I/O
status\Generic logic\SHFTGAPC1\Outputs |
|||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
OUT |
LD0.SHFTGAPC1.SPCSO6.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O6 |
Status
of output 6 |
Monitoring\I/O
status\Generic logic\SHFTGAPC1\Outputs |
|||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
OUT |
LD0.SHFTGAPC1.SPCSO7.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O7 |
Status
of output 7 |
Monitoring\I/O
status\Generic logic\SHFTGAPC1\Outputs |
|||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
OUT |
LD0.SHFTGAPC1.SPCSO8.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O8 |
Status
of output 8 |
Monitoring\I/O
status\Generic logic\SHFTGAPC1\Outputs |
|||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
CTR |
LD0.SHFTGAPC1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Generic
logic\SHFTGAPC1\General |
|||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
CTR |
LD0.SHFTGAPC1.Rs.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Reset
of function to out 1) |
||||||||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
CTR |
LD0.SHFTGAPC1.HldOut.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(ignore
shift inp and hold pres out) |
||||||||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
MON |
LD0.SHFTGAPC1.ActOutPos.stVal |
INS |
INT32 |
ST |
B |
ASSRTD_OUT |
Present
output position |
1...8 |
Monitoring\I/O
status\Generic logic\SHFTGAPC1\Monitored data |
||||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
CFG |
LD0.SHFTGAPC1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Generic
logic\SHFTGAPC1\General |
|||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
CFG |
LD0.SHFTGAPC1.SPCSO1.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC1
Status of Output 1 |
Description |
Description
of output 1 |
Configuration\Generic
logic\SHFTGAPC1\Output 1 |
||||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
CFG |
LD0.SHFTGAPC1.SPCSO2.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC1
Status of Output 2 |
Description |
Description
of output 2 |
Configuration\Generic
logic\SHFTGAPC1\Output 2 |
||||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
CFG |
LD0.SHFTGAPC1.SPCSO3.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC1
Status of Output 3 |
Description |
Description
of output 3 |
Configuration\Generic
logic\SHFTGAPC1\Output 3 |
||||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
CFG |
LD0.SHFTGAPC1.SPCSO4.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC1
Status of Output 4 |
Description |
Description
of output 4 |
Configuration\Generic
logic\SHFTGAPC1\Output 4 |
||||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
CFG |
LD0.SHFTGAPC1.SPCSO5.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC1
Status of Output 5 |
Description |
Description
of output 5 |
Configuration\Generic
logic\SHFTGAPC1\Output 5 |
||||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
CFG |
LD0.SHFTGAPC1.SPCSO6.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC1
Status of Output 6 |
Description |
Description
of output 6 |
Configuration\Generic
logic\SHFTGAPC1\Output 6 |
||||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
CFG |
LD0.SHFTGAPC1.SPCSO7.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC1
Status of Output 7 |
Description |
Description
of output 7 |
Configuration\Generic
logic\SHFTGAPC1\Output 7 |
||||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
CFG |
LD0.SHFTGAPC1.SPCSO8.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC1
Status of Output 8 |
Description |
Description
of output 8 |
Configuration\Generic
logic\SHFTGAPC1\Output 8 |
||||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
CFG |
LD0.SHFTGAPC1.SPCSO2Ena.setVal |
SPG |
BOOLEAN |
SP |
B,I |
1 |
Enable |
Allow
output 2 to be asserted |
Configuration\Generic
logic\SHFTGAPC1\Output 2 |
||||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
CFG |
LD0.SHFTGAPC1.SPCSO3Ena.setVal |
SPG |
BOOLEAN |
SP |
B,I |
1 |
Enable |
Allow
output 3 to be asserted |
Configuration\Generic
logic\SHFTGAPC1\Output 3 |
||||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
CFG |
LD0.SHFTGAPC1.SPCSO4Ena.setVal |
SPG |
BOOLEAN |
SP |
B,I |
1 |
Enable |
Allow
output 4 to be asserted |
Configuration\Generic
logic\SHFTGAPC1\Output 4 |
||||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
CFG |
LD0.SHFTGAPC1.SPCSO5Ena.setVal |
SPG |
BOOLEAN |
SP |
B,I |
1 |
Enable |
Allow
output 5 to be asserted |
Configuration\Generic
logic\SHFTGAPC1\Output 5 |
||||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
CFG |
LD0.SHFTGAPC1.SPCSO6Ena.setVal |
SPG |
BOOLEAN |
SP |
B,I |
1 |
Enable |
Allow
output 6 to be asserted |
Configuration\Generic
logic\SHFTGAPC1\Output 6 |
||||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
CFG |
LD0.SHFTGAPC1.SPCSO7Ena.setVal |
SPG |
BOOLEAN |
SP |
B,I |
1 |
Enable |
Allow
output 7 to be asserted |
Configuration\Generic
logic\SHFTGAPC1\Output 7 |
||||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
CFG |
LD0.SHFTGAPC1.SPCSO8Ena.setVal |
SPG |
BOOLEAN |
SP |
B,I |
1 |
Enable |
Allow
output 8 to be asserted |
Configuration\Generic
logic\SHFTGAPC1\Output 8 |
||||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
CFG |
LD0.SHFTGAPC1.HldMod.setVal |
ING |
Enum |
SP |
B,I |
1 |
Hold
mode |
Determine
how outputs affected by HOLD input |
1=Freeze;
2=Disable |
Configuration\Generic
logic\SHFTGAPC1\General |
|||
|
SHFTGAPC1 |
SHFT(1) |
SHFT(1) |
VER |
LD0.SHFTGAPC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
INP |
LD0.SHFTGAPC2.Rs.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
RESET |
Reset
to output 1 |
Monitoring\I/O
status\Generic logic\SHFTGAPC2\Inputs |
||||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
INP |
LD0.SHFTGAPC2.HldOut.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
HOLD |
Hold
present output |
Monitoring\I/O
status\Generic logic\SHFTGAPC2\Inputs |
||||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
INP |
LD0.SHFTGAPC2.InSht.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
SHIFT |
Shift
Input |
Monitoring\I/O
status\Generic logic\SHFTGAPC2\Inputs |
||||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
OUT |
LD0.SHFTGAPC2.SPCSO1.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O1 |
Status
of output 1 |
Monitoring\I/O
status\Generic logic\SHFTGAPC2\Outputs |
|||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
OUT |
LD0.SHFTGAPC2.SPCSO2.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O2 |
Status
of output 2 |
Monitoring\I/O
status\Generic logic\SHFTGAPC2\Outputs |
|||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
OUT |
LD0.SHFTGAPC2.SPCSO3.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O3 |
Status
of output 3 |
Monitoring\I/O
status\Generic logic\SHFTGAPC2\Outputs |
|||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
OUT |
LD0.SHFTGAPC2.SPCSO4.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O4 |
Status
of output 4 |
Monitoring\I/O
status\Generic logic\SHFTGAPC2\Outputs |
|||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
OUT |
LD0.SHFTGAPC2.SPCSO5.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O5 |
Status
of output 5 |
Monitoring\I/O
status\Generic logic\SHFTGAPC2\Outputs |
|||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
OUT |
LD0.SHFTGAPC2.SPCSO6.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O6 |
Status
of output 6 |
Monitoring\I/O
status\Generic logic\SHFTGAPC2\Outputs |
|||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
OUT |
LD0.SHFTGAPC2.SPCSO7.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O7 |
Status
of output 7 |
Monitoring\I/O
status\Generic logic\SHFTGAPC2\Outputs |
|||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
OUT |
LD0.SHFTGAPC2.SPCSO8.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O8 |
Status
of output 8 |
Monitoring\I/O
status\Generic logic\SHFTGAPC2\Outputs |
|||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
CTR |
LD0.SHFTGAPC2.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Generic
logic\SHFTGAPC2\General |
|||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
CTR |
LD0.SHFTGAPC2.Rs.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Reset
of function to out 1) |
||||||||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
CTR |
LD0.SHFTGAPC2.HldOut.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(ignore
shift inp and hold pres out) |
||||||||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
MON |
LD0.SHFTGAPC2.ActOutPos.stVal |
INS |
INT32 |
ST |
B |
ASSRTD_OUT |
Present
output position |
1...8 |
Monitoring\I/O
status\Generic logic\SHFTGAPC2\Monitored data |
||||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
CFG |
LD0.SHFTGAPC2.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Generic
logic\SHFTGAPC2\General |
|||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
CFG |
LD0.SHFTGAPC2.SPCSO1.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC2
Status of Output 1 |
Description |
Description
of output 1 |
Configuration\Generic
logic\SHFTGAPC2\Output 1 |
||||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
CFG |
LD0.SHFTGAPC2.SPCSO2.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC2
Status of Output 2 |
Description |
Description
of output 2 |
Configuration\Generic
logic\SHFTGAPC2\Output 2 |
||||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
CFG |
LD0.SHFTGAPC2.SPCSO3.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC2
Status of Output 3 |
Description |
Description
of output 3 |
Configuration\Generic
logic\SHFTGAPC2\Output 3 |
||||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
CFG |
LD0.SHFTGAPC2.SPCSO4.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC2
Status of Output 4 |
Description |
Description
of output 4 |
Configuration\Generic
logic\SHFTGAPC2\Output 4 |
||||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
CFG |
LD0.SHFTGAPC2.SPCSO5.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC2
Status of Output 5 |
Description |
Description
of output 5 |
Configuration\Generic
logic\SHFTGAPC2\Output 5 |
||||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
CFG |
LD0.SHFTGAPC2.SPCSO6.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC2
Status of Output 6 |
Description |
Description
of output 6 |
Configuration\Generic
logic\SHFTGAPC2\Output 6 |
||||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
CFG |
LD0.SHFTGAPC2.SPCSO7.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC2
Status of Output 7 |
Description |
Description
of output 7 |
Configuration\Generic
logic\SHFTGAPC2\Output 7 |
||||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
CFG |
LD0.SHFTGAPC2.SPCSO8.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC2
Status of Output 8 |
Description |
Description
of output 8 |
Configuration\Generic
logic\SHFTGAPC2\Output 8 |
||||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
CFG |
LD0.SHFTGAPC2.SPCSO2Ena.setVal |
SPG |
BOOLEAN |
SP |
B,I |
1 |
Enable |
Allow
output 2 to be asserted |
Configuration\Generic
logic\SHFTGAPC2\Output 2 |
||||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
CFG |
LD0.SHFTGAPC2.SPCSO3Ena.setVal |
SPG |
BOOLEAN |
SP |
B,I |
1 |
Enable |
Allow
output 3 to be asserted |
Configuration\Generic
logic\SHFTGAPC2\Output 3 |
||||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
CFG |
LD0.SHFTGAPC2.SPCSO4Ena.setVal |
SPG |
BOOLEAN |
SP |
B,I |
1 |
Enable |
Allow
output 4 to be asserted |
Configuration\Generic
logic\SHFTGAPC2\Output 4 |
||||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
CFG |
LD0.SHFTGAPC2.SPCSO5Ena.setVal |
SPG |
BOOLEAN |
SP |
B,I |
1 |
Enable |
Allow
output 5 to be asserted |
Configuration\Generic
logic\SHFTGAPC2\Output 5 |
||||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
CFG |
LD0.SHFTGAPC2.SPCSO6Ena.setVal |
SPG |
BOOLEAN |
SP |
B,I |
1 |
Enable |
Allow
output 6 to be asserted |
Configuration\Generic
logic\SHFTGAPC2\Output 6 |
||||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
CFG |
LD0.SHFTGAPC2.SPCSO7Ena.setVal |
SPG |
BOOLEAN |
SP |
B,I |
1 |
Enable |
Allow
output 7 to be asserted |
Configuration\Generic
logic\SHFTGAPC2\Output 7 |
||||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
CFG |
LD0.SHFTGAPC2.SPCSO8Ena.setVal |
SPG |
BOOLEAN |
SP |
B,I |
1 |
Enable |
Allow
output 8 to be asserted |
Configuration\Generic
logic\SHFTGAPC2\Output 8 |
||||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
CFG |
LD0.SHFTGAPC2.HldMod.setVal |
ING |
Enum |
SP |
B,I |
1 |
Hold
mode |
Determine
how outputs affected by HOLD input |
1=Freeze;
2=Disable |
Configuration\Generic
logic\SHFTGAPC2\General |
|||
|
SHFTGAPC2 |
SHFT(2) |
SHFT(2) |
VER |
LD0.SHFTGAPC2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
INP |
LD0.SHFTGAPC3.Rs.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
RESET |
Reset
to output 1 |
Monitoring\I/O
status\Generic logic\SHFTGAPC3\Inputs |
||||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
INP |
LD0.SHFTGAPC3.HldOut.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
HOLD |
Hold
present output |
Monitoring\I/O
status\Generic logic\SHFTGAPC3\Inputs |
||||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
INP |
LD0.SHFTGAPC3.InSht.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
SHIFT |
Shift
Input |
Monitoring\I/O
status\Generic logic\SHFTGAPC3\Inputs |
||||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
OUT |
LD0.SHFTGAPC3.SPCSO1.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O1 |
Status
of output 1 |
Monitoring\I/O
status\Generic logic\SHFTGAPC3\Outputs |
|||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
OUT |
LD0.SHFTGAPC3.SPCSO2.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O2 |
Status
of output 2 |
Monitoring\I/O
status\Generic logic\SHFTGAPC3\Outputs |
|||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
OUT |
LD0.SHFTGAPC3.SPCSO3.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O3 |
Status
of output 3 |
Monitoring\I/O
status\Generic logic\SHFTGAPC3\Outputs |
|||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
OUT |
LD0.SHFTGAPC3.SPCSO4.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O4 |
Status
of output 4 |
Monitoring\I/O
status\Generic logic\SHFTGAPC3\Outputs |
|||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
OUT |
LD0.SHFTGAPC3.SPCSO5.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O5 |
Status
of output 5 |
Monitoring\I/O
status\Generic logic\SHFTGAPC3\Outputs |
|||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
OUT |
LD0.SHFTGAPC3.SPCSO6.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O6 |
Status
of output 6 |
Monitoring\I/O
status\Generic logic\SHFTGAPC3\Outputs |
|||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
OUT |
LD0.SHFTGAPC3.SPCSO7.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O7 |
Status
of output 7 |
Monitoring\I/O
status\Generic logic\SHFTGAPC3\Outputs |
|||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
OUT |
LD0.SHFTGAPC3.SPCSO8.stVal |
SPC |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
O8 |
Status
of output 8 |
Monitoring\I/O
status\Generic logic\SHFTGAPC3\Outputs |
|||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
CTR |
LD0.SHFTGAPC3.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Generic
logic\SHFTGAPC3\General |
|||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
CTR |
LD0.SHFTGAPC3.Rs.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Reset
of function to out 1) |
||||||||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
CTR |
LD0.SHFTGAPC3.HldOut.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(ignore
shift inp and hold pres out) |
||||||||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
MON |
LD0.SHFTGAPC3.ActOutPos.stVal |
INS |
INT32 |
ST |
B |
ASSRTD_OUT |
Present
output position |
1...8 |
Monitoring\I/O
status\Generic logic\SHFTGAPC3\Monitored data |
||||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
CFG |
LD0.SHFTGAPC3.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Generic
logic\SHFTGAPC3\General |
|||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
CFG |
LD0.SHFTGAPC3.SPCSO1.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC3
Status of Output 1 |
Description |
Description
of output 1 |
Configuration\Generic
logic\SHFTGAPC3\Output 1 |
||||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
CFG |
LD0.SHFTGAPC3.SPCSO2.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC3
Status of Output 2 |
Description |
Description
of output 2 |
Configuration\Generic
logic\SHFTGAPC3\Output 2 |
||||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
CFG |
LD0.SHFTGAPC3.SPCSO3.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC3
Status of Output 3 |
Description |
Description
of output 3 |
Configuration\Generic
logic\SHFTGAPC3\Output 3 |
||||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
CFG |
LD0.SHFTGAPC3.SPCSO4.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC3
Status of Output 4 |
Description |
Description
of output 4 |
Configuration\Generic
logic\SHFTGAPC3\Output 4 |
||||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
CFG |
LD0.SHFTGAPC3.SPCSO5.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC3
Status of Output 5 |
Description |
Description
of output 5 |
Configuration\Generic
logic\SHFTGAPC3\Output 5 |
||||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
CFG |
LD0.SHFTGAPC3.SPCSO6.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC3
Status of Output 6 |
Description |
Description
of output 6 |
Configuration\Generic
logic\SHFTGAPC3\Output 6 |
||||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
CFG |
LD0.SHFTGAPC3.SPCSO7.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC3
Status of Output 7 |
Description |
Description
of output 7 |
Configuration\Generic
logic\SHFTGAPC3\Output 7 |
||||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
CFG |
LD0.SHFTGAPC3.SPCSO8.d |
SPC |
VisString255
(64) |
DC |
B |
SHFTGAPC3
Status of Output 8 |
Description |
Description
of output 8 |
Configuration\Generic
logic\SHFTGAPC3\Output 8 |
||||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
CFG |
LD0.SHFTGAPC3.SPCSO2Ena.setVal |
SPG |
BOOLEAN |
SP |
B,I |
1 |
Enable |
Allow
output 2 to be asserted |
Configuration\Generic
logic\SHFTGAPC3\Output 2 |
||||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
CFG |
LD0.SHFTGAPC3.SPCSO3Ena.setVal |
SPG |
BOOLEAN |
SP |
B,I |
1 |
Enable |
Allow
output 3 to be asserted |
Configuration\Generic
logic\SHFTGAPC3\Output 3 |
||||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
CFG |
LD0.SHFTGAPC3.SPCSO4Ena.setVal |
SPG |
BOOLEAN |
SP |
B,I |
1 |
Enable |
Allow
output 4 to be asserted |
Configuration\Generic
logic\SHFTGAPC3\Output 4 |
||||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
CFG |
LD0.SHFTGAPC3.SPCSO5Ena.setVal |
SPG |
BOOLEAN |
SP |
B,I |
1 |
Enable |
Allow
output 5 to be asserted |
Configuration\Generic
logic\SHFTGAPC3\Output 5 |
||||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
CFG |
LD0.SHFTGAPC3.SPCSO6Ena.setVal |
SPG |
BOOLEAN |
SP |
B,I |
1 |
Enable |
Allow
output 6 to be asserted |
Configuration\Generic
logic\SHFTGAPC3\Output 6 |
||||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
CFG |
LD0.SHFTGAPC3.SPCSO7Ena.setVal |
SPG |
BOOLEAN |
SP |
B,I |
1 |
Enable |
Allow
output 7 to be asserted |
Configuration\Generic
logic\SHFTGAPC3\Output 7 |
||||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
CFG |
LD0.SHFTGAPC3.SPCSO8Ena.setVal |
SPG |
BOOLEAN |
SP |
B,I |
1 |
Enable |
Allow
output 8 to be asserted |
Configuration\Generic
logic\SHFTGAPC3\Output 8 |
||||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
CFG |
LD0.SHFTGAPC3.HldMod.setVal |
ING |
Enum |
SP |
B,I |
1 |
Hold
mode |
Determine
how outputs affected by HOLD input |
1=Freeze;
2=Disable |
Configuration\Generic
logic\SHFTGAPC3\General |
|||
|
SHFTGAPC3 |
SHFT(3) |
SHFT(3) |
VER |
LD0.SHFTGAPC3.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
INP |
LD0.FKEYGGIO1.SPCSO1.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
L1 |
LED
1 |
Monitoring\Function
keys\LED status |
||||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
INP |
LD0.FKEYGGIO1.SPCSO2.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
L2 |
LED
2 |
Monitoring\Function
keys\LED status |
||||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
INP |
LD0.FKEYGGIO1.SPCSO3.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
L3 |
LED
3 |
Monitoring\Function
keys\LED status |
||||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
INP |
LD0.FKEYGGIO1.SPCSO4.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
L4 |
LED
4 |
Monitoring\Function
keys\LED status |
||||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
INP |
LD0.FKEYGGIO1.SPCSO5.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
L5 |
LED
5 |
Monitoring\Function
keys\LED status |
||||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
INP |
LD0.FKEYGGIO1.SPCSO6.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
L6 |
LED
6 |
Monitoring\Function
keys\LED status |
||||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
INP |
LD0.FKEYGGIO1.SPCSO7.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
L7 |
LED
7 |
Monitoring\Function
keys\LED status |
||||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
INP |
LD0.FKEYGGIO1.SPCSO8.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
L8 |
LED
8 |
Monitoring\Function
keys\LED status |
||||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
INP |
LD0.FKEYGGIO1.SPCSO9.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
L9 |
LED
9 |
Monitoring\Function
keys\LED status |
||||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
INP |
LD0.FKEYGGIO1.SPCSO10.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
L10 |
LED
10 |
Monitoring\Function
keys\LED status |
||||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
INP |
LD0.FKEYGGIO1.SPCSO11.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
L11 |
LED
11 |
Monitoring\Function
keys\LED status |
||||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
INP |
LD0.FKEYGGIO1.SPCSO12.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
L12 |
LED
12 |
Monitoring\Function
keys\LED status |
||||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
INP |
LD0.FKEYGGIO1.SPCSO13.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
L13 |
LED
13 |
Monitoring\Function
keys\LED status |
||||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
INP |
LD0.FKEYGGIO1.SPCSO14.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
L14 |
LED
14 |
Monitoring\Function
keys\LED status |
||||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
INP |
LD0.FKEYGGIO1.SPCSO15.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
L15 |
LED
15 |
Monitoring\Function
keys\LED status |
||||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
INP |
LD0.FKEYGGIO1.SPCSO16.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
L16 |
LED
16 |
Monitoring\Function
keys\LED status |
||||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
OUT |
LD0.FKEYGGIO1.Ind1.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
K1 |
KEY
1 |
Monitoring\Function
keys\KEY status |
|||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
OUT |
LD0.FKEYGGIO1.Ind2.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
K2 |
KEY
2 |
Monitoring\Function
keys\KEY status |
|||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
OUT |
LD0.FKEYGGIO1.Ind3.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
K3 |
KEY
3 |
Monitoring\Function
keys\KEY status |
|||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
OUT |
LD0.FKEYGGIO1.Ind4.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
K4 |
KEY
4 |
Monitoring\Function
keys\KEY status |
|||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
OUT |
LD0.FKEYGGIO1.Ind5.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
K5 |
KEY
5 |
Monitoring\Function
keys\KEY status |
|||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
OUT |
LD0.FKEYGGIO1.Ind6.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
K6 |
KEY
6 |
Monitoring\Function
keys\KEY status |
|||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
OUT |
LD0.FKEYGGIO1.Ind7.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
K7 |
KEY
7 |
Monitoring\Function
keys\KEY status |
|||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
OUT |
LD0.FKEYGGIO1.Ind8.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
K8 |
KEY
8 |
Monitoring\Function
keys\KEY status |
|||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
OUT |
LD0.FKEYGGIO1.Ind9.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
K9 |
KEY
9 |
Monitoring\Function
keys\KEY status |
|||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
OUT |
LD0.FKEYGGIO1.Ind10.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
K10 |
KEY
10 |
Monitoring\Function
keys\KEY status |
|||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
OUT |
LD0.FKEYGGIO1.Ind11.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
K11 |
KEY
11 |
Monitoring\Function
keys\KEY status |
|||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
OUT |
LD0.FKEYGGIO1.Ind12.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
K12 |
KEY
12 |
Monitoring\Function
keys\KEY status |
|||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
OUT |
LD0.FKEYGGIO1.Ind13.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
K13 |
KEY
13 |
Monitoring\Function
keys\KEY status |
|||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
OUT |
LD0.FKEYGGIO1.Ind14.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
K14 |
KEY
14 |
Monitoring\Function
keys\KEY status |
|||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
OUT |
LD0.FKEYGGIO1.Ind15.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
K15 |
KEY
15 |
Monitoring\Function
keys\KEY status |
|||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
OUT |
LD0.FKEYGGIO1.Ind16.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
K16 |
KEY
16 |
Monitoring\Function
keys\KEY status |
|||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
CTR |
LD0.FKEYGGIO1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
I |
(Mode) |
|||||||
|
FKEYGGIO1 |
FKEY |
(FKEYGGIO1) |
VER |
LD0.FKEYGGIO1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
UDFCNT1 |
CTR(1) |
UDFCNT1 |
INP |
LD0.UDFCNT1.InUpCnt.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
UP_CNT |
Input
for up counting |
Monitoring\I/O
status\Generic logic\UDFCNT1\Inputs |
||||
|
UDFCNT1 |
CTR(1) |
UDFCNT1 |
INP |
LD0.UDFCNT1.InDnCnt.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
DOWN_CNT |
Input
for down counting |
Monitoring\I/O
status\Generic logic\UDFCNT1\Inputs |
||||
|
UDFCNT1 |
CTR(1) |
UDFCNT1 |
INP |
LD0.UDFCNT1.RsCnt.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
RESET |
Reset
input for counter |
Monitoring\I/O
status\Generic logic\UDFCNT1\Inputs |
||||
|
UDFCNT1 |
CTR(1) |
UDFCNT1 |
INP |
LD0.UDFCNT1.LodCnt.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
LOAD |
Load
input for counter |
Monitoring\I/O
status\Generic logic\UDFCNT1\Inputs |
||||
|
UDFCNT1 |
CTR(1) |
UDFCNT1 |
OUT |
LD0.UDFCNT1.UpCntSt.stVal |
SPS |
BOOLEAN |
ST |
B |
UPCNT_STS |
Status
of the up counting |
Monitoring\I/O
status\Generic logic\UDFCNT1\Outputs |
|||||
|
UDFCNT1 |
CTR(1) |
UDFCNT1 |
OUT |
LD0.UDFCNT1.DnCntSt.stVal |
SPS |
BOOLEAN |
ST |
B |
DNCNT_STS |
Status
of the down counting |
Monitoring\I/O
status\Generic logic\UDFCNT1\Outputs |
|||||
|
UDFCNT1 |
CTR(1) |
UDFCNT1 |
CTR |
LD0.UDFCNT1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Generic
logic\UDFCNT1 |
|||
|
UDFCNT1 |
CTR(1) |
UDFCNT1 |
CTR |
LD0.UDFCNT1.RsCnt.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
counter |
Resets
counter value |
0=Cancel;
1=Reset |
Configuration\Generic
logic\UDFCNT1 |
|||
|
UDFCNT1 |
CTR(1) |
UDFCNT1 |
CTR |
LD0.UDFCNT1.LodCnt.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Load
counter |
Loads
the counter to preset value |
0=Cancel;
1=Load |
Configuration\Generic
logic\UDFCNT1 |
|||
|
UDFCNT1 |
CTR(1) |
UDFCNT1 |
MON |
LD0.UDFCNT1.CntRs.actVal |
BCR |
INT128 |
ST |
B |
CNT_VAL |
Output
counter value |
0...2147483647 |
Monitoring\I/O
status\Generic logic\UDFCNT1\Monitored data |
||||
|
UDFCNT1 |
CTR(1) |
UDFCNT1 |
CFG |
LD0.UDFCNT1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Generic
logic\UDFCNT1 |
|||
|
UDFCNT1 |
CTR(1) |
UDFCNT1 |
CFG |
LD0.UDFCNT1.CntLodVal.setVal |
ING |
INT32 |
SP |
B |
10000 |
Counter
load value |
Preset
counter value |
0...2147483647 |
Configuration\Generic
logic\UDFCNT1 |
|||
|
UDFCNT1 |
CTR(1) |
UDFCNT1 |
CFG |
LD0.UDFCNT1.RsCnt.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
counter |
Resets
counter value |
0=Cancel;
1=Reset |
Configuration\Generic
logic\UDFCNT1 |
|||
|
UDFCNT1 |
CTR(1) |
UDFCNT1 |
CFG |
LD0.UDFCNT1.LodCnt.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Load
counter |
Loads
the counter to preset value |
0=Cancel;
1=Load |
Configuration\Generic
logic\UDFCNT1 |
|||
|
UDFCNT1 |
CTR(1) |
UDFCNT1 |
VER |
LD0.UDFCNT1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
UDFCNT2 |
CTR(2) |
UDFCNT2 |
INP |
LD0.UDFCNT2.InUpCnt.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
UP_CNT |
Input
for up counting |
Monitoring\I/O
status\Generic logic\UDFCNT2\Inputs |
||||
|
UDFCNT2 |
CTR(2) |
UDFCNT2 |
INP |
LD0.UDFCNT2.InDnCnt.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
DOWN_CNT |
Input
for down counting |
Monitoring\I/O
status\Generic logic\UDFCNT2\Inputs |
||||
|
UDFCNT2 |
CTR(2) |
UDFCNT2 |
INP |
LD0.UDFCNT2.RsCnt.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
RESET |
Reset
input for counter |
Monitoring\I/O
status\Generic logic\UDFCNT2\Inputs |
||||
|
UDFCNT2 |
CTR(2) |
UDFCNT2 |
INP |
LD0.UDFCNT2.LodCnt.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
LOAD |
Load
input for counter |
Monitoring\I/O
status\Generic logic\UDFCNT2\Inputs |
||||
|
UDFCNT2 |
CTR(2) |
UDFCNT2 |
OUT |
LD0.UDFCNT2.UpCntSt.stVal |
SPS |
BOOLEAN |
ST |
B |
UPCNT_STS |
Status
of the up counting |
Monitoring\I/O
status\Generic logic\UDFCNT2\Outputs |
|||||
|
UDFCNT2 |
CTR(2) |
UDFCNT2 |
OUT |
LD0.UDFCNT2.DnCntSt.stVal |
SPS |
BOOLEAN |
ST |
B |
DNCNT_STS |
Status
of the down counting |
Monitoring\I/O
status\Generic logic\UDFCNT2\Outputs |
|||||
|
UDFCNT2 |
CTR(2) |
UDFCNT2 |
CTR |
LD0.UDFCNT2.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Generic
logic\UDFCNT2 |
|||
|
UDFCNT2 |
CTR(2) |
UDFCNT2 |
CTR |
LD0.UDFCNT2.RsCnt.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
counter |
Resets
counter value |
0=Cancel;
1=Reset |
Configuration\Generic
logic\UDFCNT2 |
|||
|
UDFCNT2 |
CTR(2) |
UDFCNT2 |
CTR |
LD0.UDFCNT2.LodCnt.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Load
counter |
Loads
the counter to preset value |
0=Cancel;
1=Load |
Configuration\Generic
logic\UDFCNT2 |
|||
|
UDFCNT2 |
CTR(2) |
UDFCNT2 |
MON |
LD0.UDFCNT2.CntRs.actVal |
BCR |
INT128 |
ST |
B |
CNT_VAL |
Output
counter value |
0...2147483647 |
Monitoring\I/O
status\Generic logic\UDFCNT2\Monitored data |
||||
|
UDFCNT2 |
CTR(2) |
UDFCNT2 |
CFG |
LD0.UDFCNT2.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Generic
logic\UDFCNT2 |
|||
|
UDFCNT2 |
CTR(2) |
UDFCNT2 |
CFG |
LD0.UDFCNT2.CntLodVal.setVal |
ING |
INT32 |
SP |
B |
10000 |
Counter
load value |
Preset
counter value |
0...2147483647 |
Configuration\Generic
logic\UDFCNT2 |
|||
|
UDFCNT2 |
CTR(2) |
UDFCNT2 |
CFG |
LD0.UDFCNT2.RsCnt.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
counter |
Resets
counter value |
0=Cancel;
1=Reset |
Configuration\Generic
logic\UDFCNT2 |
|||
|
UDFCNT2 |
CTR(2) |
UDFCNT2 |
CFG |
LD0.UDFCNT2.LodCnt.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Load
counter |
Loads
the counter to preset value |
0=Cancel;
1=Load |
Configuration\Generic
logic\UDFCNT2 |
|||
|
UDFCNT2 |
CTR(2) |
UDFCNT2 |
VER |
LD0.UDFCNT2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
INP |
LD0.XUGGIO110.SPCSO1.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatIO |
P |
OUT1 |
Connectors
27c-28no-28nc |
Monitoring\I/O
status\Binary output values\X110 (BIO) |
||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
INP |
LD0.XUGGIO110.SPCSO2.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatIO |
P |
OUT2 |
Connectors
25c-26no-26nc |
Monitoring\I/O
status\Binary output values\X110 (BIO) |
||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
OUT |
LD0.XUGGIO110.Ind1.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
Input
1 |
Connectors
4-3c |
Monitoring\I/O
status\Binary input values\X110 (BIO) |
|||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
OUT |
LD0.XUGGIO110.Ind2.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
Input
2 |
Connectors
5-3c |
Monitoring\I/O
status\Binary input values\X110 (BIO) |
|||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
OUT |
LD0.XUGGIO110.Ind3.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
Input
3 |
Connectors
6-3c |
Monitoring\I/O
status\Binary input values\X110 (BIO) |
|||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
OUT |
LD0.XUGGIO110.Ind4.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
Input
4 |
Connectors
7-3c |
Monitoring\I/O
status\Binary input values\X110 (BIO) |
|||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
OUT |
LD0.XUGGIO110.Ind5.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
Input
5 |
Connectors
8-3c |
Monitoring\I/O
status\Binary input values\X110 (BIO) |
|||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
OUT |
LD0.XUGGIO110.Ind6.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
Input
6 |
Connectors
9-3c |
Monitoring\I/O
status\Binary input values\X110 (BIO) |
|||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
OUT |
LD0.XUGGIO110.Ind7.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
Input
7 |
Connectors
10-11c |
Monitoring\I/O
status\Binary input values\X110 (BIO) |
|||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
OUT |
LD0.XUGGIO110.Ind8.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
Input
8 |
Connectors
12-13c |
Monitoring\I/O
status\Binary input values\X110 (BIO) |
|||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
CTR |
LD0.XUGGIO110.Mod.Oper.ctlVal |
INC |
Enum |
CO |
I |
(Mode) |
|||||||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
CFG |
LD0.XUGGIO110.OpDlTmms1.setVal |
ING |
INT32 |
SP |
B,I |
5 |
Input
1 filter time |
Connectors
4-3c |
5...1000
ms |
Configuration\I/O
modules\X110 (BIO)\Input filtering |
|||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
CFG |
LD0.XUGGIO110.OpDlTmms2.setVal |
ING |
INT32 |
SP |
B,I |
5 |
Input
2 filter time |
Connectors
5-3c |
5...1000
ms |
Configuration\I/O
modules\X110 (BIO)\Input filtering |
|||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
CFG |
LD0.XUGGIO110.OpDlTmms3.setVal |
ING |
INT32 |
SP |
B,I |
5 |
Input
3 filter time |
Connectors
6-3c |
5...1000
ms |
Configuration\I/O
modules\X110 (BIO)\Input filtering |
|||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
CFG |
LD0.XUGGIO110.OpDlTmms4.setVal |
ING |
INT32 |
SP |
B,I |
5 |
Input
4 filter time |
Connectors
7-3c |
5...1000
ms |
Configuration\I/O
modules\X110 (BIO)\Input filtering |
|||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
CFG |
LD0.XUGGIO110.OpDlTmms5.setVal |
ING |
INT32 |
SP |
B,I |
5 |
Input
5 filter time |
Connectors
8-3c |
5...1000
ms |
Configuration\I/O
modules\X110 (BIO)\Input filtering |
|||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
CFG |
LD0.XUGGIO110.OpDlTmms6.setVal |
ING |
INT32 |
SP |
B,I |
5 |
Input
6 filter time |
Connectors
9-3c |
5...1000
ms |
Configuration\I/O
modules\X110 (BIO)\Input filtering |
|||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
CFG |
LD0.XUGGIO110.OpDlTmms7.setVal |
ING |
INT32 |
SP |
B,I |
5 |
Input
7 filter time |
Connectors
10-11c |
5...1000
ms |
Configuration\I/O
modules\X110 (BIO)\Input filtering |
|||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
CFG |
LD0.XUGGIO110.OpDlTmms8.setVal |
ING |
INT32 |
SP |
B,I |
5 |
Input
8 filter time |
Connectors
12-13c |
5...1000
ms |
Configuration\I/O
modules\X110 (BIO)\Input filtering |
|||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
CFG |
LD0.XUGGIO110.DiInvert1.setVal |
SPG |
BOOLEAN |
SP |
B,I |
0 |
Input
1 inversion |
Connectors
4-3c |
Configuration\I/O
modules\X110 (BIO)\Input inversion |
||||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
CFG |
LD0.XUGGIO110.DiInvert2.setVal |
SPG |
BOOLEAN |
SP |
B,I |
0 |
Input
2 inversion |
Connectors
5-3c |
Configuration\I/O
modules\X110 (BIO)\Input inversion |
||||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
CFG |
LD0.XUGGIO110.DiInvert3.setVal |
SPG |
BOOLEAN |
SP |
B,I |
0 |
Input
3 inversion |
Connectors
6-3c |
Configuration\I/O
modules\X110 (BIO)\Input inversion |
||||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
CFG |
LD0.XUGGIO110.DiInvert4.setVal |
SPG |
BOOLEAN |
SP |
B,I |
0 |
Input
4 inversion |
Connectors
7-3c |
Configuration\I/O
modules\X110 (BIO)\Input inversion |
||||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
CFG |
LD0.XUGGIO110.DiInvert5.setVal |
SPG |
BOOLEAN |
SP |
B,I |
0 |
Input
5 inversion |
Connectors
8-3c |
Configuration\I/O
modules\X110 (BIO)\Input inversion |
||||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
CFG |
LD0.XUGGIO110.DiInvert6.setVal |
SPG |
BOOLEAN |
SP |
B,I |
0 |
Input
6 inversion |
Connectors
9-3c |
Configuration\I/O
modules\X110 (BIO)\Input inversion |
||||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
CFG |
LD0.XUGGIO110.DiInvert7.setVal |
SPG |
BOOLEAN |
SP |
B,I |
0 |
Input
7 inversion |
Connectors
10-11c |
Configuration\I/O
modules\X110 (BIO)\Input inversion |
||||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
CFG |
LD0.XUGGIO110.DiInvert8.setVal |
SPG |
BOOLEAN |
SP |
B,I |
0 |
Input
8 inversion |
Connectors
12-13c |
Configuration\I/O
modules\X110 (BIO)\Input inversion |
||||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
TES |
LD0.XUGGIO110.SPCSO1.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
OUT1 |
Connectors
27c-28no-28nc |
Tests\Binary
outputs\X110 (BIO) |
||||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
TES |
LD0.XUGGIO110.SPCSO2.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
OUT2 |
Connectors
25c-26no-26nc |
Tests\Binary
outputs\X110 (BIO) |
||||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
INF |
LD0.XUGGIO110.EEName.hwRev |
DPL |
VisString255
(20) |
DC |
B |
0 |
HW
revision |
Card
HW revision |
Information\HW
modules\X110 (BIO) |
||||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
INF |
LD0.XUGGIO110.EEName.serNum |
DPL |
VisString255
(20) |
DC |
B |
0 |
Serial
number |
Card
serial number |
Information\HW
modules\X110 (BIO) |
||||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
INF |
LD0.XUGGIO110.EEName.eArtNum |
DPL |
VisString255
(20) |
EX |
B |
0 |
Article
number |
Card
article number |
Information\HW
modules\X110 (BIO) |
||||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
INF |
LD0.XUGGIO110.EEName.eManDate |
DPL |
VisString255
(20) |
EX |
B |
0 |
Manufacturing
date |
Card
manufacturing date |
Information\HW
modules\X110 (BIO) |
||||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
INF |
LD0.XUGGIO110.EEName.eTestDate |
DPL |
VisString255
(20) |
EX |
B |
0 |
Test
date |
Card
test date |
Information\HW
modules\X110 (BIO) |
||||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
VER |
LD0.XUGGIO110.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
X110
(BIO) |
X110
(BIO) |
X110
(BIO) |
VER |
LD0.XUGGIO110.EEName.swRev |
DPL |
VisString255
(20) |
DC |
- |
(Card
information) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
INP |
LD0.XUGGIO100.SPCSO1.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatIO |
P |
TRIP |
Connectors
29c-30nc-30no |
Monitoring\I/O
status\Binary output values\X100 (PSM) |
||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
INP |
LD0.XUGGIO100.SPCSO3.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatIO |
P |
OUT3 |
Connectors
23-24 |
Monitoring\I/O
status\Binary output values\X100 (PSM) |
||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
INP |
LD0.XUGGIO100.SPCSO4.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatIO |
P |
OUT4 |
Connectors
21-22 |
Monitoring\I/O
status\Binary output values\X100 (PSM) |
||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
INP |
LD0.XUGGIO100.SPCSO5.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatIO |
P |
OUT5 |
Connectors
19-20 |
Monitoring\I/O
status\Binary output values\X100 (PSM) |
||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
INP |
LD0.XUGGIO100.SPCSO6.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatIO |
P |
OUT6 |
Connectors
17-18 |
Monitoring\I/O
status\Binary output values\X100 (PSM) |
||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
CTR |
LD0.XUGGIO100.Mod.Oper.ctlVal |
INC |
Enum |
CO |
I |
(Mode) |
|||||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
TES |
LD0.XUGGIO100.SPCSO1.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIP |
Connectors
29c-30nc-30no |
Tests\Binary
outputs\X100 (PSM) |
||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
TES |
LD0.XUGGIO100.SPCSO3.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
OUT3 |
Connectors
23-24 |
Tests\Binary
outputs\X100 (PSM) |
||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
TES |
LD0.XUGGIO100.SPCSO4.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
OUT4 |
Connectors
21-22 |
Tests\Binary
outputs\X100 (PSM) |
||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
TES |
LD0.XUGGIO100.SPCSO5.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
OUT5 |
Connectors
19-20 |
Tests\Binary
outputs\X100 (PSM) |
||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
TES |
LD0.XUGGIO100.SPCSO6.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
OUT6 |
Connectors
17-18 |
Tests\Binary
outputs\X100 (PSM) |
||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
INF |
LD0.XUGGIO100.EEName.hwRev |
DPL |
VisString255
(20) |
DC |
B |
0 |
HW
revision |
Card
HW revision |
Information\HW
modules\X100 (PSM) |
||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
INF |
LD0.XUGGIO100.EEName.serNum |
DPL |
VisString255
(20) |
DC |
B |
0 |
Serial
number |
Card
serial number |
Information\HW
modules\X100 (PSM) |
||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
INF |
LD0.XUGGIO100.EEName.eArtNum |
DPL |
VisString255
(20) |
EX |
B |
0 |
Article
number |
Card
article number |
Information\HW
modules\X100 (PSM) |
||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
INF |
LD0.XUGGIO100.EEName.eManDate |
DPL |
VisString255
(20) |
EX |
B |
0 |
Manufacturing
date |
Card
manufacturing date |
Information\HW
modules\X100 (PSM) |
||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
INF |
LD0.XUGGIO100.EEName.eTestDate |
DPL |
VisString255
(20) |
EX |
B |
0 |
Test
date |
Card
test date |
Information\HW
modules\X100 (PSM) |
||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
VER |
LD0.XUGGIO100.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
VER |
LD0.XUGGIO100.EEName.swRev |
DPL |
VisString255
(20) |
DC |
- |
(Card
information) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
INP |
LD0.XBUGGIO110.SPCSO4.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatIO |
P |
OUT4 |
Connectors
21-22 |
Monitoring\I/O
status\Binary output values\X110 (BIO-H) |
||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
INP |
LD0.XBUGGIO110.SPCSO5.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatIO |
P |
OUT5 |
Connectors
19-20 |
Monitoring\I/O
status\Binary output values\X110 (BIO-H) |
||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
INP |
LD0.XBUGGIO110.SPCSO6.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatIO |
P |
OUT6 |
Connectors
17-18 |
Monitoring\I/O
status\Binary output values\X110 (BIO-H) |
||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
OUT |
LD0.XBUGGIO110.Ind1.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
Input
1 |
Connectors
4-3c |
Monitoring\I/O
status\Binary input values\X110 (BIO-H) |
|||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
OUT |
LD0.XBUGGIO110.Ind2.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
Input
2 |
Connectors
5-3c |
Monitoring\I/O
status\Binary input values\X110 (BIO-H) |
|||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
OUT |
LD0.XBUGGIO110.Ind3.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
Input
3 |
Connectors
6-3c |
Monitoring\I/O
status\Binary input values\X110 (BIO-H) |
|||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
OUT |
LD0.XBUGGIO110.Ind4.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
Input
4 |
Connectors
7-3c |
Monitoring\I/O
status\Binary input values\X110 (BIO-H) |
|||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
OUT |
LD0.XBUGGIO110.Ind5.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
Input
5 |
Connectors
8-3c |
Monitoring\I/O
status\Binary input values\X110 (BIO-H) |
|||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
OUT |
LD0.XBUGGIO110.Ind6.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
Input
6 |
Connectors
9-3c |
Monitoring\I/O
status\Binary input values\X110 (BIO-H) |
|||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
OUT |
LD0.XBUGGIO110.Ind7.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
Input
7 |
Connectors
10-3c |
Monitoring\I/O
status\Binary input values\X110 (BIO-H) |
|||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
OUT |
LD0.XBUGGIO110.Ind8.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIO |
P |
Input
8 |
Connectors
12-3c |
Monitoring\I/O
status\Binary input values\X110 (BIO-H) |
|||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
CTR |
LD0.XBUGGIO110.Mod.Oper.ctlVal |
INC |
Enum |
CO |
I |
(Mode) |
|||||||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
CFG |
LD0.XBUGGIO110.OpDlTmms1.setVal |
ING |
INT32 |
SP |
B,I |
5 |
Input
1 filter time |
Connectors
4-3c |
5...1000
ms |
Configuration\I/O
modules\X110 (BIO-H)\Input filtering |
|||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
CFG |
LD0.XBUGGIO110.OpDlTmms2.setVal |
ING |
INT32 |
SP |
B,I |
5 |
Input
2 filter time |
Connectors
5-3c |
5...1000
ms |
Configuration\I/O
modules\X110 (BIO-H)\Input filtering |
|||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
CFG |
LD0.XBUGGIO110.OpDlTmms3.setVal |
ING |
INT32 |
SP |
B,I |
5 |
Input
3 filter time |
Connectors
6-3c |
5...1000
ms |
Configuration\I/O
modules\X110 (BIO-H)\Input filtering |
|||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
CFG |
LD0.XBUGGIO110.OpDlTmms4.setVal |
ING |
INT32 |
SP |
B,I |
5 |
Input
4 filter time |
Connectors
7-3c |
5...1000
ms |
Configuration\I/O
modules\X110 (BIO-H)\Input filtering |
|||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
CFG |
LD0.XBUGGIO110.OpDlTmms5.setVal |
ING |
INT32 |
SP |
B,I |
5 |
Input
5 filter time |
Connectors
8-3c |
5...1000
ms |
Configuration\I/O
modules\X110 (BIO-H)\Input filtering |
|||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
CFG |
LD0.XBUGGIO110.OpDlTmms6.setVal |
ING |
INT32 |
SP |
B,I |
5 |
Input
6 filter time |
Connectors
9-3c |
5...1000
ms |
Configuration\I/O
modules\X110 (BIO-H)\Input filtering |
|||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
CFG |
LD0.XBUGGIO110.OpDlTmms7.setVal |
ING |
INT32 |
SP |
B,I |
5 |
Input
7 filter time |
Connectors
10-3c |
5...1000
ms |
Configuration\I/O
modules\X110 (BIO-H)\Input filtering |
|||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
CFG |
LD0.XBUGGIO110.OpDlTmms8.setVal |
ING |
INT32 |
SP |
B,I |
5 |
Input
8 filter time |
Connectors
12-3c |
5...1000
ms |
Configuration\I/O
modules\X110 (BIO-H)\Input filtering |
|||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
CFG |
LD0.XBUGGIO110.DiInvert1.setVal |
SPG |
BOOLEAN |
SP |
B,I |
0 |
Input
1 inversion |
Connectors
4-3c |
Configuration\I/O
modules\X110 (BIO-H)\Input inversion |
||||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
CFG |
LD0.XBUGGIO110.DiInvert2.setVal |
SPG |
BOOLEAN |
SP |
B,I |
0 |
Input
2 inversion |
Connectors
5-3c |
Configuration\I/O
modules\X110 (BIO-H)\Input inversion |
||||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
CFG |
LD0.XBUGGIO110.DiInvert3.setVal |
SPG |
BOOLEAN |
SP |
B,I |
0 |
Input
3 inversion |
Connectors
6-3c |
Configuration\I/O
modules\X110 (BIO-H)\Input inversion |
||||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
CFG |
LD0.XBUGGIO110.DiInvert4.setVal |
SPG |
BOOLEAN |
SP |
B,I |
0 |
Input
4 inversion |
Connectors
7-3c |
Configuration\I/O
modules\X110 (BIO-H)\Input inversion |
||||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
CFG |
LD0.XBUGGIO110.DiInvert5.setVal |
SPG |
BOOLEAN |
SP |
B,I |
0 |
Input
5 inversion |
Connectors
8-3c |
Configuration\I/O
modules\X110 (BIO-H)\Input inversion |
||||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
CFG |
LD0.XBUGGIO110.DiInvert6.setVal |
SPG |
BOOLEAN |
SP |
B,I |
0 |
Input
6 inversion |
Connectors
9-3c |
Configuration\I/O
modules\X110 (BIO-H)\Input inversion |
||||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
CFG |
LD0.XBUGGIO110.DiInvert7.setVal |
SPG |
BOOLEAN |
SP |
B,I |
0 |
Input
7 inversion |
Connectors
10-3c |
Configuration\I/O
modules\X110 (BIO-H)\Input inversion |
||||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
CFG |
LD0.XBUGGIO110.DiInvert8.setVal |
SPG |
BOOLEAN |
SP |
B,I |
0 |
Input
8 inversion |
Connectors
12-3c |
Configuration\I/O
modules\X110 (BIO-H)\Input inversion |
||||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
TES |
LD0.XBUGGIO110.SPCSO4.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
OUT4 |
Connectors
21-22 |
Tests\Binary
outputs\X110 (BIO-H) |
||||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
TES |
LD0.XBUGGIO110.SPCSO5.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
OUT5 |
Connectors
19-20 |
Tests\Binary
outputs\X110 (BIO-H) |
||||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
TES |
LD0.XBUGGIO110.SPCSO6.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
OUT6 |
Connectors
17-18 |
Tests\Binary
outputs\X110 (BIO-H) |
||||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
INF |
LD0.XBUGGIO110.EEName.hwRev |
DPL |
VisString255
(20) |
DC |
B |
0 |
HW
revision |
Card
HW revision |
Information\HW
modules\X110 (BIO-H) |
||||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
INF |
LD0.XBUGGIO110.EEName.serNum |
DPL |
VisString255
(20) |
DC |
B |
0 |
Serial
number |
Card
serial number |
Information\HW
modules\X110 (BIO-H) |
||||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
INF |
LD0.XBUGGIO110.EEName.eArtNum |
DPL |
VisString255
(20) |
EX |
B |
0 |
Article
number |
Card
article number |
Information\HW
modules\X110 (BIO-H) |
||||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
INF |
LD0.XBUGGIO110.EEName.eManDate |
DPL |
VisString255
(20) |
EX |
B |
0 |
Manufacturing
date |
Card
manufacturing date |
Information\HW
modules\X110 (BIO-H) |
||||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
INF |
LD0.XBUGGIO110.EEName.eTestDate |
DPL |
VisString255
(20) |
EX |
B |
0 |
Test
date |
Card
test date |
Information\HW
modules\X110 (BIO-H) |
||||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
VER |
LD0.XBUGGIO110.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
X110
(BIO-H) |
X110
(BIO-H) |
X110
(BIO-H) |
VER |
LD0.XBUGGIO110.EEName.swRev |
DPL |
VisString255
(20) |
DC |
- |
(Card
information) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
INP |
LD0.XBUGGIO100.SPCSO1.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatIO |
P |
OUT1 |
Connectors
27-28 |
Monitoring\I/O
status\Binary output values\X100 (PSM) |
||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
INP |
LD0.XBUGGIO100.SPCSO2.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatIO |
P |
OUT2 |
Connectors
25-26 |
Monitoring\I/O
status\Binary output values\X100 (PSM) |
||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
INP |
LD0.XBUGGIO100.SPCSO3.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatIO |
P |
OUT3 |
Connectors
23-24 |
Monitoring\I/O
status\Binary output values\X100 (PSM) |
||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
INP |
LD0.XBUGGIO100.SPCSO4.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatIO |
P |
TRIP |
Connectors
29c-30nc-30no |
Monitoring\I/O
status\Binary output values\X100 (PSM) |
||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
CTR |
LD0.XBUGGIO100.Mod.Oper.ctlVal |
INC |
Enum |
CO |
I |
(Mode) |
|||||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
TES |
LD0.XBUGGIO100.SPCSO1.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
OUT1 |
Connectors
27-28 |
Tests\Binary
outputs\X100 (PSM) |
||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
TES |
LD0.XBUGGIO100.SPCSO2.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
OUT2 |
Connectors
25-26 |
Tests\Binary
outputs\X100 (PSM) |
||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
TES |
LD0.XBUGGIO100.SPCSO3.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
OUT3 |
Connectors
23-24 |
Tests\Binary
outputs\X100 (PSM) |
||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
TES |
LD0.XBUGGIO100.SPCSO4.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
TRIP |
Connectors
29c-30nc-30no |
Tests\Binary
outputs\X100 (PSM) |
||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
INF |
LD0.XBUGGIO100.EEName.hwRev |
DPL |
VisString255
(20) |
DC |
B |
0 |
HW
revision |
Card
HW revision |
Information\HW
modules\X100 (PSM) |
||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
INF |
LD0.XBUGGIO100.EEName.serNum |
DPL |
VisString255
(20) |
DC |
B |
0 |
Serial
number |
Card
serial number |
Information\HW
modules\X100 (PSM) |
||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
INF |
LD0.XBUGGIO100.EEName.eArtNum |
DPL |
VisString255
(20) |
EX |
B |
0 |
Article
number |
Card
article number |
Information\HW
modules\X100 (PSM) |
||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
INF |
LD0.XBUGGIO100.EEName.eManDate |
DPL |
VisString255
(20) |
EX |
B |
0 |
Manufacturing
date |
Card
manufacturing date |
Information\HW
modules\X100 (PSM) |
||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
INF |
LD0.XBUGGIO100.EEName.eTestDate |
DPL |
VisString255
(20) |
EX |
B |
0 |
Test
date |
Card
test date |
Information\HW
modules\X100 (PSM) |
||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
VER |
LD0.XBUGGIO100.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
X100
(PSM) |
X100
(PSM) |
X100
(PSM) |
VER |
LD0.XBUGGIO100.EEName.swRev |
DPL |
VisString255
(20) |
DC |
- |
(Card
information) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
ARCSARC1 |
ARC(1) |
50L/50NL(1) |
INP |
LD0.ARCSARC11.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for all binary outputs |
Monitoring\I/O
status\Other protection\ARCSARC1\Inputs |
||||
|
ARCSARC1 |
ARC(1) |
50L/50NL(1) |
INP |
LD0.ARCSARC11.InRemFA.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
REM_FLT_ARC |
Remote
Fault arc detected |
Monitoring\I/O
status\Other protection\ARCSARC1\Inputs |
||||
|
ARCSARC1 |
ARC(1) |
50L/50NL(1) |
INP |
LD0.ARCPTRC11.InOpMod.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
OPR_MODE |
Operation
mode input |
Monitoring\I/O
status\Other protection\ARCSARC1\Inputs |
||||
|
ARCSARC1 |
ARC(1) |
50L/50NL(1) |
OUT |
LD0.ARCSARC11.FADet.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIed |
P,H |
ARC_FLT_DET |
Fault
arc detected=light signal output |
Monitoring\I/O
status\Other protection\ARCSARC1\Outputs |
|||
|
ARCSARC1 |
ARC(1) |
50L/50NL(1) |
OUT |
LD0.ARCPTRC11.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Other protection\ARCSARC1\Outputs |
|||
|
ARCSARC1 |
ARC(1) |
50L/50NL(1) |
CTR |
LD0.ARCSARC11.FACntRs.Oper.ctlVal |
INC |
INT32 |
CO |
(Fault
arc counter) |
||||||||
|
ARCSARC1 |
ARC(1) |
50L/50NL(1) |
MON |
LD0.ARCSARC11.Beh.stVal |
INS |
Enum |
ST |
B |
ARCSARC1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
ARCSARC1 |
ARC(1) |
50L/50NL(1) |
SET |
LD0.ARCSARC11.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Other
protection\ARCSARC1 |
|||
|
ARCSARC1 |
ARC(1) |
50L/50NL(1) |
SET |
LD0.ARCPIOC11.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
2.50 |
Phase
start value |
Operating
phase current |
0.50...40.00
xIn |
Settings\Settings\Other
protection\ARCSARC1 |
IL1TCTR1 |
||
|
ARCSARC1 |
ARC(1) |
50L/50NL(1) |
SET |
LD0.ARCPIOC12.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.20 |
Ground
start value |
Operating
residual current |
0.05...8.00
xIn |
Settings\Settings\Other
protection\ARCSARC1 |
RESTCTR1 |
||
|
ARCSARC1 |
ARC(1) |
50L/50NL(1) |
SET |
LD0.ARCPTRC11.OpModArc.setVal |
ING |
Enum |
SG |
B |
1 |
Operation
mode |
Operation
mode |
1=Light+current;
2=Light only; 3=BI controlled |
Settings\Settings\Other
protection\ARCSARC1 |
|||
|
ARCSARC1 |
ARC(1) |
50L/50NL(1) |
TES |
LD0.ARCSARC11.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
ARCSARC1 |
Test
control for outputs |
0=Reset;
9=Activate OPERATE; 10=Deactive OPERATE; 33=Activate ARC_FLT_DET; 34=Deactive
ARC_FLT_DET |
Tests\Function
tests\Other protection |
|||
|
ARCSARC1 |
ARC(1) |
50L/50NL(1) |
VER |
LD0.ARCSARC11.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
ARCSARC1 |
ARC(1) |
50L/50NL(1) |
VER |
LD0.ARCPIOC11.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(NamPlt) |
|||||||
|
ARCSARC1 |
ARC(1) |
50L/50NL(1) |
VER |
LD0.ARCPIOC12.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(NamPlt) |
|||||||
|
ARCSARC1 |
ARC(1) |
50L/50NL(1) |
VER |
LD0.ARCPTRC11.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(NamPlt) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
ARCSARC2 |
ARC(2) |
50L/50NL(2) |
INP |
LD0.ARCSARC21.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for all binary outputs |
Monitoring\I/O
status\Other protection\ARCSARC2\Inputs |
||||
|
ARCSARC2 |
ARC(2) |
50L/50NL(2) |
INP |
LD0.ARCSARC21.InRemFA.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
REM_FLT_ARC |
Remote
Fault arc detected |
Monitoring\I/O
status\Other protection\ARCSARC2\Inputs |
||||
|
ARCSARC2 |
ARC(2) |
50L/50NL(2) |
INP |
LD0.ARCPTRC21.InOpMod.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
OPR_MODE |
Operation
mode input |
Monitoring\I/O
status\Other protection\ARCSARC2\Inputs |
||||
|
ARCSARC2 |
ARC(2) |
50L/50NL(2) |
OUT |
LD0.ARCSARC21.FADet.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIed |
P,H |
ARC_FLT_DET |
Fault
arc detected=light signal output |
Monitoring\I/O
status\Other protection\ARCSARC2\Outputs |
|||
|
ARCSARC2 |
ARC(2) |
50L/50NL(2) |
OUT |
LD0.ARCPTRC21.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Other protection\ARCSARC2\Outputs |
|||
|
ARCSARC2 |
ARC(2) |
50L/50NL(2) |
CTR |
LD0.ARCSARC21.FACntRs.Oper.ctlVal |
INC |
INT32 |
CO |
(Fault
arc counter) |
||||||||
|
ARCSARC2 |
ARC(2) |
50L/50NL(2) |
MON |
LD0.ARCSARC21.Beh.stVal |
INS |
Enum |
ST |
B |
ARCSARC2 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
ARCSARC2 |
ARC(2) |
50L/50NL(2) |
SET |
LD0.ARCSARC21.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Other
protection\ARCSARC2 |
|||
|
ARCSARC2 |
ARC(2) |
50L/50NL(2) |
SET |
LD0.ARCPIOC21.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
2.50 |
Phase
start value |
Operating
phase current |
0.50...40.00
xIn |
Settings\Settings\Other
protection\ARCSARC2 |
IL1TCTR1 |
||
|
ARCSARC2 |
ARC(2) |
50L/50NL(2) |
SET |
LD0.ARCPIOC22.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.20 |
Ground
start value |
Operating
residual current |
0.05...8.00
xIn |
Settings\Settings\Other
protection\ARCSARC2 |
RESTCTR1 |
||
|
ARCSARC2 |
ARC(2) |
50L/50NL(2) |
SET |
LD0.ARCPTRC21.OpModArc.setVal |
ING |
Enum |
SG |
B |
1 |
Operation
mode |
Operation
mode |
1=Light+current;
2=Light only; 3=BI controlled |
Settings\Settings\Other
protection\ARCSARC2 |
|||
|
ARCSARC2 |
ARC(2) |
50L/50NL(2) |
TES |
LD0.ARCSARC21.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
ARCSARC2 |
Test
control for outputs |
0=Reset;
9=Activate OPERATE; 10=Deactive OPERATE; 33=Activate ARC_FLT_DET; 34=Deactive
ARC_FLT_DET |
Tests\Function
tests\Other protection |
|||
|
ARCSARC2 |
ARC(2) |
50L/50NL(2) |
VER |
LD0.ARCSARC21.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
ARCSARC2 |
ARC(2) |
50L/50NL(2) |
VER |
LD0.ARCPIOC21.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(NamPlt) |
|||||||
|
ARCSARC2 |
ARC(2) |
50L/50NL(2) |
VER |
LD0.ARCPIOC22.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(NamPlt) |
|||||||
|
ARCSARC2 |
ARC(2) |
50L/50NL(2) |
VER |
LD0.ARCPTRC21.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(NamPlt) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
ARCSARC3 |
ARC(3) |
50L/50NL(3) |
INP |
LD0.ARCSARC31.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for all binary outputs |
Monitoring\I/O
status\Other protection\ARCSARC3\Inputs |
||||
|
ARCSARC3 |
ARC(3) |
50L/50NL(3) |
INP |
LD0.ARCSARC31.InRemFA.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
REM_FLT_ARC |
Remote
Fault arc detected |
Monitoring\I/O
status\Other protection\ARCSARC3\Inputs |
||||
|
ARCSARC3 |
ARC(3) |
50L/50NL(3) |
INP |
LD0.ARCPTRC31.InOpMod.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
OPR_MODE |
Operation
mode input |
Monitoring\I/O
status\Other protection\ARCSARC3\Inputs |
||||
|
ARCSARC3 |
ARC(3) |
50L/50NL(3) |
OUT |
LD0.ARCSARC31.FADet.stVal |
SPS |
BOOLEAN |
ST |
B |
StatIed |
P,H |
ARC_FLT_DET |
Fault
arc detected=light signal output |
Monitoring\I/O
status\Other protection\ARCSARC3\Outputs |
|||
|
ARCSARC3 |
ARC(3) |
50L/50NL(3) |
OUT |
LD0.ARCPTRC31.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Other protection\ARCSARC3\Outputs |
|||
|
ARCSARC3 |
ARC(3) |
50L/50NL(3) |
CTR |
LD0.ARCSARC31.FACntRs.Oper.ctlVal |
INC |
INT32 |
CO |
(Fault
arc counter) |
||||||||
|
ARCSARC3 |
ARC(3) |
50L/50NL(3) |
MON |
LD0.ARCSARC31.Beh.stVal |
INS |
Enum |
ST |
B |
ARCSARC3 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
ARCSARC3 |
ARC(3) |
50L/50NL(3) |
SET |
LD0.ARCSARC31.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Other
protection\ARCSARC3 |
|||
|
ARCSARC3 |
ARC(3) |
50L/50NL(3) |
SET |
LD0.ARCPIOC31.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
2.50 |
Phase
start value |
Operating
phase current |
0.50...40.00
xIn |
Settings\Settings\Other
protection\ARCSARC3 |
IL1TCTR1 |
||
|
ARCSARC3 |
ARC(3) |
50L/50NL(3) |
SET |
LD0.ARCPIOC32.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.20 |
Ground
start value |
Operating
residual current |
0.05...8.00
xIn |
Settings\Settings\Other
protection\ARCSARC3 |
RESTCTR1 |
||
|
ARCSARC3 |
ARC(3) |
50L/50NL(3) |
SET |
LD0.ARCPTRC31.OpModArc.setVal |
ING |
Enum |
SG |
B |
1 |
Operation
mode |
Operation
mode |
1=Light+current;
2=Light only; 3=BI controlled |
Settings\Settings\Other
protection\ARCSARC3 |
|||
|
ARCSARC3 |
ARC(3) |
50L/50NL(3) |
TES |
LD0.ARCSARC31.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
ARCSARC3 |
Test
control for outputs |
0=Reset;
9=Activate OPERATE; 10=Deactive OPERATE; 33=Activate ARC_FLT_DET; 34=Deactive
ARC_FLT_DET |
Tests\Function
tests\Other protection |
|||
|
ARCSARC3 |
ARC(3) |
50L/50NL(3) |
VER |
LD0.ARCSARC31.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
ARCSARC3 |
ARC(3) |
50L/50NL(3) |
VER |
LD0.ARCPIOC31.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(NamPlt) |
|||||||
|
ARCSARC3 |
ARC(3) |
50L/50NL(3) |
VER |
LD0.ARCPIOC32.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(NamPlt) |
|||||||
|
ARCSARC3 |
ARC(3) |
50L/50NL(3) |
VER |
LD0.ARCPTRC31.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(NamPlt) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
CMHAI1 |
PQM3I |
PQM3I(1) |
INP |
LD0.CMHAI1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for all binary outputs |
Monitoring\I/O
status\Power quality\CMHAI1\Inputs |
||||
|
CMHAI1 |
PQM3I |
PQM3I(1) |
OUT |
LD0.CMHAI1.Alm.stVal |
SPS |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
ALARM |
Alarm
signal for TDD |
Monitoring\I/O
status\Power quality\CMHAI1\Outputs |
|||
|
CMHAI1 |
PQM3I |
PQM3I(1) |
CTR |
LD0.CMHAI1.RecRs.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(CMHAI1
max.demands) |
||||||||
|
CMHAI1 |
PQM3I |
PQM3I(1) |
MON |
LD0.CMHAI1.TddA.phsA.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
3SMHTDD_A |
3
second mean value of TDD for phase A |
0.00...500.00
% |
Monitoring\I/O
status\Power quality\CMHAI1\Monitored data |
||||
|
CMHAI1 |
PQM3I |
PQM3I(1) |
MON |
LD0.CMHAI1.TddA.phsB.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
3SMHTDD_B |
3
second mean value of TDD for phase B |
0.00...500.00
% |
Monitoring\I/O
status\Power quality\CMHAI1\Monitored data |
||||
|
CMHAI1 |
PQM3I |
PQM3I(1) |
MON |
LD0.CMHAI1.TddA.phsC.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
3SMHTDD_C |
3
second mean value of TDD for phase C |
0.00...500.00
% |
Monitoring\I/O
status\Power quality\CMHAI1\Monitored data |
||||
|
CMHAI1 |
PQM3I |
PQM3I(1) |
MON |
LD0.CMHAI1.DmdTddA.phsA.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
DMD_TDD_A |
Demand
value for TDD for phase A |
0.00...500.00
% |
Monitoring\I/O
status\Power quality\CMHAI1\Monitored data |
||||
|
CMHAI1 |
PQM3I |
PQM3I(1) |
MON |
LD0.CMHAI1.DmdTddA.phsB.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
DMD_TDD_B |
Demand
value for TDD for phase B |
0.00...500.00
% |
Monitoring\I/O
status\Power quality\CMHAI1\Monitored data |
||||
|
CMHAI1 |
PQM3I |
PQM3I(1) |
MON |
LD0.CMHAI1.DmdTddA.phsC.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
DMD_TDD_C |
Demand
value for TDD for phase C |
0.00...500.00
% |
Monitoring\I/O
status\Power quality\CMHAI1\Monitored data |
||||
|
CMHAI1 |
PQM3I |
PQM3I(1) |
MON |
LD0.CMHAI1.MaxDmdTddA.phsA.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
Max
demand TDD IL1 |
Maximum
demand TDD for phase A |
0.00...500.00
% |
Monitoring\Recorded
data\Power quality\CMHAI1 |
||||
|
CMHAI1 |
PQM3I |
PQM3I(1) |
MON |
LD0.CMHAI1.MaxDmdTddA.phsA.t |
WYE |
Timestamp |
MX |
B |
Time
max dmd TDD IL1 |
Time
of maximum demand TDD phase A |
Monitoring\Recorded
data\Power quality\CMHAI1 |
|||||
|
CMHAI1 |
PQM3I |
PQM3I(1) |
MON |
LD0.CMHAI1.MaxDmdTddA.phsB.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
Max
demand TDD IL2 |
Maximum
demand TDD for phase B |
0.00...500.00
% |
Monitoring\Recorded
data\Power quality\CMHAI1 |
||||
|
CMHAI1 |
PQM3I |
PQM3I(1) |
MON |
LD0.CMHAI1.MaxDmdTddA.phsB.t |
WYE |
Timestamp |
MX |
B |
Time
max dmd TDD IL2 |
Time
of maximum demand TDD phase B |
Monitoring\Recorded
data\Power quality\CMHAI1 |
|||||
|
CMHAI1 |
PQM3I |
PQM3I(1) |
MON |
LD0.CMHAI1.MaxDmdTddA.phsC.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
Max
demand TDD IL3 |
Maximum
demand TDD for phase C |
0.00...500.00
% |
Monitoring\Recorded
data\Power quality\CMHAI1 |
||||
|
CMHAI1 |
PQM3I |
PQM3I(1) |
MON |
LD0.CMHAI1.MaxDmdTddA.phsC.t |
WYE |
Timestamp |
MX |
B |
Time
max dmd TDD IL3 |
Time
of maximum demand TDD phase C |
Monitoring\Recorded
data\Power quality\CMHAI1 |
|||||
|
CMHAI1 |
PQM3I |
PQM3I(1) |
SET |
LD0.CMHAI1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Power
quality\CMHAI1 |
|||
|
CMHAI1 |
PQM3I |
PQM3I(1) |
SET |
LD0.CMHAI1.DmdItrv.setVal |
ING |
Enum |
SP |
B |
2 |
Demand
interval |
Time
interval for demand calculation |
0=1
minute; 1=5 minutes; 2=10 minutes; 3=15 minutes; 4=30 minutes; 5=60 minutes;
6=180 minutes |
Settings\Settings\Power
quality\CMHAI1 |
|||
|
CMHAI1 |
PQM3I |
PQM3I(1) |
SET |
LD0.CMHAI1.NomA.setMag.f |
ASG |
FLOAT32 |
SP |
B |
1.0 |
Initial
Dmd current |
Initial
demand current |
0.10...1.0
xIn |
Settings\Settings\Power
quality\CMHAI1 |
IL1TCTR1 |
||
|
CMHAI1 |
PQM3I |
PQM3I(1) |
SET |
LD0.CMHAI1.TddAVal.setMag.f |
ASG |
FLOAT32 |
SP |
B |
50.0 |
TDD
alarm limit |
TDD
alarm limit |
1.0...100.0
% |
Settings\Settings\Power
quality\CMHAI1 |
|||
|
CMHAI1 |
PQM3I |
PQM3I(1) |
SET |
LD0.CMHAI1.DmdWinMod.setVal |
ING |
Enum |
SP |
B |
1 |
Demand
window |
Demand
calculation window type |
1=Sliding;
2=Non-sliding |
Settings\Settings\Power
quality\CMHAI1 |
|||
|
CMHAI1 |
PQM3I |
PQM3I(1) |
VER |
LD0.CMHAI1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
VMHAI1 |
PQM3U |
PQM3V(1) |
INP |
LD0.VMHAI1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for all binary outputs |
Monitoring\I/O
status\Power quality\VMHAI1\Inputs |
||||
|
VMHAI1 |
PQM3U |
PQM3V(1) |
OUT |
LD0.VMHAI1.Alm.stVal |
SPS |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
ALARM |
Alarm
signal for THD |
Monitoring\I/O
status\Power quality\VMHAI1\Outputs |
|||
|
VMHAI1 |
PQM3U |
PQM3V(1) |
CTR |
LD0.VMHAI1.RecRs.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(VMHAI1
max.demands) |
||||||||
|
VMHAI1 |
PQM3U |
PQM3V(1) |
MON |
LD0.VMHAI1.ThdPhV.phsA.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
3SMHTHD_A |
3
second mean value of THD for phase A |
0.00...500.00
% |
Monitoring\I/O
status\Power quality\VMHAI1\Monitored data |
||||
|
VMHAI1 |
PQM3U |
PQM3V(1) |
MON |
LD0.VMHAI1.ThdPhV.phsB.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
3SMHTHD_B |
3
second mean value of THD for phase B |
0.00...500.00
% |
Monitoring\I/O
status\Power quality\VMHAI1\Monitored data |
||||
|
VMHAI1 |
PQM3U |
PQM3V(1) |
MON |
LD0.VMHAI1.ThdPhV.phsC.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
3SMHTHD_C |
3
second mean value of THD for phase C |
0.00...500.00
% |
Monitoring\I/O
status\Power quality\VMHAI1\Monitored data |
||||
|
VMHAI1 |
PQM3U |
PQM3V(1) |
MON |
LD0.VMHAI1.DmdThdPhV.phsA.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
DMD_THD_A |
Demand
value for THD for phase A |
0.00...500.00
% |
Monitoring\I/O
status\Power quality\VMHAI1\Monitored data |
||||
|
VMHAI1 |
PQM3U |
PQM3V(1) |
MON |
LD0.VMHAI1.DmdThdPhV.phsB.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
DMD_THD_B |
Demand
value for THD for phase B |
0.00...500.00
% |
Monitoring\I/O
status\Power quality\VMHAI1\Monitored data |
||||
|
VMHAI1 |
PQM3U |
PQM3V(1) |
MON |
LD0.VMHAI1.DmdThdPhV.phsC.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
DMD_THD_C |
Demand
value for THD for phase C |
0.00...500.00
% |
Monitoring\I/O
status\Power quality\VMHAI1\Monitored data |
||||
|
VMHAI1 |
PQM3U |
PQM3V(1) |
MON |
LD0.VMHAI1.MaxDmdThdV.phsA.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
Max
demand THD UL1 |
Maximum
demand THD for phase A |
0.00...500.00
% |
Monitoring\Recorded
data\Power quality\VMHAI1 |
||||
|
VMHAI1 |
PQM3U |
PQM3V(1) |
MON |
LD0.VMHAI1.MaxDmdThdV.phsA.t |
WYE |
Timestamp |
MX |
B |
Time
max dmd THD UL1 |
Time
of maximum demand THD phase A |
Monitoring\Recorded
data\Power quality\VMHAI1 |
|||||
|
VMHAI1 |
PQM3U |
PQM3V(1) |
MON |
LD0.VMHAI1.MaxDmdThdV.phsB.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
Max
demand THD UL2 |
Maximum
demand THD for phase B |
0.00...500.00
% |
Monitoring\Recorded
data\Power quality\VMHAI1 |
||||
|
VMHAI1 |
PQM3U |
PQM3V(1) |
MON |
LD0.VMHAI1.MaxDmdThdV.phsB.t |
WYE |
Timestamp |
MX |
B |
Time
max dmd THD UL2 |
Time
of maximum demand THD phase B |
Monitoring\Recorded
data\Power quality\VMHAI1 |
|||||
|
VMHAI1 |
PQM3U |
PQM3V(1) |
MON |
LD0.VMHAI1.MaxDmdThdV.phsC.cVal.mag.f |
WYE |
FLOAT32 |
MX |
B |
Max
demand THD UL3 |
Maximum
demand THD for phase C |
0.00...500.00
% |
Monitoring\Recorded
data\Power quality\VMHAI1 |
||||
|
VMHAI1 |
PQM3U |
PQM3V(1) |
MON |
LD0.VMHAI1.MaxDmdThdV.phsC.t |
WYE |
Timestamp |
MX |
B |
Time
max dmd THD UL3 |
Time
of maximum demand THD phase C |
Monitoring\Recorded
data\Power quality\VMHAI1 |
|||||
|
VMHAI1 |
PQM3U |
PQM3V(1) |
SET |
LD0.VMHAI1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Power
quality\VMHAI1 |
|||
|
VMHAI1 |
PQM3U |
PQM3V(1) |
SET |
LD0.VMHAI1.DmdItrv.setVal |
ING |
Enum |
SP |
B |
2 |
Demand
interval |
Time
interval for demand calculation |
0=1
minute; 1=5 minutes; 2=10 minutes; 3=15 minutes; 4=30 minutes; 5=60 minutes;
6=180 minutes |
Settings\Settings\Power
quality\VMHAI1 |
|||
|
VMHAI1 |
PQM3U |
PQM3V(1) |
SET |
LD0.VMHAI1.ThdVVal.setMag.f |
ASG |
FLOAT32 |
SP |
B |
50.0 |
THD
alarm limit |
THD
alarm limit |
1.0...100.0
% |
Settings\Settings\Power
quality\VMHAI1 |
|||
|
VMHAI1 |
PQM3U |
PQM3V(1) |
SET |
LD0.VMHAI1.DmdWinMod.setVal |
ING |
Enum |
SP |
B |
1 |
Demand
window |
Demand
calculation window type |
1=Sliding;
2=Non-sliding |
Settings\Settings\Power
quality\VMHAI1 |
|||
|
VMHAI1 |
PQM3U |
PQM3V(1) |
VER |
LD0.VMHAI1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
INP |
LD0.PH1QVVR1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Power quality\PHQVVR1\Inputs |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
OUT |
LD0.PH1QVVR1.DipStr.stVal |
SPS |
BOOLEAN |
ST |
B |
DIPST |
Voltage
dip active |
Monitoring\I/O
status\Power quality\PHQVVR1\Outputs |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
OUT |
LD0.PH1QVVR1.SwlStr.stVal |
SPS |
BOOLEAN |
ST |
B |
SWELLST |
Voltage
swell active |
Monitoring\I/O
status\Power quality\PHQVVR1\Outputs |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
OUT |
LD0.PH1QVVR1.IntrStr.stVal |
SPS |
BOOLEAN |
ST |
B |
INTST |
Voltage
interruption active |
Monitoring\I/O
status\Power quality\PHQVVR1\Outputs |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
OUT |
LD0.PH1QVVR1.Op.stVal |
SPS |
BOOLEAN |
ST |
B |
OPERATE |
Voltage
variation detected |
Monitoring\I/O
status\Power quality\PHQVVR1\Outputs |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
OUT |
LD0.PH1QVVR1.VarStrGen.stVal |
SPS |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
START |
Voltage
variation present |
Monitoring\I/O
status\Power quality\PHQVVR1\Outputs |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
CTR |
LD0.PH1QVVR1.OpCntRs.Oper.ctlVal |
INC |
INT32 |
CO |
(Resettable
operation counter) |
||||||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
CTR |
LD0.PH1QVVR1.RsCnt.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Counters
reset) |
||||||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
CTR |
LD0.PH1QVVR1.RecRs.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Recorded
data reset) |
||||||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.PH1QVVR1.Beh.stVal |
INS |
Enum |
ST |
B |
PHQVVR1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.PH1QVVR1.VarStr.stVal |
SPS |
BOOLEAN |
ST |
B |
ST_A |
Start
Phase A (Voltage Variation Event in progress) |
Monitoring\I/O
status\Power quality\PHQVVR1\Monitored data |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.PH1QVVR1.SwlInstCnt.stVal |
INS |
INT32 |
ST |
B |
INSTSWELLCNT |
Instantaneous
swell operation counter |
0...2147483647 |
Monitoring\I/O
status\Power quality\PHQVVR1\Monitored data |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.PH1QVVR1.SwlMomCnt.stVal |
INS |
INT32 |
ST |
B |
MOMSWELLCNT |
Momentary
swell operation counter |
0...2147483647 |
Monitoring\I/O
status\Power quality\PHQVVR1\Monitored data |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.PH1QVVR1.SwlTmpCnt.stVal |
INS |
INT32 |
ST |
B |
TEMPSWELLCNT |
Temporary
swell operation counter |
0...2147483647 |
Monitoring\I/O
status\Power quality\PHQVVR1\Monitored data |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.PH1QVVR1.SwlMaxCnt.stVal |
INS |
INT32 |
ST |
B |
MAXDURSWELLCNT |
Maximum
duration swell operation counter |
0...2147483647 |
Monitoring\I/O
status\Power quality\PHQVVR1\Monitored data |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.PH1QVVR1.DipInstCnt.stVal |
INS |
INT32 |
ST |
B |
INSTDIPCNT |
Instantaneous
dip operation counter |
0...2147483647 |
Monitoring\I/O
status\Power quality\PHQVVR1\Monitored data |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.PH1QVVR1.DipTmpCnt.stVal |
INS |
INT32 |
ST |
B |
TEMPDIPCNT |
Temporary
dip operation counter |
0...2147483647 |
Monitoring\I/O
status\Power quality\PHQVVR1\Monitored data |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.PH1QVVR1.DipMomCnt.stVal |
INS |
INT32 |
ST |
B |
MOMDIPCNT |
Momentary
dip operation counter |
0...2147483647 |
Monitoring\I/O
status\Power quality\PHQVVR1\Monitored data |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.PH1QVVR1.DipMaxCnt.stVal |
INS |
INT32 |
ST |
B |
MAXDURDIPCNT |
Maximum
duration dip operation counter |
0...2147483647 |
Monitoring\I/O
status\Power quality\PHQVVR1\Monitored data |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.PH1QVVR1.IntrMomCnt.stVal |
INS |
INT32 |
ST |
B |
MOMINTCNT |
Momentary
interruption operation counter |
0...2147483647 |
Monitoring\I/O
status\Power quality\PHQVVR1\Monitored data |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.PH1QVVR1.IntrTmpCnt.stVal |
INS |
INT32 |
ST |
B |
TEMPINTCNT |
Temporary
interruption operation counter |
0...2147483647 |
Monitoring\I/O
status\Power quality\PHQVVR1\Monitored data |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.PH1QVVR1.IntrSstCnt.stVal |
INS |
INT32 |
ST |
B |
SUSTINTCNT |
Sustained
interruption operation counter |
0...2147483647 |
Monitoring\I/O
status\Power quality\PHQVVR1\Monitored data |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.PH1QVVR1.IntrMaxCnt.stVal |
INS |
INT32 |
ST |
B |
MAXDURINTCNT |
Maximum
duration interruption operation counter |
0...2147483647 |
Monitoring\I/O
status\Power quality\PHQVVR1\Monitored data |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.PH2QVVR1.VarStr.stVal |
SPS |
BOOLEAN |
ST |
B |
ST_B |
Start
Phase B (Voltage Variation Event in progress) |
Monitoring\I/O
status\Power quality\PHQVVR1\Monitored data |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.PH3QVVR1.VarStr.stVal |
SPS |
BOOLEAN |
ST |
B |
ST_C |
Start
Phase C (Voltage Variation Event in progress) |
Monitoring\I/O
status\Power quality\PHQVVR1\Monitored data |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV1MSTA1.VVaTyp.stVal |
INS |
Enum |
ST |
B |
Variation
type |
Variation
type |
0=No
variation; 1=Swell; 2=Dip; 3=Swell + dip; 4=Interruption; 5=Swell + Int;
6=Dip + Int; 7=Swell+dip+Int |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 1 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV1MSTA1.VVaTyp.t |
INS |
Timestamp |
ST |
B |
Time |
Time |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 1 |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV1MSTA1.VVaA.mag.f |
MV |
FLOAT32 |
MX |
B |
Variation
Ph A |
Variation
magnitude Phase A |
0.00...5.00
xUn |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 1 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV1MSTA1.VVaA.t |
MV |
Timestamp |
MX |
B |
Var
Ph A rec time |
Variation
magnitude Phase A time stamp |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 1 |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV1MSTA1.VVaB.mag.f |
MV |
FLOAT32 |
MX |
B |
Variation
Ph B |
Variation
magnitude Phase B |
0.00...5.00
xUn |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 1 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV1MSTA1.VVaB.t |
MV |
Timestamp |
MX |
B |
Var
Ph B rec time |
Variation
magnitude Phase B time stamp |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 1 |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV1MSTA1.VVaC.mag.f |
MV |
FLOAT32 |
MX |
B |
Variation
Ph C |
Variation
magnitude Phase C |
0.00...5.00
xUn |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 1 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV1MSTA1.VVaC.t |
MV |
Timestamp |
MX |
B |
Var
Ph C rec time |
Variation
magnitude Phase C time stamp |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 1 |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV1MSTA1.VVaTmA.mag.f |
MV |
FLOAT32 |
MX |
B |
Variation
Dur Ph A |
Variation
duration Phase A |
0.000...3600.000
s |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 1 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV1MSTA1.VVaTmA.t |
MV |
Timestamp |
MX |
B |
Var
Dur Ph A time |
Variation
Ph A start time stamp |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 1 |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV1MSTA1.VVaTmB.mag.f |
MV |
FLOAT32 |
MX |
B |
Variation
Dur Ph B |
Variation
duration Phase B |
0.000...3600.000
s |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 1 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV1MSTA1.VVaTmB.t |
MV |
Timestamp |
MX |
B |
Var
Dur Ph B time |
Variation
Ph B start time stamp |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 1 |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV1MSTA1.VVaTmC.mag.f |
MV |
FLOAT32 |
MX |
B |
Variation
Dur Ph C |
Variation
duration Phase C |
0.000...3600.000
s |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 1 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV1MSTA1.VVaTmC.t |
MV |
Timestamp |
MX |
B |
Var
Dur Ph C time |
Variation
Ph C start time stamp |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 1 |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV1MSTA1.APreVaA.mag.f |
MV |
FLOAT32 |
MX |
B |
Var
current Ph A |
Current
magnitude Phase A preceding variation |
0.00...60.00
xIn |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 1 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV1MSTA1.APreVaB.mag.f |
MV |
FLOAT32 |
MX |
B |
Var
current Ph B |
Current
magnitude Phase B preceding variation |
0.00...60.00
xIn |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 1 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV1MSTA1.APreVaC.mag.f |
MV |
FLOAT32 |
MX |
B |
Var
current Ph C |
Current
magnitude Phase C preceding variation |
0.00...60.00
xIn |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 1 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV2MSTA1.VVaTyp.stVal |
INS |
Enum |
ST |
B |
Variation
type |
Variation
type |
0=No
variation; 1=Swell; 2=Dip; 3=Swell + dip; 4=Interruption; 5=Swell + Int;
6=Dip + Int; 7=Swell+dip+Int |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 2 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV2MSTA1.VVaTyp.t |
INS |
Timestamp |
ST |
B |
Time |
Time |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 2 |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV2MSTA1.VVaA.mag.f |
MV |
FLOAT32 |
MX |
B |
Variation
Ph A |
Variation
magnitude Phase A |
0.00...5.00
xUn |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 2 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV2MSTA1.VVaA.t |
MV |
Timestamp |
MX |
B |
Var
Ph A rec time |
Variation
magnitude Phase A time stamp |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 2 |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV2MSTA1.VVaB.mag.f |
MV |
FLOAT32 |
MX |
B |
Variation
Ph B |
Variation
magnitude Phase B |
0.00...5.00
xUn |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 2 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV2MSTA1.VVaB.t |
MV |
Timestamp |
MX |
B |
Var
Ph B rec time |
Variation
magnitude Phase B time stamp |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 2 |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV2MSTA1.VVaC.mag.f |
MV |
FLOAT32 |
MX |
B |
Variation
Ph C |
Variation
magnitude Phase C |
0.00...5.00
xUn |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 2 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV2MSTA1.VVaC.t |
MV |
Timestamp |
MX |
B |
Var
Ph C rec time |
Variation
magnitude Phase C time stamp |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 2 |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV2MSTA1.VVaTmA.mag.f |
MV |
FLOAT32 |
MX |
B |
Variation
Dur Ph A |
Variation
duration Phase A |
0.000...3600.000
s |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 2 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV2MSTA1.VVaTmA.t |
MV |
Timestamp |
MX |
B |
Var
Dur Ph A time |
Variation
Ph A start time stamp |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 2 |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV2MSTA1.VVaTmB.mag.f |
MV |
FLOAT32 |
MX |
B |
Variation
Dur Ph B |
Variation
duration Phase B |
0.000...3600.000
s |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 2 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV2MSTA1.VVaTmB.t |
MV |
Timestamp |
MX |
B |
Var
Dur Ph B time |
Variation
Ph B start time stamp |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 2 |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV2MSTA1.VVaTmC.mag.f |
MV |
FLOAT32 |
MX |
B |
Variation
Dur Ph C |
Variation
duration Phase C |
0.000...3600.000
s |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 2 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV2MSTA1.VVaTmC.t |
MV |
Timestamp |
MX |
B |
Var
Dur Ph C time |
Variation
Ph C start time stamp |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 2 |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV2MSTA1.APreVaA.mag.f |
MV |
FLOAT32 |
MX |
B |
Var
current Ph A |
Current
magnitude Phase A preceding variation |
0.00...60.00
xIn |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 2 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV2MSTA1.APreVaB.mag.f |
MV |
FLOAT32 |
MX |
B |
Var
current Ph B |
Current
magnitude Phase B preceding variation |
0.00...60.00
xIn |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 2 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV2MSTA1.APreVaC.mag.f |
MV |
FLOAT32 |
MX |
B |
Var
current Ph C |
Current
magnitude Phase C preceding variation |
0.00...60.00
xIn |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 2 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV3MSTA1.VVaTyp.stVal |
INS |
Enum |
ST |
B |
Variation
type |
Variation
type |
0=No
variation; 1=Swell; 2=Dip; 3=Swell + dip; 4=Interruption; 5=Swell + Int;
6=Dip + Int; 7=Swell+dip+Int |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 3 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV3MSTA1.VVaTyp.t |
INS |
Timestamp |
ST |
B |
Time |
Time |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 3 |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV3MSTA1.VVaA.mag.f |
MV |
FLOAT32 |
MX |
B |
Variation
Ph A |
Variation
magnitude Phase A |
0.00...5.00
xUn |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 3 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV3MSTA1.VVaA.t |
MV |
Timestamp |
MX |
B |
Var
Ph A rec time |
Variation
magnitude Phase A time stamp |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 3 |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV3MSTA1.VVaB.mag.f |
MV |
FLOAT32 |
MX |
B |
Variation
Ph B |
Variation
magnitude Phase B |
0.00...5.00
xUn |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 3 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV3MSTA1.VVaB.t |
MV |
Timestamp |
MX |
B |
Var
Ph B rec time |
Variation
magnitude Phase B time stamp |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 3 |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV3MSTA1.VVaC.mag.f |
MV |
FLOAT32 |
MX |
B |
Variation
Ph C |
Variation
magnitude Phase C |
0.00...5.00
xUn |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 3 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV3MSTA1.VVaC.t |
MV |
Timestamp |
MX |
B |
Var
Ph C rec time |
Variation
magnitude Phase C time stamp |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 3 |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV3MSTA1.VVaTmA.mag.f |
MV |
FLOAT32 |
MX |
B |
Variation
Dur Ph A |
Variation
duration Phase A |
0.000...3600.000
s |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 3 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV3MSTA1.VVaTmA.t |
MV |
Timestamp |
MX |
B |
Var
Dur Ph A time |
Variation
Ph A start time stamp |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 3 |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV3MSTA1.VVaTmB.mag.f |
MV |
FLOAT32 |
MX |
B |
Variation
Dur Ph B |
Variation
duration Phase B |
0.000...3600.000
s |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 3 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV3MSTA1.VVaTmB.t |
MV |
Timestamp |
MX |
B |
Var
Dur Ph B time |
Variation
Ph B start time stamp |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 3 |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV3MSTA1.VVaTmC.mag.f |
MV |
FLOAT32 |
MX |
B |
Variation
Dur Ph C |
Variation
duration Phase C |
0.000...3600.000
s |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 3 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV3MSTA1.VVaTmC.t |
MV |
Timestamp |
MX |
B |
Var
Dur Ph C time |
Variation
Ph C start time stamp |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 3 |
|||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV3MSTA1.APreVaA.mag.f |
MV |
FLOAT32 |
MX |
B |
Var
current Ph A |
Current
magnitude Phase A preceding variation |
0.00...60.00
xIn |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 3 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV3MSTA1.APreVaB.mag.f |
MV |
FLOAT32 |
MX |
B |
Var
current Ph B |
Current
magnitude Phase B preceding variation |
0.00...60.00
xIn |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 3 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
MON |
LD0.QVV3MSTA1.APreVaC.mag.f |
MV |
FLOAT32 |
MX |
B |
Var
current Ph C |
Current
magnitude Phase C preceding variation |
0.00...60.00
xIn |
Monitoring\Recorded
data\Power quality\PHQVVR1\Variation 3 |
||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
SET |
LD0.PH1QVVR1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Power
quality\PHQVVR1 |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
SET |
LD0.PH1QVVR1.DipStrVal1.setMag.f |
ASG |
FLOAT32 |
SG |
B |
80.0 |
Voltage
dip set 1 |
Dip
limit 1 in % of reference voltage |
10.0...100.0
% |
Settings\Settings\Power
quality\PHQVVR1 |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
SET |
LD0.PH1QVVR1.DipStrVal2.setMag.f |
ASG |
FLOAT32 |
SG |
B |
80.0 |
Voltage
dip set 2 |
Dip
limit 2 in % of reference voltage |
10.0...100.0
% |
Settings\Settings\Power
quality\PHQVVR1 |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
SET |
LD0.PH1QVVR1.DipStrVal3.setMag.f |
ASG |
FLOAT32 |
SG |
B |
80.0 |
Voltage
dip set 3 |
Dip
limit 3 in % of reference voltage |
10.0...100.0
% |
Settings\Settings\Power
quality\PHQVVR1 |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
SET |
LD0.PH1QVVR1.SwlStrVal1.setMag.f |
ASG |
FLOAT32 |
SG |
B |
120.0 |
Voltage
swell set 1 |
Swell
limit 1 in % of reference voltage |
100.0...140.0
% |
Settings\Settings\Power
quality\PHQVVR1 |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
SET |
LD0.PH1QVVR1.SwlStrVal2.setMag.f |
ASG |
FLOAT32 |
SG |
B |
120.0 |
Voltage
swell set 2 |
Swell
limit 2 in % of reference voltage |
100.0...140.0
% |
Settings\Settings\Power
quality\PHQVVR1 |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
SET |
LD0.PH1QVVR1.SwlStrVal3.setMag.f |
ASG |
FLOAT32 |
SG |
B |
120.0 |
Voltage
swell set 3 |
Swell
limit 3 in % of reference voltage |
100.0...140.0
% |
Settings\Settings\Power
quality\PHQVVR1 |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
SET |
LD0.PH1QVVR1.IntrStrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
10.0 |
Voltage
Int set |
Interruption
limit in % of reference voltage |
0.0...100.0
% |
Settings\Settings\Power
quality\PHQVVR1 |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
SET |
LD0.PH1QVVR1.RefV.setMag.f |
ASG |
FLOAT32 |
SG |
B |
57.7 |
Reference
voltage |
Reference
supply voltage in % |
10.0...200.0
%Un |
Settings\Settings\Power
quality\PHQVVR1 |
UL1TVTR1 |
||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
SET |
LD0.PH1QVVR1.DipCyc1.setMag.f |
ASG |
FLOAT32 |
SG |
B |
3.0 |
VVa
dip time 1 |
Voltage
variation dip duration 1 |
0.5...54.0
cycles |
Settings\Settings\Power
quality\PHQVVR1 |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
SET |
LD0.PH1QVVR1.DipCyc2.setMag.f |
ASG |
FLOAT32 |
SG |
B |
30.0 |
VVa
dip time 2 |
Voltage
variation dip duration 2 |
10.0...180.0
cycles |
Settings\Settings\Power
quality\PHQVVR1 |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
SET |
LD0.PH1QVVR1.DipTmms3.setVal |
ING |
INT32 |
SG |
B |
3000 |
VVa
dip time 3 |
Voltage
variation dip duration 3 |
2000...60000
ms |
Settings\Settings\Power
quality\PHQVVR1 |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
SET |
LD0.PH1QVVR1.SwlCyc1.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.5 |
VVa
swell time 1 |
Voltage
variation swell duration 1 |
0.5...54.0
cycles |
Settings\Settings\Power
quality\PHQVVR1 |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
SET |
LD0.PH1QVVR1.SwlCyc2.setMag.f |
ASG |
FLOAT32 |
SG |
B |
10.0 |
VVa
swell time 2 |
Voltage
variation swell duration 2 |
10.0...80.0
cycles |
Settings\Settings\Power
quality\PHQVVR1 |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
SET |
LD0.PH1QVVR1.SwlTmms3.setVal |
ING |
INT32 |
SG |
B |
2000 |
VVa
swell time 3 |
Voltage
variation swell duration 3 |
2000...60000
ms |
Settings\Settings\Power
quality\PHQVVR1 |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
SET |
LD0.PH1QVVR1.IntrCyc1.setMag.f |
ASG |
FLOAT32 |
SG |
B |
3.0 |
VVa
Int time 1 |
Voltage
variation Int duration 1 |
0.5...30.0
cycles |
Settings\Settings\Power
quality\PHQVVR1 |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
SET |
LD0.PH1QVVR1.IntrCyc2.setMag.f |
ASG |
FLOAT32 |
SG |
B |
30.0 |
VVa
Int time 2 |
Voltage
variation Int duration 2 |
10.0...180.0
cycles |
Settings\Settings\Power
quality\PHQVVR1 |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
SET |
LD0.PH1QVVR1.IntrTmms3.setVal |
ING |
INT32 |
SG |
B |
3000 |
VVa
Int time 3 |
Voltage
variation interruption duration 3 |
2000...60000
ms |
Settings\Settings\Power
quality\PHQVVR1 |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
SET |
LD0.PH1QVVR1.MaxDurTmms.setVal |
ING |
INT32 |
SG |
B |
60000 |
VVa
Dur Max |
Maximum
voltage variation duration |
100...3600000
ms |
Settings\Settings\Power
quality\PHQVVR1 |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
SET |
LD0.PH1QVVR1.PhSv.setVal |
ING |
Enum |
SP |
B |
7 |
Phase
supervision |
Monitored
voltage phase |
1=Ph
A; 2=Ph B; 3=Ph A + B; 4=Ph C; 5=Ph A + C; 6=Ph B + C; 7=Ph A + B + C |
Settings\Settings\Power
quality\PHQVVR1 |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
SET |
LD0.PH1QVVR1.OpModPh.setVal |
ING |
Enum |
SP |
B |
2 |
Phase
mode |
Three/Single
phase mode |
1=Three
Phase; 2=Single Phase |
Settings\Settings\Power
quality\PHQVVR1 |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
SET |
LD0.PH1QVVR1.VVaEna.setVal |
ING |
Enum |
SP |
B |
7 |
Variation
enable |
Enable
variation type |
1=Swell;
2=Dip; 3=Swell + dip; 4=Interruption; 5=Swell + Int; 6=Dip + Int;
7=Swell+dip+Int |
Settings\Settings\Power
quality\PHQVVR1 |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
TES |
LD0.PH1QVVR1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
1 |
PHQVVR1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE;
-59=Activate SWELLST; -60=Deactive SWELLST; -61=Activate DIPST; -62=Deactive
DIPST; -63=Activate INTST; -64=Deactive INTST |
Tests\Function
tests\Power quality |
|||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
VER |
LD0.PH1QVVR1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
VER |
LD0.PH2QVVR1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
VER |
LD0.PH3QVVR1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
VER |
LD0.QVV1MSTA1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
VER |
LD0.QVV2MSTA1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
PHQVVR1 |
PQ
3U<> |
PQ
3U<>(1) |
VER |
LD0.QVV3MSTA1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
INP |
LD0.VSQVUB1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
all outputs except measured values |
Monitoring\I/O
status\Power quality\VSQVUB1\Inputs |
||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
OUT |
LD0.VSQVUB1.VarStr.stVal |
SPS |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
MN_UNB_AL |
Alarm
active when 3 sec voltage unbalance exceeds the limit |
Monitoring\I/O
status\Power quality\VSQVUB1\Outputs |
|||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
OUT |
LD0.VSQVUB1.HiPctVUnb.stVal |
SPS |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
PCT_UNB_AL |
Alarm
active when percentile unbalance exceeds the limit |
Monitoring\I/O
status\Power quality\VSQVUB1\Outputs |
|||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
OUT |
LD0.VSQVUB1.ObsPerAct.stVal |
SPS |
BOOLEAN |
ST |
B |
OBS_PR_ACT |
Observation
period is active |
Monitoring\I/O
status\Power quality\VSQVUB1\Outputs |
|||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
CTR |
LD0.VSQVUB1.TrgObsPer.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Trigger
for observation period) |
||||||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
CTR |
LD0.VSQVUB1.RecRs.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Recorded
data reset) |
||||||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
MON |
LD0.VSQVUB1.Beh.stVal |
INS |
Enum |
ST |
B |
VSQVUB1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
MON |
LD0.VSQVUB1.MaxVVa.mag.f |
MV |
FLOAT32 |
MX |
B |
MAX_UNB_VAL |
Maximum
voltage unbalance measured in the observation period |
0.00...100.00
% |
Monitoring\I/O
status\Power quality\VSQVUB1\Monitored data |
||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
MON |
LD0.VSQVUB1.MaxVVa.t |
MV |
Timestamp |
MX |
B |
MAX_UNB_TIME |
Time
stamp at which maximum voltage unbalance measured in the observation period |
Monitoring\I/O
status\Power quality\VSQVUB1\Monitored data |
|||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
MON |
LD0.VSQVUB1.PctUnbVal.mag.f |
MV |
FLOAT32 |
MX |
B |
PCT_UNB_VAL |
Limit
below which percentile unbalance of the values lie |
0.00...100.00
% |
Monitoring\I/O
status\Power quality\VSQVUB1\Monitored data |
||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
MON |
LD0.VSQVUB1.VUnb3sMn.mag.f |
MV |
FLOAT32 |
MX |
B |
3S_MN_UNB |
Non
sliding 3 second mean value of voltage unbalance |
0.00...100.00
% |
Monitoring\I/O
status\Power quality\VSQVUB1\Monitored data |
||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
MON |
LD0.VSQVUB1.VUnb10mMn.mag.f |
MV |
FLOAT32 |
MX |
B |
10MIN_MN_UNB |
Sliding
10 minutes mean value of voltage unbalance |
0.00...100.00
% |
Monitoring\I/O
status\Power quality\VSQVUB1\Monitored data |
||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
MON |
LD0.VSQVUB1.ObsPerStr.t |
SPS |
Timestamp |
ST |
B |
PR_STR_TIME |
Time
stamp of starting of the previous observation period |
Monitoring\I/O
status\Power quality\VSQVUB1\Monitored data |
|||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
MON |
LD0.VSQVUB1.ObsPerEnd.t |
SPS |
Timestamp |
ST |
B |
PR_END_TIME |
Time
stamp of end of previous observation period |
Monitoring\I/O
status\Power quality\VSQVUB1\Monitored data |
|||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
MON |
LD0.QVU1MSTA1.MaxVVa.mag.f |
MV |
FLOAT32 |
MX |
B |
Max
unbalance Volt |
Maximum
3 sec voltage |
0.00...100.00
% |
Monitoring\Recorded
data\Power quality\VSQVUB1\Unbalance 1 |
||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
MON |
LD0.QVU1MSTA1.MaxVVa.t |
MV |
Timestamp |
MX |
B |
Time
Max Unb Volt |
Time
stamp of voltage unbalance |
Monitoring\Recorded
data\Power quality\VSQVUB1\Unbalance 1 |
|||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
MON |
LD0.QVU1MSTA1.VVaTm.mag.f |
MV |
FLOAT32 |
MX |
B |
Alarm
high mean Dur |
Time
duration for alarm high mean unbalance |
0.000...3600.000
s |
Monitoring\Recorded
data\Power quality\VSQVUB1\Unbalance 1 |
||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
MON |
LD0.QVU2MSTA1.MaxVVa.mag.f |
MV |
FLOAT32 |
MX |
B |
Max
unbalance Volt |
Maximum
3 sec voltage |
0.00...100.00
% |
Monitoring\Recorded
data\Power quality\VSQVUB1\Unbalance 2 |
||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
MON |
LD0.QVU2MSTA1.MaxVVa.t |
MV |
Timestamp |
MX |
B |
Time
Max Unb Volt |
Time
stamp of voltage unbalance |
Monitoring\Recorded
data\Power quality\VSQVUB1\Unbalance 2 |
|||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
MON |
LD0.QVU2MSTA1.VVaTm.mag.f |
MV |
FLOAT32 |
MX |
B |
Alarm
high mean Dur |
Time
duration for alarm high mean unbalance |
0.000...3600.000
s |
Monitoring\Recorded
data\Power quality\VSQVUB1\Unbalance 2 |
||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
MON |
LD0.QVU3MSTA1.MaxVVa.mag.f |
MV |
FLOAT32 |
MX |
B |
Max
unbalance Volt |
Maximum
3 sec voltage |
0.00...100.00
% |
Monitoring\Recorded
data\Power quality\VSQVUB1\Unbalance 3 |
||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
MON |
LD0.QVU3MSTA1.MaxVVa.t |
MV |
Timestamp |
MX |
B |
Time
Max Unb Volt |
Time
stamp of voltage unbalance |
Monitoring\Recorded
data\Power quality\VSQVUB1\Unbalance 3 |
|||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
MON |
LD0.QVU3MSTA1.VVaTm.mag.f |
MV |
FLOAT32 |
MX |
B |
Alarm
high mean Dur |
Time
duration for alarm high mean unbalance |
0.000...3600.000
s |
Monitoring\Recorded
data\Power quality\VSQVUB1\Unbalance 3 |
||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
SET |
LD0.VSQVUB1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
On/Off |
1=on;
5=off |
Settings\Settings\Power
quality\VSQVUB1 |
|||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
SET |
LD0.VSQVUB1.UnbDetMth.setVal |
ING |
Enum |
SP |
B |
3 |
Unb
detection method |
Set
the operation mode for voltage unbalance calculation |
1=Neg
Seq; 2=Zero Seq; 3=Neg to Pos Seq; 4=Zero to Pos Seq; 5=Ph vectors Comp |
Settings\Settings\Power
quality\VSQVUB1 |
|||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
SET |
LD0.VSQVUB1.StrVal.setMag.f |
ASG |
FLOAT32 |
SP |
B |
1 |
Unbalance
start Val |
Voltage
unbalance start value |
1...100
% |
Settings\Settings\Power
quality\VSQVUB1 |
|||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
SET |
LD0.VSQVUB1.TrgModPQ.setVal |
ING |
Enum |
SP |
B |
3 |
Trigger
mode |
Specifies
the observation period triggering mode |
1=Single;
2=Periodic; 3=Continuous |
Settings\Settings\Power
quality\VSQVUB1 |
|||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
SET |
LD0.VSQVUB1.ObsPerSel.setVal |
ING |
Enum |
SP |
B |
5 |
Obs
period selection |
Observation
period for unbalance calculation |
1=1
Hour; 2=12 Hours; 3=1 Day; 4=7 Days; 5=User defined |
Settings\Settings\Power
quality\VSQVUB1 |
|||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
SET |
LD0.VSQVUB1.ObsPerUsr.setVal |
ING |
INT32 |
SP |
B |
168 |
User
Def Obs period |
User
define observation period for statistic calculation |
1...168
h |
Settings\Settings\Power
quality\VSQVUB1 |
|||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
SET |
LD0.VSQVUB1.PctUnb.setMag.f |
ASG |
FLOAT32 |
SP |
B |
95 |
Percentile
unbalance |
The
percent to which percentile value PCT_UNB_VAL is calculated |
1...100
% |
Settings\Settings\Power
quality\VSQVUB1 |
|||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
SET |
LD0.VSQVUB1.PerStrDteh.setVal |
ING |
INT32 |
SP |
B |
2011010101 |
Obs
period Str time |
Calendar
time for observation period start given as YYYYMMDDhh |
2008010100...2076010100 |
Settings\Settings\Power
quality\VSQVUB1 |
|||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
TES |
LD0.VSQVUB1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
VSQVUB1 |
Test
control for outputs |
0=Reset;
-67=Activate MN_UNB_AL; -68=Deactive MN_UNB_AL; -69=Activate PCT_UNB_AL;
-70=Deactive PCT_UNB_AL; -77=Activate OBS_PR_ACT; -78=Deactive OBS_PR_ACT |
Tests\Function
tests\Power quality |
|||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
VER |
LD0.VSQVUB1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
VER |
LD0.QVU1MSTA1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
Plate) |
|||||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
VER |
LD0.QVU2MSTA1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
Plate) |
|||||||
|
VSQVUB1 |
PQMUBU(1) |
PQMUBV(1) |
VER |
LD0.QVU3MSTA1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
Plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
PHPTOV1 |
3U>(1) |
59(1) |
INP |
LD0.PHPTOV1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Voltage protection\PHPTOV1\Inputs |
||||
|
PHPTOV1 |
3U>(1) |
59(1) |
OUT |
LD0.PHPTOV1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
(A,B,C) |
Monitoring\I/O
status\Voltage protection\PHPTOV1\Outputs |
||
|
PHPTOV1 |
3U>(1) |
59(1) |
OUT |
LD0.PHPTOV1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
(A,B,C) |
Monitoring\I/O
status\Voltage protection\PHPTOV1\Outputs |
||
|
PHPTOV1 |
3U>(1) |
59(1) |
MON |
LD0.PHPTOV1.Beh.stVal |
INS |
Enum |
ST |
B |
PHPTOV1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
PHPTOV1 |
3U>(1) |
59(1) |
MON |
LD0.PHPTOV1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Voltage protection\PHPTOV1\Monitored data |
||||
|
PHPTOV1 |
3U>(1) |
59(1) |
SET |
LD0.PHPTOV1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Voltage
protection\PHPTOV1 |
|||
|
PHPTOV1 |
3U>(1) |
59(1) |
SET |
LD0.PHPTOV1.NumPh.setVal |
ING |
Enum |
SP |
B |
1 |
Num
of start phases |
Number
of phases required for operate activation |
1=1
out of 3; 2=2 out of 3; 3=3 out of 3 |
Settings\Settings\Voltage
protection\PHPTOV1 |
|||
|
PHPTOV1 |
3U>(1) |
59(1) |
SET |
LD0.PHPTOV1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.10 |
Start
value |
Start
value |
0.05...1.60
xUn |
Settings\Settings\Voltage
protection\PHPTOV1 |
UL1TVTR1 |
||
|
PHPTOV1 |
3U>(1) |
59(1) |
SET |
LD0.PHPTOV1.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Time
multiplier |
Time
multiplier in IEC/ANSI IDMT curves |
0.05...15.0 |
Settings\Settings\Voltage
protection\PHPTOV1 |
|||
|
PHPTOV1 |
3U>(1) |
59(1) |
SET |
LD0.PHPTOV1.TypRsCrv.setVal |
ING |
Enum |
SG |
B |
1 |
Type
of reset curve |
Selection
of reset curve type |
1=Immediate;
2=Def time reset; -1=DT Lin decr rst |
Settings\Settings\Voltage
protection\PHPTOV1 |
|||
|
PHPTOV1 |
3U>(1) |
59(1) |
SET |
LD0.PHPTOV1.TmVCrv.setCharact |
CURVE |
Enum |
SG |
B,I |
15 |
Operating
curve type |
Selection
of time delay curve type |
5=ANSI
Def. Time; 15=IEC Def. Time; 17=Inv. Curve A; 18=Inv. Curve B; 19=Inv. Curve
C; 20=Programmable |
Settings\Settings\Voltage
protection\PHPTOV1 |
|||
|
PHPTOV1 |
3U>(1) |
59(1) |
SET |
LD0.PHPTOV1.TmVCrv.setParA |
CURVE |
FLOAT32 |
SP |
B,I |
1.000 |
Curve
parameter A |
Parameter
A for customer programmable curve |
0.005...200.000 |
Settings\Settings\Voltage
protection\PHPTOV1 |
|||
|
PHPTOV1 |
3U>(1) |
59(1) |
SET |
LD0.PHPTOV1.TmVCrv.setParB |
CURVE |
FLOAT32 |
SP |
B,I |
1.00 |
Curve
parameter B |
Parameter
B for customer programmable curve |
0.50...100.00 |
Settings\Settings\Voltage
protection\PHPTOV1 |
|||
|
PHPTOV1 |
3U>(1) |
59(1) |
SET |
LD0.PHPTOV1.TmVCrv.setParC |
CURVE |
FLOAT32 |
SP |
B,I |
0.0 |
Curve
parameter C |
Parameter
C for customer programmable curve |
0.0...1.0 |
Settings\Settings\Voltage
protection\PHPTOV1 |
|||
|
PHPTOV1 |
3U>(1) |
59(1) |
SET |
LD0.PHPTOV1.TmVCrv.setParD |
CURVE |
FLOAT32 |
SP |
B,I |
0.000 |
Curve
parameter D |
Parameter
D for customer programmable curve |
0.000...60.000 |
Settings\Settings\Voltage
protection\PHPTOV1 |
|||
|
PHPTOV1 |
3U>(1) |
59(1) |
SET |
LD0.PHPTOV1.TmVCrv.setParE |
CURVE |
FLOAT32 |
SP |
B,I |
1.000 |
Curve
parameter E |
Parameter
E for customer programmable curve |
0.000...3.000 |
Settings\Settings\Voltage
protection\PHPTOV1 |
|||
|
PHPTOV1 |
3U>(1) |
59(1) |
SET |
LD0.PHPTOV1.MinOpTmms.setVal |
ING |
INT32 |
SP |
B |
40 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
40...60000
ms |
Settings\Settings\Voltage
protection\PHPTOV1 |
|||
|
PHPTOV1 |
3U>(1) |
59(1) |
SET |
LD0.PHPTOV1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
40 |
Operate
delay time |
Operate
delay time |
40...300000
ms |
Settings\Settings\Voltage
protection\PHPTOV1 |
|||
|
PHPTOV1 |
3U>(1) |
59(1) |
SET |
LD0.PHPTOV1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Voltage
protection\PHPTOV1 |
|||
|
PHPTOV1 |
3U>(1) |
59(1) |
SET |
LD0.PHPTOV1.CrvSatRl.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
2.0 |
Curve
Sat Relative |
Tuning
parameter to avoid curve discontinuities |
0.0...3.0 |
Settings\Settings\Voltage
protection\PHPTOV1 |
|||
|
PHPTOV1 |
3U>(1) |
59(1) |
SET |
LD0.PHPTOV1.VSel.setVal |
ING |
Enum |
SP |
B |
2 |
Voltage
selection |
Parameter
to select phase or phase-to-phase voltages |
1=phase-to-earth;
2=phase-to-phase |
Settings\Settings\Voltage
protection\PHPTOV1 |
|||
|
PHPTOV1 |
3U>(1) |
59(1) |
SET |
LD0.PHPTOV1.HysRl.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
4.0 |
Relative
hysteresis |
Relative
hysteresis for operation |
1.0...5.0
% |
Settings\Settings\Voltage
protection\PHPTOV1 |
|||
|
PHPTOV1 |
3U>(1) |
59(1) |
TES |
LD0.PHPTOV1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
PHPTOV1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Voltage protection |
|||
|
PHPTOV1 |
3U>(1) |
59(1) |
VER |
LD0.PHPTOV1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
PHPTOV2 |
3U>(2) |
59(2) |
INP |
LD0.PHPTOV2.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Voltage protection\PHPTOV2\Inputs |
||||
|
PHPTOV2 |
3U>(2) |
59(2) |
OUT |
LD0.PHPTOV2.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
(A,B,C) |
Monitoring\I/O
status\Voltage protection\PHPTOV2\Outputs |
||
|
PHPTOV2 |
3U>(2) |
59(2) |
OUT |
LD0.PHPTOV2.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
(A,B,C) |
Monitoring\I/O
status\Voltage protection\PHPTOV2\Outputs |
||
|
PHPTOV2 |
3U>(2) |
59(2) |
MON |
LD0.PHPTOV2.Beh.stVal |
INS |
Enum |
ST |
B |
PHPTOV2 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
PHPTOV2 |
3U>(2) |
59(2) |
MON |
LD0.PHPTOV2.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Voltage protection\PHPTOV2\Monitored data |
||||
|
PHPTOV2 |
3U>(2) |
59(2) |
SET |
LD0.PHPTOV2.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Voltage
protection\PHPTOV2 |
|||
|
PHPTOV2 |
3U>(2) |
59(2) |
SET |
LD0.PHPTOV2.NumPh.setVal |
ING |
Enum |
SP |
B |
1 |
Num
of start phases |
Number
of phases required for operate activation |
1=1
out of 3; 2=2 out of 3; 3=3 out of 3 |
Settings\Settings\Voltage
protection\PHPTOV2 |
|||
|
PHPTOV2 |
3U>(2) |
59(2) |
SET |
LD0.PHPTOV2.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.10 |
Start
value |
Start
value |
0.05...1.60
xUn |
Settings\Settings\Voltage
protection\PHPTOV2 |
UL1TVTR1 |
||
|
PHPTOV2 |
3U>(2) |
59(2) |
SET |
LD0.PHPTOV2.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Time
multiplier |
Time
multiplier in IEC/ANSI IDMT curves |
0.05...15.0 |
Settings\Settings\Voltage
protection\PHPTOV2 |
|||
|
PHPTOV2 |
3U>(2) |
59(2) |
SET |
LD0.PHPTOV2.TypRsCrv.setVal |
ING |
Enum |
SG |
B |
1 |
Type
of reset curve |
Selection
of reset curve type |
1=Immediate;
2=Def time reset; -1=DT Lin decr rst |
Settings\Settings\Voltage
protection\PHPTOV2 |
|||
|
PHPTOV2 |
3U>(2) |
59(2) |
SET |
LD0.PHPTOV2.TmVCrv.setCharact |
CURVE |
Enum |
SG |
B,I |
15 |
Operating
curve type |
Selection
of time delay curve type |
5=ANSI
Def. Time; 15=IEC Def. Time; 17=Inv. Curve A; 18=Inv. Curve B; 19=Inv. Curve
C; 20=Programmable |
Settings\Settings\Voltage
protection\PHPTOV2 |
|||
|
PHPTOV2 |
3U>(2) |
59(2) |
SET |
LD0.PHPTOV2.TmVCrv.setParA |
CURVE |
FLOAT32 |
SP |
B,I |
1.000 |
Curve
parameter A |
Parameter
A for customer programmable curve |
0.005...200.000 |
Settings\Settings\Voltage
protection\PHPTOV2 |
|||
|
PHPTOV2 |
3U>(2) |
59(2) |
SET |
LD0.PHPTOV2.TmVCrv.setParB |
CURVE |
FLOAT32 |
SP |
B,I |
1.00 |
Curve
parameter B |
Parameter
B for customer programmable curve |
0.50...100.00 |
Settings\Settings\Voltage
protection\PHPTOV2 |
|||
|
PHPTOV2 |
3U>(2) |
59(2) |
SET |
LD0.PHPTOV2.TmVCrv.setParC |
CURVE |
FLOAT32 |
SP |
B,I |
0.0 |
Curve
parameter C |
Parameter
C for customer programmable curve |
0.0...1.0 |
Settings\Settings\Voltage
protection\PHPTOV2 |
|||
|
PHPTOV2 |
3U>(2) |
59(2) |
SET |
LD0.PHPTOV2.TmVCrv.setParD |
CURVE |
FLOAT32 |
SP |
B,I |
0.000 |
Curve
parameter D |
Parameter
D for customer programmable curve |
0.000...60.000 |
Settings\Settings\Voltage
protection\PHPTOV2 |
|||
|
PHPTOV2 |
3U>(2) |
59(2) |
SET |
LD0.PHPTOV2.TmVCrv.setParE |
CURVE |
FLOAT32 |
SP |
B,I |
1.000 |
Curve
parameter E |
Parameter
E for customer programmable curve |
0.000...3.000 |
Settings\Settings\Voltage
protection\PHPTOV2 |
|||
|
PHPTOV2 |
3U>(2) |
59(2) |
SET |
LD0.PHPTOV2.MinOpTmms.setVal |
ING |
INT32 |
SP |
B |
40 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
40...60000
ms |
Settings\Settings\Voltage
protection\PHPTOV2 |
|||
|
PHPTOV2 |
3U>(2) |
59(2) |
SET |
LD0.PHPTOV2.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
40 |
Operate
delay time |
Operate
delay time |
40...300000
ms |
Settings\Settings\Voltage
protection\PHPTOV2 |
|||
|
PHPTOV2 |
3U>(2) |
59(2) |
SET |
LD0.PHPTOV2.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Voltage
protection\PHPTOV2 |
|||
|
PHPTOV2 |
3U>(2) |
59(2) |
SET |
LD0.PHPTOV2.CrvSatRl.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
2.0 |
Curve
Sat Relative |
Tuning
parameter to avoid curve discontinuities |
0.0...3.0 |
Settings\Settings\Voltage
protection\PHPTOV2 |
|||
|
PHPTOV2 |
3U>(2) |
59(2) |
SET |
LD0.PHPTOV2.VSel.setVal |
ING |
Enum |
SP |
B |
2 |
Voltage
selection |
Parameter
to select phase or phase-to-phase voltages |
1=phase-to-earth;
2=phase-to-phase |
Settings\Settings\Voltage
protection\PHPTOV2 |
|||
|
PHPTOV2 |
3U>(2) |
59(2) |
SET |
LD0.PHPTOV2.HysRl.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
4.0 |
Relative
hysteresis |
Relative
hysteresis for operation |
1.0...5.0
% |
Settings\Settings\Voltage
protection\PHPTOV2 |
|||
|
PHPTOV2 |
3U>(2) |
59(2) |
TES |
LD0.PHPTOV2.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
PHPTOV2 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Voltage protection |
|||
|
PHPTOV2 |
3U>(2) |
59(2) |
VER |
LD0.PHPTOV2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
PHPTUV1 |
3U<(1) |
27(1) |
INP |
LD0.PHPTUV1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Voltage protection\PHPTUV1\Inputs |
||||
|
PHPTUV1 |
3U<(1) |
27(1) |
OUT |
LD0.PHPTUV1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
(A,B,C) |
Monitoring\I/O
status\Voltage protection\PHPTUV1\Outputs |
||
|
PHPTUV1 |
3U<(1) |
27(1) |
OUT |
LD0.PHPTUV1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
(A,B,C) |
Monitoring\I/O
status\Voltage protection\PHPTUV1\Outputs |
||
|
PHPTUV1 |
3U<(1) |
27(1) |
MON |
LD0.PHPTUV1.Beh.stVal |
INS |
Enum |
ST |
B |
PHPTUV1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
PHPTUV1 |
3U<(1) |
27(1) |
MON |
LD0.PHPTUV1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Voltage protection\PHPTUV1\Monitored data |
||||
|
PHPTUV1 |
3U<(1) |
27(1) |
SET |
LD0.PHPTUV1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Voltage
protection\PHPTUV1 |
|||
|
PHPTUV1 |
3U<(1) |
27(1) |
SET |
LD0.PHPTUV1.NumPh.setVal |
ING |
Enum |
SP |
B |
1 |
Num
of start phases |
Number
of phases required for operate activation |
1=1
out of 3; 2=2 out of 3; 3=3 out of 3 |
Settings\Settings\Voltage
protection\PHPTUV1 |
|||
|
PHPTUV1 |
3U<(1) |
27(1) |
SET |
LD0.PHPTUV1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.90 |
Start
value |
Start
value |
0.05...1.20
xUn |
Settings\Settings\Voltage
protection\PHPTUV1 |
UL1TVTR1 |
||
|
PHPTUV1 |
3U<(1) |
27(1) |
SET |
LD0.PHPTUV1.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Time
multiplier |
Time
multiplier in IEC/ANSI IDMT curves |
0.05...15.0 |
Settings\Settings\Voltage
protection\PHPTUV1 |
|||
|
PHPTUV1 |
3U<(1) |
27(1) |
SET |
LD0.PHPTUV1.TypRsCrv.setVal |
ING |
Enum |
SG |
B |
1 |
Type
of reset curve |
Selection
of reset curve type |
1=Immediate;
2=Def time reset; -1=DT Lin decr rst |
Settings\Settings\Voltage
protection\PHPTUV1 |
|||
|
PHPTUV1 |
3U<(1) |
27(1) |
SET |
LD0.PHPTUV1.TmVCrv.setCharact |
CURVE |
Enum |
SG |
B,I |
15 |
Operating
curve type |
Selection
of time delay curve type |
5=ANSI
Def. Time; 15=IEC Def. Time; 21=Inv. Curve A; 22=Inv. Curve B;
23=Programmable |
Settings\Settings\Voltage
protection\PHPTUV1 |
|||
|
PHPTUV1 |
3U<(1) |
27(1) |
SET |
LD0.PHPTUV1.TmVCrv.setParA |
CURVE |
FLOAT32 |
SP |
B,I |
1.000 |
Curve
parameter A |
Parameter
A for customer programmable curve |
0.005...200.000 |
Settings\Settings\Voltage
protection\PHPTUV1 |
|||
|
PHPTUV1 |
3U<(1) |
27(1) |
SET |
LD0.PHPTUV1.TmVCrv.setParB |
CURVE |
FLOAT32 |
SP |
B,I |
1.00 |
Curve
parameter B |
Parameter
B for customer programmable curve |
0.50...100.00 |
Settings\Settings\Voltage
protection\PHPTUV1 |
|||
|
PHPTUV1 |
3U<(1) |
27(1) |
SET |
LD0.PHPTUV1.TmVCrv.setParC |
CURVE |
FLOAT32 |
SP |
B,I |
0.0 |
Curve
parameter C |
Parameter
C for customer programmable curve |
0.0...1.0 |
Settings\Settings\Voltage
protection\PHPTUV1 |
|||
|
PHPTUV1 |
3U<(1) |
27(1) |
SET |
LD0.PHPTUV1.TmVCrv.setParD |
CURVE |
FLOAT32 |
SP |
B,I |
0.000 |
Curve
parameter D |
Parameter
D for customer programmable curve |
0.000...60.000 |
Settings\Settings\Voltage
protection\PHPTUV1 |
|||
|
PHPTUV1 |
3U<(1) |
27(1) |
SET |
LD0.PHPTUV1.TmVCrv.setParE |
CURVE |
FLOAT32 |
SP |
B,I |
1.000 |
Curve
parameter E |
Parameter
E for customer programmable curve |
0.000...3.000 |
Settings\Settings\Voltage
protection\PHPTUV1 |
|||
|
PHPTUV1 |
3U<(1) |
27(1) |
SET |
LD0.PHPTUV1.MinOpTmms.setVal |
ING |
INT32 |
SP |
B |
60 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
60...60000
ms |
Settings\Settings\Voltage
protection\PHPTUV1 |
|||
|
PHPTUV1 |
3U<(1) |
27(1) |
SET |
LD0.PHPTUV1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
60 |
Operate
delay time |
Operate
delay time |
60...300000
ms |
Settings\Settings\Voltage
protection\PHPTUV1 |
|||
|
PHPTUV1 |
3U<(1) |
27(1) |
SET |
LD0.PHPTUV1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Voltage
protection\PHPTUV1 |
|||
|
PHPTUV1 |
3U<(1) |
27(1) |
SET |
LD0.PHPTUV1.CrvSatRl.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
2.0 |
Curve
Sat Relative |
Tuning
parameter to avoid curve discontinuities |
0.0...3.0 |
Settings\Settings\Voltage
protection\PHPTUV1 |
|||
|
PHPTUV1 |
3U<(1) |
27(1) |
SET |
LD0.PHPTUV1.VSel.setVal |
ING |
Enum |
SP |
B |
2 |
Voltage
selection |
Parameter
to select phase or phase-to-phase voltages |
1=phase-to-earth;
2=phase-to-phase |
Settings\Settings\Voltage
protection\PHPTUV1 |
|||
|
PHPTUV1 |
3U<(1) |
27(1) |
SET |
LD0.PHPTUV1.BlkVal.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.20 |
Voltage
block value |
Low
level blocking for undervoltage mode |
0.05...1.00
xUn |
Settings\Settings\Voltage
protection\PHPTUV1 |
UL1TVTR1 |
||
|
PHPTUV1 |
3U<(1) |
27(1) |
SET |
LD0.PHPTUV1.EnaBlkVal.setVal |
SPG |
BOOLEAN |
SP |
B |
1 |
Enable
block value |
Enable
internal blocking |
Settings\Settings\Voltage
protection\PHPTUV1 |
||||
|
PHPTUV1 |
3U<(1) |
27(1) |
SET |
LD0.PHPTUV1.HysRl.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
4.0 |
Relative
hysteresis |
Relative
hysteresis for operation |
1.0...5.0
% |
Settings\Settings\Voltage
protection\PHPTUV1 |
|||
|
PHPTUV1 |
3U<(1) |
27(1) |
TES |
LD0.PHPTUV1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
PHPTUV1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Voltage protection |
|||
|
PHPTUV1 |
3U<(1) |
27(1) |
VER |
LD0.PHPTUV1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
PHPTUV2 |
3U<(2) |
27(2) |
INP |
LD0.PHPTUV2.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Voltage protection\PHPTUV2\Inputs |
||||
|
PHPTUV2 |
3U<(2) |
27(2) |
OUT |
LD0.PHPTUV2.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
(A,B,C) |
Monitoring\I/O
status\Voltage protection\PHPTUV2\Outputs |
||
|
PHPTUV2 |
3U<(2) |
27(2) |
OUT |
LD0.PHPTUV2.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
(A,B,C) |
Monitoring\I/O
status\Voltage protection\PHPTUV2\Outputs |
||
|
PHPTUV2 |
3U<(2) |
27(2) |
MON |
LD0.PHPTUV2.Beh.stVal |
INS |
Enum |
ST |
B |
PHPTUV2 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
PHPTUV2 |
3U<(2) |
27(2) |
MON |
LD0.PHPTUV2.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Voltage protection\PHPTUV2\Monitored data |
||||
|
PHPTUV2 |
3U<(2) |
27(2) |
SET |
LD0.PHPTUV2.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Voltage
protection\PHPTUV2 |
|||
|
PHPTUV2 |
3U<(2) |
27(2) |
SET |
LD0.PHPTUV2.NumPh.setVal |
ING |
Enum |
SP |
B |
1 |
Num
of start phases |
Number
of phases required for operate activation |
1=1
out of 3; 2=2 out of 3; 3=3 out of 3 |
Settings\Settings\Voltage
protection\PHPTUV2 |
|||
|
PHPTUV2 |
3U<(2) |
27(2) |
SET |
LD0.PHPTUV2.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.90 |
Start
value |
Start
value |
0.05...1.20
xUn |
Settings\Settings\Voltage
protection\PHPTUV2 |
UL1TVTR1 |
||
|
PHPTUV2 |
3U<(2) |
27(2) |
SET |
LD0.PHPTUV2.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Time
multiplier |
Time
multiplier in IEC/ANSI IDMT curves |
0.05...15.0 |
Settings\Settings\Voltage
protection\PHPTUV2 |
|||
|
PHPTUV2 |
3U<(2) |
27(2) |
SET |
LD0.PHPTUV2.TypRsCrv.setVal |
ING |
Enum |
SG |
B |
1 |
Type
of reset curve |
Selection
of reset curve type |
1=Immediate;
2=Def time reset; -1=DT Lin decr rst |
Settings\Settings\Voltage
protection\PHPTUV2 |
|||
|
PHPTUV2 |
3U<(2) |
27(2) |
SET |
LD0.PHPTUV2.TmVCrv.setCharact |
CURVE |
Enum |
SG |
B,I |
15 |
Operating
curve type |
Selection
of time delay curve type |
5=ANSI
Def. Time; 15=IEC Def. Time; 21=Inv. Curve A; 22=Inv. Curve B;
23=Programmable |
Settings\Settings\Voltage
protection\PHPTUV2 |
|||
|
PHPTUV2 |
3U<(2) |
27(2) |
SET |
LD0.PHPTUV2.TmVCrv.setParA |
CURVE |
FLOAT32 |
SP |
B,I |
1.000 |
Curve
parameter A |
Parameter
A for customer programmable curve |
0.005...200.000 |
Settings\Settings\Voltage
protection\PHPTUV2 |
|||
|
PHPTUV2 |
3U<(2) |
27(2) |
SET |
LD0.PHPTUV2.TmVCrv.setParB |
CURVE |
FLOAT32 |
SP |
B,I |
1.00 |
Curve
parameter B |
Parameter
B for customer programmable curve |
0.50...100.00 |
Settings\Settings\Voltage
protection\PHPTUV2 |
|||
|
PHPTUV2 |
3U<(2) |
27(2) |
SET |
LD0.PHPTUV2.TmVCrv.setParC |
CURVE |
FLOAT32 |
SP |
B,I |
0.0 |
Curve
parameter C |
Parameter
C for customer programmable curve |
0.0...1.0 |
Settings\Settings\Voltage
protection\PHPTUV2 |
|||
|
PHPTUV2 |
3U<(2) |
27(2) |
SET |
LD0.PHPTUV2.TmVCrv.setParD |
CURVE |
FLOAT32 |
SP |
B,I |
0.000 |
Curve
parameter D |
Parameter
D for customer programmable curve |
0.000...60.000 |
Settings\Settings\Voltage
protection\PHPTUV2 |
|||
|
PHPTUV2 |
3U<(2) |
27(2) |
SET |
LD0.PHPTUV2.TmVCrv.setParE |
CURVE |
FLOAT32 |
SP |
B,I |
1.000 |
Curve
parameter E |
Parameter
E for customer programmable curve |
0.000...3.000 |
Settings\Settings\Voltage
protection\PHPTUV2 |
|||
|
PHPTUV2 |
3U<(2) |
27(2) |
SET |
LD0.PHPTUV2.MinOpTmms.setVal |
ING |
INT32 |
SP |
B |
60 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
60...60000
ms |
Settings\Settings\Voltage
protection\PHPTUV2 |
|||
|
PHPTUV2 |
3U<(2) |
27(2) |
SET |
LD0.PHPTUV2.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
60 |
Operate
delay time |
Operate
delay time |
60...300000
ms |
Settings\Settings\Voltage
protection\PHPTUV2 |
|||
|
PHPTUV2 |
3U<(2) |
27(2) |
SET |
LD0.PHPTUV2.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Voltage
protection\PHPTUV2 |
|||
|
PHPTUV2 |
3U<(2) |
27(2) |
SET |
LD0.PHPTUV2.CrvSatRl.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
2.0 |
Curve
Sat Relative |
Tuning
parameter to avoid curve discontinuities |
0.0...3.0 |
Settings\Settings\Voltage
protection\PHPTUV2 |
|||
|
PHPTUV2 |
3U<(2) |
27(2) |
SET |
LD0.PHPTUV2.VSel.setVal |
ING |
Enum |
SP |
B |
2 |
Voltage
selection |
Parameter
to select phase or phase-to-phase voltages |
1=phase-to-earth;
2=phase-to-phase |
Settings\Settings\Voltage
protection\PHPTUV2 |
|||
|
PHPTUV2 |
3U<(2) |
27(2) |
SET |
LD0.PHPTUV2.BlkVal.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.20 |
Voltage
block value |
Low
level blocking for undervoltage mode |
0.05...1.00
xUn |
Settings\Settings\Voltage
protection\PHPTUV2 |
UL1TVTR1 |
||
|
PHPTUV2 |
3U<(2) |
27(2) |
SET |
LD0.PHPTUV2.EnaBlkVal.setVal |
SPG |
BOOLEAN |
SP |
B |
1 |
Enable
block value |
Enable
internal blocking |
Settings\Settings\Voltage
protection\PHPTUV2 |
||||
|
PHPTUV2 |
3U<(2) |
27(2) |
SET |
LD0.PHPTUV2.HysRl.setMag.f |
ASG |
FLOAT32 |
SP |
B,I |
4.0 |
Relative
hysteresis |
Relative
hysteresis for operation |
1.0...5.0
% |
Settings\Settings\Voltage
protection\PHPTUV2 |
|||
|
PHPTUV2 |
3U<(2) |
27(2) |
TES |
LD0.PHPTUV2.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
PHPTUV2 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Voltage protection |
|||
|
PHPTUV2 |
3U<(2) |
27(2) |
VER |
LD0.PHPTUV2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
NSPTOV1 |
U2>(1) |
47O-(1) |
INP |
LD0.NSPTOV1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Voltage protection\NSPTOV1\Inputs |
||||
|
NSPTOV1 |
U2>(1) |
47O-(1) |
OUT |
LD0.NSPTOV1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Voltage protection\NSPTOV1\Outputs |
|||
|
NSPTOV1 |
U2>(1) |
47O-(1) |
OUT |
LD0.NSPTOV1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Voltage protection\NSPTOV1\Outputs |
|||
|
NSPTOV1 |
U2>(1) |
47O-(1) |
MON |
LD0.NSPTOV1.Beh.stVal |
INS |
Enum |
ST |
B |
NSPTOV1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
NSPTOV1 |
U2>(1) |
47O-(1) |
MON |
LD0.NSPTOV1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Voltage protection\NSPTOV1\Monitored data |
||||
|
NSPTOV1 |
U2>(1) |
47O-(1) |
SET |
LD0.NSPTOV1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Voltage
protection\NSPTOV1 |
|||
|
NSPTOV1 |
U2>(1) |
47O-(1) |
SET |
LD0.NSPTOV1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.030 |
Start
value |
Start
value |
0.010...1.000
xUn |
Settings\Settings\Voltage
protection\NSPTOV1 |
UL1TVTR1 |
||
|
NSPTOV1 |
U2>(1) |
47O-(1) |
SET |
LD0.NSPTOV1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
40 |
Operate
delay time |
Operate
delay time |
40...120000
ms |
Settings\Settings\Voltage
protection\NSPTOV1 |
|||
|
NSPTOV1 |
U2>(1) |
47O-(1) |
SET |
LD0.NSPTOV1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Voltage
protection\NSPTOV1 |
|||
|
NSPTOV1 |
U2>(1) |
47O-(1) |
TES |
LD0.NSPTOV1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
NSPTOV1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Voltage protection |
|||
|
NSPTOV1 |
U2>(1) |
47O-(1) |
VER |
LD0.NSPTOV1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
NSPTOV2 |
U2>(2) |
47O-(2) |
INP |
LD0.NSPTOV2.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Voltage protection\NSPTOV2\Inputs |
||||
|
NSPTOV2 |
U2>(2) |
47O-(2) |
OUT |
LD0.NSPTOV2.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Voltage protection\NSPTOV2\Outputs |
|||
|
NSPTOV2 |
U2>(2) |
47O-(2) |
OUT |
LD0.NSPTOV2.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Voltage protection\NSPTOV2\Outputs |
|||
|
NSPTOV2 |
U2>(2) |
47O-(2) |
MON |
LD0.NSPTOV2.Beh.stVal |
INS |
Enum |
ST |
B |
NSPTOV2 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
NSPTOV2 |
U2>(2) |
47O-(2) |
MON |
LD0.NSPTOV2.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Voltage protection\NSPTOV2\Monitored data |
||||
|
NSPTOV2 |
U2>(2) |
47O-(2) |
SET |
LD0.NSPTOV2.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Voltage
protection\NSPTOV2 |
|||
|
NSPTOV2 |
U2>(2) |
47O-(2) |
SET |
LD0.NSPTOV2.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.030 |
Start
value |
Start
value |
0.010...1.000
xUn |
Settings\Settings\Voltage
protection\NSPTOV2 |
UL1TVTR1 |
||
|
NSPTOV2 |
U2>(2) |
47O-(2) |
SET |
LD0.NSPTOV2.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
40 |
Operate
delay time |
Operate
delay time |
40...120000
ms |
Settings\Settings\Voltage
protection\NSPTOV2 |
|||
|
NSPTOV2 |
U2>(2) |
47O-(2) |
SET |
LD0.NSPTOV2.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Voltage
protection\NSPTOV2 |
|||
|
NSPTOV2 |
U2>(2) |
47O-(2) |
TES |
LD0.NSPTOV2.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
NSPTOV2 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Voltage protection |
|||
|
NSPTOV2 |
U2>(2) |
47O-(2) |
VER |
LD0.NSPTOV2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
SEQRFUF1 |
FUSEF(1) |
60 |
INP |
LD0.SEQRFUF1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
of function |
Monitoring\I/O
status\Condition monitoring\SEQRFUF1\Inputs |
||||
|
SEQRFUF1 |
FUSEF(1) |
60 |
INP |
LD0.SEQRFUF1.InPosCls.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
CB_CLOSED |
Active
when circuit breaker is closed |
Monitoring\I/O
status\Condition monitoring\SEQRFUF1\Inputs |
||||
|
SEQRFUF1 |
FUSEF(1) |
60 |
INP |
LD0.SEQRFUF1.InDCPosOpn.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
DISCON_OPEN |
Active
when line disconnector is open |
Monitoring\I/O
status\Condition monitoring\SEQRFUF1\Inputs |
||||
|
SEQRFUF1 |
FUSEF(1) |
60 |
INP |
LD0.SEQRFUF1.InMCBPsOpn.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
MINCB_OPEN |
Active
when external MCB opens protected voltage circuit |
Monitoring\I/O
status\Condition monitoring\SEQRFUF1\Inputs |
||||
|
SEQRFUF1 |
FUSEF(1) |
60 |
OUT |
LD0.SEQRFUF1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatIed |
P,H |
FUSEF_U |
General
start of function |
Monitoring\I/O
status\Condition monitoring\SEQRFUF1\Outputs |
|||
|
SEQRFUF1 |
FUSEF(1) |
60 |
OUT |
LD0.SEQRFUF1.Str3Ph.general |
ACD |
BOOLEAN |
ST |
B |
StatIed |
P,H |
FUSEF_3PH |
Three-phase
start of function |
Monitoring\I/O
status\Condition monitoring\SEQRFUF1\Outputs |
|||
|
SEQRFUF1 |
FUSEF(1) |
60 |
CTR |
LD0.SEQRFUF1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Condition
monitoring\SEQRFUF1 |
|||
|
SEQRFUF1 |
FUSEF(1) |
60 |
MON |
LD0.SEQRFUF1.Beh.stVal |
INS |
Enum |
ST |
B |
SEQRFUF1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
SEQRFUF1 |
FUSEF(1) |
60 |
CFG |
LD0.SEQRFUF1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Condition
monitoring\SEQRFUF1 |
|||
|
SEQRFUF1 |
FUSEF(1) |
60 |
CFG |
LD0.SEQRFUF1.BlkValA.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.10 |
Min
Op current delta |
Minimum
operate level of phase current for delta calculation |
0.01...1.00
xIn |
Configuration\Condition
monitoring\SEQRFUF1 |
IL1TCTR1 |
||
|
SEQRFUF1 |
FUSEF(1) |
60 |
CFG |
LD0.SEQRFUF1.NgSeqLevA.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.03 |
Neg
Seq current Lev |
Operate
level of neg seq undercurrent element |
0.03...0.20
xIn |
Configuration\Condition
monitoring\SEQRFUF1 |
IL1TCTR1 |
||
|
SEQRFUF1 |
FUSEF(1) |
60 |
CFG |
LD0.SEQRFUF1.ChgRteA.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.15 |
Current
change rate |
Operate
level of change in phase current |
0.01...0.50
xIn |
Configuration\Condition
monitoring\SEQRFUF1 |
IL1TCTR1 |
||
|
SEQRFUF1 |
FUSEF(1) |
60 |
CFG |
LD0.SEQRFUF1.ChgRteEna.setVal |
SPG |
BOOLEAN |
SP |
B |
0 |
Change
rate enable |
Enabling
operation of change based function |
Configuration\Condition
monitoring\SEQRFUF1 |
||||
|
SEQRFUF1 |
FUSEF(1) |
60 |
CFG |
LD0.SEQRFUF1.ChgRteV.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.60 |
Voltage
change rate |
Operate
level of change in phase voltage |
0.50...0.90
xUn |
Configuration\Condition
monitoring\SEQRFUF1 |
UL1TVTR1 |
||
|
SEQRFUF1 |
FUSEF(1) |
60 |
CFG |
LD0.SEQRFUF1.EnaSealIn.setVal |
SPG |
BOOLEAN |
SP |
B |
0 |
Enable
seal in |
Enabling
seal in functionality |
Configuration\Condition
monitoring\SEQRFUF1 |
||||
|
SEQRFUF1 |
FUSEF(1) |
60 |
CFG |
LD0.SEQRFUF1.BlkValV.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.70 |
Min
Op voltage delta |
Minimum
operate level of phase voltage for delta calculation |
0.01...1.00
xUn |
Configuration\Condition
monitoring\SEQRFUF1 |
UL1TVTR1 |
||
|
SEQRFUF1 |
FUSEF(1) |
60 |
CFG |
LD0.SEQRFUF1.SealInV.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.70 |
Seal
in voltage |
Operate
level of seal-in phase voltage |
0.01...1.00
xUn |
Configuration\Condition
monitoring\SEQRFUF1 |
UL1TVTR1 |
||
|
SEQRFUF1 |
FUSEF(1) |
60 |
CFG |
LD0.SEQRFUF1.NgSeqLevV.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.10 |
Neg
Seq voltage Lev |
Operate
level of neg seq overvoltage element |
0.03...0.20
xUn |
Configuration\Condition
monitoring\SEQRFUF1 |
UL1TVTR1 |
||
|
SEQRFUF1 |
FUSEF(1) |
60 |
CFG |
LD0.SEQRFUF1.DeaLinValA.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.05
|
Current
dead Lin Val |
Operate
level for open phase current detection |
0.05...1.00
xIn |
Configuration\Condition
monitoring\SEQRFUF1 |
IL1TCTR1 |
||
|
SEQRFUF1 |
FUSEF(1) |
60 |
TES |
LD0.SEQRFUF1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
SEQRFUF1 |
Test
control for outputs |
0=Reset;
117=Activate FUSEF_3PH; 118=Deactive FUSEF_3PH; 119=Activate FUSEF_U;
120=Deactive FUSEF_U |
Tests\Function
tests\Condition monitoring |
|||
|
SEQRFUF1 |
FUSEF(1) |
60 |
VER |
LD0.SEQRFUF1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
FRPFRQ1 |
f>/f |
81(1) |
INP |
LD0.FRPTRC1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Frequency protection\FRPFRQ1\Inputs |
||||
|
FRPFRQ1 |
f>/f |
81(1) |
OUT |
LD0.FRPTRC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Frequency protection\FRPFRQ1\Outputs |
|||
|
FRPFRQ1 |
f>/f |
81(1) |
OUT |
LD0.FRPTRC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
OPERATE |
Operate |
Monitoring\I/O
status\Frequency protection\FRPFRQ1\Outputs |
|||||
|
FRPFRQ1 |
f>/f |
81(1) |
OUT |
LD0.FRPTOF1.Str.general |
ACD |
BOOLEAN |
ST |
B |
ST_OFRQ |
Start
signal for overfrequency |
Monitoring\I/O
status\Frequency protection\FRPFRQ1\Outputs |
|||||
|
FRPFRQ1 |
f>/f |
81(1) |
OUT |
LD0.FRPTOF1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPR_OFRQ |
Operate
signal for overfrequency |
Monitoring\I/O
status\Frequency protection\FRPFRQ1\Outputs |
|||
|
FRPFRQ1 |
f>/f |
81(1) |
OUT |
LD0.FRPTUF1.Str.general |
ACD |
BOOLEAN |
ST |
B |
ST_UFRQ |
Start
signal for underfrequency |
Monitoring\I/O
status\Frequency protection\FRPFRQ1\Outputs |
|||||
|
FRPFRQ1 |
f>/f |
81(1) |
OUT |
LD0.FRPTUF1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPR_UFRQ |
Operate
signal for underfrequency |
Monitoring\I/O
status\Frequency protection\FRPFRQ1\Outputs |
|||
|
FRPFRQ1 |
f>/f |
81(1) |
OUT |
LD0.FRPFRC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
ST_FRG |
Start
signal for frequency gradient |
Monitoring\I/O
status\Frequency protection\FRPFRQ1\Outputs |
|||||
|
FRPFRQ1 |
f>/f |
81(1) |
OUT |
LD0.FRPFRC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPR_FRG |
Operate
signal for frequency gradient |
Monitoring\I/O
status\Frequency protection\FRPFRQ1\Outputs |
|||
|
FRPFRQ1 |
f>/f |
81(1) |
MON |
LD0.FRPTRC1.Beh.stVal |
INS |
Enum |
ST |
B |
FRPFRQ1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
FRPFRQ1 |
f>/f |
81(1) |
MON |
LD0.FRPTRC1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Start
duration |
0.00...100.00
% |
Monitoring\I/O
status\Frequency protection\FRPFRQ1\Monitored data |
||||
|
FRPFRQ1 |
f>/f |
81(1) |
MON |
LD0.FRPTOF1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
ST_DUR_OFRQ |
Start
duration |
0.00...100.00
% |
Monitoring\I/O
status\Frequency protection\FRPFRQ1\Monitored data |
||||
|
FRPFRQ1 |
f>/f |
81(1) |
MON |
LD0.FRPTUF1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
ST_DUR_UFRQ |
Start
duration |
0.00...100.00
% |
Monitoring\I/O
status\Frequency protection\FRPFRQ1\Monitored data |
||||
|
FRPFRQ1 |
f>/f |
81(1) |
MON |
LD0.FRPFRC1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
ST_DUR_FRG |
Start
duration |
0.00...100.00
% |
Monitoring\I/O
status\Frequency protection\FRPFRQ1\Monitored data |
||||
|
FRPFRQ1 |
f>/f |
81(1) |
SET |
LD0.FRPTRC1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Frequency
protection\FRPFRQ1 |
|||
|
FRPFRQ1 |
f>/f |
81(1) |
SET |
LD0.FRPTRC1.OpModProHz.setVal |
ING |
Enum |
SG |
B |
1 |
Operation
mode |
Frequency
protection operation mode selection |
1=Freq<;
2=Freq>; 3=df/dt; 4=Freq< + df/dt; 5=Freq> + df/dt; 6=Freq< OR
df/dt; 7=Freq> OR df/dt |
Settings\Settings\Frequency
protection\FRPFRQ1 |
|||
|
FRPFRQ1 |
f>/f |
81(1) |
SET |
LD0.FRPTOF1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.050 |
Start
value Freq> |
Frequency
start value overfrequency |
0.900...1.200
xFn |
Settings\Settings\Frequency
protection\FRPFRQ1 |
|||
|
FRPFRQ1 |
f>/f |
81(1) |
SET |
LD0.FRPTOF1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
200 |
Operate
Tm Freq |
Operate
delay time for frequency |
80...200000
ms |
Settings\Settings\Frequency
protection\FRPFRQ1 |
|||
|
FRPFRQ1 |
f>/f |
81(1) |
SET |
LD0.FRPTOF1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
0 |
Reset
delay Tm Freq |
Reset
delay time for frequency |
0...60000
ms |
Settings\Settings\Frequency
protection\FRPFRQ1 |
|||
|
FRPFRQ1 |
f>/f |
81(1) |
SET |
LD0.FRPTUF1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.950 |
Start
value Freq< |
Frequency
start value underfrequency |
0.800...1.100
xFn |
Settings\Settings\Frequency
protection\FRPFRQ1 |
|||
|
FRPFRQ1 |
f>/f |
81(1) |
SET |
LD0.FRPFRC1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.010 |
Start
value df/dt |
Frequency
start value rate of change |
-0.200...0.200
xFn /s |
Settings\Settings\Frequency
protection\FRPFRQ1 |
|||
|
FRPFRQ1 |
f>/f |
81(1) |
SET |
LD0.FRPFRC1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
400 |
Operate
Tm df/dt |
Operate
delay time for frequency rate of change |
120...200000
ms |
Settings\Settings\Frequency
protection\FRPFRQ1 |
|||
|
FRPFRQ1 |
f>/f |
81(1) |
SET |
LD0.FRPFRC1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
0 |
Reset
delay Tm df/dt |
Reset
delay time for rate of change |
0...60000
ms |
Settings\Settings\Frequency
protection\FRPFRQ1 |
|||
|
FRPFRQ1 |
f>/f |
81(1) |
TES |
LD0.FRPTRC1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
FRPFRQ1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE;
-21=Activate OPR_UFRQ; -22=Deactive OPR_UFRQ; -23=Activate OPR_OFRQ;
-24=Deactive OPR_OFRQ; -25=Activate OPR_FRG; -26=Deactive OPR_FRG;
-27=Activate ST_UFRQ; -28=Deactive ST_UFRQ; -29=Activate ST_OFRQ;
-30=Deactive ST_OFRQ; -31=Activate ST_FRG; -32=Deactive ST_FRG |
Tests\Function
tests\Frequency protection |
|||
|
FRPFRQ1 |
f>/f |
81(1) |
VER |
LD0.FRPTRC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
FRPFRQ1 |
f>/f |
81(1) |
VER |
LD0.FRPTOF1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
FRPFRQ1 |
f>/f |
81(1) |
VER |
LD0.FRPTUF1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
FRPFRQ1 |
f>/f |
81(1) |
VER |
LD0.FRPFRC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
FRPFRQ2 |
f>/f |
81(2) |
INP |
LD0.FRPTRC2.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Frequency protection\FRPFRQ2\Inputs |
||||
|
FRPFRQ2 |
f>/f |
81(2) |
OUT |
LD0.FRPTRC2.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Frequency protection\FRPFRQ2\Outputs |
|||
|
FRPFRQ2 |
f>/f |
81(2) |
OUT |
LD0.FRPTRC2.Op.general |
ACT |
BOOLEAN |
ST |
B |
OPERATE |
Operate |
Monitoring\I/O
status\Frequency protection\FRPFRQ2\Outputs |
|||||
|
FRPFRQ2 |
f>/f |
81(2) |
OUT |
LD0.FRPTOF2.Str.general |
ACD |
BOOLEAN |
ST |
B |
ST_OFRQ |
Start
signal for overfrequency |
Monitoring\I/O
status\Frequency protection\FRPFRQ2\Outputs |
|||||
|
FRPFRQ2 |
f>/f |
81(2) |
OUT |
LD0.FRPTOF2.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPR_OFRQ |
Operate
signal for overfrequency |
Monitoring\I/O
status\Frequency protection\FRPFRQ2\Outputs |
|||
|
FRPFRQ2 |
f>/f |
81(2) |
OUT |
LD0.FRPTUF2.Str.general |
ACD |
BOOLEAN |
ST |
B |
ST_UFRQ |
Start
signal for underfrequency |
Monitoring\I/O
status\Frequency protection\FRPFRQ2\Outputs |
|||||
|
FRPFRQ2 |
f>/f |
81(2) |
OUT |
LD0.FRPTUF2.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPR_UFRQ |
Operate
signal for underfrequency |
Monitoring\I/O
status\Frequency protection\FRPFRQ2\Outputs |
|||
|
FRPFRQ2 |
f>/f |
81(2) |
OUT |
LD0.FRPFRC2.Str.general |
ACD |
BOOLEAN |
ST |
B |
ST_FRG |
Start
signal for frequency gradient |
Monitoring\I/O
status\Frequency protection\FRPFRQ2\Outputs |
|||||
|
FRPFRQ2 |
f>/f |
81(2) |
OUT |
LD0.FRPFRC2.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPR_FRG |
Operate
signal for frequency gradient |
Monitoring\I/O
status\Frequency protection\FRPFRQ2\Outputs |
|||
|
FRPFRQ2 |
f>/f |
81(2) |
MON |
LD0.FRPTRC2.Beh.stVal |
INS |
Enum |
ST |
B |
FRPFRQ2 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
FRPFRQ2 |
f>/f |
81(2) |
MON |
LD0.FRPTRC2.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Start
duration |
0.00...100.00
% |
Monitoring\I/O
status\Frequency protection\FRPFRQ2\Monitored data |
||||
|
FRPFRQ2 |
f>/f |
81(2) |
MON |
LD0.FRPTOF2.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
ST_DUR_OFRQ |
Start
duration |
0.00...100.00
% |
Monitoring\I/O
status\Frequency protection\FRPFRQ2\Monitored data |
||||
|
FRPFRQ2 |
f>/f |
81(2) |
MON |
LD0.FRPTUF2.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
ST_DUR_UFRQ |
Start
duration |
0.00...100.00
% |
Monitoring\I/O
status\Frequency protection\FRPFRQ2\Monitored data |
||||
|
FRPFRQ2 |
f>/f |
81(2) |
MON |
LD0.FRPFRC2.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
ST_DUR_FRG |
Start
duration |
0.00...100.00
% |
Monitoring\I/O
status\Frequency protection\FRPFRQ2\Monitored data |
||||
|
FRPFRQ2 |
f>/f |
81(2) |
SET |
LD0.FRPTRC2.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Frequency
protection\FRPFRQ2 |
|||
|
FRPFRQ2 |
f>/f |
81(2) |
SET |
LD0.FRPTRC2.OpModProHz.setVal |
ING |
Enum |
SG |
B |
1 |
Operation
mode |
Frequency
protection operation mode selection |
1=Freq<;
2=Freq>; 3=df/dt; 4=Freq< + df/dt; 5=Freq> + df/dt; 6=Freq< OR
df/dt; 7=Freq> OR df/dt |
Settings\Settings\Frequency
protection\FRPFRQ2 |
|||
|
FRPFRQ2 |
f>/f |
81(2) |
SET |
LD0.FRPTOF2.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.050 |
Start
value Freq> |
Frequency
start value overfrequency |
0.900...1.200
xFn |
Settings\Settings\Frequency
protection\FRPFRQ2 |
|||
|
FRPFRQ2 |
f>/f |
81(2) |
SET |
LD0.FRPTOF2.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
200 |
Operate
Tm Freq |
Operate
delay time for frequency |
80...200000
ms |
Settings\Settings\Frequency
protection\FRPFRQ2 |
|||
|
FRPFRQ2 |
f>/f |
81(2) |
SET |
LD0.FRPTOF2.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
0 |
Reset
delay Tm Freq |
Reset
delay time for frequency |
0...60000
ms |
Settings\Settings\Frequency
protection\FRPFRQ2 |
|||
|
FRPFRQ2 |
f>/f |
81(2) |
SET |
LD0.FRPTUF2.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.950 |
Start
value Freq< |
Frequency
start value underfrequency |
0.800...1.100
xFn |
Settings\Settings\Frequency
protection\FRPFRQ2 |
|||
|
FRPFRQ2 |
f>/f |
81(2) |
SET |
LD0.FRPFRC2.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.010 |
Start
value df/dt |
Frequency
start value rate of change |
-0.200...0.200
xFn /s |
Settings\Settings\Frequency
protection\FRPFRQ2 |
|||
|
FRPFRQ2 |
f>/f |
81(2) |
SET |
LD0.FRPFRC2.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
400 |
Operate
Tm df/dt |
Operate
delay time for frequency rate of change |
120...200000
ms |
Settings\Settings\Frequency
protection\FRPFRQ2 |
|||
|
FRPFRQ2 |
f>/f |
81(2) |
SET |
LD0.FRPFRC2.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
0 |
Reset
delay Tm df/dt |
Reset
delay time for rate of change |
0...60000
ms |
Settings\Settings\Frequency
protection\FRPFRQ2 |
|||
|
FRPFRQ2 |
f>/f |
81(2) |
TES |
LD0.FRPTRC2.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
FRPFRQ2 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE;
-21=Activate OPR_UFRQ; -22=Deactive OPR_UFRQ; -23=Activate OPR_OFRQ;
-24=Deactive OPR_OFRQ; -25=Activate OPR_FRG; -26=Deactive OPR_FRG;
-27=Activate ST_UFRQ; -28=Deactive ST_UFRQ; -29=Activate ST_OFRQ;
-30=Deactive ST_OFRQ; -31=Activate ST_FRG; -32=Deactive ST_FRG |
Tests\Function
tests\Frequency protection |
|||
|
FRPFRQ2 |
f>/f |
81(2) |
VER |
LD0.FRPTRC2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
FRPFRQ2 |
f>/f |
81(2) |
VER |
LD0.FRPTOF2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
FRPFRQ2 |
f>/f |
81(2) |
VER |
LD0.FRPTUF2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
FRPFRQ2 |
f>/f |
81(2) |
VER |
LD0.FRPFRC2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
PEMMXU1 |
P,E |
P,E |
INP |
LD0.PEMMTR1.SupDmdRs.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
RSTACM |
Reset
of accumulated energy reading |
Monitoring\I/O
status\Measurements\PEMMXU1\Inputs |
||||
|
PEMMXU1 |
P,E |
P,E |
CTR |
LD0.PEMMXU1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Measurements\PEMMXU1 |
|||
|
PEMMXU1 |
P,E |
P,E |
CTR |
LD0.PEMMTR1.SupDmdRs.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
PEMMXU1
acc.energy |
Reset
of accumulated energy reading |
0=Cancel;
1=Clear |
Clear\Clear |
|||
|
PEMMXU1 |
P,E |
P,E |
CTR |
LD0.PEMSTA1.RecRs.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(PEMMXU1
demands) |
||||||||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMMXU1.TotW.instMag.f |
MV |
FLOAT32 |
MX |
B |
MeasFlt |
P |
P-kW |
Total
Active Power |
-999999.9...999999.9
kW |
Measurements\PEMMXU1 |
||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMMXU1.TotW.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasFlt |
P |
P_DB |
Active
power, magnitude of reported value |
-999999.9...999999.9
kW |
Monitoring\I/O
status\Measurements\PEMMXU1\Monitored data |
||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMMXU1.TotVAr.instMag.f |
MV |
FLOAT32 |
MX |
B |
MeasFlt |
P |
Q-kVAr |
Total
Reactive Power |
-999999.9...999999.9
kVAr |
Measurements\PEMMXU1 |
||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMMXU1.TotVAr.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasFlt |
P |
Q_DB |
Reactive
power, magnitude of reported value |
-999999.9...999999.9
kVAr |
Monitoring\I/O
status\Measurements\PEMMXU1\Monitored data |
||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMMXU1.TotVA.instMag.f |
MV |
FLOAT32 |
MX |
B |
MeasFlt |
P |
S-kVA |
Total
Apparent Power |
-999999.9...999999.9
kVA |
Measurements\PEMMXU1 |
||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMMXU1.TotVA.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasFlt |
P |
S_DB |
Apparent
power, magnitude of reported value |
-999999.9...999999.9
kVA |
Monitoring\I/O
status\Measurements\PEMMXU1\Monitored data |
||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMMXU1.TotPF.instMag.f |
MV |
FLOAT32 |
MX |
B |
MeasFlt |
P |
PF |
Average
Power factor |
-1.00...1.00 |
Measurements\PEMMXU1 |
||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMMXU1.TotPF.mag.f |
MV |
FLOAT32 |
MX |
B |
MeasFlt |
P |
PF_DB |
Power
factor, magnitude of reported value |
-1.00...1.00 |
Monitoring\I/O
status\Measurements\PEMMXU1\Monitored data |
||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMMTR1.SupWh.actVal |
BCR |
INT128 |
ST |
B |
EA_RV_ACM |
Accumulated
reverse active energy value |
0...999999999
kWh |
Monitoring\I/O
status\Measurements\PEMMXU1\Monitored data |
||||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMMTR1.SupVArh.actVal |
BCR |
INT128 |
ST |
B |
ER_RV_ACM |
Accumulated
reverse reactive energy value |
0...999999999
kVArh |
Monitoring\I/O
status\Measurements\PEMMXU1\Monitored data |
||||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMMTR1.DmdWh.actVal |
BCR |
INT128 |
ST |
B |
EA_FWD_ACM |
Accumulated
forward active energy value |
0...999999999
kWh |
Monitoring\I/O
status\Measurements\PEMMXU1\Monitored data |
||||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMMTR1.DmdVArh.actVal |
BCR |
INT128 |
ST |
B |
ER_FWD_ACM |
Accumulated
forward reactive energy value |
0...999999999
kVArh |
Monitoring\I/O
status\Measurements\PEMMXU1\Monitored data |
||||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMSTA1.AvVA.mag.f |
MV |
FLOAT32 |
MX |
B |
S_DMD |
Demand
value of apparent power |
-999999.9...999999.9
kVA |
Monitoring\I/O
status\Measurements\PEMMXU1\Monitored data |
||||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMSTA1.MaxVA.mag.f |
MV |
FLOAT32 |
MX |
B |
Max
demand S |
Maximum
demand value of apparent power |
-999999.9...999999.9
kVA |
Monitoring\Recorded
data\Measurements\PEMMXU1 |
||||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMSTA1.MaxVA.t |
MV |
Timestamp |
MX |
B |
Time
max dmd S |
Time
of maximum demand |
Monitoring\Recorded
data\Measurements\PEMMXU1 |
|||||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMSTA1.MinVA.mag.f |
MV |
FLOAT32 |
MX |
B |
Min
demand S |
Minimum
demand value of apparent power |
-999999.9...999999.9
kVA |
Monitoring\Recorded
data\Measurements\PEMMXU1 |
||||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMSTA1.MinVA.t |
MV |
Timestamp |
MX |
B |
Time
min dmd S |
Time
of minimum demand |
Monitoring\Recorded
data\Measurements\PEMMXU1 |
|||||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMSTA1.AvW.mag.f |
MV |
FLOAT32 |
MX |
B |
P_DMD |
Demand
value of active power |
-999999.9...999999.9
kW |
Monitoring\I/O
status\Measurements\PEMMXU1\Monitored data |
||||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMSTA1.MaxW.mag.f |
MV |
FLOAT32 |
MX |
B |
Max
demand P |
Maximum
demand value of active power |
-999999.9...999999.9
kW |
Monitoring\Recorded
data\Measurements\PEMMXU1 |
||||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMSTA1.MaxW.t |
MV |
Timestamp |
MX |
B |
Time
max dmd P |
Time
of maximum demand |
Monitoring\Recorded
data\Measurements\PEMMXU1 |
|||||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMSTA1.MinW.mag.f |
MV |
FLOAT32 |
MX |
B |
Min
demand P |
Minimum
demand value of active power |
-999999.9...999999.9
kW |
Monitoring\Recorded
data\Measurements\PEMMXU1 |
||||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMSTA1.MinW.t |
MV |
Timestamp |
MX |
B |
Time
min dmd P |
Time
of minimum demand |
Monitoring\Recorded
data\Measurements\PEMMXU1 |
|||||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMSTA1.AvVAr.mag.f |
MV |
FLOAT32 |
MX |
B |
Q_DMD |
Demand
value of reactive power |
-999999.9...999999.9
kVAr |
Monitoring\I/O
status\Measurements\PEMMXU1\Monitored data |
||||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMSTA1.MaxVAr.mag.f |
MV |
FLOAT32 |
MX |
B |
Max
demand Q |
Maximum
demand value of reactive power |
-999999.9...999999.9
kVAr |
Monitoring\Recorded
data\Measurements\PEMMXU1 |
||||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMSTA1.MaxVAr.t |
MV |
Timestamp |
MX |
B |
Time
max dmd Q |
Time
of maximum demand |
Monitoring\Recorded
data\Measurements\PEMMXU1 |
|||||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMSTA1.MinVAr.mag.f |
MV |
FLOAT32 |
MX |
B |
Min
demand Q |
Minimum
demand value of reactive power |
-999999.9...999999.9
kVAr |
Monitoring\Recorded
data\Measurements\PEMMXU1 |
||||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMSTA1.MinVAr.t |
MV |
Timestamp |
MX |
B |
Time
min dmd Q |
Time
of minimum demand |
Monitoring\Recorded
data\Measurements\PEMMXU1 |
|||||
|
PEMMXU1 |
P,E |
P,E |
MON |
LD0.PEMSTA1.AvPF.mag.f |
MV |
FLOAT32 |
MX |
B |
PF_DMD |
Demand
value of power factor |
-1.00...1.00 |
Monitoring\I/O
status\Measurements\PEMMXU1\Monitored data |
||||
|
PEMMXU1 |
P,E |
P,E |
CFG |
LD0.PEMMXU1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Measurements\PEMMXU1 |
|||
|
PEMMXU1 |
P,E |
P,E |
CFG |
LD0.PEMMXU1.TotW.units.multiplier |
MV |
Enum |
CF |
B,I |
3 |
Power
unit Mult |
Unit
multiplier for presentation of the power related values |
3=Kilo;
6=Mega |
Configuration\Measurements\PEMMXU1 |
|||
|
PEMMXU1 |
P,E |
P,E |
CFG |
LD0.PEMMXU1.WhDir.setVal |
ING |
Enum |
SP |
B |
1 |
Active
power Dir |
Direction
of active power flow: Forward, Reverse |
1=Forward;
2=Reverse |
Configuration\Measurements\PEMMXU1 |
|||
|
PEMMXU1 |
P,E |
P,E |
CFG |
LD0.PEMMXU1.VArhDir.setVal |
ING |
Enum |
SP |
B |
1 |
Reactive
power Dir |
Direction
of reactive power flow: Forward, Reverse |
1=Forward;
2=Reverse |
Configuration\Measurements\PEMMXU1 |
|||
|
PEMMXU1 |
P,E |
P,E |
CFG |
LD0.PEMMTR1.SupWh.units.multiplier |
BCR |
Enum |
CF |
B,I |
3 |
Energy
unit Mult |
Unit
multiplier for presentation of the energy related values |
3=Kilo;
6=Mega |
Configuration\Measurements\PEMMXU1 |
|||
|
PEMMXU1 |
P,E |
P,E |
CFG |
LD0.PEMMTR1.IniDmdWh.setVal |
ING |
INT32 |
SP |
B |
0 |
Forward
Wh Initial |
Preset
Initial value for forward active energy |
0...999999999 |
Configuration\Measurements\PEMMXU1 |
|||
|
PEMMXU1 |
P,E |
P,E |
CFG |
LD0.PEMMTR1.IniSupWh.setVal |
ING |
INT32 |
SP |
B |
0 |
Reverse
Wh Initial |
Preset
Initial value for reverse active energy |
0...999999999 |
Configuration\Measurements\PEMMXU1 |
|||
|
PEMMXU1 |
P,E |
P,E |
CFG |
LD0.PEMMTR1.IniDmdVArh.setVal |
ING |
INT32 |
SP |
B |
0 |
Forward
VArh Initial |
Preset
Initial value for forward reactive energy |
0...999999999 |
Configuration\Measurements\PEMMXU1 |
|||
|
PEMMXU1 |
P,E |
P,E |
CFG |
LD0.PEMMTR1.IniSupVArh.setVal |
ING |
INT32 |
SP |
B |
0 |
Reverse
VArh Initial |
Preset
Initial value for reverse reactive energy |
0...999999999 |
Configuration\Measurements\PEMMXU1 |
|||
|
PEMMXU1 |
P,E |
P,E |
VER |
LD0.PEMMXU1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|||||||
|
PEMMXU1 |
P,E |
P,E |
VER |
LD0.PEMMTR1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|||||||
|
PEMMXU1 |
P,E |
P,E |
VER |
LD0.PEMSTA1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
DPSRDIR1 |
I1->(1) |
(DPSRDIR1) |
INP |
LD0.DPSRDIR1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Other protection\DPSRDIR1\Inputs |
||||
|
DPSRDIR1 |
I1->(1) |
(DPSRDIR1) |
OUT |
LD0.DPSRDIR1.Dir.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
RELEASE |
Release
signal if direction criteria is satisified |
Monitoring\I/O
status\Other protection\DPSRDIR1\Outputs |
|||
|
DPSRDIR1 |
I1->(1) |
(DPSRDIR1) |
OUT |
LD0.DPSRDIR1.Dir.dirGeneral |
ACD |
Enum |
ST |
B |
StatNrml |
P,H |
DIRECTION |
Direction
information |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Other protection\DPSRDIR1\Outputs |
||
|
DPSRDIR1 |
I1->(1) |
(DPSRDIR1) |
MON |
LD0.DPSRDIR1.Beh.stVal |
INS |
Enum |
ST |
B |
DPSRDIR1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
DPSRDIR1 |
I1->(1) |
(DPSRDIR1) |
MON |
LD0.DPSRDIR1.OpChrAng.mag.f |
MV |
FLOAT32 |
MX |
B |
ANGLE_RCA |
Angle
between operating angle and characteristic angle |
-180.00...180.00
deg |
Monitoring\I/O
status\Other protection\DPSRDIR1\Monitored data |
||||
|
DPSRDIR1 |
I1->(1) |
(DPSRDIR1) |
SET |
LD0.DPSRDIR1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Other
protection\DPSRDIR1 |
|||
|
DPSRDIR1 |
I1->(1) |
(DPSRDIR1) |
SET |
LD0.DPSRDIR1.DirMod.setVal |
ING |
Enum |
SG |
B |
2 |
Directional
mode |
Directional
mode |
1=Non-directional;
2=Forward; 3=Reverse |
Settings\Settings\Other
protection\DPSRDIR1 |
|||
|
DPSRDIR1 |
I1->(1) |
(DPSRDIR1) |
SET |
LD0.DPSRDIR1.RelDlTmms.setVal |
ING |
INT32 |
SG |
B |
10 |
Release
delay time |
Release
delay time |
0...1000
ms |
Settings\Settings\Other
protection\DPSRDIR1 |
|||
|
DPSRDIR1 |
I1->(1) |
(DPSRDIR1) |
SET |
LD0.DPSRDIR1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Other
protection\DPSRDIR1 |
|||
|
DPSRDIR1 |
I1->(1) |
(DPSRDIR1) |
SET |
LD0.DPSRDIR1.ChrAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
+60 |
Characteristic
angle |
Characteristic
angle |
-179...180
deg |
Settings\Settings\Other
protection\DPSRDIR1 |
|||
|
DPSRDIR1 |
I1->(1) |
(DPSRDIR1) |
SET |
LD0.DPSRDIR1.MaxFwdAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
88 |
Max
forward angle |
Maximum
phase angle in forward direction |
0...90
deg |
Settings\Settings\Other
protection\DPSRDIR1 |
|||
|
DPSRDIR1 |
I1->(1) |
(DPSRDIR1) |
SET |
LD0.DPSRDIR1.MaxRvAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
88 |
Max
reverse angle |
Maximum
phase angle in reverse direction |
0...90
deg |
Settings\Settings\Other
protection\DPSRDIR1 |
|||
|
DPSRDIR1 |
I1->(1) |
(DPSRDIR1) |
SET |
LD0.DPSRDIR1.MinFwdAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
88 |
Min
forward angle |
Minimum
phase angle in forward direction |
0...90
deg |
Settings\Settings\Other
protection\DPSRDIR1 |
|||
|
DPSRDIR1 |
I1->(1) |
(DPSRDIR1) |
SET |
LD0.DPSRDIR1.MinRvAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
88 |
Min
reverse angle |
Minimum
phase angle in reverse direction |
0...90
deg |
Settings\Settings\Other
protection\DPSRDIR1 |
|||
|
DPSRDIR1 |
I1->(1) |
(DPSRDIR1) |
SET |
LD0.DPSRDIR1.BlkValA.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.1 |
Min
operate current |
Minimum
operating current |
0.01...1.00
xIn |
Settings\Settings\Other
protection\DPSRDIR1 |
IL1TCTR1 |
||
|
DPSRDIR1 |
I1->(1) |
(DPSRDIR1) |
SET |
LD0.DPSRDIR1.BlkValV.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.3 |
Min
operate voltage |
Minimum
operating voltage |
0.01...1.00
xUn |
Settings\Settings\Other
protection\DPSRDIR1 |
UL1TVTR1 |
||
|
DPSRDIR1 |
I1->(1) |
(DPSRDIR1) |
TES |
LD0.DPSRDIR1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
DPSRDIR1 |
Test
control for outputs |
0=Reset;
123=Activate RELEASE; 124=Deactive RELEASE |
Tests\Function
tests\Other protection |
|||
|
DPSRDIR1 |
I1->(1) |
(DPSRDIR1) |
VER |
LD0.DPSRDIR1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
DNZSRDIR1 |
I2->,Io->(1) |
(DNZSRDIR1) |
INP |
LD0.DNZSRDIR1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Other protection\DNZSRDIR1\Inputs |
||||
|
DNZSRDIR1 |
I2->,Io->(1) |
(DNZSRDIR1) |
INP |
LD0.DNZSRDIR1.InRcaCtl.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
RCA_CTL |
Relay
characteristic angle control |
Monitoring\I/O
status\Other protection\DNZSRDIR1\Inputs |
||||
|
DNZSRDIR1 |
I2->,Io->(1) |
(DNZSRDIR1) |
OUT |
LD0.DNZSRDIR1.Dir.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
RELEASE |
Release
signal if direction criteria is satisified |
Monitoring\I/O
status\Other protection\DNZSRDIR1\Outputs |
|||
|
DNZSRDIR1 |
I2->,Io->(1) |
(DNZSRDIR1) |
OUT |
LD0.DNZSRDIR1.Dir.dirGeneral |
ACD |
Enum |
ST |
B |
StatNrml |
P,H |
DIRECTION |
Direction
information |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Other protection\DNZSRDIR1\Outputs |
||
|
DNZSRDIR1 |
I2->,Io->(1) |
(DNZSRDIR1) |
MON |
LD0.DNZSRDIR1.Beh.stVal |
INS |
Enum |
ST |
B |
DNZSRDIR1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
DNZSRDIR1 |
I2->,Io->(1) |
(DNZSRDIR1) |
MON |
LD0.DNZSRDIR1.OpChrAng.mag.f |
MV |
FLOAT32 |
MX |
B |
ANGLE_RCA |
Angle
between operating angle and characteristic angle |
-180.00...180.00
deg |
Monitoring\I/O
status\Other protection\DNZSRDIR1\Monitored data |
||||
|
DNZSRDIR1 |
I2->,Io->(1) |
(DNZSRDIR1) |
SET |
LD0.DNZSRDIR1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Other
protection\DNZSRDIR1 |
|||
|
DNZSRDIR1 |
I2->,Io->(1) |
(DNZSRDIR1) |
SET |
LD0.DNZSRDIR1.DirMod.setVal |
ING |
Enum |
SG |
B |
2 |
Directional
mode |
Directional
mode |
1=Non-directional;
2=Forward; 3=Reverse |
Settings\Settings\Other
protection\DNZSRDIR1 |
|||
|
DNZSRDIR1 |
I2->,Io->(1) |
(DNZSRDIR1) |
SET |
LD0.DNZSRDIR1.RelDlTmms.setVal |
ING |
INT32 |
SG |
B |
10 |
Release
delay time |
Release
delay time |
0...1000
ms |
Settings\Settings\Other
protection\DNZSRDIR1 |
|||
|
DNZSRDIR1 |
I2->,Io->(1) |
(DNZSRDIR1) |
SET |
LD0.DNZSRDIR1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Other
protection\DNZSRDIR1 |
|||
|
DNZSRDIR1 |
I2->,Io->(1) |
(DNZSRDIR1) |
SET |
LD0.DNZSRDIR1.ChrAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
60 |
Characteristic
angle |
Characteristic
angle |
-179...180
deg |
Settings\Settings\Other
protection\DNZSRDIR1 |
|||
|
DNZSRDIR1 |
I2->,Io->(1) |
(DNZSRDIR1) |
SET |
LD0.DNZSRDIR1.MaxFwdAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
88 |
Max
forward angle |
Maximum
phase angle in forward direction |
0...180
deg |
Settings\Settings\Other
protection\DNZSRDIR1 |
|||
|
DNZSRDIR1 |
I2->,Io->(1) |
(DNZSRDIR1) |
SET |
LD0.DNZSRDIR1.MinFwdAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
88 |
Min
forward angle |
Minimum
phase angle in forward direction |
0...180
deg |
Settings\Settings\Other
protection\DNZSRDIR1 |
|||
|
DNZSRDIR1 |
I2->,Io->(1) |
(DNZSRDIR1) |
SET |
LD0.DNZSRDIR1.MaxRvAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
88 |
Max
reverse angle |
Maximum
phase angle in reverse direction |
0...180
deg |
Settings\Settings\Other
protection\DNZSRDIR1 |
|||
|
DNZSRDIR1 |
I2->,Io->(1) |
(DNZSRDIR1) |
SET |
LD0.DNZSRDIR1.MinRvAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
88 |
Min
reverse angle |
Minimum
phase angle in reverse direction |
0...180
deg |
Settings\Settings\Other
protection\DNZSRDIR1 |
|||
|
DNZSRDIR1 |
I2->,Io->(1) |
(DNZSRDIR1) |
SET |
LD0.DNZSRDIR1.BlkValA.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.1 |
Min
operate current |
Minimum
operating current |
0.01...1.00
xln |
Settings\Settings\Other
protection\DNZSRDIR1 |
RESTCTR1 |
||
|
DNZSRDIR1 |
I2->,Io->(1) |
(DNZSRDIR1) |
SET |
LD0.DNZSRDIR1.BlkValV.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.3 |
Min
operate voltage |
Minimum
operating voltage |
0.01...1.00
xUn |
Settings\Settings\Other
protection\DNZSRDIR1 |
RESTVTR1 |
||
|
DNZSRDIR1 |
I2->,Io->(1) |
(DNZSRDIR1) |
SET |
LD0.DNZSRDIR1.RevPol.setVal |
SPG |
BOOLEAN |
SP |
B |
0 |
Pol
reversal |
Rotate
polarizing quantity |
Settings\Settings\Other
protection\DNZSRDIR1 |
||||
|
DNZSRDIR1 |
I2->,Io->(1) |
(DNZSRDIR1) |
SET |
LD0.DNZSRDIR1.AResSigSel.setVal |
ING |
Enum |
SP |
B,I |
1 |
Io
signal Sel |
Selection
for used Io signal |
1=Measured
Io; 2=Calculated Io |
Settings\Settings\Other
protection\DNZSRDIR1 |
|||
|
DNZSRDIR1 |
I2->,Io->(1) |
(DNZSRDIR1) |
SET |
LD0.DNZSRDIR1.PolSigSel.setVal |
ING |
Enum |
SP |
B,I |
1 |
Pol
signal Sel |
Selection
for used polarization signal |
1=Measured
Uo; 2=Calculated Uo; 3=Neg. seq. volt. |
Settings\Settings\Other
protection\DNZSRDIR1 |
|||
|
DNZSRDIR1 |
I2->,Io->(1) |
(DNZSRDIR1) |
TES |
LD0.DNZSRDIR1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
DNZSRDIR1 |
Test
control for outputs |
0=Reset;
123=Activate RELEASE; 124=Deactive RELEASE |
Tests\Function
tests\Other protection |
|||
|
DNZSRDIR1 |
I2->,Io->(1) |
(DNZSRDIR1) |
VER |
LD0.DNZSRDIR1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
INP |
LD0.DPHLPTOC1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\DPHLPDOC1\Inputs |
||||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
INP |
LD0.DPHLPTOC1.InEnaMult.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ENA_MULT |
Enable
signal for current multiplier |
Monitoring\I/O
status\Current protection\DPHLPDOC1\Inputs |
||||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
INP |
LD0.DPHLPTOC1.NonDir.stVal |
SPS |
BOOLEAN |
ST |
A |
0 |
NON_DIR |
Forces
protection to non-directional |
Monitoring\I/O
status\Current protection\DPHLPDOC1\Inputs |
||||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
OUT |
LD0.DPHLPTOC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
(A,B,C) |
Monitoring\I/O
status\Current protection\DPHLPDOC1\Outputs |
||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
OUT |
LD0.DPHLPTOC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
(A,B,C) |
Monitoring\I/O
status\Current protection\DPHLPDOC1\Outputs |
||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
MON |
LD0.DPHLPTOC1.Beh.stVal |
INS |
Enum |
ST |
B |
DPHLPDOC1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
MON |
LD0.DPHLPTOC1.Str.dirGeneral |
ACD |
Enum |
ST |
B |
StatNrml |
P,H |
FAULT_DIR |
Detected
fault direction |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Current protection\DPHLPDOC1\Monitored data |
||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
MON |
LD0.DPHLPTOC1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\DPHLPDOC1\Monitored data |
||||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
MON |
LD0.DPHLRDIR1.Dir.dirGeneral |
ACD |
Enum |
ST |
B |
DIRECTION |
Direction
information |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Current protection\DPHLPDOC1\Monitored data |
||||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
MON |
LD0.DPHLRDIR1.Dir.dirPhsA |
ACD |
Enum |
ST |
B |
DIR_A |
Direction
phase A |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Current protection\DPHLPDOC1\Monitored data |
||||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
MON |
LD0.DPHLRDIR1.Dir.dirPhsB |
ACD |
Enum |
ST |
B |
DIR_B |
Direction
phase B |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Current protection\DPHLPDOC1\Monitored data |
||||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
MON |
LD0.DPHLRDIR1.Dir.dirPhsC |
ACD |
Enum |
ST |
B |
DIR_C |
Direction
phase C |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Current protection\DPHLPDOC1\Monitored data |
||||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
MON |
LD0.DPHLRDIR1.OpCrhAngA.mag.f |
MV |
FLOAT32 |
MX |
B |
ANGLE_A |
Calculated
angle difference, Phase A |
-180.00...180.00
deg |
Monitoring\I/O
status\Current protection\DPHLPDOC1\Monitored data |
||||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
MON |
LD0.DPHLRDIR1.OpCrhAngB.mag.f |
MV |
FLOAT32 |
MX |
B |
ANGLE_B |
Calculated
angle difference, Phase B |
-180.00...180.00
deg |
Monitoring\I/O
status\Current protection\DPHLPDOC1\Monitored data |
||||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
MON |
LD0.DPHLRDIR1.OpCrhAngC.mag.f |
MV |
FLOAT32 |
MX |
B |
ANGLE_C |
Calculated
angle difference, Phase C |
-180.00...180.00
deg |
Monitoring\I/O
status\Current protection\DPHLPDOC1\Monitored data |
||||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLPTOC1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLPTOC1.NumPh.setVal |
ING |
Enum |
SP |
B |
1 |
Num
of start phases |
Number
of phases required for operate activation |
1=1
out of 3; 2=2 out of 3; 3=3 out of 3 |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLPTOC1.StrValMult.setMag.f |
ASG |
FLOAT32 |
SG |
A |
1.0 |
Start
value Mult |
Multiplier
for scaling the start value |
0.8...10.0 |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLPTOC1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.05 |
Start
value |
Start
value |
0.05...5.00
xIn |
Settings\Settings\Current
protection\DPHLPDOC1 |
IL1TCTR1 |
||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLPTOC1.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
A |
1.0 |
Time
multiplier |
Time
multiplier in IEC/ANSI IDMT curves |
0.05...15.0 |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLPTOC1.TypRsCrv.setVal |
ING |
Enum |
SG |
A |
1 |
Type
of reset curve |
Selection
of reset curve type |
1=Immediate;
2=Def time reset; 3=Inverse reset |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLPTOC1.TmACrv.setCharact |
CURVE |
Enum |
SG |
B,I |
15 |
Operating
curve type |
Selection
of time delay curve type |
1=ANSI
Ext. inv.; 2=ANSI Very inv.; 3=ANSI Norm. inv.; 4=ANSI Mod. inv.; 5=ANSI Def.
Time; 6=L.T.E. inv.; 7=L.T.V. inv.; 8=L.T. inv.; 9=IEC Norm. inv.; 10=IEC
Very inv.; 11=IEC inv.; 12=IEC Ext. inv.; 13=IEC S.T. inv.; 14=IEC L.T. inv.;
15=IEC Def. Time; 17=Programmable; 18=RI type; 19=RD type |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLPTOC1.TmACrv.setParA |
CURVE |
FLOAT32 |
SP |
B,I |
28.2000 |
Curve
parameter A |
Parameter
A for customer programmable curve |
0.0086...120.0000 |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLPTOC1.TmACrv.setParB |
CURVE |
FLOAT32 |
SP |
B,I |
0.1217 |
Curve
parameter B |
Parameter
B for customer programmable curve |
0.0000...0.7120 |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLPTOC1.TmACrv.setParC |
CURVE |
FLOAT32 |
SP |
B,I |
2.00 |
Curve
parameter C |
Parameter
C for customer programmable curve |
0.02...2.00 |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLPTOC1.TmACrv.setParD |
CURVE |
FLOAT32 |
SP |
B,I |
29.10 |
Curve
parameter D |
Parameter
D for customer programmable curve |
0.46...30.00 |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLPTOC1.TmACrv.setParE |
CURVE |
FLOAT32 |
SP |
B,I |
1.0 |
Curve
parameter E |
Parameter
E for customer programmable curve |
0.0...1.0 |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLPTOC1.MinOpTmms.setVal |
ING |
INT32 |
SP |
A |
20 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
20...60000
ms |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLPTOC1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
40 |
Operate
delay time |
Operate
delay time |
40...200000
ms |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLPTOC1.RsDlTmms.setVal |
ING |
INT32 |
SP |
A |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLPTOC1.AMeasMod.setVal |
ING |
Enum |
SP |
A |
2 |
Measurement
mode |
Selects
used measurement mode |
1=RMS;
2=DFT; 3=Peak-to-Peak |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLPTOC1.DirMod.setVal |
ING |
Enum |
SG |
B |
2 |
Directional
mode |
Directional
mode |
1=Non-directional;
2=Forward; 3=Reverse |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLPTOC1.AllwNonDir.setVal |
SPG |
BOOLEAN |
SP |
B |
0 |
Allow
Non Dir |
Allows
prot activation as non-dir when dir info is invalid |
Settings\Settings\Current
protection\DPHLPDOC1 |
||||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLRDIR1.ChrAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
+60 |
Characteristic
angle |
Characteristic
angle |
-179...180
deg |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLRDIR1.MaxFwdAng.setMag.f |
ASG |
FLOAT32 |
SG |
A |
80 |
Max
forward angle |
Maximum
phase angle in forward direction |
0...90
deg |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLRDIR1.MinFwdAng.setMag.f |
ASG |
FLOAT32 |
SG |
A |
80 |
Min
forward angle |
Minimum
phase angle in forward direction |
0...90
deg |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLRDIR1.MaxRvAng.setMag.f |
ASG |
FLOAT32 |
SG |
A |
80 |
Max
reverse angle |
Maximum
phase angle in reverse direction |
0...90
deg |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLRDIR1.MinRvAng.setMag.f |
ASG |
FLOAT32 |
SG |
A |
80 |
Min
reverse angle |
Minimum
phase angle in reverse direction |
0...90
deg |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLRDIR1.BlkValA.setMag.f |
ASG |
FLOAT32 |
SP |
A |
0.01 |
Min
operate current |
Minimum
operating current |
0.01...1.00
xIn |
Settings\Settings\Current
protection\DPHLPDOC1 |
IL1TCTR1 |
||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLRDIR1.BlkValV.setMag.f |
ASG |
FLOAT32 |
SP |
A |
0.01 |
Min
operate voltage |
Minimum
operating voltage |
0.01...1.00
xUn |
Settings\Settings\Current
protection\DPHLPDOC1 |
UL1TVTR1 |
||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLRDIR1.PolQty.setVal |
ING |
Enum |
SG |
B |
5 |
Pol
quantity |
Reference
quantity used to determine fault direction |
-2=Pos.
seq. volt.; 1=Self pol; 4=Neg. seq. volt.; 5=Cross pol |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
SET |
LD0.DPHLRDIR1.FicTmms.setVal |
ING |
INT32 |
SG |
B |
40 |
Voltage
Mem time |
Voltage
memory time |
0...3000
ms |
Settings\Settings\Current
protection\DPHLPDOC1 |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
TES |
LD0.DPHLPTOC1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
DPHLPDOC1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
VER |
LD0.DPHLPTOC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
C |
(Name
plate) |
|||||||
|
DPHLPDOC1 |
3I>->(1) |
67-1(1) |
VER |
LD0.DPHLRDIR1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
C |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
INP |
LD0.DPHHPTOC1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\DPHHPDOC1\Inputs |
||||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
INP |
LD0.DPHHPTOC1.InEnaMult.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ENA_MULT |
Enable
signal for current multiplier |
Monitoring\I/O
status\Current protection\DPHHPDOC1\Inputs |
||||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
INP |
LD0.DPHHPTOC1.NonDir.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
NON_DIR |
Forces
protection to non-directional |
Monitoring\I/O
status\Current protection\DPHHPDOC1\Inputs |
||||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
OUT |
LD0.DPHHPTOC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
(A,B,C) |
Monitoring\I/O
status\Current protection\DPHHPDOC1\Outputs |
||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
OUT |
LD0.DPHHPTOC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
(A,B,C) |
Monitoring\I/O
status\Current protection\DPHHPDOC1\Outputs |
||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
MON |
LD0.DPHHPTOC1.Beh.stVal |
INS |
Enum |
ST |
B |
DPHHPDOC1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
MON |
LD0.DPHHPTOC1.Str.dirGeneral |
ACD |
Enum |
ST |
B |
StatNrml |
P,H |
FAULT_DIR |
Detected
fault direction |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Current protection\DPHHPDOC1\Monitored data |
||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
MON |
LD0.DPHHPTOC1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\DPHHPDOC1\Monitored data |
||||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
MON |
LD0.DPHHRDIR1.Dir.dirGeneral |
ACD |
Enum |
ST |
B |
DIRECTION |
Direction
information |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Current protection\DPHHPDOC1\Monitored data |
||||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
MON |
LD0.DPHHRDIR1.Dir.dirPhsA |
ACD |
Enum |
ST |
B |
DIR_A |
Direction
phase A |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Current protection\DPHHPDOC1\Monitored data |
||||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
MON |
LD0.DPHHRDIR1.Dir.dirPhsB |
ACD |
Enum |
ST |
B |
DIR_B |
Direction
phase B |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Current protection\DPHHPDOC1\Monitored data |
||||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
MON |
LD0.DPHHRDIR1.Dir.dirPhsC |
ACD |
Enum |
ST |
B |
DIR_C |
Direction
phase C |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Current protection\DPHHPDOC1\Monitored data |
||||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
MON |
LD0.DPHHRDIR1.OpCrhAngA.mag.f |
MV |
FLOAT32 |
MX |
B |
ANGLE_A |
Calculated
angle difference, Phase A |
-180.00...180.00
deg |
Monitoring\I/O
status\Current protection\DPHHPDOC1\Monitored data |
||||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
MON |
LD0.DPHHRDIR1.OpCrhAngB.mag.f |
MV |
FLOAT32 |
MX |
B |
ANGLE_B |
Calculated
angle difference, Phase B |
-180.00...180.00
deg |
Monitoring\I/O
status\Current protection\DPHHPDOC1\Monitored data |
||||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
MON |
LD0.DPHHRDIR1.OpCrhAngC.mag.f |
MV |
FLOAT32 |
MX |
B |
ANGLE_C |
Calculated
angle difference, Phase C |
-180.00...180.00
deg |
Monitoring\I/O
status\Current protection\DPHHPDOC1\Monitored data |
||||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHPTOC1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHPTOC1.NumPh.setVal |
ING |
Enum |
SP |
B |
1 |
Num
of start phases |
Number
of phases required for operate activation |
1=1
out of 3; 2=2 out of 3; 3=3 out of 3 |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHPTOC1.StrValMult.setMag.f |
ASG |
FLOAT32 |
SG |
A |
1.0 |
Start
value Mult |
Multiplier
for scaling the start value |
0.8...10.0 |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHPTOC1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.10 |
Start
value |
Start
value |
0.10...40.00
xIn |
Settings\Settings\Current
protection\DPHHPDOC1 |
IL1TCTR1 |
||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHPTOC1.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
A |
1.00 |
Time
multiplier |
Time
multiplier in IEC/ANSI IDMT curves |
0.05...15.00 |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHPTOC1.TypRsCrv.setVal |
ING |
Enum |
SG |
A |
1 |
Type
of reset curve |
Selection
of reset curve type |
1=Immediate;
2=Def time reset; 3=Inverse reset |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHPTOC1.TmACrv.setCharact |
CURVE |
Enum |
SG |
B,I |
15 |
Operating
curve type |
Selection
of time delay curve type |
1=ANSI
Ext. inv.; 3=ANSI Norm. inv.; 5=ANSI Def. Time; 9=IEC Norm. inv.; 10=IEC Very
inv.; 12=IEC Ext. inv.; 15=IEC Def. Time; 17=Programmable |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHPTOC1.TmACrv.setParA |
CURVE |
FLOAT32 |
SP |
B,I |
28.2000 |
Curve
parameter A |
Parameter
A for customer programmable curve |
0.0086...120.0000 |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHPTOC1.TmACrv.setParB |
CURVE |
FLOAT32 |
SP |
B,I |
0.1217 |
Curve
parameter B |
Parameter
B for customer programmable curve |
0.0000...0.7120 |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHPTOC1.TmACrv.setParC |
CURVE |
FLOAT32 |
SP |
B,I |
2.00 |
Curve
parameter C |
Parameter
C for customer programmable curve |
0.02...2.00 |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHPTOC1.TmACrv.setParD |
CURVE |
FLOAT32 |
SP |
B,I |
29.10 |
Curve
parameter D |
Parameter
D for customer programmable curve |
0.46...30.00 |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHPTOC1.TmACrv.setParE |
CURVE |
FLOAT32 |
SP |
B,I |
1.0 |
Curve
parameter E |
Parameter
E for customer programmable curve |
0.0...1.0 |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHPTOC1.MinOpTmms.setVal |
ING |
INT32 |
SP |
A |
20 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
20...60000
ms |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHPTOC1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
40 |
Operate
delay time |
Operate
delay time |
40...200000
ms |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHPTOC1.RsDlTmms.setVal |
ING |
INT32 |
SP |
A |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHPTOC1.AMeasMod.setVal |
ING |
Enum |
SP |
A |
2 |
Measurement
mode |
Selects
used measurement mode |
1=RMS;
2=DFT; 3=Peak-to-Peak |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHPTOC1.DirMod.setVal |
ING |
Enum |
SG |
B |
2 |
Directional
mode |
Directional
mode |
1=Non-directional;
2=Forward; 3=Reverse |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHPTOC1.AllwNonDir.setVal |
SPG |
BOOLEAN |
SP |
B |
0 |
Allow
Non Dir |
Allows
prot activation as non-dir when dir info is invalid |
Settings\Settings\Current
protection\DPHHPDOC1 |
||||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHRDIR1.ChrAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
+60 |
Characteristic
angle |
Characteristic
angle |
-179...180
deg |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHRDIR1.MaxFwdAng.setMag.f |
ASG |
FLOAT32 |
SG |
A |
80 |
Max
forward angle |
Maximum
phase angle in forward direction |
0...90
deg |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHRDIR1.MinFwdAng.setMag.f |
ASG |
FLOAT32 |
SG |
A |
80 |
Min
forward angle |
Minimum
phase angle in forward direction |
0...90
deg |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHRDIR1.MaxRvAng.setMag.f |
ASG |
FLOAT32 |
SG |
A |
80 |
Max
reverse angle |
Maximum
phase angle in reverse direction |
0...90
deg |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHRDIR1.MinRvAng.setMag.f |
ASG |
FLOAT32 |
SG |
A |
80 |
Min
reverse angle |
Minimum
phase angle in reverse direction |
0...90
deg |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHRDIR1.BlkValA.setMag.f |
ASG |
FLOAT32 |
SP |
A |
0.01 |
Min
operate current |
Minimum
operating current |
0.01...1.00
xIn |
Settings\Settings\Current
protection\DPHHPDOC1 |
IL1TCTR1 |
||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHRDIR1.BlkValV.setMag.f |
ASG |
FLOAT32 |
SP |
A |
0.01 |
Min
operate voltage |
Minimum
operating voltage |
0.01...1.00
xUn |
Settings\Settings\Current
protection\DPHHPDOC1 |
UL1TVTR1 |
||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHRDIR1.FicTmms.setVal |
ING |
INT32 |
SG |
B |
40 |
Voltage
Mem time |
Voltage
memory time |
0...3000
ms |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
SET |
LD0.DPHHRDIR1.PolQty.setVal |
ING |
Enum |
SG |
B |
5 |
Pol
quantity |
Reference
quantity used to determine fault direction |
-2=Pos.
seq. volt.; 1=Self pol; 4=Neg. seq. volt.; 5=Cross pol |
Settings\Settings\Current
protection\DPHHPDOC1 |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
TES |
LD0.DPHHPTOC1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
DPHHPDOC1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
VER |
LD0.DPHHPTOC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
C |
(Name
plate) |
|||||||
|
DPHHPDOC1 |
3I>>->(1) |
67-2 |
VER |
LD0.DPHHRDIR1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
C |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
INP |
LD0.DPHHPTOC2.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\DPHHPDOC2\Inputs |
||||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
INP |
LD0.DPHHPTOC2.InEnaMult.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ENA_MULT |
Enable
signal for current multiplier |
Monitoring\I/O
status\Current protection\DPHHPDOC2\Inputs |
||||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
INP |
LD0.DPHHPTOC2.NonDir.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
NON_DIR |
Forces
protection to non-directional |
Monitoring\I/O
status\Current protection\DPHHPDOC2\Inputs |
||||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
OUT |
LD0.DPHHPTOC2.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
(A,B,C) |
Monitoring\I/O
status\Current protection\DPHHPDOC2\Outputs |
||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
OUT |
LD0.DPHHPTOC2.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
(A,B,C) |
Monitoring\I/O
status\Current protection\DPHHPDOC2\Outputs |
||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
MON |
LD0.DPHHPTOC2.Beh.stVal |
INS |
Enum |
ST |
B |
DPHHPDOC2 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
MON |
LD0.DPHHPTOC2.Str.dirGeneral |
ACD |
Enum |
ST |
B |
StatNrml |
P,H |
FAULT_DIR |
Detected
fault direction |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Current protection\DPHHPDOC2\Monitored data |
||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
MON |
LD0.DPHHPTOC2.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\DPHHPDOC2\Monitored data |
||||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
MON |
LD0.DPHHRDIR2.Dir.dirGeneral |
ACD |
Enum |
ST |
B |
DIRECTION |
Direction
information |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Current protection\DPHHPDOC2\Monitored data |
||||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
MON |
LD0.DPHHRDIR2.Dir.dirPhsA |
ACD |
Enum |
ST |
B |
DIR_A |
Direction
phase A |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Current protection\DPHHPDOC2\Monitored data |
||||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
MON |
LD0.DPHHRDIR2.Dir.dirPhsB |
ACD |
Enum |
ST |
B |
DIR_B |
Direction
phase B |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Current protection\DPHHPDOC2\Monitored data |
||||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
MON |
LD0.DPHHRDIR2.Dir.dirPhsC |
ACD |
Enum |
ST |
B |
DIR_C |
Direction
phase C |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Current protection\DPHHPDOC2\Monitored data |
||||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
MON |
LD0.DPHHRDIR2.OpCrhAngA.mag.f |
MV |
FLOAT32 |
MX |
B |
ANGLE_A |
Calculated
angle difference, Phase A |
-180.00...180.00
deg |
Monitoring\I/O
status\Current protection\DPHHPDOC2\Monitored data |
||||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
MON |
LD0.DPHHRDIR2.OpCrhAngB.mag.f |
MV |
FLOAT32 |
MX |
B |
ANGLE_B |
Calculated
angle difference, Phase B |
-180.00...180.00
deg |
Monitoring\I/O
status\Current protection\DPHHPDOC2\Monitored data |
||||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
MON |
LD0.DPHHRDIR2.OpCrhAngC.mag.f |
MV |
FLOAT32 |
MX |
B |
ANGLE_C |
Calculated
angle difference, Phase C |
-180.00...180.00
deg |
Monitoring\I/O
status\Current protection\DPHHPDOC2\Monitored data |
||||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHPTOC2.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHPTOC2.NumPh.setVal |
ING |
Enum |
SP |
B |
1 |
Num
of start phases |
Number
of phases required for operate activation |
1=1
out of 3; 2=2 out of 3; 3=3 out of 3 |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHPTOC2.StrValMult.setMag.f |
ASG |
FLOAT32 |
SG |
A |
1.0 |
Start
value Mult |
Multiplier
for scaling the start value |
0.8...10.0 |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHPTOC2.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.10 |
Start
value |
Start
value |
0.10...40.00
xIn |
Settings\Settings\Current
protection\DPHHPDOC2 |
IL1TCTR1 |
||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHPTOC2.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
A |
1.00 |
Time
multiplier |
Time
multiplier in IEC/ANSI IDMT curves |
0.05...15.00 |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHPTOC2.TypRsCrv.setVal |
ING |
Enum |
SG |
A |
1 |
Type
of reset curve |
Selection
of reset curve type |
1=Immediate;
2=Def time reset; 3=Inverse reset |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHPTOC2.TmACrv.setCharact |
CURVE |
Enum |
SG |
B,I |
15 |
Operating
curve type |
Selection
of time delay curve type |
1=ANSI
Ext. inv.; 3=ANSI Norm. inv.; 5=ANSI Def. Time; 9=IEC Norm. inv.; 10=IEC Very
inv.; 12=IEC Ext. inv.; 15=IEC Def. Time; 17=Programmable |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHPTOC2.TmACrv.setParA |
CURVE |
FLOAT32 |
SP |
B,I |
28.2000 |
Curve
parameter A |
Parameter
A for customer programmable curve |
0.0086...120.0000 |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHPTOC2.TmACrv.setParB |
CURVE |
FLOAT32 |
SP |
B,I |
0.1217 |
Curve
parameter B |
Parameter
B for customer programmable curve |
0.0000...0.7120 |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHPTOC2.TmACrv.setParC |
CURVE |
FLOAT32 |
SP |
B,I |
2.00 |
Curve
parameter C |
Parameter
C for customer programmable curve |
0.02...2.00 |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHPTOC2.TmACrv.setParD |
CURVE |
FLOAT32 |
SP |
B,I |
29.10 |
Curve
parameter D |
Parameter
D for customer programmable curve |
0.46...30.00 |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHPTOC2.TmACrv.setParE |
CURVE |
FLOAT32 |
SP |
B,I |
1.0 |
Curve
parameter E |
Parameter
E for customer programmable curve |
0.0...1.0 |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHPTOC2.MinOpTmms.setVal |
ING |
INT32 |
SP |
A |
20 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
20...60000
ms |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHPTOC2.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
40 |
Operate
delay time |
Operate
delay time |
40...200000
ms |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHPTOC2.RsDlTmms.setVal |
ING |
INT32 |
SP |
A |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHPTOC2.AMeasMod.setVal |
ING |
Enum |
SP |
A |
2 |
Measurement
mode |
Selects
used measurement mode |
1=RMS;
2=DFT; 3=Peak-to-Peak |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHPTOC2.DirMod.setVal |
ING |
Enum |
SG |
B |
2 |
Directional
mode |
Directional
mode |
1=Non-directional;
2=Forward; 3=Reverse |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHPTOC2.AllwNonDir.setVal |
SPG |
BOOLEAN |
SP |
B |
0 |
Allow
Non Dir |
Allows
prot activation as non-dir when dir info is invalid |
Settings\Settings\Current
protection\DPHHPDOC2 |
||||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHRDIR2.ChrAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
+60 |
Characteristic
angle |
Characteristic
angle |
-179...180
deg |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHRDIR2.MaxFwdAng.setMag.f |
ASG |
FLOAT32 |
SG |
A |
80 |
Max
forward angle |
Maximum
phase angle in forward direction |
0...90
deg |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHRDIR2.MinFwdAng.setMag.f |
ASG |
FLOAT32 |
SG |
A |
80 |
Min
forward angle |
Minimum
phase angle in forward direction |
0...90
deg |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHRDIR2.MaxRvAng.setMag.f |
ASG |
FLOAT32 |
SG |
A |
80 |
Max
reverse angle |
Maximum
phase angle in reverse direction |
0...90
deg |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHRDIR2.MinRvAng.setMag.f |
ASG |
FLOAT32 |
SG |
A |
80 |
Min
reverse angle |
Minimum
phase angle in reverse direction |
0...90
deg |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHRDIR2.BlkValA.setMag.f |
ASG |
FLOAT32 |
SP |
A |
0.01 |
Min
operate current |
Minimum
operating current |
0.01...1.00
xIn |
Settings\Settings\Current
protection\DPHHPDOC2 |
IL1TCTR1 |
||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHRDIR2.BlkValV.setMag.f |
ASG |
FLOAT32 |
SP |
A |
0.01 |
Min
operate voltage |
Minimum
operating voltage |
0.01...1.00
xUn |
Settings\Settings\Current
protection\DPHHPDOC2 |
UL1TVTR1 |
||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHRDIR2.FicTmms.setVal |
ING |
INT32 |
SG |
B |
40 |
Voltage
Mem time |
Voltage
memory time |
0...3000
ms |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
SET |
LD0.DPHHRDIR2.PolQty.setVal |
ING |
Enum |
SG |
B |
5 |
Pol
quantity |
Reference
quantity used to determine fault direction |
-2=Pos.
seq. volt.; 1=Self pol; 4=Neg. seq. volt.; 5=Cross pol |
Settings\Settings\Current
protection\DPHHPDOC2 |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
TES |
LD0.DPHHPTOC2.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
DPHHPDOC2 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
VER |
LD0.DPHHPTOC2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
C |
(Name
plate) |
|||||||
|
DPHHPDOC2 |
3I>>->(2) |
67-2(2) |
VER |
LD0.DPHHRDIR2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
C |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
INP |
LD0.DEFLPTOC1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\DEFLPDEF1\Inputs |
||||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
INP |
LD0.DEFLPTOC1.InEnaMult.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ENA_MULT |
Enable
signal for current multiplier |
Monitoring\I/O
status\Current protection\DEFLPDEF1\Inputs |
||||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
INP |
LD0.DEFLRDIR1.InRcaCtl.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
RCA_CTL |
Relay
characteristic angle control |
Monitoring\I/O
status\Current protection\DEFLPDEF1\Inputs |
||||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
OUT |
LD0.DEFLPTOC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Current protection\DEFLPDEF1\Outputs |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
OUT |
LD0.DEFLPTOC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Current protection\DEFLPDEF1\Outputs |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
MON |
LD0.DEFLPTOC1.Beh.stVal |
INS |
Enum |
ST |
B |
DEFLPDEF1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
MON |
LD0.DEFLPTOC1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\DEFLPDEF1\Monitored data |
||||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
MON |
LD0.DEFLPTOC1.Str.dirGeneral |
ACD |
Enum |
ST |
B |
StatNrml |
P,H |
FAULT_DIR |
Detected
fault direction |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Current protection\DEFLPDEF1\Monitored data |
||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
MON |
LD0.DEFLRDIR1.OpAEF.mag.f |
MV |
FLOAT32 |
MX |
B |
I_OPER |
Calculated
operating current |
0.00...40.00 |
Monitoring\I/O
status\Current protection\DEFLPDEF1\Monitored data |
||||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
MON |
LD0.DEFLRDIR1.OpPolAng.mag.f |
MV |
FLOAT32 |
MX |
B |
ANGLE |
Angle
between polarizing and operating quantity |
-180.00...180.00
deg |
Monitoring\I/O
status\Current protection\DEFLPDEF1\Monitored data |
||||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
MON |
LD0.DEFLRDIR1.OpChrAng.mag.f |
MV |
FLOAT32 |
MX |
B |
ANGLE_RCA |
Angle
between operating angle and characteristic angle |
-180.00...180.00
deg |
Monitoring\I/O
status\Current protection\DEFLPDEF1\Monitored data |
||||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
MON |
LD0.DEFLRDIR1.Dir.dirGeneral |
ACD |
Enum |
ST |
B |
DIRECTION |
Direction
information |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Current protection\DEFLPDEF1\Monitored data |
||||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLPTOC1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLPTOC1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.010 |
Start
value |
Start
value |
0.010...5.000
xIn |
Settings\Settings\Current
protection\DEFLPDEF1 |
RESTCTR1 |
||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLPTOC1.StrValMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Start
value Mult |
Multiplier
for scaling the start value |
0.8...10.0 |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLPTOC1.DirMod.setVal |
ING |
Enum |
SG |
B |
2 |
Directional
mode |
Directional
mode |
1=Non-directional;
2=Forward; 3=Reverse |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLPTOC1.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.00 |
Time
multiplier |
Time
multiplier in IEC/ANSI IDMT curves |
0.05...15.00 |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLPTOC1.TmACrv.setCharact |
CURVE |
Enum |
SG |
B,I |
15 |
Operating
curve type |
Selection
of time delay curve type |
1=ANSI
Ext. inv.; 2=ANSI Very inv.; 3=ANSI Norm. inv.; 4=ANSI Mod. inv.; 5=ANSI Def.
Time; 6=L.T.E. inv.; 7=L.T.V. inv.; 8=L.T. inv.; 9=IEC Norm. inv.; 10=IEC
Very inv.; 11=IEC inv.; 12=IEC Ext. inv.; 13=IEC S.T. inv.; 14=IEC L.T. inv.;
15=IEC Def. Time; 17=Programmable; 18=RI type; 19=RD type |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLPTOC1.TmACrv.setParA |
CURVE |
FLOAT32 |
SP |
B,I |
28.2000 |
Curve
parameter A |
Parameter
A for customer programmable curve |
0.0086...120.0000 |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLPTOC1.TmACrv.setParB |
CURVE |
FLOAT32 |
SP |
B,I |
0.1217 |
Curve
parameter B |
Parameter
B for customer programmable curve |
0.0000...0.7120 |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLPTOC1.TmACrv.setParC |
CURVE |
FLOAT32 |
SP |
B,I |
2.00 |
Curve
parameter C |
Parameter
C for customer programmable curve |
0.02...2.00 |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLPTOC1.TmACrv.setParD |
CURVE |
FLOAT32 |
SP |
B,I |
29.10 |
Curve
parameter D |
Parameter
D for customer programmable curve |
0.46...30.00 |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLPTOC1.TmACrv.setParE |
CURVE |
FLOAT32 |
SP |
B,I |
1.0 |
Curve
parameter E |
Parameter
E for customer programmable curve |
0.0...1.0 |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLPTOC1.TypRsCrv.setVal |
ING |
Enum |
SG |
B |
1 |
Type
of reset curve |
Selection
of reset curve type |
1=Immediate;
2=Def time reset; 3=Inverse reset |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLPTOC1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
60 |
Operate
delay time |
Operate
delay time |
60...200000
ms |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLPTOC1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLPTOC1.MinOpTmms.setVal |
ING |
INT32 |
SP |
B |
60 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
60...60000
ms |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLPTOC1.AllwNonDir.setVal |
SPG |
BOOLEAN |
SP |
B |
0 |
Allow
Non Dir |
Allows
prot activation as non-dir when dir info is invalid |
Settings\Settings\Current
protection\DEFLPDEF1 |
||||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLPTOC1.AMeasMod.setVal |
ING |
Enum |
SP |
B |
2 |
Measurement
mode |
Selects
used measurement mode |
1=RMS;
2=DFT; 3=Peak-to-Peak |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLPTOC1.VStr.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.010 |
Voltage
start value |
Voltage
start value |
0.010...1.000
xUn |
Settings\Settings\Current
protection\DEFLPDEF1 |
RESTVTR1 |
||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLPTOC1.EnaVLim.setVal |
SPG |
BOOLEAN |
SG |
B |
1 |
Enable
voltage limit |
Enable
voltage limit |
Settings\Settings\Current
protection\DEFLPDEF1 |
||||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLPTOC1.AResSigSel.setVal |
ING |
Enum |
SP |
B,I |
1 |
Io
signal Sel |
Selection
for used Io signal |
1=Measured
Io; 2=Calculated Io |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLRDIR1.OpModEF.setVal |
ING |
Enum |
SG |
B |
1 |
Operation
mode |
Operation
criteria |
1=Phase
angle; 2=IoSin; 3=IoCos; 4=Phase angle 80; 5=Phase angle 88 |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLRDIR1.ChrAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
-90 |
Characteristic
angle |
Characteristic
angle |
-179...180
deg |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLRDIR1.MaxFwdAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
80 |
Max
forward angle |
Maximum
phase angle in forward direction |
0...180
deg |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLRDIR1.MaxRvAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
80 |
Max
reverse angle |
Maximum
phase angle in reverse direction |
0...180
deg |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLRDIR1.MinFwdAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
80 |
Min
forward angle |
Minimum
phase angle in forward direction |
0...180
deg |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLRDIR1.MinRvAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
80 |
Min
reverse angle |
Minimum
phase angle in reverse direction |
0...180
deg |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLRDIR1.BlkValA.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.005 |
Min
operate current |
Minimum
operating current |
0.005...1.000
xIn |
Settings\Settings\Current
protection\DEFLPDEF1 |
RESTCTR1 |
||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLRDIR1.BlkValV.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.01 |
Min
operate voltage |
Minimum
operating voltage |
0.01...1.00
xUn |
Settings\Settings\Current
protection\DEFLPDEF1 |
RESTVTR1 |
||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLRDIR1.CorAng.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.0 |
Correction
angle |
Angle
correction |
0.0...10.0
deg |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLRDIR1.RevPol.setVal |
SPG |
BOOLEAN |
SP |
B |
0 |
Pol
reversal |
Rotate
polarizing quantity |
Settings\Settings\Current
protection\DEFLPDEF1 |
||||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
SET |
LD0.DEFLRDIR1.PolSigSel.setVal |
ING |
Enum |
SP |
B,I |
1 |
Pol
signal Sel |
Selection
for used polarization signal |
1=Measured
Uo; 2=Calculated Uo; 3=Neg. seq. volt. |
Settings\Settings\Current
protection\DEFLPDEF1 |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
TES |
LD0.DEFLPTOC1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
DEFLPDEF1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
VER |
LD0.DEFLPTOC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
D |
(Name
plate) |
|||||||
|
DEFLPDEF1 |
Io>->(1) |
67N-1(1) |
VER |
LD0.DEFLRDIR1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
D |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
INP |
LD0.DEFHPTOC1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\DEFHPDEF1\Inputs |
||||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
INP |
LD0.DEFHPTOC1.InEnaMult.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ENA_MULT |
Enable
signal for current multiplier |
Monitoring\I/O
status\Current protection\DEFHPDEF1\Inputs |
||||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
INP |
LD0.DEFHRDIR1.InRcaCtl.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
RCA_CTL |
Relay
characteristic angle control |
Monitoring\I/O
status\Current protection\DEFHPDEF1\Inputs |
||||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
OUT |
LD0.DEFHPTOC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Current protection\DEFHPDEF1\Outputs |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
OUT |
LD0.DEFHPTOC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Current protection\DEFHPDEF1\Outputs |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
MON |
LD0.DEFHPTOC1.Beh.stVal |
INS |
Enum |
ST |
B |
DEFHPDEF1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
MON |
LD0.DEFHPTOC1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\DEFHPDEF1\Monitored data |
||||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
MON |
LD0.DEFHPTOC1.Str.dirGeneral |
ACD |
Enum |
ST |
B |
StatNrml |
P,H |
FAULT_DIR |
Detected
fault direction |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Current protection\DEFHPDEF1\Monitored data |
||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
MON |
LD0.DEFHRDIR1.OpAEF.mag.f |
MV |
FLOAT32 |
MX |
B |
I_OPER |
Calculated
operating current |
0.00...40.00 |
Monitoring\I/O
status\Current protection\DEFHPDEF1\Monitored data |
||||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
MON |
LD0.DEFHRDIR1.OpPolAng.mag.f |
MV |
FLOAT32 |
MX |
B |
ANGLE |
Angle
between polarizing and operating quantity |
-180.00...180.00
deg |
Monitoring\I/O
status\Current protection\DEFHPDEF1\Monitored data |
||||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
MON |
LD0.DEFHRDIR1.OpChrAng.mag.f |
MV |
FLOAT32 |
MX |
B |
ANGLE_RCA |
Angle
between operating angle and characteristic angle |
-180.00...180.00
deg |
Monitoring\I/O
status\Current protection\DEFHPDEF1\Monitored data |
||||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
MON |
LD0.DEFHRDIR1.Dir.dirGeneral |
ACD |
Enum |
ST |
B |
DIRECTION |
Direction
information |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Current protection\DEFHPDEF1\Monitored data |
||||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHPTOC1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHPTOC1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.10 |
Start
value |
Start
value |
0.10...40.00
xIn |
Settings\Settings\Current
protection\DEFHPDEF1 |
RESTCTR1 |
||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHPTOC1.StrValMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Start
value Mult |
Multiplier
for scaling the start value |
0.8...10.0 |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHPTOC1.DirMod.setVal |
ING |
Enum |
SG |
B |
2 |
Directional
mode |
Directional
mode |
1=Non-directional;
2=Forward; 3=Reverse |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHPTOC1.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.00 |
Time
multiplier |
Time
multiplier in IEC/ANSI IDMT curves |
0.05...15.00 |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHPTOC1.TmACrv.setCharact |
CURVE |
Enum |
SG |
B,I |
15 |
Operating
curve type |
Selection
of time delay curve type |
1=ANSI
Ext. inv.; 3=ANSI Norm. inv.; 5=ANSI Def. Time; 15=IEC Def. Time;
17=Programmable |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHPTOC1.TmACrv.setParA |
CURVE |
FLOAT32 |
SP |
B,I |
28.2000 |
Curve
parameter A |
Parameter
A for customer programmable curve |
0.0086...120.0000 |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHPTOC1.TmACrv.setParB |
CURVE |
FLOAT32 |
SP |
B,I |
0.1217 |
Curve
parameter B |
Parameter
B for customer programmable curve |
0.0000...0.7120 |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHPTOC1.TmACrv.setParC |
CURVE |
FLOAT32 |
SP |
B,I |
2.00 |
Curve
parameter C |
Parameter
C for customer programmable curve |
0.02...2.00 |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHPTOC1.TmACrv.setParD |
CURVE |
FLOAT32 |
SP |
B,I |
29.10 |
Curve
parameter D |
Parameter
D for customer programmable curve |
0.46...30.00 |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHPTOC1.TmACrv.setParE |
CURVE |
FLOAT32 |
SP |
B,I |
1.0 |
Curve
parameter E |
Parameter
E for customer programmable curve |
0.0...1.0 |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHPTOC1.TypRsCrv.setVal |
ING |
Enum |
SG |
B |
1 |
Type
of reset curve |
Selection
of reset curve type |
1=Immediate;
2=Def time reset; 3=Inverse reset |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHPTOC1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
40 |
Operate
delay time |
Operate
delay time |
40...200000
ms |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHPTOC1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHPTOC1.MinOpTmms.setVal |
ING |
INT32 |
SP |
B |
40 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
40...60000
ms |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHPTOC1.AllwNonDir.setVal |
SPG |
BOOLEAN |
SP |
B |
0 |
Allow
Non Dir |
Allows
prot activation as non-dir when dir info is invalid |
Settings\Settings\Current
protection\DEFHPDEF1 |
||||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHPTOC1.AMeasMod.setVal |
ING |
Enum |
SP |
B |
2 |
Measurement
mode |
Selects
used measurement mode |
1=RMS;
2=DFT; 3=Peak-to-Peak |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHPTOC1.VStr.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.010 |
Voltage
start value |
Voltage
start value |
0.010...1.000
xUn |
Settings\Settings\Current
protection\DEFHPDEF1 |
RESTVTR1 |
||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHPTOC1.EnaVLim.setVal |
SPG |
BOOLEAN |
SG |
B |
1 |
Enable
voltage limit |
Enable
voltage limit |
Settings\Settings\Current
protection\DEFHPDEF1 |
||||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHPTOC1.AResSigSel.setVal |
ING |
Enum |
SP |
B,I |
1 |
Io
signal Sel |
Selection
for used Io signal |
1=Measured
Io; 2=Calculated Io |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHRDIR1.OpModEF.setVal |
ING |
Enum |
SG |
B |
1 |
Operation
mode |
Operation
criteria |
1=Phase
angle; 2=IoSin; 3=IoCos; 4=Phase angle 80; 5=Phase angle 88 |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHRDIR1.ChrAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
-90 |
Characteristic
angle |
Characteristic
angle |
-179...180
deg |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHRDIR1.MaxFwdAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
80 |
Max
forward angle |
Maximum
phase angle in forward direction |
0...180
deg |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHRDIR1.MaxRvAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
80 |
Max
reverse angle |
Maximum
phase angle in reverse direction |
0...180
deg |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHRDIR1.MinFwdAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
80 |
Min
forward angle |
Minimum
phase angle in forward direction |
0...180
deg |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHRDIR1.MinRvAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
80 |
Min
reverse angle |
Minimum
phase angle in reverse direction |
0...180
deg |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHRDIR1.BlkValA.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.005 |
Min
operate current |
Minimum
operating current |
0.005...1.000
xIn |
Settings\Settings\Current
protection\DEFHPDEF1 |
RESTCTR1 |
||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHRDIR1.BlkValV.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.01 |
Min
operate voltage |
Minimum
operating voltage |
0.01...1.00
xUn |
Settings\Settings\Current
protection\DEFHPDEF1 |
RESTVTR1 |
||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHRDIR1.CorAng.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.0 |
Correction
angle |
Angle
correction |
0.0...10.0
deg |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHRDIR1.RevPol.setVal |
SPG |
BOOLEAN |
SP |
B |
0 |
Pol
reversal |
Rotate
polarizing quantity |
Settings\Settings\Current
protection\DEFHPDEF1 |
||||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
SET |
LD0.DEFHRDIR1.PolSigSel.setVal |
ING |
Enum |
SP |
B,I |
1 |
Pol
signal Sel |
Selection
for used polarization signal |
1=Measured
Uo; 2=Calculated Uo; 3=Neg. seq. volt. |
Settings\Settings\Current
protection\DEFHPDEF1 |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
TES |
LD0.DEFHPTOC1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
DEFHPDEF1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
VER |
LD0.DEFHPTOC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
D |
(Name
plate) |
|||||||
|
DEFHPDEF1 |
Io>>->(1) |
67N-2 |
VER |
LD0.DEFHRDIR1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
D |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
INP |
LD0.DEFHPTOC2.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\DEFHPDEF2\Inputs |
||||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
INP |
LD0.DEFHPTOC2.InEnaMult.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
ENA_MULT |
Enable
signal for current multiplier |
Monitoring\I/O
status\Current protection\DEFHPDEF2\Inputs |
||||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
INP |
LD0.DEFHRDIR2.InRcaCtl.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
RCA_CTL |
Relay
characteristic angle control |
Monitoring\I/O
status\Current protection\DEFHPDEF2\Inputs |
||||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
OUT |
LD0.DEFHPTOC2.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Current protection\DEFHPDEF2\Outputs |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
OUT |
LD0.DEFHPTOC2.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Current protection\DEFHPDEF2\Outputs |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
MON |
LD0.DEFHPTOC2.Beh.stVal |
INS |
Enum |
ST |
B |
DEFHPDEF2 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
MON |
LD0.DEFHPTOC2.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Current protection\DEFHPDEF2\Monitored data |
||||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
MON |
LD0.DEFHPTOC2.Str.dirGeneral |
ACD |
Enum |
ST |
B |
StatNrml |
P,H |
FAULT_DIR |
Detected
fault direction |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Current protection\DEFHPDEF2\Monitored data |
||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
MON |
LD0.DEFHRDIR2.OpAEF.mag.f |
MV |
FLOAT32 |
MX |
B |
I_OPER |
Calculated
operating current |
0.00...40.00 |
Monitoring\I/O
status\Current protection\DEFHPDEF2\Monitored data |
||||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
MON |
LD0.DEFHRDIR2.OpPolAng.mag.f |
MV |
FLOAT32 |
MX |
B |
ANGLE |
Angle
between polarizing and operating quantity |
-180.00...180.00
deg |
Monitoring\I/O
status\Current protection\DEFHPDEF2\Monitored data |
||||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
MON |
LD0.DEFHRDIR2.OpChrAng.mag.f |
MV |
FLOAT32 |
MX |
B |
ANGLE_RCA |
Angle
between operating angle and characteristic angle |
-180.00...180.00
deg |
Monitoring\I/O
status\Current protection\DEFHPDEF2\Monitored data |
||||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
MON |
LD0.DEFHRDIR2.Dir.dirGeneral |
ACD |
Enum |
ST |
B |
DIRECTION |
Direction
information |
0=unknown;
1=forward; 2=backward; 3=both |
Monitoring\I/O
status\Current protection\DEFHPDEF2\Monitored data |
||||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHPTOC2.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHPTOC2.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.10 |
Start
value |
Start
value |
0.10...40.00
xIn |
Settings\Settings\Current
protection\DEFHPDEF2 |
RESTCTR1 |
||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHPTOC2.StrValMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.0 |
Start
value Mult |
Multiplier
for scaling the start value |
0.8...10.0 |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHPTOC2.DirMod.setVal |
ING |
Enum |
SG |
B |
2 |
Directional
mode |
Directional
mode |
1=Non-directional;
2=Forward; 3=Reverse |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHPTOC2.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
1.00 |
Time
multiplier |
Time
multiplier in IEC/ANSI IDMT curves |
0.05...15.00 |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHPTOC2.TmACrv.setCharact |
CURVE |
Enum |
SG |
B,I |
15 |
Operating
curve type |
Selection
of time delay curve type |
1=ANSI
Ext. inv.; 3=ANSI Norm. inv.; 5=ANSI Def. Time; 15=IEC Def. Time;
17=Programmable |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHPTOC2.TmACrv.setParA |
CURVE |
FLOAT32 |
SP |
B,I |
28.2000 |
Curve
parameter A |
Parameter
A for customer programmable curve |
0.0086...120.0000 |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHPTOC2.TmACrv.setParB |
CURVE |
FLOAT32 |
SP |
B,I |
0.1217 |
Curve
parameter B |
Parameter
B for customer programmable curve |
0.0000...0.7120 |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHPTOC2.TmACrv.setParC |
CURVE |
FLOAT32 |
SP |
B,I |
2.00 |
Curve
parameter C |
Parameter
C for customer programmable curve |
0.02...2.00 |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHPTOC2.TmACrv.setParD |
CURVE |
FLOAT32 |
SP |
B,I |
29.10 |
Curve
parameter D |
Parameter
D for customer programmable curve |
0.46...30.00 |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHPTOC2.TmACrv.setParE |
CURVE |
FLOAT32 |
SP |
B,I |
1.0 |
Curve
parameter E |
Parameter
E for customer programmable curve |
0.0...1.0 |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHPTOC2.TypRsCrv.setVal |
ING |
Enum |
SG |
B |
1 |
Type
of reset curve |
Selection
of reset curve type |
1=Immediate;
2=Def time reset; 3=Inverse reset |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHPTOC2.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
40 |
Operate
delay time |
Operate
delay time |
40...200000
ms |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHPTOC2.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHPTOC2.MinOpTmms.setVal |
ING |
INT32 |
SP |
B |
40 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
40...60000
ms |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHPTOC2.AllwNonDir.setVal |
SPG |
BOOLEAN |
SP |
B |
0 |
Allow
Non Dir |
Allows
prot activation as non-dir when dir info is invalid |
Settings\Settings\Current
protection\DEFHPDEF2 |
||||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHPTOC2.AMeasMod.setVal |
ING |
Enum |
SP |
B |
2 |
Measurement
mode |
Selects
used measurement mode |
1=RMS;
2=DFT; 3=Peak-to-Peak |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHPTOC2.VStr.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.010 |
Voltage
start value |
Voltage
start value |
0.010...1.000
xUn |
Settings\Settings\Current
protection\DEFHPDEF2 |
RESTVTR1 |
||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHPTOC2.EnaVLim.setVal |
SPG |
BOOLEAN |
SG |
B |
1 |
Enable
voltage limit |
Enable
voltage limit |
Settings\Settings\Current
protection\DEFHPDEF2 |
||||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHPTOC2.AResSigSel.setVal |
ING |
Enum |
SP |
B,I |
1 |
Io
signal Sel |
Selection
for used Io signal |
1=Measured
Io; 2=Calculated Io |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHRDIR2.OpModEF.setVal |
ING |
Enum |
SG |
B |
1 |
Operation
mode |
Operation
criteria |
1=Phase
angle; 2=IoSin; 3=IoCos; 4=Phase angle 80; 5=Phase angle 88 |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHRDIR2.ChrAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
-90 |
Characteristic
angle |
Characteristic
angle |
-179...180
deg |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHRDIR2.MaxFwdAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
80 |
Max
forward angle |
Maximum
phase angle in forward direction |
0...180
deg |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHRDIR2.MaxRvAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
80 |
Max
reverse angle |
Maximum
phase angle in reverse direction |
0...180
deg |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHRDIR2.MinFwdAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
80 |
Min
forward angle |
Minimum
phase angle in forward direction |
0...180
deg |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHRDIR2.MinRvAng.setMag.f |
ASG |
FLOAT32 |
SG |
B |
80 |
Min
reverse angle |
Minimum
phase angle in reverse direction |
0...180
deg |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHRDIR2.BlkValA.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.005 |
Min
operate current |
Minimum
operating current |
0.005...1.000
xIn |
Settings\Settings\Current
protection\DEFHPDEF2 |
RESTCTR1 |
||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHRDIR2.BlkValV.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.01 |
Min
operate voltage |
Minimum
operating voltage |
0.01...1.00
xUn |
Settings\Settings\Current
protection\DEFHPDEF2 |
RESTVTR1 |
||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHRDIR2.CorAng.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.0 |
Correction
angle |
Angle
correction |
0.0...10.0
deg |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHRDIR2.RevPol.setVal |
SPG |
BOOLEAN |
SP |
B |
0 |
Pol
reversal |
Rotate
polarizing quantity |
Settings\Settings\Current
protection\DEFHPDEF2 |
||||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
SET |
LD0.DEFHRDIR2.PolSigSel.setVal |
ING |
Enum |
SP |
B,I |
1 |
Pol
signal Sel |
Selection
for used polarization signal |
1=Measured
Uo; 2=Calculated Uo; 3=Neg. seq. volt. |
Settings\Settings\Current
protection\DEFHPDEF2 |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
TES |
LD0.DEFHPTOC2.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
DEFHPDEF2 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
VER |
LD0.DEFHPTOC2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
D |
(Name
plate) |
|||||||
|
DEFHPDEF2 |
Io>>->(2) |
67N-2(2) |
VER |
LD0.DEFHRDIR2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
D |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
INP |
LD0.LSHDPTRC1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ1\Inputs |
||||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
INP |
LD0.LSHDPTRC1.ManRest.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
MAN_RESTORE |
Manual
restore signal |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ1\Inputs |
||||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
INP |
LD0.LSHDPTRC1.BlkRest.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
BLK_REST |
Block
restore |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ1\Inputs |
||||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
OUT |
LD0.LSHDPTRC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ1\Outputs |
|||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
OUT |
LD0.LSHDPTRC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operation
of load shedding |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ1\Outputs |
|||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
OUT |
LD0.LSHDPTRC1.RestLodStr.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
ST_REST |
Restore
frequency attained and restore timer started |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ1\Outputs |
|||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
OUT |
LD0.LSHDPTRC1.RestLodOp.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
RESTORE |
Restore
signal for load restoring purposes |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ1\Outputs |
|||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
OUT |
LD0.LSHDPTUF1.Str.general |
ACD |
BOOLEAN |
ST |
B |
ST_FRQ |
Pick-Up
signal for under frequency detection |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ1\Outputs |
|||||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
OUT |
LD0.LSHDPTUF1.Op.general |
ACT |
BOOLEAN |
ST |
B |
OPR_FRQ |
Operate
signal for under frequency |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ1\Outputs |
|||||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
OUT |
LD0.LSHDPFRC1.Str.general |
ACD |
BOOLEAN |
ST |
B |
ST_FRG |
Pick-Up
signal for high df/dt detection |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ1\Outputs |
|||||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
OUT |
LD0.LSHDPFRC1.Op.general |
ACT |
BOOLEAN |
ST |
B |
OPR_FRG |
Operate
signal for high df/dt |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ1\Outputs |
|||||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
CTR |
LD0.LSHDPTRC1.ManRest.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Manual
restore command) |
||||||||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
CTR |
LD0.LSHDPTRC1.BlkRest.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Cancel
restore) |
||||||||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
MON |
LD0.LSHDPTRC1.Beh.stVal |
INS |
Enum |
ST |
B |
LSHDPFRQ1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
MON |
LD0.LSHDPTRC1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Start
duration |
0.00...100.00
% |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ1\Monitored data |
||||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
SET |
LD0.LSHDPTRC1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Frequency
protection\LSHDPFRQ1 |
|||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
SET |
LD0.LSHDPTRC1.LodShdMod.setVal |
ING |
Enum |
SG |
B |
1 |
Load
shed mode |
Set
the operation mode for load shedding function |
1=Freq<;
6=Freq< OR df/dt; 8=Freq< AND df/dt |
Settings\Settings\Frequency
protection\LSHDPFRQ1 |
|||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
SET |
LD0.LSHDPTRC1.RestStrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.998 |
Restore
start Val |
Restore
frequency setting value |
0.800...1.200
xFn |
Settings\Settings\Frequency
protection\LSHDPFRQ1 |
|||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
SET |
LD0.LSHDPTRC1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
300 |
Restore
delay time |
Time
delay to restore |
80...200000
ms |
Settings\Settings\Frequency
protection\LSHDPFRQ1 |
|||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
SET |
LD0.LSHDPTRC1.RestMod.setVal |
ING |
Enum |
SG |
B |
1 |
Restore
mode |
Mode
of operation of restore functionality |
1=Disabled;
2=Auto; 3=Manual |
Settings\Settings\Frequency
protection\LSHDPFRQ1 |
|||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
SET |
LD0.LSHDPTRC1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
50 |
Reset
delay time |
Time
delay after which the definite timers will reset |
0...60000
ms |
Settings\Settings\Frequency
protection\LSHDPFRQ1 |
|||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
SET |
LD0.LSHDPTUF1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.975 |
Start
value Freq |
Frequency
setting/start value |
0.800...1.200
xFn |
Settings\Settings\Frequency
protection\LSHDPFRQ1 |
|||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
SET |
LD0.LSHDPTUF1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
200 |
Operate
Tm Freq |
Time
delay to operate for under frequency stage |
80...200000
ms |
Settings\Settings\Frequency
protection\LSHDPFRQ1 |
|||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
SET |
LD0.LSHDPFRC1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
-0.010 |
Start
value df/dt |
Setting
of frequency gradient for df/dt detection |
-0.200...-0.005
xFn /s |
Settings\Settings\Frequency
protection\LSHDPFRQ1 |
|||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
SET |
LD0.LSHDPFRC1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
200 |
Operate
Tm df/dt |
Time
delay to operate for df/dt stage |
120...200000
ms |
Settings\Settings\Frequency
protection\LSHDPFRQ1 |
|||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
TES |
LD0.LSHDPTRC1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
LSHDPFRQ1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE;
-21=Activate OPR_UFRQ; -22=Deactive OPR_UFRQ; -25=Activate OPR_FRG;
-26=Deactive OPR_FRG; -27=Activate ST_UFRQ; -28=Deactive ST_UFRQ;
-31=Activate ST_FRG; -32=Deactive ST_FRG; 115=Activate RESTORE; 116=Deactive
RESTORE; -55=Activate ST_REST; -56=Deactive ST_REST |
Tests\Function
tests\Frequency protection |
|||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
VER |
LD0.LSHDPTRC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
VER |
LD0.LSHDPTUF1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
LSHDPFRQ1 |
UFLS/R(1) |
81LSH(1) |
VER |
LD0.LSHDPFRC1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
INP |
LD0.LSHDPTRC2.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ2\Inputs |
||||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
INP |
LD0.LSHDPTRC2.ManRest.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
MAN_RESTORE |
Manual
restore signal |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ2\Inputs |
||||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
INP |
LD0.LSHDPTRC2.BlkRest.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
BLK_REST |
Block
restore |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ2\Inputs |
||||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
OUT |
LD0.LSHDPTRC2.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ2\Outputs |
|||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
OUT |
LD0.LSHDPTRC2.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operation
of load shedding |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ2\Outputs |
|||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
OUT |
LD0.LSHDPTRC2.RestLodStr.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
ST_REST |
Restore
frequency attained and restore timer started |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ2\Outputs |
|||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
OUT |
LD0.LSHDPTRC2.RestLodOp.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
RESTORE |
Restore
signal for load restoring purposes |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ2\Outputs |
|||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
OUT |
LD0.LSHDPTUF2.Str.general |
ACD |
BOOLEAN |
ST |
B |
ST_FRQ |
Pick-Up
signal for under frequency detection |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ2\Outputs |
|||||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
OUT |
LD0.LSHDPTUF2.Op.general |
ACT |
BOOLEAN |
ST |
B |
OPR_FRQ |
Operate
signal for under frequency |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ2\Outputs |
|||||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
OUT |
LD0.LSHDPFRC2.Str.general |
ACD |
BOOLEAN |
ST |
B |
ST_FRG |
Pick-Up
signal for high df/dt detection |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ2\Outputs |
|||||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
OUT |
LD0.LSHDPFRC2.Op.general |
ACT |
BOOLEAN |
ST |
B |
OPR_FRG |
Operate
signal for high df/dt |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ2\Outputs |
|||||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
CTR |
LD0.LSHDPTRC2.ManRest.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Manual
restore command) |
||||||||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
CTR |
LD0.LSHDPTRC2.BlkRest.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
(Cancel
restore) |
||||||||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
MON |
LD0.LSHDPTRC2.Beh.stVal |
INS |
Enum |
ST |
B |
LSHDPFRQ2 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
MON |
LD0.LSHDPTRC2.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Start
duration |
0.00...100.00
% |
Monitoring\I/O
status\Frequency protection\LSHDPFRQ2\Monitored data |
||||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
SET |
LD0.LSHDPTRC2.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Frequency
protection\LSHDPFRQ2 |
|||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
SET |
LD0.LSHDPTRC2.LodShdMod.setVal |
ING |
Enum |
SG |
B |
1 |
Load
shed mode |
Set
the operation mode for load shedding function |
1=Freq<;
6=Freq< OR df/dt; 8=Freq< AND df/dt |
Settings\Settings\Frequency
protection\LSHDPFRQ2 |
|||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
SET |
LD0.LSHDPTRC2.RestStrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.998 |
Restore
start Val |
Restore
frequency setting value |
0.800...1.200
xFn |
Settings\Settings\Frequency
protection\LSHDPFRQ2 |
|||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
SET |
LD0.LSHDPTRC2.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
300 |
Restore
delay time |
Time
delay to restore |
80...200000
ms |
Settings\Settings\Frequency
protection\LSHDPFRQ2 |
|||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
SET |
LD0.LSHDPTRC2.RestMod.setVal |
ING |
Enum |
SG |
B |
1 |
Restore
mode |
Mode
of operation of restore functionality |
1=Disabled;
2=Auto; 3=Manual |
Settings\Settings\Frequency
protection\LSHDPFRQ2 |
|||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
SET |
LD0.LSHDPTRC2.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
50 |
Reset
delay time |
Time
delay after which the definite timers will reset |
0...60000
ms |
Settings\Settings\Frequency
protection\LSHDPFRQ2 |
|||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
SET |
LD0.LSHDPTUF2.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.975 |
Start
value Freq |
Frequency
setting/start value |
0.800...1.200
xFn |
Settings\Settings\Frequency
protection\LSHDPFRQ2 |
|||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
SET |
LD0.LSHDPTUF2.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
200 |
Operate
Tm Freq |
Time
delay to operate for under frequency stage |
80...200000
ms |
Settings\Settings\Frequency
protection\LSHDPFRQ2 |
|||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
SET |
LD0.LSHDPFRC2.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
-0.010 |
Start
value df/dt |
Setting
of frequency gradient for df/dt detection |
-0.200...-0.005
xFn /s |
Settings\Settings\Frequency
protection\LSHDPFRQ2 |
|||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
SET |
LD0.LSHDPFRC2.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
200 |
Operate
Tm df/dt |
Time
delay to operate for df/dt stage |
120...200000
ms |
Settings\Settings\Frequency
protection\LSHDPFRQ2 |
|||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
TES |
LD0.LSHDPTRC2.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
LSHDPFRQ2 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE;
-21=Activate OPR_UFRQ; -22=Deactive OPR_UFRQ; -25=Activate OPR_FRG;
-26=Deactive OPR_FRG; -27=Activate ST_UFRQ; -28=Deactive ST_UFRQ;
-31=Activate ST_FRG; -32=Deactive ST_FRG; 115=Activate RESTORE; 116=Deactive
RESTORE; -55=Activate ST_REST; -56=Deactive ST_REST |
Tests\Function
tests\Frequency protection |
|||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
VER |
LD0.LSHDPTRC2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
VER |
LD0.LSHDPTUF2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|||||||
|
LSHDPFRQ2 |
UFLS/R(2) |
81LSH(2) |
VER |
LD0.LSHDPFRC2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
ROVPTOV2 |
Uo>(2) |
59G(2) |
INP |
LD0.ROVPTOV2.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Voltage protection\ROVPTOV2\Inputs |
||||
|
ROVPTOV2 |
Uo>(2) |
59G(2) |
OUT |
LD0.ROVPTOV2.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
Monitoring\I/O
status\Voltage protection\ROVPTOV2\Outputs |
|||
|
ROVPTOV2 |
Uo>(2) |
59G(2) |
OUT |
LD0.ROVPTOV2.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
Monitoring\I/O
status\Voltage protection\ROVPTOV2\Outputs |
|||
|
ROVPTOV2 |
Uo>(2) |
59G(2) |
MON |
LD0.ROVPTOV2.Beh.stVal |
INS |
Enum |
ST |
B |
ROVPTOV2 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
ROVPTOV2 |
Uo>(2) |
59G(2) |
MON |
LD0.ROVPTOV2.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time |
0.00...100.00
% |
Monitoring\I/O
status\Voltage protection\ROVPTOV2\Monitored data |
||||
|
ROVPTOV2 |
Uo>(2) |
59G(2) |
SET |
LD0.ROVPTOV2.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Voltage
protection\ROVPTOV2 |
|||
|
ROVPTOV2 |
Uo>(2) |
59G(2) |
SET |
LD0.ROVPTOV2.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
0.030 |
Start
value |
Residual
overvoltage start value |
0.010...1.000
xUn |
Settings\Settings\Voltage
protection\ROVPTOV2 |
RESTVTR1 |
||
|
ROVPTOV2 |
Uo>(2) |
59G(2) |
SET |
LD0.ROVPTOV2.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
40 |
Operate
delay time |
Operate
delay time |
40...300000
ms |
Settings\Settings\Voltage
protection\ROVPTOV2 |
|||
|
ROVPTOV2 |
Uo>(2) |
59G(2) |
SET |
LD0.ROVPTOV2.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
20 |
Reset
delay time |
Reset
delay time |
0...60000
ms |
Settings\Settings\Voltage
protection\ROVPTOV2 |
|||
|
ROVPTOV2 |
Uo>(2) |
59G(2) |
SET |
LD0.ROVPTOV2.VResSigSel.setVal |
ING |
Enum |
SP |
B,I |
1 |
Uo
signal Sel |
Selection
for used Uo signal |
1=Measured
Uo; 2=Calculated Uo |
Settings\Settings\Voltage
protection\ROVPTOV2 |
|||
|
ROVPTOV2 |
Uo>(2) |
59G(2) |
TES |
LD0.ROVPTOV2.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
ROVPTOV2 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Voltage protection |
|||
|
ROVPTOV2 |
Uo>(2) |
59G(2) |
VER |
LD0.ROVPTOV2.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
UDFCNT3 |
CTR(3) |
UDFCNT3 |
INP |
LD0.UDFCNT3.InUpCnt.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
UP_CNT |
Input
for up counting |
Monitoring\I/O
status\Generic logic\UDFCNT3\Inputs |
||||
|
UDFCNT3 |
CTR(3) |
UDFCNT3 |
INP |
LD0.UDFCNT3.InDnCnt.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
DOWN_CNT |
Input
for down counting |
Monitoring\I/O
status\Generic logic\UDFCNT3\Inputs |
||||
|
UDFCNT3 |
CTR(3) |
UDFCNT3 |
INP |
LD0.UDFCNT3.RsCnt.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
RESET |
Reset
input for counter |
Monitoring\I/O
status\Generic logic\UDFCNT3\Inputs |
||||
|
UDFCNT3 |
CTR(3) |
UDFCNT3 |
INP |
LD0.UDFCNT3.LodCnt.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
LOAD |
Load
input for counter |
Monitoring\I/O
status\Generic logic\UDFCNT3\Inputs |
||||
|
UDFCNT3 |
CTR(3) |
UDFCNT3 |
OUT |
LD0.UDFCNT3.UpCntSt.stVal |
SPS |
BOOLEAN |
ST |
B |
UPCNT_STS |
Status
of the up counting |
Monitoring\I/O
status\Generic logic\UDFCNT3\Outputs |
|||||
|
UDFCNT3 |
CTR(3) |
UDFCNT3 |
OUT |
LD0.UDFCNT3.DnCntSt.stVal |
SPS |
BOOLEAN |
ST |
B |
DNCNT_STS |
Status
of the down counting |
Monitoring\I/O
status\Generic logic\UDFCNT3\Outputs |
|||||
|
UDFCNT3 |
CTR(3) |
UDFCNT3 |
CTR |
LD0.UDFCNT3.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Generic
logic\UDFCNT3 |
|||
|
UDFCNT3 |
CTR(3) |
UDFCNT3 |
CTR |
LD0.UDFCNT3.RsCnt.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
counter |
Resets
counter value |
0=Cancel;
1=Reset |
Configuration\Generic
logic\UDFCNT3 |
|||
|
UDFCNT3 |
CTR(3) |
UDFCNT3 |
CTR |
LD0.UDFCNT3.LodCnt.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Load
counter |
Loads
the counter to preset value |
0=Cancel;
1=Load |
Configuration\Generic
logic\UDFCNT3 |
|||
|
UDFCNT3 |
CTR(3) |
UDFCNT3 |
MON |
LD0.UDFCNT3.CntRs.actVal |
BCR |
INT128 |
ST |
B |
CNT_VAL |
Output
counter value |
0...2147483647 |
Monitoring\I/O
status\Generic logic\UDFCNT3\Monitored data |
||||
|
UDFCNT3 |
CTR(3) |
UDFCNT3 |
CFG |
LD0.UDFCNT3.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Off / On |
1=on;
5=off |
Configuration\Generic
logic\UDFCNT3 |
|||
|
UDFCNT3 |
CTR(3) |
UDFCNT3 |
CFG |
LD0.UDFCNT3.CntLodVal.setVal |
ING |
INT32 |
SP |
B |
1 |
Counter
load value |
Preset
counter value |
0...2147483647 |
Configuration\Generic
logic\UDFCNT3 |
|||
|
UDFCNT3 |
CTR(3) |
UDFCNT3 |
CFG |
LD0.UDFCNT3.RsCnt.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Reset
counter |
Resets
counter value |
0=Cancel;
1=Reset |
Configuration\Generic
logic\UDFCNT3 |
|||
|
UDFCNT3 |
CTR(3) |
UDFCNT3 |
CFG |
LD0.UDFCNT3.LodCnt.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
Load
counter |
Loads
the counter to preset value |
0=Cancel;
1=Load |
Configuration\Generic
logic\UDFCNT3 |
|||
|
UDFCNT3 |
CTR(3) |
UDFCNT3 |
VER |
LD0.UDFCNT3.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
OEPVPH1 |
U/f>(1) |
24(1) |
INP |
LD0.OEPVPH1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal |
Monitoring\I/O
status\Voltage protection\OEPVPH1\Inputs |
||||
|
OEPVPH1 |
U/f>(1) |
24(1) |
OUT |
LD0.OEPVPH1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Started |
Monitoring\I/O
status\Voltage protection\OEPVPH1\Outputs |
|||
|
OEPVPH1 |
U/f>(1) |
24(1) |
OUT |
LD0.OEPVPH1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operated |
Monitoring\I/O
status\Voltage protection\OEPVPH1\Outputs |
|||
|
OEPVPH1 |
U/f>(1) |
24(1) |
OUT |
LD0.OEPVPH1.StrInh.stVal |
SPS |
BOOLEAN |
ST |
B |
BLK_RESTART |
Signal
for blocking reconnection of an overheated machine |
Monitoring\I/O
status\Voltage protection\OEPVPH1\Outputs |
|||||
|
OEPVPH1 |
U/f>(1) |
24(1) |
OUT |
LD0.OEPVPH1.CoolAct.stVal |
SPS |
BOOLEAN |
ST |
B |
COOL_ACTIVE |
Signal
to indicate machine is in cooling process |
Monitoring\I/O
status\Voltage protection\OEPVPH1\Outputs |
|||||
|
OEPVPH1 |
U/f>(1) |
24(1) |
MON |
LD0.OEPVPH1.Beh.stVal |
INS |
Enum |
ST |
B |
OEPVPH1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
OEPVPH1 |
U/f>(1) |
24(1) |
MON |
LD0.OEPVPH1.VHzRat.mag.f |
MV |
FLOAT32 |
MX |
B |
VOLTPERHZ |
Excitation
level, i.e U/f ratio or Volts/Hertz |
0.00...10.00
pu |
Monitoring\I/O
status\Voltage protection\OEPVPH1\Monitored data |
||||
|
OEPVPH1 |
U/f>(1) |
24(1) |
MON |
LD0.OEPVPH1.StrDur.mag.f |
MV |
FLOAT32 |
MX |
B |
START_DUR |
Ratio
of start time / operate time (in %) |
0.00...100.00
% |
Monitoring\I/O
status\Voltage protection\OEPVPH1\Monitored data |
||||
|
OEPVPH1 |
U/f>(1) |
24(1) |
MON |
LD0.OEPVPH1.TmsRecEna.stVal |
INS |
INT32 |
ST |
B |
T_ENARESTART |
Estimated
time to reset of block restart |
0...10000
s |
Monitoring\I/O
status\Voltage protection\OEPVPH1\Monitored data |
||||
|
OEPVPH1 |
U/f>(1) |
24(1) |
SET |
LD0.OEPVPH1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
Mode Off / On |
1=on;
5=off |
Settings\Settings\Voltage
protection\OEPVPH1 |
|||
|
OEPVPH1 |
U/f>(1) |
24(1) |
SET |
LD0.OEPVPH1.StrVal.setMag.f |
ASG |
FLOAT32 |
SG |
B |
100 |
Start
value |
Over
excitation start value |
100...200
% |
Settings\Settings\Voltage
protection\OEPVPH1 |
|||
|
OEPVPH1 |
U/f>(1) |
24(1) |
SET |
LD0.OEPVPH1.VHzCrv.setCharact |
CURVE |
Enum |
SG |
B |
15 |
Operating
curve type |
Selection
of time delay curve type |
5=ANSI
Def. Time; 15=IEC Def. Time; 17=OvExt IDMT Crv1; 18=OvExt IDMT Crv2; 19=OvExt
IDMT Crv3; 20=OvExt IDMT Crv4 |
Settings\Settings\Voltage
protection\OEPVPH1 |
|||
|
OEPVPH1 |
U/f>(1) |
24(1) |
SET |
LD0.OEPVPH1.OpDlTmms.setVal |
ING |
INT32 |
SG |
B |
500 |
Operate
delay time |
Operate
delay time in definite- time mode |
200...200000
ms |
Settings\Settings\Voltage
protection\OEPVPH1 |
|||
|
OEPVPH1 |
U/f>(1) |
24(1) |
SET |
LD0.OEPVPH1.RsDlTmms.setVal |
ING |
INT32 |
SP |
B |
100 |
Reset
delay time |
Resetting
time of the operate time counter in DT mode |
0...60000
ms |
Settings\Settings\Voltage
protection\OEPVPH1 |
|||
|
OEPVPH1 |
U/f>(1) |
24(1) |
SET |
LD0.OEPVPH1.TmMult.setMag.f |
ASG |
FLOAT32 |
SG |
B |
3.0 |
Time
multiplier |
Time
multiplier for Overexcitation IDMT curves |
0.1...100.0 |
Settings\Settings\Voltage
protection\OEPVPH1 |
|||
|
OEPVPH1 |
U/f>(1) |
24(1) |
SET |
LD0.OEPVPH1.MinOpTmms.setVal |
ING |
INT32 |
SP |
B |
200 |
Minimum
operate time |
Minimum
operate time for IDMT curves |
200...60000
ms |
Settings\Settings\Voltage
protection\OEPVPH1 |
|||
|
OEPVPH1 |
U/f>(1) |
24(1) |
SET |
LD0.OEPVPH1.MaxOpTmms.setVal |
ING |
INT32 |
SP |
B |
1000000 |
Maximum
operate time |
Maximum
operate time for IDMT curves |
500000...10000000
ms |
Settings\Settings\Voltage
protection\OEPVPH1 |
|||
|
OEPVPH1 |
U/f>(1) |
24(1) |
SET |
LD0.OEPVPH1.MaxVCont.setMag.f |
ASG |
FLOAT32 |
SP |
B |
110 |
Voltage
Max Cont |
Maximum
allowed continuous operating voltage ratio |
80...160
% |
Settings\Settings\Voltage
protection\OEPVPH1 |
|||
|
OEPVPH1 |
U/f>(1) |
24(1) |
SET |
LD0.OEPVPH1.RecEnaLev.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0 |
Restart
Ena level |
Determines
the level in % when block restart is released |
0...100
% |
Settings\Settings\Voltage
protection\OEPVPH1 |
|||
|
OEPVPH1 |
U/f>(1) |
24(1) |
SET |
LD0.OEPVPH1.CoolTms.setVal |
ING |
INT32 |
SP |
B |
600 |
Cooling
time |
Time
required to cool the machine |
5...10000
s |
Settings\Settings\Voltage
protection\OEPVPH1 |
|||
|
OEPVPH1 |
U/f>(1) |
24(1) |
SET |
LD0.OEPVPH1.ConsDlTmms.setVal |
ING |
INT32 |
SP |
B |
800 |
Constant
delay |
Parameter
constant delay |
100...120000
ms |
Settings\Settings\Voltage
protection\OEPVPH1 |
|||
|
OEPVPH1 |
U/f>(1) |
24(1) |
SET |
LD0.OEPVPH1.XLea.setMag.f |
ASG |
FLOAT32 |
SP |
B |
0.0 |
Leakage
React |
Leakage
reactance of the machine |
0.0...50.0
% |
Settings\Settings\Voltage
protection\OEPVPH1 |
|||
|
OEPVPH1 |
U/f>(1) |
24(1) |
SET |
LD0.OEPVPH1.VSel.setVal |
ING |
Enum |
SP |
B |
3 |
Voltage
selection |
Selection
of phase / phase-to-phase / pos sequence voltages |
1=phase-to-earth;
2=phase-to-phase; 3=pos sequence |
Settings\Settings\Voltage
protection\OEPVPH1 |
|||
|
OEPVPH1 |
U/f>(1) |
24(1) |
SET |
LD0.OEPVPH1.VPhSel.setVal |
ING |
Enum |
SP |
B |
1 |
Phase
selection |
Parameter
for phase selection |
1=A
or AB; 2=B or BC; 3=C or CA |
Settings\Settings\Voltage
protection\OEPVPH1 |
|||
|
OEPVPH1 |
U/f>(1) |
24(1) |
TES |
LD0.OEPVPH1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
OEPVPH1 |
Test |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE;
-9=Activate BLK_RESTART; -10=Deactive BLK_RESTART; -65=Activate COOL_ACTIVE;
-66=Deactive COOL_ACTIVE |
Tests\Function
tests\Voltage protection |
|||
|
OEPVPH1 |
U/f>(1) |
24(1) |
VER |
LD0.OEPVPH1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
A |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
RCFD1 |
RCFD |
CFD |
INP |
LD0.RCFD1.Mod.blockIn |
INC |
BOOLEAN |
EX |
B |
0 |
BLOCK |
Block
signal for activating the blocking mode |
Monitoring\I/O
status\Current protection\RCFD1\Inputs |
||||
|
RCFD1 |
RCFD |
CFD |
OUT |
LD0.RCFD1.Str.general |
ACD |
BOOLEAN |
ST |
B |
StatNrml |
P,H |
START |
Start |
(A,B,C) |
Monitoring\I/O
status\Current protection\RCFD1\Outputs |
||
|
RCFD1 |
RCFD |
CFD |
OUT |
LD0.RCFD1.Op.general |
ACT |
BOOLEAN |
ST |
B |
StatNrml |
P,H,T |
OPERATE |
Operate |
(A,B,C) |
Monitoring\I/O
status\Current protection\RCFD1\Outputs |
||
|
RCFD1 |
RCFD |
CFD |
CTR |
LD0.RCFD1.Rst.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
B |
0 |
RCFD1
Reset |
RCFD1
Reset |
0=Cancel;
1=Clear |
Clear\Clear |
|||
|
RCFD1 |
RCFD |
CFD |
MON |
LD0.RCFD1.Beh.stVal |
INS |
Enum |
ST |
B |
RCFD1 |
Status |
1=on;
2=blocked; 3=test; 4=test/blocked; 5=off |
Monitoring\FB
status |
||||
|
RCFD1 |
RCFD |
CFD |
MON |
LD0.RCFD1.Event3Ph.stVal |
SPS |
BOOLEAN |
ST |
B |
Event3Ph |
Three
Phase Event |
Monitoring\I/O
status\Current protection\RCFD1\Monitored data |
|||||
|
RCFD1 |
RCFD |
CFD |
MON |
LD0.RCFD1.PickUpPh.phsA |
ACT |
BOOLEAN |
ST |
B |
PickUpNoTripA |
Pick
up no trip Phase A |
Monitoring\I/O
status\Current protection\RCFD1\Monitored data |
|||||
|
RCFD1 |
RCFD |
CFD |
MON |
LD0.RCFD1.PickUpPh.phsB |
ACT |
BOOLEAN |
ST |
B |
PickUpNoTripB |
Pick
up no trip Phase B |
Monitoring\I/O
status\Current protection\RCFD1\Monitored data |
|||||
|
RCFD1 |
RCFD |
CFD |
MON |
LD0.RCFD1.PickUpPh.phsC |
ACT |
BOOLEAN |
ST |
B |
PickUpNoTripC |
Pick
up no trip Phase C |
Monitoring\I/O
status\Current protection\RCFD1\Monitored data |
|||||
|
RCFD1 |
RCFD |
CFD |
MON |
LD0.RCFD1.SCFault.stVal |
SPS |
BOOLEAN |
ST |
B |
SCDetect |
SC
Fault Detect |
Monitoring\I/O
status\Current protection\RCFD1\Monitored data |
|||||
|
RCFD1 |
RCFD |
CFD |
MON |
LD0.RCFD1.SCA.stVal |
INS |
INT32 |
ST |
B |
SCA |
Number
of faults in Phase A |
0...10000 |
Monitoring\I/O
status\Current protection\RCFD1\Monitored data |
||||
|
RCFD1 |
RCFD |
CFD |
MON |
LD0.RCFD1.SCB.stVal |
INS |
INT32 |
ST |
B |
SCB |
Number
of faults in Phase B |
0...10000 |
Monitoring\I/O
status\Current protection\RCFD1\Monitored data |
||||
|
RCFD1 |
RCFD |
CFD |
MON |
LD0.RCFD1.SCC.stVal |
INS |
INT32 |
ST |
B |
SCC |
Number
of faults in Phase C |
0...10000 |
Monitoring\I/O
status\Current protection\RCFD1\Monitored data |
||||
|
RCFD1 |
RCFD |
CFD |
MON |
LD0.RCFD1.DetectPh.phsA |
ACT |
BOOLEAN |
ST |
B |
DetectfaultPhA |
Fault
detected in Phase A |
Monitoring\I/O
status\Current protection\RCFD1\Monitored data |
|||||
|
RCFD1 |
RCFD |
CFD |
MON |
LD0.RCFD1.DetectPh.phsB |
ACT |
BOOLEAN |
ST |
B |
DetectfaultPhB |
Fault
detected in Phase B |
Monitoring\I/O
status\Current protection\RCFD1\Monitored data |
|||||
|
RCFD1 |
RCFD |
CFD |
MON |
LD0.RCFD1.DetectPh.phsC |
ACT |
BOOLEAN |
ST |
B |
DetectfaultPhC |
Fault
detected in Phase C |
Monitoring\I/O
status\Current protection\RCFD1\Monitored data |
|||||
|
RCFD1 |
RCFD |
CFD |
SET |
LD0.RCFD1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Operation
Off / On |
1=on;
5=off |
Settings\Settings\Current
protection\RCFD1 |
|||
|
RCFD1 |
RCFD |
CFD |
SET |
LD0.RCFD1.AdapPhPu.setVal |
SPG |
BOOLEAN |
SG |
B,I |
0 |
AdapPhPu |
Adaptive
phase pickup |
Settings\Settings\Current
protection\RCFD1 |
||||
|
RCFD1 |
RCFD |
CFD |
SET |
LD0.RCFD1.PhPu.setVal |
ING |
INT32 |
SG |
B,I |
500 |
PhPu |
Fault
Pickup parameter Threshold |
0...100000 |
Settings\Settings\Current
protection\RCFD1 |
|||
|
RCFD1 |
RCFD |
CFD |
SET |
LD0.RCFD1.CycleMult.setVal |
ING |
INT32 |
SG |
B |
5 |
CyMulit |
Fault
detect threshold parameter |
1...20 |
Settings\Settings\Current
protection\RCFD1 |
|||
|
RCFD1 |
RCFD |
CFD |
SET |
LD0.RCFD1.AbsMinLd.setVal |
ING |
INT32 |
SG |
B,I |
100 |
AbsMinLoad |
Absolute
min loading on the feeder |
0...300 |
Settings\Settings\Current
protection\RCFD1 |
|||
|
RCFD1 |
RCFD |
CFD |
TES |
LD0.RCFD1.TstOutCmd.Oper.ctlVal |
INC |
Enum |
CO |
B |
0 |
RCFD1 |
Test
control for outputs |
0=Reset;
1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE |
Tests\Function
tests\Current protection |
|||
|
RCFD1 |
RCFD |
CFD |
VER |
LD0.RCFD1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
C |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
Control
LLN0 |
INP |
CTRL.LLN0.LocKeyDis.stVal |
SPS |
BOOLEAN |
ST |
0 |
(Control
disable) |
|||||||||
|
Control
LLN0 |
INP |
CTRL.LLN0.LocKeyLoc.stVal |
SPS |
BOOLEAN |
ST |
0 |
(Control
local) |
|||||||||
|
Control
LLN0 |
INP |
CTRL.LLN0.LocKeyRem.stVal |
SPS |
BOOLEAN |
ST |
0 |
(Control
remote) |
|||||||||
|
Control
LLN0 |
INP |
CTRL.LLN0.LocKeySta.stVal |
SPS |
BOOLEAN |
ST |
0 |
(Control
station) |
|||||||||
|
Control
LLN0 |
OUT |
CTRL.LLN0.LocKeyDis.stVal |
SPS |
BOOLEAN |
ST |
0 |
(Control
disable) |
|||||||||
|
Control
LLN0 |
OUT |
CTRL.LLN0.LocKeyLoc.stVal |
SPS |
BOOLEAN |
ST |
0 |
(Control
local) |
|||||||||
|
Control
LLN0 |
OUT |
CTRL.LLN0.LocKeyRem.stVal |
SPS |
BOOLEAN |
ST |
0 |
(Control
remote) |
|||||||||
|
Control
LLN0 |
OUT |
CTRL.LLN0.LocKeySta.stVal |
SPS |
BOOLEAN |
ST |
0 |
(Control
station) |
|||||||||
|
Control
LLN0 |
CTR |
CTRL.LLN0.Mod.Oper.ctlVal |
INC |
Enum |
CO |
I |
(Control) |
|||||||||
|
Control
LLN0 |
MON |
CTRL.LLN0.Loc.stVal |
SPS |
BOOLEAN |
ST |
OW,ER,AW |
StatUrg |
P,H |
(Local
/ Remote) |
|||||||
|
Control
LLN0 |
MON |
CTRL.LLN0.CmdRsp.stVal |
INS |
Enum |
ST |
B |
Command
response |
Latest
command response |
0=No
commands; 1=Select open; 2=Select close; 3=Operate open; 4=Operate close;
5=Direct open; 6=Direct close; 7=Cancel; 8=Position reached; 9=Position
timeout; 10=Object status only; 11=Object direct; 12=Object select; 13=RL
local allowed; 14=RL remote allowed; 15=RL off; 16=Function off; 17=Function
blocked; 18=Command progress; 19=Select timeout; 20=Missing authority;
21=Close not enabled; 22=Open not enabled; 23=Internal fault; 24=Already
close; 25=Wrong client; 26=RL station allowed; 27=RL change |
Monitoring\Control
command |
||||||
|
Control
LLN0 |
MON |
CTRL.LLN0.LocRem.stVal |
INS |
Enum |
ST |
B,OW,ER,AW |
StatUrg |
P,H |
LR
state |
LR
state monitoring for PCM |
0=Off;
1=Local; 2=Remote; 3=Station |
Monitoring\Control
command |
||||
|
Control
LLN0 |
CFG |
CTRL.LLN0.LocRemMod.setVal |
ING |
Enum |
SP |
B |
2 |
LR
control |
LR
control through LR key or binary input |
1=LR
key; 2=Binary input |
Configuration\Control\General |
|||||
|
Control
LLN0 |
CFG |
CTRL.LLN0.StaAuth.setVal |
ING |
Enum |
SP |
A |
1 |
Station
authority |
Control
command originator category usage |
1=Not
used; 2=Station, Remote |
Configuration\Control\General |
|||||
|
Control
LLN0 |
VER |
CTRL.LLN0.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Control) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
INP |
CTRL.CBCILO1.EnaOpn.stVal |
SPS |
BOOLEAN |
ST |
B |
1 |
StatUrg |
P,H |
ENA_OPEN |
Enables
opening |
Monitoring\I/O
status\Control\CBXCBR1\Inputs |
||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
INP |
CTRL.CBCILO1.EnaCls.stVal |
SPS |
BOOLEAN |
ST |
B |
1 |
StatUrg |
P,H |
ENA_CLOSE |
Enables
closing |
Monitoring\I/O
status\Control\CBXCBR1\Inputs |
||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
INP |
CTRL.CBCILO1.ItlByPss.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
ITL_BYPASS |
Discards
ENA_OPEN and ENA_CLOSE interlocking when TRUE |
Monitoring\I/O
status\Control\CBXCBR1\Inputs |
||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
INP |
CTRL.CBCSWI1.PosOpn.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
OPENPOS |
Apparatus
open position |
Monitoring\I/O
status\Control\CBXCBR1\Outputs |
||||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
INP |
CTRL.CBCSWI1.PosCls.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
CLOSEPOS |
Apparatus
closed position |
Monitoring\I/O
status\Control\CBXCBR1\Outputs |
||||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
INP |
CTRL.CBCSWI1.OpOpn.general |
ACT |
BOOLEAN |
ST |
B |
0 |
EXE_OP |
Executes
the command for open direction |
Monitoring\I/O
status\Control\CBXCBR1\Outputs |
||||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
INP |
CTRL.CBCSWI1.OpCls.general |
ACT |
BOOLEAN |
ST |
B |
0 |
EXE_CL |
Executes
the command for close direction |
Monitoring\I/O
status\Control\CBXCBR1\Outputs |
||||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
INP |
CTRL.CBXCBR1.BlkOpn.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
BLK_OPEN |
Blocks
opening |
Monitoring\I/O
status\Control\CBXCBR1\Inputs |
||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
INP |
CTRL.CBXCBR1.BlkCls.stVal |
SPC |
BOOLEAN |
ST |
B |
0 |
StatUrg |
P,H |
BLK_CLOSE |
Blocks
closing |
Monitoring\I/O
status\Control\CBXCBR1\Inputs |
||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
OUT |
CTRL.CBCSWI1.Pos.stSeld |
DPC |
BOOLEAN |
ST |
B |
StatUrg |
P,H |
SELECTED |
Object
selected |
Monitoring\I/O
status\Control\CBXCBR1\Outputs |
|||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
OUT |
CTRL.CBCSWI1.PosOpn.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
OPENPOS |
Apparatus
open position |
Monitoring\I/O
status\Control\CBXCBR1\Outputs |
||||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
OUT |
CTRL.CBCSWI1.PosCls.stVal |
SPS |
BOOLEAN |
ST |
B |
0 |
CLOSEPOS |
Apparatus
closed position |
Monitoring\I/O
status\Control\CBXCBR1\Outputs |
||||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
OUT |
CTRL.CBCSWI1.PosOk.stVal |
SPS |
BOOLEAN |
ST |
B |
OKPOS |
Apparatus
position is ok |
Monitoring\I/O
status\Control\CBXCBR1\Outputs |
|||||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
OUT |
CTRL.CBCSWI1.OpOpn.general |
ACT |
BOOLEAN |
ST |
B |
0 |
EXE_OP |
Executes
the command for open direction |
Monitoring\I/O
status\Control\CBXCBR1\Outputs |
||||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
OUT |
CTRL.CBCSWI1.OpCls.general |
ACT |
BOOLEAN |
ST |
B |
0 |
EXE_CL |
Executes
the command for close direction |
Monitoring\I/O
status\Control\CBXCBR1\Outputs |
||||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
OUT |
CTRL.CBCSWI1.OpnEna.stVal |
SPS |
BOOLEAN |
ST |
B |
OPEN_ENAD |
Opening
is enabled based on the input status |
Monitoring\I/O
status\Control\CBXCBR1\Outputs |
|||||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
OUT |
CTRL.CBCSWI1.ClsEna.stVal |
SPS |
BOOLEAN |
ST |
B |
CLOSE_ENAD |
Closing
is enabled based on the input status |
Monitoring\I/O
status\Control\CBXCBR1\Outputs |
|||||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
CTR |
CTRL.CBCSWI1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
mode on/off |
1=on;
5=off |
Configuration\Control\CBXCBR1 |
|||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
CTR |
CTRL.CBCSWI1.Pos.SBOw.ctlVal |
DPC |
BOOLEAN |
CO |
(Switch,
general) |
||||||||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
CTR |
CTRL.CBCSWI1.Pos.Oper.ctlVal |
DPC |
BOOLEAN |
CO |
(Switch,
general) |
||||||||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
CTR |
CTRL.CBCSWI1.Pos.Cancel.ctlVal |
DPC |
BOOLEAN |
CO |
(Switch,
general) |
||||||||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
CTR |
CTRL.CBCSWI1.OpCntRs.Oper.ctlVal |
INC |
INT32 |
CO |
B |
0 |
Operation
counter |
Breaker
operation cycles |
0...10000 |
Configuration\Control\CBXCBR1 |
|||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
MON |
CTRL.CBCSWI1.Pos.stVal |
DPC |
Dbpos |
ST |
B |
StatUrg |
P,H |
POSITION |
Apparatus
position indication |
0=intermediate;
1=open; 2=closed; 3=faulty |
Monitoring\I/O
status\Control\CBXCBR1\Monitored data |
||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
CFG |
CTRL.CBCSWI1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Operation
mode on/off |
1=on;
5=off |
Configuration\Control\CBXCBR1 |
|||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
CFG |
CTRL.CBCSWI1.Pos.pulseConfig.onDur |
DPC |
INT32U |
CF |
B,I |
100 |
Pulse
length |
Open
and close pulse length |
10...60000
ms |
Configuration\Control\CBXCBR1 |
|||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
CFG |
CTRL.CBCSWI1.Pos.ctlModel |
DPC |
Enum |
CF |
B,I |
4 |
Control
model |
Select
control model |
0=status-only;
1=direct-with-normal-security; 4=sbo-with-enhanced-security |
Configuration\Control\CBXCBR1 |
|||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
CFG |
CTRL.CBCSWI1.Pos.sboTimeout |
DPC |
INT32U |
CF |
B,I |
60000 |
Select
timeout |
Select
timeout in ms |
10000...300000
ms |
Configuration\Control\CBXCBR1 |
|||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
CFG |
CTRL.CBCSWI1.Pos.operTimeout |
DPC |
INT32U |
CF |
B,I |
500 |
Operation
timeout |
Timeout
for negative termination |
10...60000
ms |
Configuration\Control\CBXCBR1 |
|||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
CFG |
CTRL.CBCSWI1.AutoPls.setVal |
SPG |
BOOLEAN |
SP |
B |
1 |
Adaptive
pulse |
Stop
in right position |
Configuration\Control\CBXCBR1 |
||||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
CFG |
CTRL.CBCSWI1.OpDlTmms.setVal |
ING |
INT32 |
SP |
B |
100 |
Event
delay |
Event
delay of the intermediate position |
0...10000
ms |
Configuration\Control\CBXCBR1 |
|||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
CFG |
CTRL.CBCSWI1.OpCntRs.Oper.ctlVal |
INC |
INT32 |
CO |
B |
0 |
Operation
counter |
Breaker
operation cycles |
0...10000 |
Configuration\Control\CBXCBR1 |
|||
|
CBXCBR1 |
I<->O
CB(1) |
I<->O
CB |
VER |
CTRL.CBCILO1.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
B |
(Name
plate) |
|
IEC
61850 |
IEC
60617 |
ANSI |
Category |
IECName |
CDC |
Type |
FC |
Access |
Default |
Dataset |
Event |
Parameter
name |
Parameter
desc |
Parameter
range |
Menu
path |
Channel
relation |
|
Binary
ch 1 |
INP |
DR.RBDR1.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 2 |
INP |
DR.RBDR2.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 3 |
INP |
DR.RBDR3.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 4 |
INP |
DR.RBDR4.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 5 |
INP |
DR.RBDR5.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 6 |
INP |
DR.RBDR6.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 7 |
INP |
DR.RBDR7.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 8 |
INP |
DR.RBDR8.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 9 |
INP |
DR.RBDR9.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 10 |
INP |
DR.RBDR10.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 11 |
INP |
DR.RBDR11.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 12 |
INP |
DR.RBDR12.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 13 |
INP |
DR.RBDR13.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 14 |
INP |
DR.RBDR14.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 15 |
INP |
DR.RBDR15.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 16 |
INP |
DR.RBDR16.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 17 |
INP |
DR.RBDR17.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 18 |
INP |
DR.RBDR18.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 19 |
INP |
DR.RBDR19.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 20 |
INP |
DR.RBDR20.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 21 |
INP |
DR.RBDR21.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 22 |
INP |
DR.RBDR22.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 23 |
INP |
DR.RBDR23.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 24 |
INP |
DR.RBDR24.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 25 |
INP |
DR.RBDR25.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 26 |
INP |
DR.RBDR26.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 27 |
INP |
DR.RBDR27.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 28 |
INP |
DR.RBDR28.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 29 |
INP |
DR.RBDR29.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 30 |
INP |
DR.RBDR30.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 31 |
INP |
DR.RBDR31.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 32 |
INP |
DR.RBDR32.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 33 |
INP |
DR.RBDR33.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 34 |
INP |
DR.RBDR34.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 35 |
INP |
DR.RBDR35.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 36 |
INP |
DR.RBDR36.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 37 |
INP |
DR.RBDR37.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 38 |
INP |
DR.RBDR38.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 39 |
INP |
DR.RBDR39.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 40 |
INP |
DR.RBDR40.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 41 |
INP |
DR.RBDR41.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 42 |
INP |
DR.RBDR42.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 43 |
INP |
DR.RBDR43.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 44 |
INP |
DR.RBDR44.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 45 |
INP |
DR.RBDR45.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 46 |
INP |
DR.RBDR46.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 47 |
INP |
DR.RBDR47.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 48 |
INP |
DR.RBDR48.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 49 |
INP |
DR.RBDR49.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 50 |
INP |
DR.RBDR50.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 51 |
INP |
DR.RBDR51.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 52 |
INP |
DR.RBDR52.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 53 |
INP |
DR.RBDR53.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 54 |
INP |
DR.RBDR54.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 55 |
INP |
DR.RBDR55.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 56 |
INP |
DR.RBDR56.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 57 |
INP |
DR.RBDR57.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 58 |
INP |
DR.RBDR58.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 59 |
INP |
DR.RBDR59.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 60 |
INP |
DR.RBDR60.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 61 |
INP |
DR.RBDR61.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 62 |
INP |
DR.RBDR62.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 63 |
INP |
DR.RBDR63.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Binary
ch 64 |
INP |
DR.RBDR64.EInput.stVal |
SPS |
BOOLEAN |
ST |
0 |
(input) |
|||||||||
|
Disturbance
recorder |
OUT |
DR.RDRE1.RcdStr.stVal |
SPS |
BOOLEAN |
ST |
StatDR |
P |
(Recording
started) |
||||||||
|
DR
LLN0 |
CTR |
DR.LLN0.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Disturbance
recorder on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\General |
|||||
|
Disturbance
recorder |
CTR |
DR.RDRE1.RcdTrg.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
A |
0 |
Trig
recording |
Manual
trigger for the disturbance recorder |
0=Cancel;
1=Trig |
Disturbance
records\Disturbance records |
|||||
|
Disturbance
recorder |
CTR |
DR.RDRE1.MemClr.Oper.ctlVal |
SPC |
BOOLEAN |
CO |
A |
0 |
Disturbance
records |
Clear
all disturbance recordings in the memory |
0=Cancel;
1=Clear |
Clear\Clear |
|||||
|
Binary
ch 1 |
CTR |
DR.RBDR1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 1 |
|||||
|
Binary
ch 2 |
CTR |
DR.RBDR2.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 2 |
|||||
|
Binary
ch 3 |
CTR |
DR.RBDR3.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 3 |
|||||
|
Binary
ch 4 |
CTR |
DR.RBDR4.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 4 |
|||||
|
Binary
ch 5 |
CTR |
DR.RBDR5.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 5 |
|||||
|
Binary
ch 6 |
CTR |
DR.RBDR6.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 6 |
|||||
|
Binary
ch 7 |
CTR |
DR.RBDR7.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 7 |
|||||
|
Binary
ch 8 |
CTR |
DR.RBDR8.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 8 |
|||||
|
Binary
ch 9 |
CTR |
DR.RBDR9.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 9 |
|||||
|
Binary
ch 10 |
CTR |
DR.RBDR10.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 10 |
|||||
|
Binary
ch 11 |
CTR |
DR.RBDR11.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 11 |
|||||
|
Binary
ch 12 |
CTR |
DR.RBDR12.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 12 |
|||||
|
Binary
ch 13 |
CTR |
DR.RBDR13.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 13 |
|||||
|
Binary
ch 14 |
CTR |
DR.RBDR14.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 14 |
|||||
|
Binary
ch 15 |
CTR |
DR.RBDR15.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 15 |
|||||
|
Binary
ch 16 |
CTR |
DR.RBDR16.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 16 |
|||||
|
Binary
ch 17 |
CTR |
DR.RBDR17.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 17 |
|||||
|
Binary
ch 18 |
CTR |
DR.RBDR18.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 18 |
|||||
|
Binary
ch 19 |
CTR |
DR.RBDR19.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 19 |
|||||
|
Binary
ch 20 |
CTR |
DR.RBDR20.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 20 |
|||||
|
Binary
ch 21 |
CTR |
DR.RBDR21.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 21 |
|||||
|
Binary
ch 22 |
CTR |
DR.RBDR22.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 22 |
|||||
|
Binary
ch 23 |
CTR |
DR.RBDR23.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 23 |
|||||
|
Binary
ch 24 |
CTR |
DR.RBDR24.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 24 |
|||||
|
Binary
ch 25 |
CTR |
DR.RBDR25.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 25 |
|||||
|
Binary
ch 26 |
CTR |
DR.RBDR26.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 26 |
|||||
|
Binary
ch 27 |
CTR |
DR.RBDR27.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 27 |
|||||
|
Binary
ch 28 |
CTR |
DR.RBDR28.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 28 |
|||||
|
Binary
ch 29 |
CTR |
DR.RBDR29.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 29 |
|||||
|
Binary
ch 30 |
CTR |
DR.RBDR30.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 30 |
|||||
|
Binary
ch 31 |
CTR |
DR.RBDR31.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 31 |
|||||
|
Binary
ch 32 |
CTR |
DR.RBDR32.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 32 |
|||||
|
Binary
ch 33 |
CTR |
DR.RBDR33.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 33 |
|||||
|
Binary
ch 34 |
CTR |
DR.RBDR34.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 34 |
|||||
|
Binary
ch 35 |
CTR |
DR.RBDR35.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 35 |
|||||
|
Binary
ch 36 |
CTR |
DR.RBDR36.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 36 |
|||||
|
Binary
ch 37 |
CTR |
DR.RBDR37.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 37 |
|||||
|
Binary
ch 38 |
CTR |
DR.RBDR38.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 38 |
|||||
|
Binary
ch 39 |
CTR |
DR.RBDR39.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 39 |
|||||
|
Binary
ch 40 |
CTR |
DR.RBDR40.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 40 |
|||||
|
Binary
ch 41 |
CTR |
DR.RBDR41.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 41 |
|||||
|
Binary
ch 42 |
CTR |
DR.RBDR42.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 42 |
|||||
|
Binary
ch 43 |
CTR |
DR.RBDR43.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 43 |
|||||
|
Binary
ch 44 |
CTR |
DR.RBDR44.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 44 |
|||||
|
Binary
ch 45 |
CTR |
DR.RBDR45.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 45 |
|||||
|
Binary
ch 46 |
CTR |
DR.RBDR46.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 46 |
|||||
|
Binary
ch 47 |
CTR |
DR.RBDR47.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 47 |
|||||
|
Binary
ch 48 |
CTR |
DR.RBDR48.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 48 |
|||||
|
Binary
ch 49 |
CTR |
DR.RBDR49.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 49 |
|||||
|
Binary
ch 50 |
CTR |
DR.RBDR50.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 50 |
|||||
|
Binary
ch 51 |
CTR |
DR.RBDR51.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 51 |
|||||
|
Binary
ch 52 |
CTR |
DR.RBDR52.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 52 |
|||||
|
Binary
ch 53 |
CTR |
DR.RBDR53.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 53 |
|||||
|
Binary
ch 54 |
CTR |
DR.RBDR54.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 54 |
|||||
|
Binary
ch 55 |
CTR |
DR.RBDR55.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 55 |
|||||
|
Binary
ch 56 |
CTR |
DR.RBDR56.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 56 |
|||||
|
Binary
ch 57 |
CTR |
DR.RBDR57.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 57 |
|||||
|
Binary
ch 58 |
CTR |
DR.RBDR58.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 58 |
|||||
|
Binary
ch 59 |
CTR |
DR.RBDR59.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 59 |
|||||
|
Binary
ch 60 |
CTR |
DR.RBDR60.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 60 |
|||||
|
Binary
ch 61 |
CTR |
DR.RBDR61.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 61 |
|||||
|
Binary
ch 62 |
CTR |
DR.RBDR62.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 62 |
|||||
|
Binary
ch 63 |
CTR |
DR.RBDR63.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 63 |
|||||
|
Binary
ch 64 |
CTR |
DR.RBDR64.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 64 |
|||||
|
Analog
ch 1 |
CTR |
DR.RADR1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 1 |
|||||
|
Analog
ch 2 |
CTR |
DR.RADR2.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 2 |
|||||
|
Analog
ch 3 |
CTR |
DR.RADR3.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 3 |
|||||
|
Analog
ch 4 |
CTR |
DR.RADR4.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 4 |
|||||
|
Analog
ch 5 |
CTR |
DR.RADR5.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 5 |
|||||
|
Analog
ch 6 |
CTR |
DR.RADR6.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 6 |
|||||
|
Analog
ch 7 |
CTR |
DR.RADR7.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 7 |
|||||
|
Analog
ch 8 |
CTR |
DR.RADR8.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 8 |
|||||
|
Analog
ch 9 |
CTR |
DR.RADR9.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 9 |
|||||
|
Analog
ch 10 |
CTR |
DR.RADR10.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 10 |
|||||
|
Analog
ch 11 |
CTR |
DR.RADR11.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 11 |
|||||
|
Analog
ch 12 |
CTR |
DR.RADR12.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 12 |
|||||
|
Disturbance
recorder |
MON |
DR.RDRE1.RcdMade.stVal |
SPS |
BOOLEAN |
ST |
StatDR |
P |
(Recording
made) |
||||||||
|
Disturbance
recorder |
MON |
DR.RDRE1.ERcdStored.stVal |
SPS |
BOOLEAN |
ST |
StatDR |
P |
(Recording
stored) |
||||||||
|
Disturbance
recorder |
MON |
DR.RDRE1.ERcdDelete.stVal |
SPS |
BOOLEAN |
ST |
StatDR |
P |
(Recording
deleted) |
||||||||
|
Disturbance
recorder |
MON |
DR.RDRE1.EMemFull.stVal |
SPS |
BOOLEAN |
ST |
StatDR |
P |
(Memory
full) |
||||||||
|
Disturbance
recorder |
MON |
DR.RDRE1.EOwRcd.stVal |
SPS |
BOOLEAN |
ST |
StatDR |
P |
(Overwrite
of rec.) |
||||||||
|
Disturbance
recorder |
MON |
DR.RDRE1.EPerTrg.stVal |
SPS |
BOOLEAN |
ST |
StatDR |
P |
(Periodic
triggering) |
||||||||
|
Disturbance
recorder |
MON |
DR.RDRE1.EManTrg.stVal |
SPS |
BOOLEAN |
ST |
StatDR |
P |
(Manual
triggering) |
||||||||
|
DR
LLN0 |
CFG |
DR.LLN0.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Disturbance
recorder on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\General |
|||||
|
Disturbance
recorder |
CFG |
DR.RDRE1.PerTrgTms.setVal |
ING |
INT32 |
SP |
A |
0 |
Periodic
trig time |
Time
between periodic triggerings in seconds |
0...604800
s |
Configuration\Disturbance
recorder\General |
|||||
|
Disturbance
recorder |
CFG |
DR.RDRE1.ExclTmms.setVal |
ING |
INT32 |
SP |
A |
0 |
Exclusion
time |
Time
how long triggerings for the same reason are ignored in milliseconds |
0...1000000
ms |
Configuration\Disturbance
recorder\General |
|||||
|
Disturbance
recorder |
CFG |
DR.RDRE1.OpMod.setVal |
ING |
Enum |
SP |
A |
1 |
Operation
mode |
Saturation
/ overwrite |
1=Saturation;
2=Overwrite |
Configuration\Disturbance
recorder\General |
|||||
|
Disturbance
recorder |
CFG |
DR.RDRE1.EPreLgt.setVal |
ING |
INT32 |
SP |
A |
50 |
Pre-trg
length |
Length
of recording preceding the triggering in percent |
0...100
% |
Configuration\Disturbance
recorder\General |
|||||
|
Disturbance
recorder |
CFG |
DR.RDRE1.ERcdLgt.setVal |
ING |
INT32 |
SP |
A,I |
50 |
Record
length |
Record
length in fundamental cycles |
10...500
cycles |
Configuration\Disturbance
recorder\General |
|||||
|
Disturbance
recorder |
CFG |
DR.RDRE1.EStoRte.setVal |
ING |
Enum |
SP |
A,I |
32 |
Storage
rate |
Storage
rate for waveform recordings in samples per cycle |
8=8
samples / cycle; 16=16 samples / cycle; 32=32 samples / cycle |
Configuration\Disturbance
recorder\General |
|||||
|
Disturbance
recorder |
CFG |
DR.RDRE1.EStoModPer.setVal |
ING |
Enum |
SP |
A,I |
0 |
Stor.
mode periodic |
Storage
mode selection (waveform / trend) for periodic trigger |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\General |
|||||
|
Disturbance
recorder |
CFG |
DR.RDRE1.EStoModMan.setVal |
ING |
Enum |
SP |
A,I |
0 |
Stor.
mode manual |
Storage
mode selection (waveform / trend) for manual trigger |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\General |
|||||
|
Binary
ch 1 |
CFG |
DR.RBDR1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 1 |
|||||
|
Binary
ch 1 |
CFG |
DR.RBDR1.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 1 |
|||||
|
Binary
ch 1 |
CFG |
DR.RBDR1.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 1 |
|||||
|
Binary
ch 1 |
CFG |
DR.RBDR1.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 1 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 1 |
||||||
|
Binary
ch 2 |
CFG |
DR.RBDR2.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 2 |
|||||
|
Binary
ch 2 |
CFG |
DR.RBDR2.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 2 |
|||||
|
Binary
ch 2 |
CFG |
DR.RBDR2.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 2 |
|||||
|
Binary
ch 2 |
CFG |
DR.RBDR2.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 2 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 2 |
||||||
|
Binary
ch 3 |
CFG |
DR.RBDR3.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 3 |
|||||
|
Binary
ch 3 |
CFG |
DR.RBDR3.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 3 |
|||||
|
Binary
ch 3 |
CFG |
DR.RBDR3.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 3 |
|||||
|
Binary
ch 3 |
CFG |
DR.RBDR3.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 3 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 3 |
||||||
|
Binary
ch 4 |
CFG |
DR.RBDR4.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 4 |
|||||
|
Binary
ch 4 |
CFG |
DR.RBDR4.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 4 |
|||||
|
Binary
ch 4 |
CFG |
DR.RBDR4.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 4 |
|||||
|
Binary
ch 4 |
CFG |
DR.RBDR4.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 4 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 4 |
||||||
|
Binary
ch 5 |
CFG |
DR.RBDR5.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 5 |
|||||
|
Binary
ch 5 |
CFG |
DR.RBDR5.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 5 |
|||||
|
Binary
ch 5 |
CFG |
DR.RBDR5.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 5 |
|||||
|
Binary
ch 5 |
CFG |
DR.RBDR5.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 5 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 5 |
||||||
|
Binary
ch 6 |
CFG |
DR.RBDR6.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 6 |
|||||
|
Binary
ch 6 |
CFG |
DR.RBDR6.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 6 |
|||||
|
Binary
ch 6 |
CFG |
DR.RBDR6.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 6 |
|||||
|
Binary
ch 6 |
CFG |
DR.RBDR6.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 6 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 6 |
||||||
|
Binary
ch 7 |
CFG |
DR.RBDR7.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 7 |
|||||
|
Binary
ch 7 |
CFG |
DR.RBDR7.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 7 |
|||||
|
Binary
ch 7 |
CFG |
DR.RBDR7.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 7 |
|||||
|
Binary
ch 7 |
CFG |
DR.RBDR7.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 7 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 7 |
||||||
|
Binary
ch 8 |
CFG |
DR.RBDR8.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 8 |
|||||
|
Binary
ch 8 |
CFG |
DR.RBDR8.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 8 |
|||||
|
Binary
ch 8 |
CFG |
DR.RBDR8.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 8 |
|||||
|
Binary
ch 8 |
CFG |
DR.RBDR8.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 8 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 8 |
||||||
|
Binary
ch 9 |
CFG |
DR.RBDR9.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 9 |
|||||
|
Binary
ch 9 |
CFG |
DR.RBDR9.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 9 |
|||||
|
Binary
ch 9 |
CFG |
DR.RBDR9.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 9 |
|||||
|
Binary
ch 9 |
CFG |
DR.RBDR9.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 9 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 9 |
||||||
|
Binary
ch 10 |
CFG |
DR.RBDR10.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 10 |
|||||
|
Binary
ch 10 |
CFG |
DR.RBDR10.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 10 |
|||||
|
Binary
ch 10 |
CFG |
DR.RBDR10.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 10 |
|||||
|
Binary
ch 10 |
CFG |
DR.RBDR10.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 10 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 10 |
||||||
|
Binary
ch 11 |
CFG |
DR.RBDR11.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 11 |
|||||
|
Binary
ch 11 |
CFG |
DR.RBDR11.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 11 |
|||||
|
Binary
ch 11 |
CFG |
DR.RBDR11.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 11 |
|||||
|
Binary
ch 11 |
CFG |
DR.RBDR11.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 11 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 11 |
||||||
|
Binary
ch 12 |
CFG |
DR.RBDR12.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 12 |
|||||
|
Binary
ch 12 |
CFG |
DR.RBDR12.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 12 |
|||||
|
Binary
ch 12 |
CFG |
DR.RBDR12.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 12 |
|||||
|
Binary
ch 12 |
CFG |
DR.RBDR12.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 12 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 12 |
||||||
|
Binary
ch 13 |
CFG |
DR.RBDR13.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 13 |
|||||
|
Binary
ch 13 |
CFG |
DR.RBDR13.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 13 |
|||||
|
Binary
ch 13 |
CFG |
DR.RBDR13.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 13 |
|||||
|
Binary
ch 13 |
CFG |
DR.RBDR13.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 13 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 13 |
||||||
|
Binary
ch 14 |
CFG |
DR.RBDR14.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 14 |
|||||
|
Binary
ch 14 |
CFG |
DR.RBDR14.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 14 |
|||||
|
Binary
ch 14 |
CFG |
DR.RBDR14.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 14 |
|||||
|
Binary
ch 14 |
CFG |
DR.RBDR14.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 14 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 14 |
||||||
|
Binary
ch 15 |
CFG |
DR.RBDR15.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 15 |
|||||
|
Binary
ch 15 |
CFG |
DR.RBDR15.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 15 |
|||||
|
Binary
ch 15 |
CFG |
DR.RBDR15.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 15 |
|||||
|
Binary
ch 15 |
CFG |
DR.RBDR15.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 15 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 15 |
||||||
|
Binary
ch 16 |
CFG |
DR.RBDR16.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 16 |
|||||
|
Binary
ch 16 |
CFG |
DR.RBDR16.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 16 |
|||||
|
Binary
ch 16 |
CFG |
DR.RBDR16.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 16 |
|||||
|
Binary
ch 16 |
CFG |
DR.RBDR16.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 16 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 16 |
||||||
|
Binary
ch 17 |
CFG |
DR.RBDR17.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 17 |
|||||
|
Binary
ch 17 |
CFG |
DR.RBDR17.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 17 |
|||||
|
Binary
ch 17 |
CFG |
DR.RBDR17.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 17 |
|||||
|
Binary
ch 17 |
CFG |
DR.RBDR17.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 17 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 17 |
||||||
|
Binary
ch 18 |
CFG |
DR.RBDR18.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 18 |
|||||
|
Binary
ch 18 |
CFG |
DR.RBDR18.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 18 |
|||||
|
Binary
ch 18 |
CFG |
DR.RBDR18.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 18 |
|||||
|
Binary
ch 18 |
CFG |
DR.RBDR18.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 18 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 18 |
||||||
|
Binary
ch 19 |
CFG |
DR.RBDR19.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 19 |
|||||
|
Binary
ch 19 |
CFG |
DR.RBDR19.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 19 |
|||||
|
Binary
ch 19 |
CFG |
DR.RBDR19.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 19 |
|||||
|
Binary
ch 19 |
CFG |
DR.RBDR19.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 19 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 19 |
||||||
|
Binary
ch 20 |
CFG |
DR.RBDR20.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 20 |
|||||
|
Binary
ch 20 |
CFG |
DR.RBDR20.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 20 |
|||||
|
Binary
ch 20 |
CFG |
DR.RBDR20.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 20 |
|||||
|
Binary
ch 20 |
CFG |
DR.RBDR20.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 20 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 20 |
||||||
|
Binary
ch 21 |
CFG |
DR.RBDR21.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 21 |
|||||
|
Binary
ch 21 |
CFG |
DR.RBDR21.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 21 |
|||||
|
Binary
ch 21 |
CFG |
DR.RBDR21.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 21 |
|||||
|
Binary
ch 21 |
CFG |
DR.RBDR21.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 21 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 21 |
||||||
|
Binary
ch 22 |
CFG |
DR.RBDR22.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 22 |
|||||
|
Binary
ch 22 |
CFG |
DR.RBDR22.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 22 |
|||||
|
Binary
ch 22 |
CFG |
DR.RBDR22.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 22 |
|||||
|
Binary
ch 22 |
CFG |
DR.RBDR22.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 22 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 22 |
||||||
|
Binary
ch 23 |
CFG |
DR.RBDR23.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 23 |
|||||
|
Binary
ch 23 |
CFG |
DR.RBDR23.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 23 |
|||||
|
Binary
ch 23 |
CFG |
DR.RBDR23.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 23 |
|||||
|
Binary
ch 23 |
CFG |
DR.RBDR23.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 23 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 23 |
||||||
|
Binary
ch 24 |
CFG |
DR.RBDR24.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 24 |
|||||
|
Binary
ch 24 |
CFG |
DR.RBDR24.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 24 |
|||||
|
Binary
ch 24 |
CFG |
DR.RBDR24.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 24 |
|||||
|
Binary
ch 24 |
CFG |
DR.RBDR24.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 24 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 24 |
||||||
|
Binary
ch 25 |
CFG |
DR.RBDR25.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 25 |
|||||
|
Binary
ch 25 |
CFG |
DR.RBDR25.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 25 |
|||||
|
Binary
ch 25 |
CFG |
DR.RBDR25.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 25 |
|||||
|
Binary
ch 25 |
CFG |
DR.RBDR25.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 25 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 25 |
||||||
|
Binary
ch 26 |
CFG |
DR.RBDR26.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 26 |
|||||
|
Binary
ch 26 |
CFG |
DR.RBDR26.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 26 |
|||||
|
Binary
ch 26 |
CFG |
DR.RBDR26.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 26 |
|||||
|
Binary
ch 26 |
CFG |
DR.RBDR26.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 26 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 26 |
||||||
|
Binary
ch 27 |
CFG |
DR.RBDR27.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 27 |
|||||
|
Binary
ch 27 |
CFG |
DR.RBDR27.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 27 |
|||||
|
Binary
ch 27 |
CFG |
DR.RBDR27.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 27 |
|||||
|
Binary
ch 27 |
CFG |
DR.RBDR27.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 27 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 27 |
||||||
|
Binary
ch 28 |
CFG |
DR.RBDR28.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 28 |
|||||
|
Binary
ch 28 |
CFG |
DR.RBDR28.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 28 |
|||||
|
Binary
ch 28 |
CFG |
DR.RBDR28.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 28 |
|||||
|
Binary
ch 28 |
CFG |
DR.RBDR28.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 28 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 28 |
||||||
|
Binary
ch 29 |
CFG |
DR.RBDR29.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 29 |
|||||
|
Binary
ch 29 |
CFG |
DR.RBDR29.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 29 |
|||||
|
Binary
ch 29 |
CFG |
DR.RBDR29.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 29 |
|||||
|
Binary
ch 29 |
CFG |
DR.RBDR29.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 29 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 29 |
||||||
|
Binary
ch 30 |
CFG |
DR.RBDR30.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 30 |
|||||
|
Binary
ch 30 |
CFG |
DR.RBDR30.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 30 |
|||||
|
Binary
ch 30 |
CFG |
DR.RBDR30.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 30 |
|||||
|
Binary
ch 30 |
CFG |
DR.RBDR30.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 30 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 30 |
||||||
|
Binary
ch 31 |
CFG |
DR.RBDR31.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 31 |
|||||
|
Binary
ch 31 |
CFG |
DR.RBDR31.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 31 |
|||||
|
Binary
ch 31 |
CFG |
DR.RBDR31.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 31 |
|||||
|
Binary
ch 31 |
CFG |
DR.RBDR31.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 31 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 31 |
||||||
|
Binary
ch 32 |
CFG |
DR.RBDR32.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 32 |
|||||
|
Binary
ch 32 |
CFG |
DR.RBDR32.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 32 |
|||||
|
Binary
ch 32 |
CFG |
DR.RBDR32.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 32 |
|||||
|
Binary
ch 32 |
CFG |
DR.RBDR32.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 32 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 32 |
||||||
|
Binary
ch 33 |
CFG |
DR.RBDR33.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 33 |
|||||
|
Binary
ch 33 |
CFG |
DR.RBDR33.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 33 |
|||||
|
Binary
ch 33 |
CFG |
DR.RBDR33.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 33 |
|||||
|
Binary
ch 33 |
CFG |
DR.RBDR33.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 33 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 33 |
||||||
|
Binary
ch 34 |
CFG |
DR.RBDR34.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 34 |
|||||
|
Binary
ch 34 |
CFG |
DR.RBDR34.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 34 |
|||||
|
Binary
ch 34 |
CFG |
DR.RBDR34.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 34 |
|||||
|
Binary
ch 34 |
CFG |
DR.RBDR34.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 34 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 34 |
||||||
|
Binary
ch 35 |
CFG |
DR.RBDR35.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 35 |
|||||
|
Binary
ch 35 |
CFG |
DR.RBDR35.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 35 |
|||||
|
Binary
ch 35 |
CFG |
DR.RBDR35.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 35 |
|||||
|
Binary
ch 35 |
CFG |
DR.RBDR35.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 35 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 35 |
||||||
|
Binary
ch 36 |
CFG |
DR.RBDR36.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 36 |
|||||
|
Binary
ch 36 |
CFG |
DR.RBDR36.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 36 |
|||||
|
Binary
ch 36 |
CFG |
DR.RBDR36.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 36 |
|||||
|
Binary
ch 36 |
CFG |
DR.RBDR36.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 36 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 36 |
||||||
|
Binary
ch 37 |
CFG |
DR.RBDR37.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 37 |
|||||
|
Binary
ch 37 |
CFG |
DR.RBDR37.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 37 |
|||||
|
Binary
ch 37 |
CFG |
DR.RBDR37.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 37 |
|||||
|
Binary
ch 37 |
CFG |
DR.RBDR37.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 37 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 37 |
||||||
|
Binary
ch 38 |
CFG |
DR.RBDR38.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 38 |
|||||
|
Binary
ch 38 |
CFG |
DR.RBDR38.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 38 |
|||||
|
Binary
ch 38 |
CFG |
DR.RBDR38.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 38 |
|||||
|
Binary
ch 38 |
CFG |
DR.RBDR38.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 38 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 38 |
||||||
|
Binary
ch 39 |
CFG |
DR.RBDR39.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 39 |
|||||
|
Binary
ch 39 |
CFG |
DR.RBDR39.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 39 |
|||||
|
Binary
ch 39 |
CFG |
DR.RBDR39.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 39 |
|||||
|
Binary
ch 39 |
CFG |
DR.RBDR39.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 39 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 39 |
||||||
|
Binary
ch 40 |
CFG |
DR.RBDR40.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 40 |
|||||
|
Binary
ch 40 |
CFG |
DR.RBDR40.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 40 |
|||||
|
Binary
ch 40 |
CFG |
DR.RBDR40.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 40 |
|||||
|
Binary
ch 40 |
CFG |
DR.RBDR40.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 40 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 40 |
||||||
|
Binary
ch 41 |
CFG |
DR.RBDR41.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 41 |
|||||
|
Binary
ch 41 |
CFG |
DR.RBDR41.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 41 |
|||||
|
Binary
ch 41 |
CFG |
DR.RBDR41.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 41 |
|||||
|
Binary
ch 41 |
CFG |
DR.RBDR41.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 41 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 41 |
||||||
|
Binary
ch 42 |
CFG |
DR.RBDR42.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 42 |
|||||
|
Binary
ch 42 |
CFG |
DR.RBDR42.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 42 |
|||||
|
Binary
ch 42 |
CFG |
DR.RBDR42.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 42 |
|||||
|
Binary
ch 42 |
CFG |
DR.RBDR42.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 42 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 42 |
||||||
|
Binary
ch 43 |
CFG |
DR.RBDR43.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 43 |
|||||
|
Binary
ch 43 |
CFG |
DR.RBDR43.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 43 |
|||||
|
Binary
ch 43 |
CFG |
DR.RBDR43.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 43 |
|||||
|
Binary
ch 43 |
CFG |
DR.RBDR43.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 43 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 43 |
||||||
|
Binary
ch 44 |
CFG |
DR.RBDR44.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 44 |
|||||
|
Binary
ch 44 |
CFG |
DR.RBDR44.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 44 |
|||||
|
Binary
ch 44 |
CFG |
DR.RBDR44.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 44 |
|||||
|
Binary
ch 44 |
CFG |
DR.RBDR44.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 44 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 44 |
||||||
|
Binary
ch 45 |
CFG |
DR.RBDR45.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 45 |
|||||
|
Binary
ch 45 |
CFG |
DR.RBDR45.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 45 |
|||||
|
Binary
ch 45 |
CFG |
DR.RBDR45.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 45 |
|||||
|
Binary
ch 45 |
CFG |
DR.RBDR45.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 45 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 45 |
||||||
|
Binary
ch 46 |
CFG |
DR.RBDR46.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 46 |
|||||
|
Binary
ch 46 |
CFG |
DR.RBDR46.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 46 |
|||||
|
Binary
ch 46 |
CFG |
DR.RBDR46.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 46 |
|||||
|
Binary
ch 46 |
CFG |
DR.RBDR46.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 46 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 46 |
||||||
|
Binary
ch 47 |
CFG |
DR.RBDR47.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 47 |
|||||
|
Binary
ch 47 |
CFG |
DR.RBDR47.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 47 |
|||||
|
Binary
ch 47 |
CFG |
DR.RBDR47.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 47 |
|||||
|
Binary
ch 47 |
CFG |
DR.RBDR47.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 47 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 47 |
||||||
|
Binary
ch 48 |
CFG |
DR.RBDR48.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 48 |
|||||
|
Binary
ch 48 |
CFG |
DR.RBDR48.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 48 |
|||||
|
Binary
ch 48 |
CFG |
DR.RBDR48.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 48 |
|||||
|
Binary
ch 48 |
CFG |
DR.RBDR48.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 48 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 48 |
||||||
|
Binary
ch 49 |
CFG |
DR.RBDR49.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 49 |
|||||
|
Binary
ch 49 |
CFG |
DR.RBDR49.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 49 |
|||||
|
Binary
ch 49 |
CFG |
DR.RBDR49.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 49 |
|||||
|
Binary
ch 49 |
CFG |
DR.RBDR49.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 49 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 49 |
||||||
|
Binary
ch 50 |
CFG |
DR.RBDR50.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 50 |
|||||
|
Binary
ch 50 |
CFG |
DR.RBDR50.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 50 |
|||||
|
Binary
ch 50 |
CFG |
DR.RBDR50.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 50 |
|||||
|
Binary
ch 50 |
CFG |
DR.RBDR50.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 50 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 50 |
||||||
|
Binary
ch 51 |
CFG |
DR.RBDR51.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 51 |
|||||
|
Binary
ch 51 |
CFG |
DR.RBDR51.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 51 |
|||||
|
Binary
ch 51 |
CFG |
DR.RBDR51.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 51 |
|||||
|
Binary
ch 51 |
CFG |
DR.RBDR51.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 51 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 51 |
||||||
|
Binary
ch 52 |
CFG |
DR.RBDR52.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 52 |
|||||
|
Binary
ch 52 |
CFG |
DR.RBDR52.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 52 |
|||||
|
Binary
ch 52 |
CFG |
DR.RBDR52.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 52 |
|||||
|
Binary
ch 52 |
CFG |
DR.RBDR52.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 52 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 52 |
||||||
|
Binary
ch 53 |
CFG |
DR.RBDR53.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 53 |
|||||
|
Binary
ch 53 |
CFG |
DR.RBDR53.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 53 |
|||||
|
Binary
ch 53 |
CFG |
DR.RBDR53.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 53 |
|||||
|
Binary
ch 53 |
CFG |
DR.RBDR53.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 53 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 53 |
||||||
|
Binary
ch 54 |
CFG |
DR.RBDR54.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 54 |
|||||
|
Binary
ch 54 |
CFG |
DR.RBDR54.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 54 |
|||||
|
Binary
ch 54 |
CFG |
DR.RBDR54.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 54 |
|||||
|
Binary
ch 54 |
CFG |
DR.RBDR54.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 54 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 54 |
||||||
|
Binary
ch 55 |
CFG |
DR.RBDR55.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 55 |
|||||
|
Binary
ch 55 |
CFG |
DR.RBDR55.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 55 |
|||||
|
Binary
ch 55 |
CFG |
DR.RBDR55.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 55 |
|||||
|
Binary
ch 55 |
CFG |
DR.RBDR55.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 55 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 55 |
||||||
|
Binary
ch 56 |
CFG |
DR.RBDR56.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 56 |
|||||
|
Binary
ch 56 |
CFG |
DR.RBDR56.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 56 |
|||||
|
Binary
ch 56 |
CFG |
DR.RBDR56.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 56 |
|||||
|
Binary
ch 56 |
CFG |
DR.RBDR56.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 56 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 56 |
||||||
|
Binary
ch 57 |
CFG |
DR.RBDR57.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 57 |
|||||
|
Binary
ch 57 |
CFG |
DR.RBDR57.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 57 |
|||||
|
Binary
ch 57 |
CFG |
DR.RBDR57.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 57 |
|||||
|
Binary
ch 57 |
CFG |
DR.RBDR57.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 57 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 57 |
||||||
|
Binary
ch 58 |
CFG |
DR.RBDR58.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 58 |
|||||
|
Binary
ch 58 |
CFG |
DR.RBDR58.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 58 |
|||||
|
Binary
ch 58 |
CFG |
DR.RBDR58.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 58 |
|||||
|
Binary
ch 58 |
CFG |
DR.RBDR58.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 58 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 58 |
||||||
|
Binary
ch 59 |
CFG |
DR.RBDR59.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 59 |
|||||
|
Binary
ch 59 |
CFG |
DR.RBDR59.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 59 |
|||||
|
Binary
ch 59 |
CFG |
DR.RBDR59.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 59 |
|||||
|
Binary
ch 59 |
CFG |
DR.RBDR59.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 59 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 59 |
||||||
|
Binary
ch 60 |
CFG |
DR.RBDR60.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 60 |
|||||
|
Binary
ch 60 |
CFG |
DR.RBDR60.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 60 |
|||||
|
Binary
ch 60 |
CFG |
DR.RBDR60.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 60 |
|||||
|
Binary
ch 60 |
CFG |
DR.RBDR60.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 60 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 60 |
||||||
|
Binary
ch 61 |
CFG |
DR.RBDR61.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 61 |
|||||
|
Binary
ch 61 |
CFG |
DR.RBDR61.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 61 |
|||||
|
Binary
ch 61 |
CFG |
DR.RBDR61.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 61 |
|||||
|
Binary
ch 61 |
CFG |
DR.RBDR61.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 61 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 61 |
||||||
|
Binary
ch 62 |
CFG |
DR.RBDR62.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 62 |
|||||
|
Binary
ch 62 |
CFG |
DR.RBDR62.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 62 |
|||||
|
Binary
ch 62 |
CFG |
DR.RBDR62.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 62 |
|||||
|
Binary
ch 62 |
CFG |
DR.RBDR62.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 62 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 62 |
||||||
|
Binary
ch 63 |
CFG |
DR.RBDR63.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 63 |
|||||
|
Binary
ch 63 |
CFG |
DR.RBDR63.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 63 |
|||||
|
Binary
ch 63 |
CFG |
DR.RBDR63.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 63 |
|||||
|
Binary
ch 63 |
CFG |
DR.RBDR63.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 63 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 63 |
||||||
|
Binary
ch 64 |
CFG |
DR.RBDR64.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
5 |
Operation |
Binary
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 64 |
|||||
|
Binary
ch 64 |
CFG |
DR.RBDR64.LevMod.setVal |
ING |
Enum |
SP |
A,I |
1 |
Level
trigger mode |
rising
/ falling / both / trigger off |
1=Positive
or Rising; 2=Negative or Falling; 3=Both; 4=Level trigger off |
Configuration\Disturbance
recorder\Channel settings\Binary channel 64 |
|||||
|
Binary
ch 64 |
CFG |
DR.RBDR64.EStoMod.setVal |
ING |
Enum |
SP |
A,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Binary channel 64 |
|||||
|
Binary
ch 64 |
CFG |
DR.RBDR64.EInput.d |
SPS |
VisString255
(64) |
DC |
A |
Binary
ch 64 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Binary channel 64 |
||||||
|
Analog
ch 1 |
CFG |
DR.RADR1.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 1 |
|||||
|
Analog
ch 1 |
CFG |
DR.RADR1.EChNum.setVal |
ING |
Enum |
SP |
A,I |
2 |
Channel
selection |
Select
a signal, which will be recorded by this channel |
0=Disabled;
1=Io; 2=IL1; 3=IL2; 4=IL3; 9=Uo; 10=U1; 11=U2; 12=U3; 14=U1B; 17=CIo; 18=SI1;
19=SI2; 20=SU0; 21=SU1; 22=SU2; 29=U12; 30=U23; 31=U31; 32=UL1; 33=UL2;
34=UL3 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 1 |
|||||
|
Analog
ch 1 |
CFG |
DR.RADR1.EChNum.d |
ING |
VisString255
(64) |
DC |
A,I |
Analog
ch 1 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Analog channel 1 |
||||||
|
Analog
ch 1 |
CFG |
DR.RADR1.HiTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
10.00 |
High
trigger level |
Over
limit |
0.00...60.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 1 |
|||||
|
Analog
ch 1 |
CFG |
DR.RADR1.LoTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
0.00 |
Low
trigger level |
Under
limit |
0.00...2.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 1 |
|||||
|
Analog
ch 1 |
CFG |
DR.RADR1.EStoMod.setVal |
ING |
Enum |
SP |
B,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Analog channel 1 |
|||||
|
Analog
ch 2 |
CFG |
DR.RADR2.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 2 |
|||||
|
Analog
ch 2 |
CFG |
DR.RADR2.EChNum.setVal |
ING |
Enum |
SP |
A,I |
3 |
Channel
selection |
Select
a signal, which will be recorded by this channel |
0=Disabled;
1=Io; 2=IL1; 3=IL2; 4=IL3; 9=Uo; 10=U1; 11=U2; 12=U3; 14=U1B; 17=CIo; 18=SI1;
19=SI2; 20=SU0; 21=SU1; 22=SU2; 29=U12; 30=U23; 31=U31; 32=UL1; 33=UL2;
34=UL3 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 2 |
|||||
|
Analog
ch 2 |
CFG |
DR.RADR2.EChNum.d |
ING |
VisString255
(64) |
DC |
A,I |
Analog
ch 2 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Analog channel 2 |
||||||
|
Analog
ch 2 |
CFG |
DR.RADR2.HiTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
10.00 |
High
trigger level |
Over
limit |
0.00...60.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 2 |
|||||
|
Analog
ch 2 |
CFG |
DR.RADR2.LoTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
0.00 |
Low
trigger level |
Under
limit |
0.00...2.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 2 |
|||||
|
Analog
ch 2 |
CFG |
DR.RADR2.EStoMod.setVal |
ING |
Enum |
SP |
B,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Analog channel 2 |
|||||
|
Analog
ch 3 |
CFG |
DR.RADR3.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 3 |
|||||
|
Analog
ch 3 |
CFG |
DR.RADR3.EChNum.setVal |
ING |
Enum |
SP |
A,I |
4 |
Channel
selection |
Select
a signal, which will be recorded by this channel |
0=Disabled;
1=Io; 2=IL1; 3=IL2; 4=IL3; 9=Uo; 10=U1; 11=U2; 12=U3; 14=U1B; 17=CIo; 18=SI1;
19=SI2; 20=SU0; 21=SU1; 22=SU2; 29=U12; 30=U23; 31=U31; 32=UL1; 33=UL2;
34=UL3 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 3 |
|||||
|
Analog
ch 3 |
CFG |
DR.RADR3.EChNum.d |
ING |
VisString255
(64) |
DC |
A,I |
Analog
ch 3 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Analog channel 3 |
||||||
|
Analog
ch 3 |
CFG |
DR.RADR3.HiTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
10.00 |
High
trigger level |
Over
limit |
0.00...60.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 3 |
|||||
|
Analog
ch 3 |
CFG |
DR.RADR3.LoTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
0.00 |
Low
trigger level |
Under
limit |
0.00...2.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 3 |
|||||
|
Analog
ch 3 |
CFG |
DR.RADR3.EStoMod.setVal |
ING |
Enum |
SP |
B,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Analog channel 3 |
|||||
|
Analog
ch 4 |
CFG |
DR.RADR4.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 4 |
|||||
|
Analog
ch 4 |
CFG |
DR.RADR4.EChNum.setVal |
ING |
Enum |
SP |
A,I |
1 |
Channel
selection |
Select
a signal, which will be recorded by this channel |
0=Disabled;
1=Io; 2=IL1; 3=IL2; 4=IL3; 9=Uo; 10=U1; 11=U2; 12=U3; 14=U1B; 17=CIo; 18=SI1;
19=SI2; 20=SU0; 21=SU1; 22=SU2; 29=U12; 30=U23; 31=U31; 32=UL1; 33=UL2;
34=UL3 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 4 |
|||||
|
Analog
ch 4 |
CFG |
DR.RADR4.EChNum.d |
ING |
VisString255
(64) |
DC |
A,I |
Analog
ch 4 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Analog channel 4 |
||||||
|
Analog
ch 4 |
CFG |
DR.RADR4.HiTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
10.00 |
High
trigger level |
Over
limit |
0.00...60.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 4 |
|||||
|
Analog
ch 4 |
CFG |
DR.RADR4.LoTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
0.00 |
Low
trigger level |
Under
limit |
0.00...2.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 4 |
|||||
|
Analog
ch 4 |
CFG |
DR.RADR4.EStoMod.setVal |
ING |
Enum |
SP |
B,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Analog channel 4 |
|||||
|
Analog
ch 5 |
CFG |
DR.RADR5.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 5 |
|||||
|
Analog
ch 5 |
CFG |
DR.RADR5.EChNum.setVal |
ING |
Enum |
SP |
A,I |
10 |
Channel
selection |
Select
a signal, which will be recorded by this channel |
0=Disabled;
1=Io; 2=IL1; 3=IL2; 4=IL3; 9=Uo; 10=U1; 11=U2; 12=U3; 14=U1B; 17=CIo; 18=SI1;
19=SI2; 20=SU0; 21=SU1; 22=SU2; 29=U12; 30=U23; 31=U31; 32=UL1; 33=UL2;
34=UL3 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 5 |
|||||
|
Analog
ch 5 |
CFG |
DR.RADR5.EChNum.d |
ING |
VisString255
(64) |
DC |
A,I |
Analog
ch 5 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Analog channel 5 |
||||||
|
Analog
ch 5 |
CFG |
DR.RADR5.HiTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
10.00 |
High
trigger level |
Over
limit |
0.00...60.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 5 |
|||||
|
Analog
ch 5 |
CFG |
DR.RADR5.LoTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
0.00 |
Low
trigger level |
Under
limit |
0.00...2.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 5 |
|||||
|
Analog
ch 5 |
CFG |
DR.RADR5.EStoMod.setVal |
ING |
Enum |
SP |
B,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Analog channel 5 |
|||||
|
Analog
ch 6 |
CFG |
DR.RADR6.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 6 |
|||||
|
Analog
ch 6 |
CFG |
DR.RADR6.EChNum.setVal |
ING |
Enum |
SP |
A,I |
11 |
Channel
selection |
Select
a signal, which will be recorded by this channel |
0=Disabled;
1=Io; 2=IL1; 3=IL2; 4=IL3; 9=Uo; 10=U1; 11=U2; 12=U3; 14=U1B; 17=CIo; 18=SI1;
19=SI2; 20=SU0; 21=SU1; 22=SU2; 29=U12; 30=U23; 31=U31; 32=UL1; 33=UL2;
34=UL3 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 6 |
|||||
|
Analog
ch 6 |
CFG |
DR.RADR6.EChNum.d |
ING |
VisString255
(64) |
DC |
A,I |
Analog
ch 6 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Analog channel 6 |
||||||
|
Analog
ch 6 |
CFG |
DR.RADR6.HiTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
10.00 |
High
trigger level |
Over
limit |
0.00...60.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 6 |
|||||
|
Analog
ch 6 |
CFG |
DR.RADR6.LoTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
0.00 |
Low
trigger level |
Under
limit |
0.00...2.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 6 |
|||||
|
Analog
ch 6 |
CFG |
DR.RADR6.EStoMod.setVal |
ING |
Enum |
SP |
B,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Analog channel 6 |
|||||
|
Analog
ch 7 |
CFG |
DR.RADR7.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 7 |
|||||
|
Analog
ch 7 |
CFG |
DR.RADR7.EChNum.setVal |
ING |
Enum |
SP |
A,I |
12 |
Channel
selection |
Select
a signal, which will be recorded by this channel |
0=Disabled;
1=Io; 2=IL1; 3=IL2; 4=IL3; 9=Uo; 10=U1; 11=U2; 12=U3; 14=U1B; 17=CIo; 18=SI1;
19=SI2; 20=SU0; 21=SU1; 22=SU2; 29=U12; 30=U23; 31=U31; 32=UL1; 33=UL2;
34=UL3 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 7 |
|||||
|
Analog
ch 7 |
CFG |
DR.RADR7.EChNum.d |
ING |
VisString255
(64) |
DC |
A,I |
Analog
ch 7 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Analog channel 7 |
||||||
|
Analog
ch 7 |
CFG |
DR.RADR7.HiTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
10.00 |
High
trigger level |
Over
limit |
0.00...60.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 7 |
|||||
|
Analog
ch 7 |
CFG |
DR.RADR7.LoTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
0.00 |
Low
trigger level |
Under
limit |
0.00...2.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 7 |
|||||
|
Analog
ch 7 |
CFG |
DR.RADR7.EStoMod.setVal |
ING |
Enum |
SP |
B,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Analog channel 7 |
|||||
|
Analog
ch 8 |
CFG |
DR.RADR8.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 8 |
|||||
|
Analog
ch 8 |
CFG |
DR.RADR8.EChNum.setVal |
ING |
Enum |
SP |
A,I |
9 |
Channel
selection |
Select
a signal, which will be recorded by this channel |
0=Disabled;
1=Io; 2=IL1; 3=IL2; 4=IL3; 9=Uo; 10=U1; 11=U2; 12=U3; 14=U1B; 17=CIo; 18=SI1;
19=SI2; 20=SU0; 21=SU1; 22=SU2; 29=U12; 30=U23; 31=U31; 32=UL1; 33=UL2;
34=UL3 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 8 |
|||||
|
Analog
ch 8 |
CFG |
DR.RADR8.EChNum.d |
ING |
VisString255
(64) |
DC |
A,I |
Analog
ch 8 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Analog channel 8 |
||||||
|
Analog
ch 8 |
CFG |
DR.RADR8.HiTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
10.00 |
High
trigger level |
Over
limit |
0.00...60.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 8 |
|||||
|
Analog
ch 8 |
CFG |
DR.RADR8.LoTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
0.00 |
Low
trigger level |
Under
limit |
0.00...2.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 8 |
|||||
|
Analog
ch 8 |
CFG |
DR.RADR8.EStoMod.setVal |
ING |
Enum |
SP |
B,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Analog channel 8 |
|||||
|
Analog
ch 9 |
CFG |
DR.RADR9.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 9 |
|||||
|
Analog
ch 9 |
CFG |
DR.RADR9.EChNum.setVal |
ING |
Enum |
SP |
A,I |
14 |
Channel
selection |
Select
a signal, which will be recorded by this channel |
0=Disabled;
1=Io; 2=IL1; 3=IL2; 4=IL3; 9=Uo; 10=U1; 11=U2; 12=U3; 14=U1B; 17=CIo; 18=SI1;
19=SI2; 20=SU0; 21=SU1; 22=SU2; 29=U12; 30=U23; 31=U31; 32=UL1; 33=UL2;
34=UL3 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 9 |
|||||
|
Analog
ch 9 |
CFG |
DR.RADR9.EChNum.d |
ING |
VisString255
(64) |
DC |
A,I |
Analog
ch 9 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Analog channel 9 |
||||||
|
Analog
ch 9 |
CFG |
DR.RADR9.HiTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
10.00 |
High
trigger level |
Over
limit |
0.00...60.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 9 |
|||||
|
Analog
ch 9 |
CFG |
DR.RADR9.LoTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
0.00 |
Low
trigger level |
Under
limit |
0.00...2.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 9 |
|||||
|
Analog
ch 9 |
CFG |
DR.RADR9.EStoMod.setVal |
ING |
Enum |
SP |
B,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Analog channel 9 |
|||||
|
Analog
ch 10 |
CFG |
DR.RADR10.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 10 |
|||||
|
Analog
ch 10 |
CFG |
DR.RADR10.EChNum.setVal |
ING |
Enum |
SP |
A,I |
0 |
Channel
selection |
Select
a signal, which will be recorded by this channel |
0=Disabled;
1=Io; 2=IL1; 3=IL2; 4=IL3; 9=Uo; 10=U1; 11=U2; 12=U3; 14=U1B; 17=CIo; 18=SI1;
19=SI2; 20=SU0; 21=SU1; 22=SU2; 29=U12; 30=U23; 31=U31; 32=UL1; 33=UL2;
34=UL3 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 10 |
|||||
|
Analog
ch 10 |
CFG |
DR.RADR10.EChNum.d |
ING |
VisString255
(64) |
DC |
A,I |
Analog
ch 10 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Analog channel 10 |
||||||
|
Analog
ch 10 |
CFG |
DR.RADR10.HiTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
10.00 |
High
trigger level |
Over
limit |
0.00...60.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 10 |
|||||
|
Analog
ch 10 |
CFG |
DR.RADR10.LoTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
0.00 |
Low
trigger level |
Under
limit |
0.00...2.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 10 |
|||||
|
Analog
ch 10 |
CFG |
DR.RADR10.EStoMod.setVal |
ING |
Enum |
SP |
B,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Analog channel 10 |
|||||
|
Analog
ch 11 |
CFG |
DR.RADR11.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 11 |
|||||
|
Analog
ch 11 |
CFG |
DR.RADR11.EChNum.setVal |
ING |
Enum |
SP |
A,I |
0 |
Channel
selection |
Select
a signal, which will be recorded by this channel |
0=Disabled;
1=Io; 2=IL1; 3=IL2; 4=IL3; 9=Uo; 10=U1; 11=U2; 12=U3; 14=U1B; 17=CIo; 18=SI1;
19=SI2; 20=SU0; 21=SU1; 22=SU2; 29=U12; 30=U23; 31=U31; 32=UL1; 33=UL2;
34=UL3 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 11 |
|||||
|
Analog
ch 11 |
CFG |
DR.RADR11.EChNum.d |
ING |
VisString255
(64) |
DC |
A,I |
Analog
ch 11 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Analog channel 11 |
||||||
|
Analog
ch 11 |
CFG |
DR.RADR11.HiTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
10.00 |
High
trigger level |
Over
limit |
0.00...60.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 11 |
|||||
|
Analog
ch 11 |
CFG |
DR.RADR11.LoTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
0.00 |
Low
trigger level |
Under
limit |
0.00...2.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 11 |
|||||
|
Analog
ch 11 |
CFG |
DR.RADR11.EStoMod.setVal |
ING |
Enum |
SP |
B,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Analog channel 11 |
|||||
|
Analog
ch 12 |
CFG |
DR.RADR12.Mod.Oper.ctlVal |
INC |
Enum |
CO |
B,I |
1 |
Operation |
Analog
channel on / off |
1=on;
5=off |
Configuration\Disturbance
recorder\Channel settings\Analog channel 12 |
|||||
|
Analog
ch 12 |
CFG |
DR.RADR12.EChNum.setVal |
ING |
Enum |
SP |
A,I |
0 |
Channel
selection |
Select
a signal, which will be recorded by this channel |
0=Disabled;
1=Io; 2=IL1; 3=IL2; 4=IL3; 9=Uo; 10=U1; 11=U2; 12=U3; 14=U1B; 17=CIo; 18=SI1;
19=SI2; 20=SU0; 21=SU1; 22=SU2; 29=U12; 30=U23; 31=U31; 32=UL1; 33=UL2;
34=UL3 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 12 |
|||||
|
Analog
ch 12 |
CFG |
DR.RADR12.EChNum.d |
ING |
VisString255
(64) |
DC |
A,I |
Analog
ch 12 input |
Channel
id text |
Channel
identifier text |
Configuration\Disturbance
recorder\Channel settings\Analog channel 12 |
||||||
|
Analog
ch 12 |
CFG |
DR.RADR12.HiTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
10.00 |
High
trigger level |
Over
limit |
0.00...60.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 12 |
|||||
|
Analog
ch 12 |
CFG |
DR.RADR12.LoTrgLev.setMag.f |
ASG |
FLOAT32 |
SP |
A,I |
0.00 |
Low
trigger level |
Under
limit |
0.00...2.00 |
Configuration\Disturbance
recorder\Channel settings\Analog channel 12 |
|||||
|
Analog
ch 12 |
CFG |
DR.RADR12.EStoMod.setVal |
ING |
Enum |
SP |
B,I |
0 |
Storage
mode |
Storage
mode selection (waveform / trend) |
0=Waveform;
1=Trend / cycle |
Configuration\Disturbance
recorder\Channel settings\Analog channel 12 |
|||||
|
DR
LLN0 |
VER |
DR.LLN0.NamPlt.swRev |
LPL |
VisString255
(20) |
DC |
D |
(Name
plate) |