Document ID: 1MRS756606E

Supported product release information

Note: This parameter list is the maximum set of parameters available for 615 series IED products. Parameter shown here are not available in each variant. Always use the parameter list deliverred 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 the products.

Explanations of tables

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 O=Operator R/W, E=Engineer R/W, A=Administrator R/W, C=Coldboot, #=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)

Protection LLN0

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 0 SG_2_ACT Setting group 2 is active Monitoring\Setting group\Outputs
Protection LLN0 INP LD0.LLN0.Act3SG.stVal SPC BOOLEAN ST 0 SG_3_ACT Setting group 3 is active Monitoring\Setting group\Outputs
Protection LLN0 INP LD0.LLN0.Act4SG.stVal SPC BOOLEAN ST 0 SG_4_ACT Setting group 4 is active Monitoring\Setting group\Outputs
Protection LLN0 INP LD0.LLN0.Act5SG.stVal SPC BOOLEAN ST 0 SG_5_ACT Setting group 5 is active Monitoring\Setting group\Outputs
Protection LLN0 INP LD0.LLN0.Act6SG.stVal SPC BOOLEAN ST 0 SG_6_ACT Setting group 6 is active Monitoring\Setting group\Outputs
Protection LLN0 OUT LD0.LLN0.Act1SG.stVal SPC BOOLEAN ST SG_1_ACT Setting group 1 is active Monitoring\Setting group\Outputs
Protection LLN0 OUT LD0.LLN0.Act2SG.stVal SPC BOOLEAN ST 0 SG_2_ACT Setting group 2 is active Monitoring\Setting group\Outputs
Protection LLN0 OUT LD0.LLN0.Act3SG.stVal SPC BOOLEAN ST 0 SG_3_ACT Setting group 3 is active Monitoring\Setting group\Outputs
Protection LLN0 OUT LD0.LLN0.Act4SG.stVal SPC BOOLEAN ST 0 SG_4_ACT Setting group 4 is active Monitoring\Setting group\Outputs
Protection LLN0 OUT LD0.LLN0.Act5SG.stVal SPC BOOLEAN ST 0 SG_5_ACT Setting group 5 is active Monitoring\Setting group\Outputs
Protection LLN0 OUT LD0.LLN0.Act6SG.stVal SPC BOOLEAN ST 0 SG_6_ACT Setting group 6 is active Monitoring\Setting group\Outputs
Protection LLN0 CTR LD0.LLN0.LEDRs1.Oper.ctlVal SPC BOOLEAN CO 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 0 Programmable LEDs Clear programmable LEDs 0=Cancel; 1=Clear Clear\Clear
Device CTR LD0.IHMI1.EvClr.Oper.ctlVal SPC BOOLEAN CO 0 Events Clear events in HMI 0=Cancel; 1=Clear Clear\Clear
Physical device MON LD0.LPHD1.PhyHealth1.stVal INS Enum ST StatIed PH 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 Monitoring\IED status\Self-supervision
Physical device MON LD0.LPHD1.PhyHealth2.stVal INS Enum ST StatIed PH 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 Monitoring\IED status\Self-supervision
Physical device MON LD0.LPHD1.NumCmpChg.stVal INS INT32 ST 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 Boot up time IED boot up time Monitoring\IED status\Self-supervision
Device MON LD0.IHMI1.LocClk.stVal SPS BOOLEAN ST StatIed PH Synch status External synch ok 0=Bad; 1=Good Monitoring\IED status\Time synchronization
Device MON LD0.IHMI1.TmSrc.stVal INS Enum ST StatIed PH 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 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 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 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 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 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 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 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 1 Rated frequency Rated frequency of the network 1=50Hz; 2=60Hz Configuration\System
Protection LLN0 CFG LD0.LLN0.PhRotSet.setVal ING Enum SP 1 Phase rotation Phase rotation order 1=ABC; 2=ACB Configuration\System
Protection LLN0 CFG LD0.LLN0.DiVThres.setVal ING INT32 SP 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 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 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 0 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.ACrvSatPnt.setMag.f ASG FLOAT32 SP 50 IDMT Sat point Overcurrent IDMT saturation point 10...50 I/I> Configuration\System
Physical device CFG LD0.LPHD1.PhyNam.tmOffset DPL INT16 DC 0 Local time offset Local time offset in minutes -720...720 min Configuration\Time\System time
Physical device CFG LD0.LPHD1.PhyNam.eBayName DPL VisString255 (20) EX REx615 Bay name Bay name in system Configuration\System
Physical device CFG LD0.LPHD1.PhyNam.eMacAddr DPL VisString255 (20) EX 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 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 0 Software reset Reset of IED 0=Cancel; 1=Activate Configuration\General
Physical device CFG LD0.LPHD1.FacSet.Oper.ctlVal SPC BOOLEAN CO 0 Factory setting Restore Factory settings 0=Cancel; 1=Activate Configuration\General
Device CFG LD0.IHMI1.BackLight.setVal ING INT32 SP 3 Backlight timeout LHMI backlight timeout 1...60 min Configuration\HMI
Device CFG LD0.IHMI1.EFrmT.setVal ING Enum SP 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 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 1 FB naming convention FB naming convention used in IED 1=IEC61850; 2=IEC60617; 3=IEC-ANSI Configuration\HMI
Device CFG LD0.IHMI1.DefView.setVal ING Enum SP 1 Default view LHMI default view 1=Measurements; 2=Main menu; 3=SLD Configuration\HMI
Device CFG LD0.IHMI1.WhmiMod.setVal ING Enum SP 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 3 Web HMI timeout Web HMI login timeout 1...60 min Configuration\HMI
Device CFG LD0.IHMI1.LocClk.time SPS VisString255 (20) EX 0 Time Time Configuration\Time\System time
Device CFG LD0.IHMI1.LocClk.date SPS VisString255 (20) EX 0 Date Date Configuration\Time\System time
Device CFG LD0.IHMI1.LocClk.timeSpring SPS VisString255 (20) EX 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 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 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 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 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 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 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 1 Synch source Time synchronization source 0=None; 1=SNTP; 2=Modbus; 5=IRIG-B; 8=Line differential; 9=DNP; 17=IEC60870-5-103 Configuration\Time\Synchronization
Device CFG LD0.IHMI1.ESldSymFor.setVal ING Enum SP 1 SLD symbol format Single Line Diagram symbol format 1=IEC; 2=ANSI Configuration\HMI
Device CFG LD0.IHMI1.ScrDlTms.setVal ING INT32 SP 0 Autoscroll delay Autoscroll delay for Measurements view 0...30 s Configuration\HMI
Security application CFG LD0.GSAL1.AuthLoc.setVal SPG BOOLEAN SP ORERAW 1 Local override Disable authority Configuration\Authorization
Security application CFG LD0.GSAL1.AuthLoc.pwdAdmin SPG VisString255 (64) EX ORERAW 0 Local administrator Set password Configuration\Authorization
Security application CFG LD0.GSAL1.AuthLoc.pwdEng SPG VisString255 (64) EX ORERAW 0 Local engineer Set password Configuration\Authorization
Security application CFG LD0.GSAL1.AuthLoc.pwdOper SPG VisString255 (64) EX ORERAW 0 Local operator Set password Configuration\Authorization
Security application CFG LD0.GSAL1.AuthLoc.pwdView SPG VisString255 (64) EX ORERAW 0 Local viewer Set password Configuration\Authorization
Security application CFG LD0.GSAL1.AuthRem.setVal SPG BOOLEAN SP ORERAW 1 Remote override Disable authority Configuration\Authorization
Security application CFG LD0.GSAL1.AuthRem.pwdAdmin SPG VisString255 (64) EX ORERAW 0 Remote administrator Set password Configuration\Authorization
Security application CFG LD0.GSAL1.AuthRem.pwdEng SPG VisString255 (64) EX ORERAW 0 Remote engineer Set password Configuration\Authorization
Security application CFG LD0.GSAL1.AuthRem.pwdOper SPG VisString255 (64) EX ORERAW 0 Remote operator Set password Configuration\Authorization
Security application CFG LD0.GSAL1.AuthRem.pwdView SPG VisString255 (64) EX ORERAW 0 Remote viewer Set password Configuration\Authorization
Protection LLN0 SET LD0.LLN0.CpySG.Oper.ctlVal INC Enum CO 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 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 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 X HW revision IED HW revision Information\Product identifiers
Physical device INF LD0.LPHD1.PhyNam.swRev DPL VisString255 (20) DC X.X SW version IED SW version Information\Product identifiers
Physical device INF LD0.LPHD1.PhyNam.serNum DPL VisString255 (20) DC 1XXXXXXXXXXX Serial number IED serial number Information\Product identifiers
Physical device INF LD0.LPHD1.PhyNam.model DPL VisString255 (20) DC REx615 Type IED type Information\Product identifiers
Physical device INF LD0.LPHD1.PhyNam.eSwDate DPL VisString255 (20) EX YYYY-MM-DD SW date IED SW date Information\Product identifiers
Physical device INF LD0.LPHD1.PhyNam.eSwNum DPL VisString255 (20) EX XXXX SW number IED SW number Information\Product identifiers
Physical device INF LD0.LPHD1.PhyNam.eProdDate DPL VisString255 (20) EX YYYY-MM-DD Production date IED production date Information\Product identifiers
Physical device INF LD0.LPHD1.PhyNam.eOrdNum DPL VisString255 (64) EX #BDA############XD Order code IED order code Information\Product identifiers
Physical device INF LD0.LPHD1.PhyNam.eConfName DPL VisString255 (20) EX FE0X+DE0X+ME0X+TE0X Configuration name IED configuration name Information\Product identifiers
Physical device INF LD0.LPHD1.PhyNam.eIedName DPL VisString255 (64) EX TIGER Technical key Technical key set by tool Information\System identifiers
Physical device INF LD0.LPHD1.PhyNam.eCustomer DPL VisString255 (64) EX 0 Customer name Name of the customer Information\Site identifiers
Physical device INF LD0.LPHD1.PhyNam.eStreet DPL VisString255 (64) EX 0 Street Name of the street Information\Site identifiers
Physical device INF LD0.LPHD1.PhyNam.eHouseNum DPL VisString255 (64) EX 0 House number Number of the house Information\Site identifiers
Physical device INF LD0.LPHD1.PhyNam.eZip DPL VisString255 (20) EX 0 ZIP/Postal code ZIP/Postal code Information\Site identifiers
Physical device INF LD0.LPHD1.PhyNam.eCity DPL VisString255 (64) EX 0 City/Province City/Province Information\Site identifiers
Physical device INF LD0.LPHD1.PhyNam.eState DPL VisString255 (64) EX 0 State Name of state Information\Site identifiers
Physical device INF LD0.LPHD1.PhyNam.eCountry DPL VisString255 (64) EX 0 Country Name of the country Information\Site identifiers
Physical device INF LD0.LPHD1.EEName.hwRev DPL VisString255 (20) DC X HW revision Card HW revision Information\HW modules\Main board
Physical device INF LD0.LPHD1.EEName.serNum DPL VisString255 (20) DC 1XXXXXXXXXXX Serial number Card serial number Information\HW modules\Main board
Physical device INF LD0.LPHD1.EEName.eArtNum DPL VisString255 (20) EX 2RAAXXXXXX Article number IED article number Information\HW modules\Main board
Physical device INF LD0.LPHD1.EEName.eManDate DPL VisString255 (20) EX YYYY-MM-DD Manufacturing date Card manufacturing date Information\HW modules\Main board
Physical device INF LD0.LPHD1.EEName.eTestDate DPL VisString255 (20) EX YYYY-MM-DD Test date Card test date Information\HW modules\Main board
Device INF LD0.IHMI1.EEName.hwRev DPL VisString255 (20) DC X HW revision Card HW revision Information\HW modules\LHMI
Device INF LD0.IHMI1.EEName.swRev DPL VisString255 (20) DC A SW version Card SW version Information\HW modules\LHMI
Device INF LD0.IHMI1.EEName.serNum DPL VisString255 (20) DC 1XXXXXXXXXXX Serial number Card serial number Information\HW modules\LHMI
Device INF LD0.IHMI1.EEName.eArtNum DPL VisString255 (20) EX 2RAAXXXXXX Article number LHMI article number Information\HW modules\LHMI
Device INF LD0.IHMI1.EEName.eManDate DPL VisString255 (20) EX YYYY-MM-DD Manufacturing date Card manufacturing date Information\HW modules\LHMI
Device INF LD0.IHMI1.EEName.eTestDate DPL VisString255 (20) EX YYYY-MM-DD Test date Card test date Information\HW modules\LHMI
Protection LLN0 VER LD0.LLN0.NamPlt.swRev LPL VisString255 (20) DC D
Physical device VER LD0.LPHD1.PhyNam.swRev DPL VisString255 (20) DC X.X SW version IED SW version Information\Product identifiers
Physical device VER LD0.LPHD1.EEName.swRev DPL VisString255 (20) DC A
Device VER LD0.IHMI1.EEName.swRev DPL VisString255 (20) DC A SW version Card SW version Information\HW modules\LHMI

INRPHAR1: Three-phase inrush detector

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> 68 INP LD0.INRPHAR1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block input status Monitoring\I/O status\Current protection\INRPHAR1\Inputs
INRPHAR1 3I2f> 68 OUT LD0.INRPHAR1.Str.general ACD BOOLEAN ST StatIO P BLK2H Second harmonic based block Monitoring\I/O status\Current protection\INRPHAR1\Outputs
INRPHAR1 3I2f> 68 MON LD0.INRPHAR1.Beh.stVal INS Enum ST INRPHAR1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
INRPHAR1 3I2f> 68 SET LD0.INRPHAR1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Current protection\INRPHAR1
INRPHAR1 3I2f> 68 SET LD0.INRPHAR1.PhStr.setMag.f ASG FLOAT32 SG 20 Start value Ratio of the 2. to the 1. harmonic leading to restraint 5...100 % Settings\Settings\Current protection\INRPHAR1
INRPHAR1 3I2f> 68 SET LD0.INRPHAR1.OpDlTmms.setVal ING INT32 SG 20 Operate delay time Operate delay time 20...60000 ms Settings\Settings\Current protection\INRPHAR1
INRPHAR1 3I2f> 68 SET LD0.INRPHAR1.RsDlTmms.setVal ING INT32 SP 20 Reset delay time Reset delay time 0...60000 ms Settings\Settings\Current protection\INRPHAR1
INRPHAR1 3I2f> 68 TES LD0.INRPHAR1.TstOutCmd.Oper.ctlVal INC Enum CO 0 INRPHAR1 Test control for outputs 0=Reset; 35=Activate BLK2H; 36=Deactive BLK2H Tests\Function tests\Current protection
INRPHAR1 3I2f> 68 VER LD0.INRPHAR1.NamPlt.swRev LPL VisString255 (20) DC A

X100 (PSM)

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.XGGIO100.SPCSO1.stVal SPC BOOLEAN ST 0 StatIO P X100-PO1 Connectors 6-7 Monitoring\I/O status\Binary output values\X100 (PSM)
X100 (PSM) X100 (PSM) X100 (PSM) INP LD0.XGGIO100.SPCSO2.stVal SPC BOOLEAN ST 0 StatIO P X100-PO2 Connectors 8-9 Monitoring\I/O status\Binary output values\X100 (PSM)
X100 (PSM) X100 (PSM) X100 (PSM) INP LD0.XGGIO100.SPCSO3.stVal SPC BOOLEAN ST 0 StatIO P X100-SO1 Connectors 10c-11nc-12no Monitoring\I/O status\Binary output values\X100 (PSM)
X100 (PSM) X100 (PSM) X100 (PSM) INP LD0.XGGIO100.SPCSO4.stVal SPC BOOLEAN ST 0 StatIO P X100-SO2 Connectors 13c-14no Monitoring\I/O status\Binary output values\X100 (PSM)
X100 (PSM) X100 (PSM) X100 (PSM) INP LD0.XGGIO100.SPCSO5.stVal SPC BOOLEAN ST 0 StatIO P X100-PO3 Connectors 15-17/18-19 Monitoring\I/O status\Binary output values\X100 (PSM)
X100 (PSM) X100 (PSM) X100 (PSM) INP LD0.XGGIO100.SPCSO6.stVal SPC BOOLEAN ST 0 StatIO P X100-PO4 Connectors 20-22/23-24 Monitoring\I/O status\Binary output values\X100 (PSM)
X100 (PSM) X100 (PSM) X100 (PSM) TES LD0.XGGIO100.SPCSO1.Oper.ctlVal SPC BOOLEAN CO 0 X100-PO1 Connectors 6-7 Tests\Binary outputs\X100 (PSM)
X100 (PSM) X100 (PSM) X100 (PSM) TES LD0.XGGIO100.SPCSO2.Oper.ctlVal SPC BOOLEAN CO 0 X100-PO2 Connectors 8-9 Tests\Binary outputs\X100 (PSM)
X100 (PSM) X100 (PSM) X100 (PSM) TES LD0.XGGIO100.SPCSO3.Oper.ctlVal SPC BOOLEAN CO 0 X100-SO1 Connectors 10c-11nc-12no Tests\Binary outputs\X100 (PSM)
X100 (PSM) X100 (PSM) X100 (PSM) TES LD0.XGGIO100.SPCSO4.Oper.ctlVal SPC BOOLEAN CO 0 X100-SO2 Connectors 13c-14no Tests\Binary outputs\X100 (PSM)
X100 (PSM) X100 (PSM) X100 (PSM) TES LD0.XGGIO100.SPCSO5.Oper.ctlVal SPC BOOLEAN CO 0 X100-PO3 Connectors 15-17/18-19 Tests\Binary outputs\X100 (PSM)
X100 (PSM) X100 (PSM) X100 (PSM) TES LD0.XGGIO100.SPCSO6.Oper.ctlVal SPC BOOLEAN CO 0 X100-PO4 Connectors 20-22/23-24 Tests\Binary outputs\X100 (PSM)
X100 (PSM) X100 (PSM) X100 (PSM) INF LD0.XGGIO100.EEName.hwRev DPL VisString255 (20) DC 0 HW revision Card HW revision Information\HW modules\X100 (PSM)
X100 (PSM) X100 (PSM) X100 (PSM) INF LD0.XGGIO100.EEName.serNum DPL VisString255 (20) DC 0 Serial number Card serial number Information\HW modules\X100 (PSM)
X100 (PSM) X100 (PSM) X100 (PSM) INF LD0.XGGIO100.EEName.eArtNum DPL VisString255 (20) EX 0 Article number Card article number Information\HW modules\X100 (PSM)
X100 (PSM) X100 (PSM) X100 (PSM) INF LD0.XGGIO100.EEName.eManDate DPL VisString255 (20) EX 0 Manufacturing date Card manufacturing date Information\HW modules\X100 (PSM)
X100 (PSM) X100 (PSM) X100 (PSM) INF LD0.XGGIO100.EEName.eTestDate DPL VisString255 (20) EX 0 Test date Card test date Information\HW modules\X100 (PSM)
X100 (PSM) X100 (PSM) X100 (PSM) VER LD0.XGGIO100.NamPlt.swRev LPL VisString255 (20) DC C
X100 (PSM) X100 (PSM) X100 (PSM) VER LD0.XGGIO100.EEName.swRev DPL VisString255 (20) DC -

Programmable LEDs

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.SPCSO1.stVal SPC BOOLEAN ST 0 StatIO P Programmable LED 1 Status of programmable LED 1 Monitoring\Programmable LEDs
Programmable LEDs INP LD0.LEDGGIO1.SPCSO2.stVal SPC BOOLEAN ST 0 StatIO P Programmable LED 2 Status of programmable LED 2 Monitoring\Programmable LEDs
Programmable LEDs INP LD0.LEDGGIO1.SPCSO3.stVal SPC BOOLEAN ST 0 StatIO P Programmable LED 3 Status of programmable LED 3 Monitoring\Programmable LEDs
Programmable LEDs INP LD0.LEDGGIO1.SPCSO4.stVal SPC BOOLEAN ST 0 StatIO P Programmable LED 4 Status of programmable LED 4 Monitoring\Programmable LEDs
Programmable LEDs INP LD0.LEDGGIO1.SPCSO5.stVal SPC BOOLEAN ST 0 StatIO P Programmable LED 5 Status of programmable LED 5 Monitoring\Programmable LEDs
Programmable LEDs INP LD0.LEDGGIO1.SPCSO6.stVal SPC BOOLEAN ST 0 StatIO P Programmable LED 6 Status of programmable LED 6 Monitoring\Programmable LEDs
Programmable LEDs INP LD0.LEDGGIO1.SPCSO7.stVal SPC BOOLEAN ST 0 StatIO P Programmable LED 7 Status of programmable LED 7 Monitoring\Programmable LEDs
Programmable LEDs INP LD0.LEDGGIO1.SPCSO8.stVal SPC BOOLEAN ST 0 StatIO P Programmable LED 8 Status of programmable LED 8 Monitoring\Programmable LEDs
Programmable LEDs INP LD0.LEDGGIO1.SPCSO9.stVal SPC BOOLEAN ST 0 StatIO P Programmable LED 9 Status of programmable LED 9 Monitoring\Programmable LEDs
Programmable LEDs INP LD0.LEDGGIO1.SPCSO10.stVal SPC BOOLEAN ST 0 StatIO P Programmable LED 10 Status of programmable LED 10 Monitoring\Programmable LEDs
Programmable LEDs INP LD0.LEDGGIO1.SPCSO11.stVal SPC BOOLEAN ST 0 StatIO P Programmable LED 11 Status of programmable LED 11 Monitoring\Programmable LEDs
Programmable LEDs CFG LD0.LEDGGIO1.SPCSO1.d SPC VisString255 (64) DC Programmable LED 1 Description Programmable LED description Configuration\Programmable LEDs\LED 1
Programmable LEDs CFG LD0.LEDGGIO1.SPCSO2.d SPC VisString255 (64) DC Programmable LED 2 Description Programmable LED description Configuration\Programmable LEDs\LED 2
Programmable LEDs CFG LD0.LEDGGIO1.SPCSO3.d SPC VisString255 (64) DC Programmable LED 3 Description Programmable LED description Configuration\Programmable LEDs\LED 3
Programmable LEDs CFG LD0.LEDGGIO1.SPCSO4.d SPC VisString255 (64) DC Programmable LED 4 Description Programmable LED description Configuration\Programmable LEDs\LED 4
Programmable LEDs CFG LD0.LEDGGIO1.SPCSO5.d SPC VisString255 (64) DC Programmable LED 5 Description Programmable LED description Configuration\Programmable LEDs\LED 5
Programmable LEDs CFG LD0.LEDGGIO1.SPCSO6.d SPC VisString255 (64) DC Programmable LED 6 Description Programmable LED description Configuration\Programmable LEDs\LED 6
Programmable LEDs CFG LD0.LEDGGIO1.SPCSO7.d SPC VisString255 (64) DC Programmable LED 7 Description Programmable LED description Configuration\Programmable LEDs\LED 7
Programmable LEDs CFG LD0.LEDGGIO1.SPCSO8.d SPC VisString255 (64) DC Programmable LED 8 Description Programmable LED description Configuration\Programmable LEDs\LED 8
Programmable LEDs CFG LD0.LEDGGIO1.SPCSO9.d SPC VisString255 (64) DC Programmable LED 9 Description Programmable LED description Configuration\Programmable LEDs\LED 9
Programmable LEDs CFG LD0.LEDGGIO1.SPCSO10.d SPC VisString255 (64) DC Programmable LED 10 Description Programmable LED description Configuration\Programmable LEDs\LED 10
Programmable LEDs CFG LD0.LEDGGIO1.SPCSO11.d SPC VisString255 (64) DC Programmable LED 11 Description Programmable LED description Configuration\Programmable LEDs\LED 11
Programmable LEDs CFG LD0.LEDGGIO1.LEDSeq1.setVal ING Enum SP 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 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 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 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 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 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 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 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 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 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 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 VER LD0.LEDGGIO1.NamPlt.swRev LPL VisString255 (20) DC C

GSEGGIO1

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 StatUrg PH ALARM Receiver Alarm general Monitoring\I/O status\Communication\GSEGGIO1\Outputs
GSEGGIO1 GSE GSE MON LD0.GSEGGIO1.IntIn1.stVal INS INT32 ST 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 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 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 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 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 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 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 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 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 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 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 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

61850-8-1 MMS

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 MON LD0.MMSGGIO1.IntIn1.stVal INS INT32 ST Successful conn. MMS successful connections 0...10000000 Monitoring\Communication\MMSGGIO1
61850-8-1 MMS MON LD0.MMSGGIO1.IntIn2.stVal INS INT32 ST Failed conn. MMS failed connections 0...10000000 Monitoring\Communication\MMSGGIO1
61850-8-1 MMS MON LD0.MMSGGIO1.IntIn3.stVal INS INT32 ST Concludes MMS concludes 0...10000000 Monitoring\Communication\MMSGGIO1
61850-8-1 MMS MON LD0.MMSGGIO1.IntIn4.stVal INS INT32 ST Sent aborts MMS sent aborts 0...10000000 Monitoring\Communication\MMSGGIO1
61850-8-1 MMS MON LD0.MMSGGIO1.IntIn5.stVal INS INT32 ST Recv. aborts MMS received aborts 0...10000000 Monitoring\Communication\MMSGGIO1
61850-8-1 MMS MON LD0.MMSGGIO1.IntIn6.stVal INS INT32 ST Sent rejects MMS sent rejects 0...10000000 Monitoring\Communication\MMSGGIO1
61850-8-1 MMS MON LD0.MMSGGIO1.IntIn7.stVal INS INT32 ST Recv. requests MMS received requests 0...10000000 Monitoring\Communication\MMSGGIO1
61850-8-1 MMS MON LD0.MMSGGIO1.IntIn8.stVal INS INT32 ST Failed requests MMS failed requests 0...10000000 Monitoring\Communication\MMSGGIO1
61850-8-1 MMS MON LD0.MMSGGIO1.IntIn9.stVal INS INT32 ST Reads MMS successful reads 0...10000000 Monitoring\Communication\MMSGGIO1
61850-8-1 MMS MON LD0.MMSGGIO1.IntIn10.stVal INS INT32 ST Failed reads MMS failed reads 0...10000000 Monitoring\Communication\MMSGGIO1
61850-8-1 MMS MON LD0.MMSGGIO1.IntIn11.stVal INS INT32 ST Writes MMS successful writes 0...10000000 Monitoring\Communication\MMSGGIO1
61850-8-1 MMS MON LD0.MMSGGIO1.IntIn12.stVal INS INT32 ST Failed writes MMS failed writes 0...10000000 Monitoring\Communication\MMSGGIO1
61850-8-1 MMS MON LD0.MMSGGIO1.IntIn13.stVal INS INT32 ST Reports MMS Information reports 0...10000000 Monitoring\Communication\MMSGGIO1
61850-8-1 MMS MON LD0.MMSGGIO1.IntIn14.stVal INS INT32 ST Active conn. MMS active connections 0...10000000 Monitoring\Communication\MMSGGIO1
61850-8-1 MMS MON LD0.MMSGGIO1.RstCnt.Oper.ctlVal SPC BOOLEAN CO 0 Reset counters MMSGGIO counters reset Monitoring\Communication\MMSGGIO1
61850-8-1 MMS CFG LD0.MMSGGIO1.UnitMod.setVal ING Enum SP 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

CMMXU1: Three-phase current measurement

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 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 StatUrg PH HIGH_ALARM High alarm Monitoring\I/O status\Measurements\CMMXU1\Outputs
CMMXU1 3I 3I OUT LD0.CMMXU1.HiWrn.stVal SPS BOOLEAN ST StatUrg PH HIGH_WARN High warning Monitoring\I/O status\Measurements\CMMXU1\Outputs
CMMXU1 3I 3I OUT LD0.CMMXU1.LoWrn.stVal SPS BOOLEAN ST StatUrg PH LOW_WARN Low warning Monitoring\I/O status\Measurements\CMMXU1\Outputs
CMMXU1 3I 3I OUT LD0.CMMXU1.LoAlm.stVal SPS BOOLEAN ST StatUrg PH LOW_ALARM Low alarm Monitoring\I/O status\Measurements\CMMXU1\Outputs
CMMXU1 3I 3I CTR LD0.CMSTA1.RecRs.Oper.ctlVal SPC BOOLEAN CO 0 CMMXU1 max.demands Clear CMMXU1 maximum demands 0=Cancel; 1=Clear Clear\Clear
CMMXU1 3I 3I MON LD0.CMMXU1.A.phsA.instCVal.mag.f WYE FLOAT32 MX MeasFlt P I_INST_A IL1 Amplitude, magnitude of instantaneous value 0.00...40.00 xIn Monitoring\I/O status\Measurements\CMMXU1\Monitored data
CMMXU1 3I 3I MON LD0.CMMXU1.A.phsA.cVal.mag.f WYE FLOAT32 MX 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 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 MeasFlt P I_INST_B IL2 Amplitude, magnitude of instantaneous value 0.00...40.00 xIn Monitoring\I/O status\Measurements\CMMXU1\Monitored data
CMMXU1 3I 3I MON LD0.CMMXU1.A.phsB.cVal.mag.f WYE FLOAT32 MX 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 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 MeasFlt P I_INST_C IL3 Amplitude, magnitude of instantaneous value 0.00...40.00 xIn Monitoring\I/O status\Measurements\CMMXU1\Monitored data
CMMXU1 3I 3I MON LD0.CMMXU1.A.phsC.cVal.mag.f WYE FLOAT32 MX 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 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.AvAmps1.mag.f MV FLOAT32 MX 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.MaxAmps1.mag.f MV FLOAT32 MX Max demand IL1 Maximum demand for Phase A 0.00...40.00 xIn Monitoring\Recorded data\CMMXU1 IL1TCTR1
CMMXU1 3I 3I MON LD0.CMSTA1.MaxAmps1.t MV Timestamp MX Time max demand IL1 Time of maximum demand phase A Monitoring\Recorded data\CMMXU1
CMMXU1 3I 3I MON LD0.CMSTA1.AvAmps2.mag.f MV FLOAT32 MX 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.MaxAmps2.mag.f MV FLOAT32 MX Max demand IL2 Maximum demand for Phase B 0.00...40.00 xIn Monitoring\Recorded data\CMMXU1 IL1TCTR1
CMMXU1 3I 3I MON LD0.CMSTA1.MaxAmps2.t MV Timestamp MX Time max demand IL2 Time of maximum demand phase B Monitoring\Recorded data\CMMXU1
CMMXU1 3I 3I MON LD0.CMSTA1.AvAmps3.mag.f MV FLOAT32 MX 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.MaxAmps3.mag.f MV FLOAT32 MX Max demand IL3 Maximum demand for Phase C 0.00...40.00 xIn Monitoring\Recorded data\CMMXU1 IL1TCTR1
CMMXU1 3I 3I MON LD0.CMSTA1.MaxAmps3.t MV Timestamp MX Time max demand IL3 Time of maximum demand phase C Monitoring\Recorded data\CMMXU1
CMMXU1 3I 3I CFG LD0.CMMXU1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Configuration\Measurements\CMMXU1
CMMXU1 3I 3I CFG LD0.CMMXU1.A.phsA.db WYE INT32U CF 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 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 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 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 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 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 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 CFG LD0.CMSTA1.DmdItrv.setVal ING Enum SP 0 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 Configuration\Measurements\CMMXU1
CMMXU1 3I 3I VER LD0.CMMXU1.NamPlt.swRev LPL VisString255 (20) DC B
CMMXU1 3I 3I VER LD0.CMSTA1.NamPlt.swRev LPL VisString255 (20) DC B

RESCMMXU1: Residual current measurement

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 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 StatUrg PH HIGH_ALARM High alarm Monitoring\I/O status\Measurements\RESCMMXU1\Outputs
RESCMMXU1 Io In OUT LD0.RESCMMXU1.HiWrn.stVal SPS BOOLEAN ST StatUrg PH HIGH_WARN High warning Monitoring\I/O status\Measurements\RESCMMXU1\Outputs
RESCMMXU1 Io In MON LD0.RESCMMXU1.A.res.instCVal.mag.f WYE FLOAT32 MX MeasFlt P I_INST_RES Residual current Amplitude, magnitude of instantaneous value 0.00...40.00 xIn Monitoring\I/O status\Measurements\RESCMMXU1\Monitored data
RESCMMXU1 Io In MON LD0.RESCMMXU1.A.res.cVal.mag.f WYE FLOAT32 MX 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 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 CFG LD0.RESCMMXU1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Configuration\Measurements\RESCMMXU1
RESCMMXU1 Io In CFG LD0.RESCMMXU1.A.res.db WYE INT32U CF 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 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 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 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

CSMSQI1: Sequence current measurement

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 MON LD0.CSMSQI1.SeqA.c1.instCVal.mag.f SEQ FLOAT32 MX MeasFlt P I1_INST Positive sequence current amplitude, instantaneous 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.cVal.mag.f SEQ FLOAT32 MX 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 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 MeasFlt P I2_INST Negative sequence current amplitude, instantaneous 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.cVal.mag.f SEQ FLOAT32 MX 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 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 MeasFlt P I0_INST Zero sequence current amplitude, instantaneous 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.cVal.mag.f SEQ FLOAT32 MX 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 A

PHIPTOC1: Three phase non-directional OC, inst. stage

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 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 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 StatNrml PH START Start Monitoring\I/O status\Current protection\PHIPTOC1\Outputs
PHIPTOC1 3I>>>(1) 50P/51P(1) OUT LD0.PHIPTOC1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\PHIPTOC1\Outputs
PHIPTOC1 3I>>>(1) 50P/51P(1) MON LD0.PHIPTOC1.Beh.stVal INS Enum ST 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 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 1 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 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 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 1.00 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 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 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 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

CCBRBRF1: Circuit breaker failure protection

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 51BF/51NBF INP LD0.CCBRBRF1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block CBFP operation Monitoring\I/O status\Other protection\CCBRBRF1\Inputs
CCBRBRF1 3I>/Io>BF 51BF/51NBF INP LD0.CCBRBRF1.InStr.stVal SPS BOOLEAN ST 0 START CBFP start command Monitoring\I/O status\Other protection\CCBRBRF1\Inputs
CCBRBRF1 3I>/Io>BF 51BF/51NBF INP LD0.CCBRBRF1.InPosCls.stVal SPS BOOLEAN ST 0 POSCLOSE CB in closed position Monitoring\I/O status\Other protection\CCBRBRF1\Inputs
CCBRBRF1 3I>/Io>BF 51BF/51NBF INP LD0.CCBRBRF1.InCBFlt.stVal SPS BOOLEAN ST 0 CB_FAULT CB faulty and unable to trip Monitoring\I/O status\Other protection\CCBRBRF1\Inputs
CCBRBRF1 3I>/Io>BF 51BF/51NBF OUT LD0.CCBRBRF1.Str.general ACD BOOLEAN ST StatIed PH CB_FAULT_AL Delayed CB failure alarm Monitoring\I/O status\Other protection\CCBRBRF1\Outputs
CCBRBRF1 3I>/Io>BF 51BF/51NBF OUT LD0.CCBRBRF1.OpEx.general ACT BOOLEAN ST StatIed PHT TRBU Backup trip Monitoring\I/O status\Other protection\CCBRBRF1\Outputs
CCBRBRF1 3I>/Io>BF 51BF/51NBF OUT LD0.CCBRBRF1.OpIn.general ACT BOOLEAN ST StatIed PHT TRRET Retrip Monitoring\I/O status\Other protection\CCBRBRF1\Outputs
CCBRBRF1 3I>/Io>BF 51BF/51NBF MON LD0.CCBRBRF1.Beh.stVal INS Enum ST CCBRBRF1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
CCBRBRF1 3I>/Io>BF 51BF/51NBF SET LD0.CCBRBRF1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Other protection\CCBRBRF1
CCBRBRF1 3I>/Io>BF 51BF/51NBF SET LD0.CCBRBRF1.DetValA.setMag.f ASG FLOAT32 SP 0.30 Current value Operating phase current 0.05...1.00 xIn Settings\Settings\Other protection\CCBRBRF1 IL1TCTR1
CCBRBRF1 3I>/Io>BF 51BF/51NBF SET LD0.CCBRBRF1.FailTmms.setVal ING INT32 SP 150 CB failure delay Delay timer for backup trip 0...60000 ms Settings\Settings\Other protection\CCBRBRF1
CCBRBRF1 3I>/Io>BF 51BF/51NBF SET LD0.CCBRBRF1.TPTrTmms.setVal ING INT32 SP 20 Retrip time Delay timer for retrip 0...60000 ms Settings\Settings\Other protection\CCBRBRF1
CCBRBRF1 3I>/Io>BF 51BF/51NBF SET LD0.CCBRBRF1.ReTrMod.setVal ING Enum SP 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 51BF/51NBF SET LD0.CCBRBRF1.FailMod.setVal ING Enum SP 1 CB failure mode Operating mode of function 1=Current; 2=Breaker status; 3=Both Settings\Settings\Other protection\CCBRBRF1
CCBRBRF1 3I>/Io>BF 51BF/51NBF SET LD0.CCBRBRF1.DetValARes.setMag.f ASG FLOAT32 SP 0.30 Current value Res Operating residual current 0.05...1.00 xIn Settings\Settings\Other protection\CCBRBRF1 RESTCTR1
CCBRBRF1 3I>/Io>BF 51BF/51NBF SET LD0.CCBRBRF1.AMeasMod.setVal ING Enum SP 2 Measurement mode Phase current measurement mode of function 2=DFT; 3=Peak-to-Peak Settings\Settings\Other protection\CCBRBRF1
CCBRBRF1 3I>/Io>BF 51BF/51NBF SET LD0.CCBRBRF1.CBAlmTmms.setVal ING INT32 SP 5000 CB fault delay Circuit breaker faulty delay 0...60000 ms Settings\Settings\Other protection\CCBRBRF1
CCBRBRF1 3I>/Io>BF 51BF/51NBF SET LD0.CCBRBRF1.OpExMod.setVal ING Enum SP 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 51BF/51NBF SET LD0.CCBRBRF1.TrPlsTmms.setVal ING INT32 SP 150 Trip pulse time Pulse length of retrip and backup trip outputs 0...60000 ms Settings\Settings\Other protection\CCBRBRF1
CCBRBRF1 3I>/Io>BF 51BF/51NBF TES LD0.CCBRBRF1.TstOutCmd.Oper.ctlVal INC Enum CO 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 51BF/51NBF VER LD0.CCBRBRF1.NamPlt.swRev LPL VisString255 (20) DC B

NSPTOC1: Negative Phase sequency current protection

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 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 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 StatNrml PH START Start Monitoring\I/O status\Current protection\NSPTOC1\Outputs
NSPTOC1 I2>(1) 46(1) OUT LD0.NSPTOC1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\NSPTOC1\Outputs
NSPTOC1 I2>(1) 46(1) MON LD0.NSPTOC1.Beh.stVal INS Enum ST 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 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 1 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 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 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 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 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 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\NSPTOC1
NSPTOC1 I2>(1) 46(1) SET LD0.NSPTOC1.TmACrv.setParA CURVE FLOAT32 SP 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 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 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 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 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 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 40 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 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 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

NSPTOC2: Negative Phase sequency current protection

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 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 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 StatNrml PH START Start Monitoring\I/O status\Current protection\NSPTOC2\Outputs
NSPTOC2 I2>(2) 46(2) OUT LD0.NSPTOC2.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\NSPTOC2\Outputs
NSPTOC2 I2>(2) 46(2) MON LD0.NSPTOC2.Beh.stVal INS Enum ST 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 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 1 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 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 0.30 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 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 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 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\NSPTOC2
NSPTOC2 I2>(2) 46(2) SET LD0.NSPTOC2.TmACrv.setParA CURVE FLOAT32 SP 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 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 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 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 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 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 40 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 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 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

PDNSPTOC1: Phase discontinuity protection

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 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 StatNrml PH START Start Monitoring\I/O status\Current protection\PDNSPTOC1\Outputs
PDNSPTOC1 I2/I1> 46PD OUT LD0.PDNSPTOC1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\PDNSPTOC1\Outputs
PDNSPTOC1 I2/I1> 46PD MON LD0.PDNSPTOC1.Beh.stVal INS Enum ST 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 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 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 1 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 10 Start value Start value 10...100 % Settings\Settings\Current protection\PDNSPTOC1
PDNSPTOC1 I2/I1> 46PD SET LD0.PDNSPTOC1.OpDlTmms.setVal ING INT32 SG 100 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 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 0.10 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 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

MVGAPC1

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 0 StatIed PH Q1 Q1 status Monitoring\I/O status\Generic logic\MVGAPC1\Outputs
MVGAPC1 MV(1) MV(1) INP LD0.MVGAPC1.Q2.stVal SPS BOOLEAN ST 0 StatIed PH Q2 Q2 status Monitoring\I/O status\Generic logic\MVGAPC1\Outputs
MVGAPC1 MV(1) MV(1) INP LD0.MVGAPC1.Q3.stVal SPS BOOLEAN ST 0 StatIed PH Q3 Q3 status Monitoring\I/O status\Generic logic\MVGAPC1\Outputs
MVGAPC1 MV(1) MV(1) INP LD0.MVGAPC1.Q4.stVal SPS BOOLEAN ST 0 StatIed PH Q4 Q4 status Monitoring\I/O status\Generic logic\MVGAPC1\Outputs
MVGAPC1 MV(1) MV(1) INP LD0.MVGAPC1.Q5.stVal SPS BOOLEAN ST 0 StatIed PH Q5 Q5 status Monitoring\I/O status\Generic logic\MVGAPC1\Outputs
MVGAPC1 MV(1) MV(1) INP LD0.MVGAPC1.Q6.stVal SPS BOOLEAN ST 0 StatIed PH Q6 Q6 status Monitoring\I/O status\Generic logic\MVGAPC1\Outputs
MVGAPC1 MV(1) MV(1) INP LD0.MVGAPC1.Q7.stVal SPS BOOLEAN ST 0 StatIed PH Q7 Q7 status Monitoring\I/O status\Generic logic\MVGAPC1\Outputs
MVGAPC1 MV(1) MV(1) INP LD0.MVGAPC1.Q8.stVal SPS BOOLEAN ST 0 StatIed PH Q8 Q8 status Monitoring\I/O status\Generic logic\MVGAPC1\Outputs
MVGAPC1 MV(1) MV(1) OUT LD0.MVGAPC1.Q1.stVal SPS BOOLEAN ST 0 StatIed PH Q1 Q1 status Monitoring\I/O status\Generic logic\MVGAPC1\Outputs
MVGAPC1 MV(1) MV(1) OUT LD0.MVGAPC1.Q2.stVal SPS BOOLEAN ST 0 StatIed PH Q2 Q2 status Monitoring\I/O status\Generic logic\MVGAPC1\Outputs
MVGAPC1 MV(1) MV(1) OUT LD0.MVGAPC1.Q3.stVal SPS BOOLEAN ST 0 StatIed PH Q3 Q3 status Monitoring\I/O status\Generic logic\MVGAPC1\Outputs
MVGAPC1 MV(1) MV(1) OUT LD0.MVGAPC1.Q4.stVal SPS BOOLEAN ST 0 StatIed PH Q4 Q4 status Monitoring\I/O status\Generic logic\MVGAPC1\Outputs
MVGAPC1 MV(1) MV(1) OUT LD0.MVGAPC1.Q5.stVal SPS BOOLEAN ST 0 StatIed PH Q5 Q5 status Monitoring\I/O status\Generic logic\MVGAPC1\Outputs
MVGAPC1 MV(1) MV(1) OUT LD0.MVGAPC1.Q6.stVal SPS BOOLEAN ST 0 StatIed PH Q6 Q6 status Monitoring\I/O status\Generic logic\MVGAPC1\Outputs
MVGAPC1 MV(1) MV(1) OUT LD0.MVGAPC1.Q7.stVal SPS BOOLEAN ST 0 StatIed PH Q7 Q7 status Monitoring\I/O status\Generic logic\MVGAPC1\Outputs
MVGAPC1 MV(1) MV(1) OUT LD0.MVGAPC1.Q8.stVal SPS BOOLEAN ST 0 StatIed PH Q8 Q8 status Monitoring\I/O status\Generic logic\MVGAPC1\Outputs
MVGAPC1 MV(1) MV(1) VER LD0.MVGAPC1.NamPlt.swRev LPL VisString255 (20) DC A

SRGAPC1

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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 Q1 Q1 status Monitoring\I/O status\Generic logic\SRGAPC1\Outputs
SRGAPC1 SR(1) SR(1) OUT LD0.SRGAPC1.Q2.stVal SPS BOOLEAN ST Q2 Q2 status Monitoring\I/O status\Generic logic\SRGAPC1\Outputs
SRGAPC1 SR(1) SR(1) OUT LD0.SRGAPC1.Q3.stVal SPS BOOLEAN ST Q3 Q3 status Monitoring\I/O status\Generic logic\SRGAPC1\Outputs
SRGAPC1 SR(1) SR(1) OUT LD0.SRGAPC1.Q4.stVal SPS BOOLEAN ST Q4 Q4 status Monitoring\I/O status\Generic logic\SRGAPC1\Outputs
SRGAPC1 SR(1) SR(1) OUT LD0.SRGAPC1.Q5.stVal SPS BOOLEAN ST Q5 Q5 status Monitoring\I/O status\Generic logic\SRGAPC1\Outputs
SRGAPC1 SR(1) SR(1) OUT LD0.SRGAPC1.Q6.stVal SPS BOOLEAN ST Q6 Q6 status Monitoring\I/O status\Generic logic\SRGAPC1\Outputs
SRGAPC1 SR(1) SR(1) OUT LD0.SRGAPC1.Q7.stVal SPS BOOLEAN ST Q7 Q7 status Monitoring\I/O status\Generic logic\SRGAPC1\Outputs
SRGAPC1 SR(1) SR(1) OUT LD0.SRGAPC1.Q8.stVal SPS BOOLEAN ST Q8 Q8 status Monitoring\I/O status\Generic logic\SRGAPC1\Outputs
SRGAPC1 SR(1) SR(1) CFG LD0.SRGAPC1.Rs1.Oper.ctlVal SPC BOOLEAN CO 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 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 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 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 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 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 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 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

TONGAPC1

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 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 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 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 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 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 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 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 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 Q1 Output 1 Monitoring\I/O status\Generic timers\TONGAPC1\Outputs
TONGAPC1 TON(1) TON(1) OUT LD0.TONGAPC1.Q2.stVal SPS BOOLEAN ST Q2 Output 2 Monitoring\I/O status\Generic timers\TONGAPC1\Outputs
TONGAPC1 TON(1) TON(1) OUT LD0.TONGAPC1.Q3.stVal SPS BOOLEAN ST Q3 Output 3 Monitoring\I/O status\Generic timers\TONGAPC1\Outputs
TONGAPC1 TON(1) TON(1) OUT LD0.TONGAPC1.Q4.stVal SPS BOOLEAN ST Q4 Output 4 Monitoring\I/O status\Generic timers\TONGAPC1\Outputs
TONGAPC1 TON(1) TON(1) OUT LD0.TONGAPC1.Q5.stVal SPS BOOLEAN ST Q5 Output 5 Monitoring\I/O status\Generic timers\TONGAPC1\Outputs
TONGAPC1 TON(1) TON(1) OUT LD0.TONGAPC1.Q6.stVal SPS BOOLEAN ST Q6 Output 6 Monitoring\I/O status\Generic timers\TONGAPC1\Outputs
TONGAPC1 TON(1) TON(1) OUT LD0.TONGAPC1.Q7.stVal SPS BOOLEAN ST Q7 Output 7 Monitoring\I/O status\Generic timers\TONGAPC1\Outputs
TONGAPC1 TON(1) TON(1) OUT LD0.TONGAPC1.Q8.stVal SPS BOOLEAN ST Q8 Output 8 Monitoring\I/O status\Generic timers\TONGAPC1\Outputs
TONGAPC1 TON(1) TON(1) CFG LD0.TONGAPC1.OnDlTmms1.setVal ING INT32 SP 0 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 0 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 0 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 0 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 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 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 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 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

TOFGAPC1

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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 0 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 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 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 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 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 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 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 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

PTGAPC1

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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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

Global conditioning

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.Op.general ACT BOOLEAN ST 0 StatIed PH
Global conditioning INP LD0.LEDPTRC1.Str.general ACD BOOLEAN ST 0 StatIed PH
TRPPTRC1 Master Trip(1) 94/86(1) INP LD0.TRPPTRC1.Mod.blockIn INC BOOLEAN EX 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 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 0 RST_LKOUT Input for resetting the circuit breaker lockout function Monitoring\I/O status\Trip logic\TRPPTRC1\Inputs
TRPPTRC2 Master Trip(2) 94/86(2) INP LD0.TRPPTRC2.Mod.blockIn INC BOOLEAN EX 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 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 0 RST_LKOUT Input for resetting the circuit breaker lockout function Monitoring\I/O status\Trip logic\TRPPTRC2\Inputs
Global conditioning OUT LD0.LEDPTRC1.Op.general ACT BOOLEAN ST 0 StatIed PH
Global conditioning OUT LD0.LEDPTRC1.Op.phsA ACT BOOLEAN ST StatIed PH
Global conditioning OUT LD0.LEDPTRC1.Op.phsB ACT BOOLEAN ST StatIed PH
Global conditioning OUT LD0.LEDPTRC1.Op.phsC ACT BOOLEAN ST StatIed PH
Global conditioning OUT LD0.LEDPTRC1.Op.neut ACT BOOLEAN ST StatIed PH
Global conditioning OUT LD0.LEDPTRC1.Str.general ACD BOOLEAN ST 0 StatIed PH
Global conditioning OUT LD0.LEDPTRC1.Str.phsA ACD BOOLEAN ST StatIed PH
Global conditioning OUT LD0.LEDPTRC1.Str.phsB ACD BOOLEAN ST StatIed PH
Global conditioning OUT LD0.LEDPTRC1.Str.phsC ACD BOOLEAN ST StatIed PH
Global conditioning OUT LD0.LEDPTRC1.Str.neut ACD BOOLEAN ST StatIed PH
TRPPTRC1 Master Trip(1) 94/86(1) OUT LD0.TRPPTRC1.Tr.general ACT BOOLEAN ST StatNrml PH 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 CL_LKOUT Circuit breaker lockout output (set until reset) Monitoring\I/O status\Trip logic\TRPPTRC1\Outputs
TRPPTRC2 Master Trip(2) 94/86(2) OUT LD0.TRPPTRC2.Tr.general ACT BOOLEAN ST StatNrml PH 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 CL_LKOUT Circuit breaker lockout output (set until reset) Monitoring\I/O status\Trip logic\TRPPTRC2\Outputs
TRPPTRC1 Master Trip(1) 94/86(1) CTR LD0.TRPPTRC1.LORs.Oper.ctlVal SPC BOOLEAN CO 0 TRPPTRC1 Reset TRPPTRC1 lockout and latch 0=Cancel; 1=Clear Clear\Clear
TRPPTRC2 Master Trip(2) 94/86(2) CTR LD0.TRPPTRC2.LORs.Oper.ctlVal SPC BOOLEAN CO 0 TRPPTRC2 Reset TRPPTRC2 lockout and latch 0=Cancel; 1=Clear Clear\Clear
TRPPTRC1 Master Trip(1) 94/86(1) MON LD0.TRPPTRC1.Beh.stVal INS Enum ST TRPPTRC1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
TRPPTRC2 Master Trip(2) 94/86(2) MON LD0.TRPPTRC2.Beh.stVal INS Enum ST TRPPTRC2 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 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 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 1 Trip output mode Select the operation mode for trip output 1=Non-latched; 2=Latched; 3=Lockout Configuration\Trip logic\TRPPTRC1
TRPPTRC2 Master Trip(2) 94/86(2) CFG LD0.TRPPTRC2.Mod.Oper.ctlVal INC Enum CO 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 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 1 Trip output mode Select the operation mode for trip output 1=Non-latched; 2=Latched; 3=Lockout Configuration\Trip logic\TRPPTRC2
Global conditioning VER LD0.LEDPTRC1.NamPlt.swRev LPL VisString255 (20) DC B
TRPPTRC1 Master Trip(1) 94/86(1) VER LD0.TRPPTRC1.NamPlt.swRev LPL VisString255 (20) DC B
TRPPTRC2 Master Trip(2) 94/86(2) VER LD0.TRPPTRC2.NamPlt.swRev LPL VisString255 (20) DC B

TCSSCBR1: Trip circuit supervision

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
TCSSCBR1 TCS(1) TCM(1) INP LD0.TCSSCBR1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block input status Monitoring\I/O status\Condition monitoring\TCSSCBR1\Inputs
TCSSCBR1 TCS(1) TCM(1) OUT LD0.TCSSCBR1.CirAlm.stVal SPS BOOLEAN ST StatIed PH ALARM Alarm output Monitoring\I/O status\Condition monitoring\TCSSCBR1\Outputs
TCSSCBR1 TCS(1) TCM(1) MON LD0.TCSSCBR1.Beh.stVal INS Enum ST TCSSCBR1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
TCSSCBR1 TCS(1) TCM(1) CFG LD0.TCSSCBR1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Configuration\Condition monitoring\TCSSCBR1
TCSSCBR1 TCS(1) TCM(1) CFG LD0.TCSSCBR1.OpDlTmms.setVal ING INT32 SP 3000 Operate delay time Operate delay time 20...300000 ms Configuration\Condition monitoring\TCSSCBR1
TCSSCBR1 TCS(1) TCM(1) CFG LD0.TCSSCBR1.RsDlTmms.setVal ING INT32 SP 1000 Reset delay time Reset delay time 20...60000 ms Configuration\Condition monitoring\TCSSCBR1
TCSSCBR1 TCS(1) TCM(1) TES LD0.TCSSCBR1.TstOutCmd.Oper.ctlVal INC Enum CO 0 TCSSCBR1 Test control for outputs 0=Reset; 17=Activate ALARM; 18=Deactive ALARM Tests\Function tests\Condition monitoring
TCSSCBR1 TCS(1) TCM(1) VER LD0.TCSSCBR1.NamPlt.swRev LPL VisString255 (20) DC A

TCSSCBR2: Trip circuit supervision

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
TCSSCBR2 TCS(2) TCM(2) INP LD0.TCSSCBR2.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block input status Monitoring\I/O status\Condition monitoring\TCSSCBR2\Inputs
TCSSCBR2 TCS(2) TCM(2) OUT LD0.TCSSCBR2.CirAlm.stVal SPS BOOLEAN ST StatIed PH ALARM Alarm output Monitoring\I/O status\Condition monitoring\TCSSCBR2\Outputs
TCSSCBR2 TCS(2) TCM(2) MON LD0.TCSSCBR2.Beh.stVal INS Enum ST TCSSCBR2 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
TCSSCBR2 TCS(2) TCM(2) CFG LD0.TCSSCBR2.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Configuration\Condition monitoring\TCSSCBR2
TCSSCBR2 TCS(2) TCM(2) CFG LD0.TCSSCBR2.OpDlTmms.setVal ING INT32 SP 3000 Operate delay time Operate delay time 20...300000 ms Configuration\Condition monitoring\TCSSCBR2
TCSSCBR2 TCS(2) TCM(2) CFG LD0.TCSSCBR2.RsDlTmms.setVal ING INT32 SP 1000 Reset delay time Reset delay time 20...60000 ms Configuration\Condition monitoring\TCSSCBR2
TCSSCBR2 TCS(2) TCM(2) TES LD0.TCSSCBR2.TstOutCmd.Oper.ctlVal INC Enum CO 0 TCSSCBR2 Test control for outputs 0=Reset; 17=Activate ALARM; 18=Deactive ALARM Tests\Function tests\Condition monitoring
TCSSCBR2 TCS(2) TCM(2) VER LD0.TCSSCBR2.NamPlt.swRev LPL VisString255 (20) DC A

TPGAPC1

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 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 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 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 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 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

TPGAPC2

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 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 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 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 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 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

TPGAPC3

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 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 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 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 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 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

TPGAPC4

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 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 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 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 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 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

FLTMSTA1: Fault record

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
FLTMSTA1 INP LD0.FLTMSTA1.InOp.stVal SPS BOOLEAN ST 0
FLTMSTA1 INP LD0.FLTMSTA1.InStr.stVal SPS BOOLEAN ST 0
FLTMSTA1 CTR LD0.FLTMSTA1.RecRs.Oper.ctlVal SPC BOOLEAN CO 0 Fault records Reset fault records 0=Cancel; 1=Clear Clear\Clear
FLTMSTA1 MON LD0.FLTMSTA1.OpCnt.stVal INS INT32 ST MeasReg P Fault number Fault record number 0...999999 Monitoring\Recorded data\Fault record
FLTMSTA1 MON LD0.FLTMSTA1.OpCnt.t INS Timestamp ST MeasReg P Time and date Fault record time stamp Monitoring\Recorded data\Fault record
FLTMSTA1 MON LD0.FLTMSTA1.StrDur.mag.f MV FLOAT32 MX 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.ActSG.stVal INS INT32 ST MeasReg P Setting group Active setting group 0...6 Monitoring\Recorded data\Fault record
FLTMSTA1 MON LD0.FLTMSTA1.MxDifAClcA.mag.f MV FLOAT32 MX MeasReg P Max diff current IL1 Maximum phase A differential current 0.000...80.000 Monitoring\Recorded data\Fault record
FLTMSTA1 MON LD0.FLTMSTA1.MxDifAClcB.mag.f MV FLOAT32 MX MeasReg P Max diff current IL2 Maximum phase B differential current 0.000...80.000 Monitoring\Recorded data\Fault record
FLTMSTA1 MON LD0.FLTMSTA1.MxDifAClcC.mag.f MV FLOAT32 MX MeasReg P Max diff current IL3 Maximum phase C differential current 0.000...80.000 Monitoring\Recorded data\Fault record
FLTMSTA1 MON LD0.FLTMSTA1.MxRstAClcA.mag.f MV FLOAT32 MX MeasReg P Max bias current IL1 Maximum phase A bias current 0.000...50.000 Monitoring\Recorded data\Fault record
FLTMSTA1 MON LD0.FLTMSTA1.MxRstAClcB.mag.f MV FLOAT32 MX MeasReg P Max bias current IL2 Maximum phase B bias current 0.000...50.000 Monitoring\Recorded data\Fault record
FLTMSTA1 MON LD0.FLTMSTA1.MxRstAClcC.mag.f MV FLOAT32 MX MeasReg P Max bias current IL3 Maximum phase C bias current 0.000...50.000 Monitoring\Recorded data\Fault record
FLTMSTA1 MON LD0.FLTMSTA1.DifAmpsA.mag.f MV FLOAT32 MX MeasReg P Diff current IL1 Differential current phase A 0.000...80.000 Monitoring\Recorded data\Fault record
FLTMSTA1 MON LD0.FLTMSTA1.DifAmpsB.mag.f MV FLOAT32 MX MeasReg P Diff current IL2 Differential current phase B 0.000...80.000 Monitoring\Recorded data\Fault record
FLTMSTA1 MON LD0.FLTMSTA1.DifAmpsC.mag.f MV FLOAT32 MX MeasReg P Diff current IL3 Differential current phase C 0.000...80.000 Monitoring\Recorded data\Fault record
FLTMSTA1 MON LD0.FLTMSTA1.RstAmpsA.mag.f MV FLOAT32 MX MeasReg P Bias current IL1 Bias current phase A 0.000...50.000 Monitoring\Recorded data\Fault record
FLTMSTA1 MON LD0.FLTMSTA1.RstAmpsB.mag.f MV FLOAT32 MX MeasReg P Bias current IL2 Bias current phase B 0.000...50.000 Monitoring\Recorded data\Fault record
FLTMSTA1 MON LD0.FLTMSTA1.RstAmpsC.mag.f MV FLOAT32 MX MeasReg P Bias current IL3 Bias current phase C 0.000...50.000 Monitoring\Recorded data\Fault record
FLTMSTA1 MON LD0.FLTMSTA1.DifAmpsN.mag.f MV FLOAT32 MX MeasReg P Diff current Io Differential current residual 0.000...80.000 Monitoring\Recorded data\Fault record
FLTMSTA1 MON LD0.FLTMSTA1.RstAmpsN.mag.f MV FLOAT32 MX MeasReg P Bias current Io Bias current residual 0.000...50.000 Monitoring\Recorded data\Fault record
FLTMSTA1 MON LD0.FLTMSTA1.MaxAmpsA.mag.f MV FLOAT32 MX 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 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 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 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 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 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 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 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 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 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 MeasReg P Current Ng-Seq Negative sequence current 0.000...50.000 xIn Monitoring\Recorded data\Fault record IL1TCTR1
FLTMSTA1 MON LD0.FLTMSTA1.MaxAmpsAb.mag.f MV FLOAT32 MX MeasReg P Max current IL1B Maximum phase A current (b) 0.000...50.000 xIn Monitoring\Recorded data\Fault record IL1TCTR2
FLTMSTA1 MON LD0.FLTMSTA1.MaxAmpsBb.mag.f MV FLOAT32 MX MeasReg P Max current IL2B Maximum phase B current (b) 0.000...50.000 xIn Monitoring\Recorded data\Fault record IL1TCTR2
FLTMSTA1 MON LD0.FLTMSTA1.MaxAmpsCb.mag.f MV FLOAT32 MX MeasReg P Max current IL3B Maximum phase C current (b) 0.000...50.000 xIn Monitoring\Recorded data\Fault record IL1TCTR2
FLTMSTA1 MON LD0.FLTMSTA1.MaxAmpsNb.mag.f MV FLOAT32 MX MeasReg P Max current IoB Maximum residual current (b) 0.000...50.000 xIn Monitoring\Recorded data\Fault record RESTCTR2
FLTMSTA1 MON LD0.FLTMSTA1.AmpsAb.mag.f MV FLOAT32 MX MeasReg P Current IL1B Maximum phase A current (b) 0.000...50.000 xIn Monitoring\Recorded data\Fault record IL1TCTR2
FLTMSTA1 MON LD0.FLTMSTA1.AmpsBb.mag.f MV FLOAT32 MX MeasReg P Current IL2B Maximum phase B current (b) 0.000...50.000 xIn Monitoring\Recorded data\Fault record IL1TCTR2
FLTMSTA1 MON LD0.FLTMSTA1.AmpsCb.mag.f MV FLOAT32 MX MeasReg P Current IL3B Maximum phase C current (b) 0.000...50.000 xIn Monitoring\Recorded data\Fault record IL1TCTR2
FLTMSTA1 MON LD0.FLTMSTA1.AmpsNb.mag.f MV FLOAT32 MX MeasReg P Current IoB Residual current (b) 0.000...50.000 xIn Monitoring\Recorded data\Fault record RESTCTR2
FLTMSTA1 MON LD0.FLTMSTA1.AmpsNClcb.mag.f MV FLOAT32 MX MeasReg P Current Io-CalcB Calculated residual current (b) 0.000...50.000 xIn Monitoring\Recorded data\Fault record IL1TCTR2
FLTMSTA1 MON LD0.FLTMSTA1.AmpsPsSeqb.mag.f MV FLOAT32 MX MeasReg P Current Ps-SeqB Positive sequence current (b) 0.000...50.000 xIn Monitoring\Recorded data\Fault record IL1TCTR2
FLTMSTA1 MON LD0.FLTMSTA1.AmpsNgSeqb.mag.f MV FLOAT32 MX MeasReg P Current Ng-SeqB Negative sequence current (b) 0.000...50.000 xIn Monitoring\Recorded data\Fault record IL1TCTR2
FLTMSTA1 MON LD0.FLTMSTA1.VoltsA.mag.f MV FLOAT32 MX 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 MeasReg P Frequency Frequency 30.00...80.00 Hz Monitoring\Recorded data\Fault record
FLTMSTA1 MON LD0.FLTMSTA1.HzS.mag.f MV FLOAT32 MX MeasReg P Frequency gradient Frequency gradient -10.00...10.00 Hz/s Monitoring\Recorded data\Fault record
FLTMSTA1 MON LD0.FLTMSTA1.CondN.mag.f MV FLOAT32 MX MeasReg P Conductance Yo Conductance Yo -1000.00...1000.00 mS Monitoring\Recorded data\Fault record
FLTMSTA1 MON LD0.FLTMSTA1.SusN.mag.f MV FLOAT32 MX MeasReg P Susceptance Yo Susceptance Yo -1000.00...1000.00 mS Monitoring\Recorded data\Fault record
FLTMSTA1 CFG LD0.FLTMSTA1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Configuration\Fault record
FLTMSTA1 CFG LD0.FLTMSTA1.TrgSet.setVal ING Enum SP 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 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 D

CCRDIF1: Current circuit supervision

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 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 StatIed PH FAIL Fail output Monitoring\I/O status\Condition monitoring\CCRDIF1\Outputs
CCRDIF1 MCS 3I MCS 3I OUT LD0.CCRDIF1.Alm.stVal SPS BOOLEAN ST StatIed PH ALARM Alarm output Monitoring\I/O status\Condition monitoring\CCRDIF1\Outputs
CCRDIF1 MCS 3I MCS 3I MON LD0.CCRDIF1.Beh.stVal INS Enum ST 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 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 1 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 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 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 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

BSTGGIO1

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
BSTGGIO1 BST BST INP LD0.BSTGGIO1.Ind1.stVal SPS BOOLEAN ST 0 StatIO P SEND_SIG_1 Send signal 1 state Monitoring\I/O status\Differential prot\BSTGGIO1\Inputs
BSTGGIO1 BST BST INP LD0.BSTGGIO1.Ind2.stVal SPS BOOLEAN ST 0 StatIO P SEND_SIG_2 Send signal 2 state Monitoring\I/O status\Differential prot\BSTGGIO1\Inputs
BSTGGIO1 BST BST INP LD0.BSTGGIO1.Ind3.stVal SPS BOOLEAN ST 0 StatIO P SEND_SIG_3 Send signal 3 state Monitoring\I/O status\Differential prot\BSTGGIO1\Inputs
BSTGGIO1 BST BST INP LD0.BSTGGIO1.Ind4.stVal SPS BOOLEAN ST 0 StatIO P SEND_SIG_4 Send signal 4 state Monitoring\I/O status\Differential prot\BSTGGIO1\Inputs
BSTGGIO1 BST BST INP LD0.BSTGGIO1.Ind5.stVal SPS BOOLEAN ST 0 StatIO P SEND_SIG_5 Send signal 5 state Monitoring\I/O status\Differential prot\BSTGGIO1\Inputs
BSTGGIO1 BST BST INP LD0.BSTGGIO1.Ind6.stVal SPS BOOLEAN ST 0 StatIO P SEND_SIG_6 Send signal 6 state Monitoring\I/O status\Differential prot\BSTGGIO1\Inputs
BSTGGIO1 BST BST INP LD0.BSTGGIO1.Ind7.stVal SPS BOOLEAN ST 0 StatIO P SEND_SIG_7 Send signal 7 state Monitoring\I/O status\Differential prot\BSTGGIO1\Inputs
BSTGGIO1 BST BST INP LD0.BSTGGIO1.Ind8.stVal SPS BOOLEAN ST 0 StatIO P SEND_SIG_8 Send signal 8 state Monitoring\I/O status\Differential prot\BSTGGIO1\Inputs
BSTGGIO1 BST BST OUT LD0.BSTGGIO1.SPCSO1.stVal SPC BOOLEAN ST StatIO P RECV_SIG_1 Receive signal 1 state Monitoring\I/O status\Differential prot\BSTGGIO1\Outputs
BSTGGIO1 BST BST OUT LD0.BSTGGIO1.SPCSO2.stVal SPC BOOLEAN ST StatIO P RECV_SIG_2 Receive signal 2 state Monitoring\I/O status\Differential prot\BSTGGIO1\Outputs
BSTGGIO1 BST BST OUT LD0.BSTGGIO1.SPCSO3.stVal SPC BOOLEAN ST StatIO P RECV_SIG_3 Receive signal 3 state Monitoring\I/O status\Differential prot\BSTGGIO1\Outputs
BSTGGIO1 BST BST OUT LD0.BSTGGIO1.SPCSO4.stVal SPC BOOLEAN ST StatIO P RECV_SIG_4 Receive signal 4 state Monitoring\I/O status\Differential prot\BSTGGIO1\Outputs
BSTGGIO1 BST BST OUT LD0.BSTGGIO1.SPCSO5.stVal SPC BOOLEAN ST StatIO P RECV_SIG_5 Receive signal 5 state Monitoring\I/O status\Differential prot\BSTGGIO1\Outputs
BSTGGIO1 BST BST OUT LD0.BSTGGIO1.SPCSO6.stVal SPC BOOLEAN ST StatIO P RECV_SIG_6 Receive signal 6 state Monitoring\I/O status\Differential prot\BSTGGIO1\Outputs
BSTGGIO1 BST BST OUT LD0.BSTGGIO1.SPCSO7.stVal SPC BOOLEAN ST StatIO P RECV_SIG_7 Receive signal 7 state Monitoring\I/O status\Differential prot\BSTGGIO1\Outputs
BSTGGIO1 BST BST OUT LD0.BSTGGIO1.SPCSO8.stVal SPC BOOLEAN ST StatIO P RECV_SIG_8 Receive signal 8 state Monitoring\I/O status\Differential prot\BSTGGIO1\Outputs
BSTGGIO1 BST BST OUT LD0.BSTGGIO1.Alm1.stVal SPS BOOLEAN ST StatNrml PH SEND_SIG_A Binary signal transfer sending alarm state Monitoring\I/O status\Differential prot\BSTGGIO1\Outputs
BSTGGIO1 BST BST OUT LD0.BSTGGIO1.Alm2.stVal SPS BOOLEAN ST StatNrml PH RECV_SIG_A Binary signal transfer receive alarm state Monitoring\I/O status\Differential prot\BSTGGIO1\Outputs
BSTGGIO1 BST BST SET LD0.BSTGGIO1.AlmMod.setVal ING Enum SP 1 Alarm mode Selects the used alarm logic mode for activating SEND_SIG_A and RECV_SIG_A 1=Any of selected; 2=All of selected Settings\Settings\Differential prot\BSTGGIO1
BSTGGIO1 BST BST SET LD0.BSTGGIO1.SigMod1.setVal ING Enum SG 2 Signal 1 mode Operation mode for signal 1 1=In use; 2=In use, alarm sel.; 3=Not in use Settings\Settings\Differential prot\BSTGGIO1
BSTGGIO1 BST BST SET LD0.BSTGGIO1.SigMod2.setVal ING Enum SG 2 Signal 2 mode Operation mode for signal 2 1=In use; 2=In use, alarm sel.; 3=Not in use Settings\Settings\Differential prot\BSTGGIO1
BSTGGIO1 BST BST SET LD0.BSTGGIO1.SigMod3.setVal ING Enum SG 1 Signal 3 mode Operation mode for signal 3 1=In use; 2=In use, alarm sel.; 3=Not in use Settings\Settings\Differential prot\BSTGGIO1
BSTGGIO1 BST BST SET LD0.BSTGGIO1.SigMod4.setVal ING Enum SG 1 Signal 4 mode Operation mode for signal 4 1=In use; 2=In use, alarm sel.; 3=Not in use Settings\Settings\Differential prot\BSTGGIO1
BSTGGIO1 BST BST SET LD0.BSTGGIO1.SigMod5.setVal ING Enum SG 1 Signal 5 mode Operation mode for signal 5 1=In use; 2=In use, alarm sel.; 3=Not in use Settings\Settings\Differential prot\BSTGGIO1
BSTGGIO1 BST BST SET LD0.BSTGGIO1.SigMod6.setVal ING Enum SG 1 Signal 6 mode Operation mode for signal 6 1=In use; 2=In use, alarm sel.; 3=Not in use Settings\Settings\Differential prot\BSTGGIO1
BSTGGIO1 BST BST SET LD0.BSTGGIO1.SigMod7.setVal ING Enum SG 1 Signal 7 mode Operation mode for signal 7 1=In use; 2=In use, alarm sel.; 3=Not in use Settings\Settings\Differential prot\BSTGGIO1
BSTGGIO1 BST BST SET LD0.BSTGGIO1.SigMod8.setVal ING Enum SG 1 Signal 8 mode Operation mode for signal 8 1=In use; 2=In use, alarm sel.; 3=Not in use Settings\Settings\Differential prot\BSTGGIO1
BSTGGIO1 BST BST SET LD0.BSTGGIO1.PlsTmms1.setVal ING INT32 SG 0 Pulse time 1 Minimum pulse time for received signal 1 0...60000 ms Settings\Settings\Differential prot\BSTGGIO1
BSTGGIO1 BST BST SET LD0.BSTGGIO1.PlsTmms2.setVal ING INT32 SG 0 Pulse time 2 Minimum pulse time for received signal 2 0...60000 ms Settings\Settings\Differential prot\BSTGGIO1
BSTGGIO1 BST BST SET LD0.BSTGGIO1.PlsTmms3.setVal ING INT32 SG 0 Pulse time 3 Minimum pulse time for received signal 3 0...60000 ms Settings\Settings\Differential prot\BSTGGIO1
BSTGGIO1 BST BST SET LD0.BSTGGIO1.PlsTmms4.setVal ING INT32 SG 0 Pulse time 4 Minimum pulse time for received signal 4 0...60000 ms Settings\Settings\Differential prot\BSTGGIO1
BSTGGIO1 BST BST SET LD0.BSTGGIO1.PlsTmms5.setVal ING INT32 SG 0 Pulse time 5 Minimum pulse time for received signal 6 0...60000 ms Settings\Settings\Differential prot\BSTGGIO1
BSTGGIO1 BST BST SET LD0.BSTGGIO1.PlsTmms6.setVal ING INT32 SG 0 Pulse time 6 Minimum pulse time for received signal 6 0...60000 ms Settings\Settings\Differential prot\BSTGGIO1
BSTGGIO1 BST BST SET LD0.BSTGGIO1.PlsTmms7.setVal ING INT32 SG 0 Pulse time 7 Minimum pulse time for received signal 7 0...60000 ms Settings\Settings\Differential prot\BSTGGIO1
BSTGGIO1 BST BST SET LD0.BSTGGIO1.PlsTmms8.setVal ING INT32 SG 0 Pulse time 8 Minimum pulse time for received signal 8 0...60000 ms Settings\Settings\Differential prot\BSTGGIO1
BSTGGIO1 BST BST VER LD0.BSTGGIO1.NamPlt.swRev LPL VisString255 (20) DC A

LNPLDF1: Line differential protection with stabilized and inst. stages

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
LNPLDF1 3dI>L 87L INP LD0.LNPDIF1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Signal for blocking the function Monitoring\I/O status\Differential prot\LNPLDF1\Inputs
LNPLDF1 3dI>L 87L INP LD0.LNPDIF1.InBlkLo.stVal SPS BOOLEAN ST 0 BLOCK_LS Signal for blocking the stab. stage Monitoring\I/O status\Differential prot\LNPLDF1\Inputs
LNPLDF1 3dI>L 87L INP LD0.LNPDIF1.InEnaMulHi.stVal SPS BOOLEAN ST 0 ENA_MULT_HS Enables the high stage multiplier Monitoring\I/O status\Differential prot\LNPLDF1\Inputs
LNPLDF1 3dI>L 87L OUT LD0.LNPDIF1.Str.general ACD BOOLEAN ST StatNrml PH START Start, local or remote Monitoring\I/O status\Differential prot\LNPLDF1\Outputs
LNPLDF1 3dI>L 87L OUT LD0.LNPDIF1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate, local or remote, stabilized or instantaneous stage Monitoring\I/O status\Differential prot\LNPLDF1\Outputs
LNPLDF1 3dI>L 87L OUT LD0.LNPDIF1.StrLoc.general ACD BOOLEAN ST STR_LS_LOC Start stabilized stage local Monitoring\I/O status\Differential prot\LNPLDF1\Outputs
LNPLDF1 3dI>L 87L OUT LD0.LNPDIF1.StrRem.general ACD BOOLEAN ST STR_LS_REM Start stabilized stage remote Monitoring\I/O status\Differential prot\LNPLDF1\Outputs
LNPLDF1 3dI>L 87L OUT LD0.LNPDIF1.OpLoSetLoc.general ACT BOOLEAN ST OPR_LS_LOC Operate stabilized stage local Monitoring\I/O status\Differential prot\LNPLDF1\Outputs
LNPLDF1 3dI>L 87L OUT LD0.LNPDIF1.OpLoSetRem.general ACT BOOLEAN ST OPR_LS_REM Operate stabilized stage remote Monitoring\I/O status\Differential prot\LNPLDF1\Outputs
LNPLDF1 3dI>L 87L OUT LD0.LNPDIF1.OpHiSetLoc.general ACT BOOLEAN ST OPR_HS_LOC Operate instantaneous stage local Monitoring\I/O status\Differential prot\LNPLDF1\Outputs
LNPLDF1 3dI>L 87L OUT LD0.LNPDIF1.OpHiSetRem.general ACT BOOLEAN ST OPR_HS_REM Operate instantaneous stage remote Monitoring\I/O status\Differential prot\LNPLDF1\Outputs
LNPLDF1 3dI>L 87L OUT LD0.LNPDIF1.Rst2HRem.general ACT BOOLEAN ST RSTD2H_REM Restraint due 2nd harmonics detected remote Monitoring\I/O status\Differential prot\LNPLDF1\Outputs
LNPLDF1 3dI>L 87L OUT LD0.LNPDIF1.Rst2HLoc.general ACT BOOLEAN ST RSTD2H_LOC Restraint due 2nd harmonics detected local Monitoring\I/O status\Differential prot\LNPLDF1\Outputs
LNPLDF1 3dI>L 87L OUT LD0.LNPDIF1.PrtAct.stVal SPS BOOLEAN ST PROT_ACTIVE Status of the protection, true when function is operative Monitoring\I/O status\Differential prot\LNPLDF1\Outputs
LNPLDF1 3dI>L 87L MON LD0.LNPDIF1.Beh.stVal INS Enum ST LNPLDF1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
LNPLDF1 3dI>L 87L MON LD0.LNPDIF1.DifAClc.phsA.cVal.mag.f WYE FLOAT32 MX IL1-diff-A Measured differential current amplitude phase IL1 0.00...80.00 xIn Measurements\LNPLDF1
LNPLDF1 3dI>L 87L MON LD0.LNPDIF1.DifAClc.phsB.cVal.mag.f WYE FLOAT32 MX IL2-diff-A Measured differential current amplitude phase IL2 0.00...80.00 xIn Measurements\LNPLDF1
LNPLDF1 3dI>L 87L MON LD0.LNPDIF1.DifAClc.phsC.cVal.mag.f WYE FLOAT32 MX IL3-diff-A Measured differential current amplitude phase IL3 0.00...80.00 xIn Measurements\LNPLDF1
LNPLDF1 3dI>L 87L MON LD0.LNPDIF1.RstA.phsA.cVal.mag.f WYE FLOAT32 MX IL1-bias-A Measured bias current amplitude phase IL1 0.00...80.00 xIn Measurements\LNPLDF1
LNPLDF1 3dI>L 87L MON LD0.LNPDIF1.RstA.phsB.cVal.mag.f WYE FLOAT32 MX IL2-bias-A Measured bias current amplitude phase IL2 0.00...80.00 xIn Measurements\LNPLDF1
LNPLDF1 3dI>L 87L MON LD0.LNPDIF1.RstA.phsC.cVal.mag.f WYE FLOAT32 MX IL3-bias-A Measured bias current amplitude phase IL3 0.00...80.00 xIn Measurements\LNPLDF1
LNPLDF1 3dI>L 87L MON LD0.LNPDIF1.AngLocRemA.mag.f MV FLOAT32 MX I_ANGL_DIFF_A Current phase angle differential between local and remote, phase A -180.00...180.00 deg Monitoring\I/O status\Differential prot\LNPLDF1\Monitored data
LNPLDF1 3dI>L 87L MON LD0.LNPDIF1.AngLocRemB.mag.f MV FLOAT32 MX I_ANGL_DIFF_B Current phase angle differential between local and remote, phase B -180.00...180.00 deg Monitoring\I/O status\Differential prot\LNPLDF1\Monitored data
LNPLDF1 3dI>L 87L MON LD0.LNPDIF1.AngLocRemC.mag.f MV FLOAT32 MX I_ANGL_DIFF_C Current phase angle differential between local and remote, phase C -180.00...180.00 deg Monitoring\I/O status\Differential prot\LNPLDF1\Monitored data
LNPLDF1 3dI>L 87L MON LD0.LNPDIF1.StrDur.mag.f MV FLOAT32 MX START_DUR Ratio of start time / operate time 0.00...100.00 % Monitoring\I/O status\Differential prot\LNPLDF1\Monitored data
LNPLDF1 3dI>L 87L MON LD0.LNMDIF1.OpARem.phsA.cVal.mag.f WYE FLOAT32 MX I_INST_REM_A Remote phase A Amplitude after correction 0.00...40.00 xIn Monitoring\I/O status\Differential prot\LNPLDF1\Measured values
LNPLDF1 3dI>L 87L MON LD0.LNMDIF1.OpARem.phsB.cVal.mag.f WYE FLOAT32 MX I_INST_REM_B Remote phase B Amplitude after correction 0.00...40.00 xIn Monitoring\I/O status\Differential prot\LNPLDF1\Measured values
LNPLDF1 3dI>L 87L MON LD0.LNMDIF1.OpARem.phsC.cVal.mag.f WYE FLOAT32 MX I_INST_REM_C Remote phase C Amplitude after correction 0.00...40.00 xIn Monitoring\I/O status\Differential prot\LNPLDF1\Measured values
LNPLDF1 3dI>L 87L MON LD0.LNMDIF1.OpALoc.phsA.cVal.mag.f WYE FLOAT32 MX I_INST_LOC_A Local phase A Amplitude 0.00...40.00 xIn Monitoring\I/O status\Differential prot\LNPLDF1\Measured values
LNPLDF1 3dI>L 87L MON LD0.LNMDIF1.OpALoc.phsB.cVal.mag.f WYE FLOAT32 MX I_INST_LOC_B Local phase B Amplitude 0.00...40.00 xIn Monitoring\I/O status\Differential prot\LNPLDF1\Measured values
LNPLDF1 3dI>L 87L MON LD0.LNMDIF1.OpALoc.phsC.cVal.mag.f WYE FLOAT32 MX I_INST_LOC_C Local phase C Amplitude 0.00...40.00 xIn Monitoring\I/O status\Differential prot\LNPLDF1\Measured values
LNPLDF1 3dI>L 87L SET LD0.LNPDIF1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation mode of the function 1=on; 4=test/blocked; 5=off Settings\Settings\Differential prot\LNPLDF1
LNPLDF1 3dI>L 87L SET LD0.LNPDIF1.LoSet.setVal ING INT32 SG 10 Low operate value Basic setting for the stabilized stage start 10...200 %In Settings\Settings\Differential prot\LNPLDF1
LNPLDF1 3dI>L 87L SET LD0.LNPDIF1.HiSet.setVal ING INT32 SG 2000 High operate value Instantaneous stage operate value 200...4000 %In Settings\Settings\Differential prot\LNPLDF1
LNPLDF1 3dI>L 87L SET LD0.LNPDIF1.MinOpTmms.setVal ING INT32 SP 45 Minimum operate time Minimum operate time for stabilized stage IDMT curves 45...60000 ms Settings\Settings\Differential prot\LNPLDF1
LNPLDF1 3dI>L 87L SET LD0.LNPDIF1.RstMod.setVal ING Enum SP 1 Restraint mode Selects what restraint modes are in use 1=None; 2=Harmonic2 Settings\Settings\Differential prot\LNPLDF1
LNPLDF1 3dI>L 87L SET LD0.LNPDIF1.RsDlTmms.setVal ING INT32 SP 0 Reset delay time Reset delay time for stabilized stage 0...60000 ms Settings\Settings\Differential prot\LNPLDF1
LNPLDF1 3dI>L 87L SET LD0.LNPDIF1.TmACrv.setCharact CURVE Enum SG 15 Operating curve type Selection of time delay curve for stabilized stage 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 Settings\Settings\Differential prot\LNPLDF1
LNPLDF1 3dI>L 87L SET LD0.LNPDIF1.OpDlTmms.setVal ING INT32 SG 45 Operate delay time Operate delay time for stabilized stage 45...200000 ms Settings\Settings\Differential prot\LNPLDF1
LNPLDF1 3dI>L 87L SET LD0.LNPDIF1.EndScn1.setMag.f ASG FLOAT32 SG 100 End section 1 Turn-point between the first and the second line of the operating characteristics 0...200 %In Settings\Settings\Differential prot\LNPLDF1
LNPLDF1 3dI>L 87L SET LD0.LNPDIF1.SpeScn2.setMag.f ASG FLOAT32 SG 50 Slope section 2 Slope of the second line of the operating characteristics 10...50 % Settings\Settings\Differential prot\LNPLDF1
LNPLDF1 3dI>L 87L SET LD0.LNPDIF1.EndScn2.setMag.f ASG FLOAT32 SG 500 End section 2 Turn-point between the second and the third line of the operating characteristics 200...2000 %In Settings\Settings\Differential prot\LNPLDF1
LNPLDF1 3dI>L 87L SET LD0.LNPDIF1.SpeScn3.setMag.f ASG FLOAT32 SG 150 Slope section 3 Slope of the third line of the operating characteristics 100...200 % Settings\Settings\Differential prot\LNPLDF1
LNPLDF1 3dI>L 87L SET LD0.LNPDIF1.TmMult.setMag.f ASG FLOAT32 SG 1.00 Time multiplier Time multiplier in IDMT curves 0.05...15.00 Settings\Settings\Differential prot\LNPLDF1
LNPLDF1 3dI>L 87L SET LD0.LNPDIF1.HiSetMul.setMag.f ASG FLOAT32 SG 1.0 High Op value Mult Multiplier for scaling the high stage operate value 0.5...1.0 Settings\Settings\Differential prot\LNPLDF1
LNPLDF1 3dI>L 87L SET LD0.LNPHAR1.PhStr.setMag.f ASG FLOAT32 SG 20 Start value 2.H The ratio of the 2. harmonic component to fundamental component required for blocking 10...50 % Settings\Settings\Differential prot\LNPLDF1
LNPLDF1 3dI>L 87L SET LD0.LNMDIF1.CTRatCor.setMag.f ASG FLOAT32 SP 1.000 CT ratio correction Remote phase current transformer ratio correction 0.200...5.000 Settings\Settings\Differential prot\LNPLDF1
LNPLDF1 3dI>L 87L SET LD0.LNMDIF1.CTConnTyp.setVal ING Enum SP 1 CT connection type CT connection type. Determined by the directions of the connected current transformers. 1=Type 1; 2=Type 2 Settings\Settings\Differential prot\LNPLDF1
LNPLDF1 3dI>L 87L TES LD0.LNPDIF1.TstOutCmd.Oper.ctlVal INC Enum CO 0 LNPLDF1 Test control for outputs 0=Reset; 1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE; 95=Activate STR_LS_LOC; 96=Deactive STR_LS_LOC; 97=Activate STR_LS_REM; 98=Deactive STR_LS_REM; 99=Activate OPR_LS_LOC; 100=Deactive OPR_LS_LOC; 101=Activate OPR_LS_REM; 102=Deactive OPR_LS_REM; 103=Activate OPR_HS_LOC; 104=Deactive OPR_HS_LOC; 105=Activate OPR_HS_REM; 106=Deactive OPR_HS_REM; 107=Activate RSTD2H_LOC; 108=Deactive RSTD2H_LOC; 109=Activate RSTD2H_REM; 110=Deactive RSTD2H_REM; 111=Activate PROT_ACTIVE; 112=Deactive PROT_ACTIVE Tests\Function tests\Differential prot
LNPLDF1 3dI>L 87L VER LD0.LNPDIF1.NamPlt.swRev LPL VisString255 (20) DC A
LNPLDF1 3dI>L 87L VER LD0.LNPHAR1.NamPlt.swRev LPL VisString255 (20) DC A
LNPLDF1 3dI>L 87L VER LD0.LNMDIF1.NamPlt.swRev LPL VisString255 (20) DC A

PCSRTPC1

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
PCSRTPC1 PCS PCS OUT LD0.PCSRTPC1.HealthWrn.stVal SPS BOOLEAN ST WARNING Protection communication warning Monitoring\I/O status\Condition monitoring\PCSRTPC1\Outputs
PCSRTPC1 PCS PCS OUT LD0.PCSRTPC1.HealthOk.stVal SPS BOOLEAN ST OK Protection communication ok Monitoring\I/O status\Condition monitoring\PCSRTPC1\Outputs
PCSRTPC1 PCS PCS OUT LD0.PCSRTPC1.HealthAlm.stVal SPS BOOLEAN ST StatUrg PH ALARM Protection communication alarm Monitoring\I/O status\Condition monitoring\PCSRTPC1\Outputs
PCSRTPC1 PCS PCS OUT LD0.PCSRTPC1.Comm.stVal SPS BOOLEAN ST COMM Communication detected, active when data is received Monitoring\I/O status\Condition monitoring\PCSRTPC1\Outputs
PCSRTPC1 PCS PCS MON LD0.PCSRTPC1.EEHealth.stVal INS Enum ST HEALTH Communication link health 1=Ok; 2=Warning; 3=Alarm; -2=Waiting Monitoring\I/O status\Condition monitoring\PCSRTPC1\Monitored data
PCSRTPC1 PCS PCS MON LD0.PCSRTPC1.SmplLty.mag.f MV FLOAT32 MX SMPL_LATENCY Measured sample latency 0.000...99.999 ms Monitoring\I/O status\Condition monitoring\PCSRTPC1\Monitored data
PCSRTPC1 PCS PCS MON LD0.PCSRTPC1.AlmCntRs.stVal INC INT32 ST ALARM_CNT Number of alarms detected 0...99999 Monitoring\I/O status\Condition monitoring\PCSRTPC1\Monitored data
PCSRTPC1 PCS PCS MON LD0.PCSRTPC1.AlmCntRs.t INC Timestamp ST T_ALARM_CNT Time when alarm count was last changed Monitoring\I/O status\Condition monitoring\PCSRTPC1\Monitored data
PCSRTPC1 PCS PCS MON LD0.PCSRTPC1.WrnCntRs.stVal INC INT32 ST WARN_CNT Number of warnings detected 0...99999 Monitoring\I/O status\Condition monitoring\PCSRTPC1\Monitored data
PCSRTPC1 PCS PCS MON LD0.PCSRTPC1.WrnCntRs.t INC Timestamp ST T_WARN_CNT Time when warning count was last changed Monitoring\I/O status\Condition monitoring\PCSRTPC1\Monitored data
PCSRTPC1 PCS PCS MON LD0.PCSRTPC1.PropDl.mag.f MV FLOAT32 MX PROPAGTN_DLY Measured propagation delay 0.000...99.999 ms Monitoring\I/O status\Condition monitoring\PCSRTPC1\Monitored data
PCSRTPC1 PCS PCS MON LD0.PCSRTPC1.RndTrDl.mag.f MV FLOAT32 MX RND_TRIP_DLY Measured round trip delay 0.000...99.999 ms Monitoring\I/O status\Condition monitoring\PCSRTPC1\Monitored data
PCSRTPC1 PCS PCS CFG LD0.PCSRTPC1.RsDlTmms.setVal ING INT32 SP 1000 Reset delay time Reset delay time from alarm and warning into ok state 100...300000 ms Configuration\Condition monitoring\PCSRTPC1
PCSRTPC1 PCS PCS CFG LD0.PCSRTPC1.AlmCntRs.Oper.ctlVal INC INT32 CO 0 Alarm count Set new alarm count value 0...99999 Configuration\Condition monitoring\PCSRTPC1
PCSRTPC1 PCS PCS CFG LD0.PCSRTPC1.WrnCntRs.Oper.ctlVal INC INT32 CO 0 Warning count Set new warning count value 0...99999 Configuration\Condition monitoring\PCSRTPC1
PCSRTPC1 PCS PCS TES LD0.PCSRTPC1.RxErrGen.Oper.ctlVal INC INT32 CO 0 Packet loss Test packet loss by missing number of packets 0...10000 Tests\Function tests\Differential prot
PCSRTPC1 PCS PCS VER LD0.PCSRTPC1.NamPlt.swRev LPL VisString255 (20) DC A

X000 (COM)

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) MON LD0.XGGIO90.ChrsRcv1.stVal INS INT32 ST Characters received Characters received -1...2147483646 Monitoring\Communication\COM1
X000 (COM) MON LD0.XGGIO90.LnkFrOk1.stVal INS INT32 ST Frames received Number of successfully received frames -1...2147483646 Monitoring\Communication\COM1
X000 (COM) MON LD0.XGGIO90.LnkFrErr1.stVal INS INT32 ST Frames discarded Number of discarded frames -1...2147483646 Monitoring\Communication\COM1
X000 (COM) MON LD0.XGGIO90.LnkFrTrm1.stVal INS INT32 ST Frames trasmitted Number of transmitted frames -1...2147483646 Monitoring\Communication\COM1
X000 (COM) MON LD0.XGGIO90.CDLost1.stVal INS INT32 ST CD lost CD lost -1...2147483646 Monitoring\Communication\COM1
X000 (COM) MON LD0.XGGIO90.Collision1.stVal INS INT32 ST Collision Collision -1...2147483646 Monitoring\Communication\COM1
X000 (COM) MON LD0.XGGIO90.CTSTmOut1.stVal INS INT32 ST CTS Timeout CTS Timeout -1...2147483646 Monitoring\Communication\COM1
X000 (COM) MON LD0.XGGIO90.TxTmOut1.stVal INS INT32 ST Transmission timeout Transmission timeout -1...2147483646 Monitoring\Communication\COM1
X000 (COM) MON LD0.XGGIO90.ParErr1.stVal INS INT32 ST Parity errors Number of parity errors -1...2147483646 Monitoring\Communication\COM1
X000 (COM) MON LD0.XGGIO90.OvrErr1.stVal INS INT32 ST Overrun errors Number of overrun errors -1...2147483646 Monitoring\Communication\COM1
X000 (COM) MON LD0.XGGIO90.FrmErr1.stVal INS INT32 ST Framing errors Number of framing errors -1...2147483646 Monitoring\Communication\COM1
X000 (COM) MON LD0.XGGIO90.Status1.Oper.ctlVal SPC BOOLEAN CO 0 Link status Link status Monitoring\Communication\COM1
X000 (COM) MON LD0.XGGIO90.ChrsRcv2.stVal INS INT32 ST Characters received Characters received -1...2147483646 Monitoring\Communication\COM2
X000 (COM) MON LD0.XGGIO90.LnkFrOk2.stVal INS INT32 ST Frames received Number of successfully received frames -1...2147483646 Monitoring\Communication\COM2
X000 (COM) MON LD0.XGGIO90.LnkFrErr2.stVal INS INT32 ST Frames discarded Number of discarded frames -1...2147483646 Monitoring\Communication\COM2
X000 (COM) MON LD0.XGGIO90.LnkFrTrm2.stVal INS INT32 ST Frames trasmitted Number of transmitted frames -1...2147483646 Monitoring\Communication\COM2
X000 (COM) MON LD0.XGGIO90.CDLost2.stVal INS INT32 ST CD lost CD lost -1...2147483646 Monitoring\Communication\COM2
X000 (COM) MON LD0.XGGIO90.Collision2.stVal INS INT32 ST Collision Collision -1...2147483646 Monitoring\Communication\COM2
X000 (COM) MON LD0.XGGIO90.CTSTmOut2.stVal INS INT32 ST CTS Timeout CTS Timeout -1...2147483646 Monitoring\Communication\COM2
X000 (COM) MON LD0.XGGIO90.TxTmOut2.stVal INS INT32 ST Transmission timeout Transmission timeout -1...2147483646 Monitoring\Communication\COM2
X000 (COM) MON LD0.XGGIO90.ParErr2.stVal INS INT32 ST Parity errors Number of parity errors -1...2147483646 Monitoring\Communication\COM2
X000 (COM) MON LD0.XGGIO90.OvrErr2.stVal INS INT32 ST Overrun errors Number of overrun errors -1...2147483646 Monitoring\Communication\COM2
X000 (COM) MON LD0.XGGIO90.FrmErr2.stVal INS INT32 ST Framing errors Number of framing errors -1...2147483646 Monitoring\Communication\COM2
X000 (COM) MON LD0.XGGIO90.Status2.Oper.ctlVal SPC BOOLEAN CO 0 Link status Link status Monitoring\Communication\COM2
X000 (COM) CFG LD0.XGGIO90.FibMod1.setVal ING Enum SP 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 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 0 CTS delay CTS delay for COM1 0...60000 Configuration\Communication\COM1
X000 (COM) CFG LD0.XGGIO90.RtsDlTmms1.setVal ING INT32 SP 0 RTS delay RTS delay for COM1 0...60000 Configuration\Communication\COM1
X000 (COM) CFG LD0.XGGIO90.SerBaud1.setVal ING Enum SP 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 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 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 0 CTS delay CTS delay for COM2 0...60000 Configuration\Communication\COM2
X000 (COM) CFG LD0.XGGIO90.RtsDlTmms2.setVal ING INT32 SP 0 RTS delay RTS delay for COM2 0...60000 Configuration\Communication\COM2
X000 (COM) CFG LD0.XGGIO90.SerBaud2.setVal ING Enum SP 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 0 HW revision Card HW revision Information\HW modules\X000 (COM)
X000 (COM) INF LD0.XGGIO90.EEName.swRev DPL VisString255 (20) DC - SW version Card SW version Information\HW modules\X000 (COM)
X000 (COM) INF LD0.XGGIO90.EEName.serNum DPL VisString255 (20) DC 0 Serial number Card serial number Information\HW modules\X000 (COM)
X000 (COM) INF LD0.XGGIO90.EEName.eArtNum DPL VisString255 (20) EX 0 Article number Card article number Information\HW modules\X000 (COM)
X000 (COM) INF LD0.XGGIO90.EEName.eManDate DPL VisString255 (20) EX 0 Manufacturing date Card manufacturing date Information\HW modules\X000 (COM)
X000 (COM) INF LD0.XGGIO90.EEName.eTestDate DPL VisString255 (20) EX 0 Test date Card test date Information\HW modules\X000 (COM)
X000 (COM) VER LD0.XGGIO90.EEName.swRev DPL VisString255 (20) DC - SW version Card SW version Information\HW modules\X000 (COM)
X000 (COM) VER LD0.XGGIO90.NamPlt.swRev LPL VisString255 (20) DC C

PHHPTOC1: Three phase non-directional OC, high stage

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 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 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 StatNrml PH START Start Monitoring\I/O status\Current protection\PHHPTOC1\Outputs
PHHPTOC1 3I>>(1) 51P-2(1) OUT LD0.PHHPTOC1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\PHHPTOC1\Outputs
PHHPTOC1 3I>>(1) 51P-2(1) MON LD0.PHHPTOC1.Beh.stVal INS Enum ST 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 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 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 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 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 0.10 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 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 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 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\PHHPTOC1
PHHPTOC1 3I>>(1) 51P-2(1) SET LD0.PHHPTOC1.TmACrv.setParA CURVE FLOAT32 SP 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 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 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 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 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 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 40 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 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 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 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 C

PHHPTOC2: Three phase non-directional OC, high stage

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 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 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 StatNrml PH START Start Monitoring\I/O status\Current protection\PHHPTOC2\Outputs
PHHPTOC2 3I>>(2) 51P-2(2) OUT LD0.PHHPTOC2.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\PHHPTOC2\Outputs
PHHPTOC2 3I>>(2) 51P-2(2) MON LD0.PHHPTOC2.Beh.stVal INS Enum ST 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 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 1 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 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 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 0.10 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 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 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 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\PHHPTOC2
PHHPTOC2 3I>>(2) 51P-2(2) SET LD0.PHHPTOC2.TmACrv.setParA CURVE FLOAT32 SP 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 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 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 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 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 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 40 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 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 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 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 C

PHLPTOC1: Three phase non-directional OC, low stage

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 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 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 StatNrml PH START Start Monitoring\I/O status\Current protection\PHLPTOC1\Outputs
PHLPTOC1 3I>(1) 51P-1(1) OUT LD0.PHLPTOC1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\PHLPTOC1\Outputs
PHLPTOC1 3I>(1) 51P-1(1) MON LD0.PHLPTOC1.Beh.stVal INS Enum ST 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 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 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 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 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 0.05 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 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 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 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\PHLPTOC1
PHLPTOC1 3I>(1) 51P-1(1) SET LD0.PHLPTOC1.TmACrv.setParA CURVE FLOAT32 SP 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 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 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 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 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 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 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 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 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 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 B

PHIPTOC2: Three phase non-directional OC, inst. stage

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
PHIPTOC2 3I>>>(2) 50P/51P(2) INP LD0.PHIPTOC2.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Current protection\PHIPTOC2\Inputs
PHIPTOC2 3I>>>(2) 50P/51P(2) INP LD0.PHIPTOC2.InEnaMult.stVal SPS BOOLEAN ST 0 ENA_MULT Enable signal for current multiplier Monitoring\I/O status\Current protection\PHIPTOC2\Inputs
PHIPTOC2 3I>>>(2) 50P/51P(2) OUT LD0.PHIPTOC2.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Current protection\PHIPTOC2\Outputs
PHIPTOC2 3I>>>(2) 50P/51P(2) OUT LD0.PHIPTOC2.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\PHIPTOC2\Outputs
PHIPTOC2 3I>>>(2) 50P/51P(2) MON LD0.PHIPTOC2.Beh.stVal INS Enum ST PHIPTOC2 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
PHIPTOC2 3I>>>(2) 50P/51P(2) MON LD0.PHIPTOC2.StrDur.mag.f MV FLOAT32 MX START_DUR Ratio of start time / operate time 0.00...100.00 % Monitoring\I/O status\Current protection\PHIPTOC2\Monitored data
PHIPTOC2 3I>>>(2) 50P/51P(2) SET LD0.PHIPTOC2.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Current protection\PHIPTOC2
PHIPTOC2 3I>>>(2) 50P/51P(2) SET LD0.PHIPTOC2.NumPh.setVal ING Enum SP 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\PHIPTOC2
PHIPTOC2 3I>>>(2) 50P/51P(2) SET LD0.PHIPTOC2.StrValMult.setMag.f ASG FLOAT32 SG 1.0 Start value Mult Multiplier for scaling the start value 0.8...10.0 Settings\Settings\Current protection\PHIPTOC2
PHIPTOC2 3I>>>(2) 50P/51P(2) SET LD0.PHIPTOC2.StrVal.setMag.f ASG FLOAT32 SG 1.00 Start value Start value 1.00...40.00 xIn Settings\Settings\Current protection\PHIPTOC2 IL1TCTR1
PHIPTOC2 3I>>>(2) 50P/51P(2) SET LD0.PHIPTOC2.OpDlTmms.setVal ING INT32 SG 20 Operate delay time Operate delay time 20...200000 ms Settings\Settings\Current protection\PHIPTOC2
PHIPTOC2 3I>>>(2) 50P/51P(2) SET LD0.PHIPTOC2.RsDlTmms.setVal ING INT32 SP 20 Reset delay time Reset delay time 0...60000 ms Settings\Settings\Current protection\PHIPTOC2
PHIPTOC2 3I>>>(2) 50P/51P(2) TES LD0.PHIPTOC2.TstOutCmd.Oper.ctlVal INC Enum CO 0 PHIPTOC2 Test control for outputs 0=Reset; 1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE Tests\Function tests\Current protection
PHIPTOC2 3I>>>(2) 50P/51P(2) VER LD0.PHIPTOC2.NamPlt.swRev LPL VisString255 (20) DC C

PHLPTOC2: Three phase non-directional OC, low stage

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
PHLPTOC2 3I>(2) 51P-1(2) INP LD0.PHLPTOC2.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Current protection\PHLPTOC2\Inputs
PHLPTOC2 3I>(2) 51P-1(2) INP LD0.PHLPTOC2.InEnaMult.stVal SPS BOOLEAN ST 0 ENA_MULT Enable signal for current multiplier Monitoring\I/O status\Current protection\PHLPTOC2\Inputs
PHLPTOC2 3I>(2) 51P-1(2) OUT LD0.PHLPTOC2.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Current protection\PHLPTOC2\Outputs
PHLPTOC2 3I>(2) 51P-1(2) OUT LD0.PHLPTOC2.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\PHLPTOC2\Outputs
PHLPTOC2 3I>(2) 51P-1(2) MON LD0.PHLPTOC2.Beh.stVal INS Enum ST PHLPTOC2 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
PHLPTOC2 3I>(2) 51P-1(2) MON LD0.PHLPTOC2.StrDur.mag.f MV FLOAT32 MX START_DUR Ratio of start time / operate time 0.00...100.00 % Monitoring\I/O status\Current protection\PHLPTOC2\Monitored data
PHLPTOC2 3I>(2) 51P-1(2) SET LD0.PHLPTOC2.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Current protection\PHLPTOC2
PHLPTOC2 3I>(2) 51P-1(2) SET LD0.PHLPTOC2.NumPh.setVal ING Enum SP 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\PHLPTOC2
PHLPTOC2 3I>(2) 51P-1(2) SET LD0.PHLPTOC2.StrValMult.setMag.f ASG FLOAT32 SG 1.0 Start value Mult Multiplier for scaling the start value 0.8...10.0 Settings\Settings\Current protection\PHLPTOC2
PHLPTOC2 3I>(2) 51P-1(2) SET LD0.PHLPTOC2.StrVal.setMag.f ASG FLOAT32 SG 0.05 Start value Start value 0.05...5.00 xIn Settings\Settings\Current protection\PHLPTOC2 IL1TCTR1
PHLPTOC2 3I>(2) 51P-1(2) SET LD0.PHLPTOC2.TmMult.setMag.f ASG FLOAT32 SG 1.0 Time multiplier Time multiplier in IEC/ANSI IDMT curves 0.05...15.0 Settings\Settings\Current protection\PHLPTOC2
PHLPTOC2 3I>(2) 51P-1(2) SET LD0.PHLPTOC2.TypRsCrv.setVal ING Enum SG 1 Type of reset curve Selection of reset curve type 1=Immediate; 2=Def time reset; 3=Inverse reset Settings\Settings\Current protection\PHLPTOC2
PHLPTOC2 3I>(2) 51P-1(2) SET LD0.PHLPTOC2.TmACrv.setCharact CURVE Enum SG 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\PHLPTOC2
PHLPTOC2 3I>(2) 51P-1(2) SET LD0.PHLPTOC2.TmACrv.setParA CURVE FLOAT32 SP 28.2000 Curve parameter A Parameter A for customer programmable curve 0.0086...120.0000 Settings\Settings\Current protection\PHLPTOC2
PHLPTOC2 3I>(2) 51P-1(2) SET LD0.PHLPTOC2.TmACrv.setParB CURVE FLOAT32 SP 0.1217 Curve parameter B Parameter B for customer programmable curve 0.0000...0.7120 Settings\Settings\Current protection\PHLPTOC2
PHLPTOC2 3I>(2) 51P-1(2) SET LD0.PHLPTOC2.TmACrv.setParC CURVE FLOAT32 SP 2.00 Curve parameter C Parameter C for customer programmable curve 0.02...2.00 Settings\Settings\Current protection\PHLPTOC2
PHLPTOC2 3I>(2) 51P-1(2) SET LD0.PHLPTOC2.TmACrv.setParD CURVE FLOAT32 SP 29.10 Curve parameter D Parameter D for customer programmable curve 0.46...30.00 Settings\Settings\Current protection\PHLPTOC2
PHLPTOC2 3I>(2) 51P-1(2) SET LD0.PHLPTOC2.TmACrv.setParE CURVE FLOAT32 SP 1.0 Curve parameter E Parameter E for customer programmable curve 0.0...1.0 Settings\Settings\Current protection\PHLPTOC2
PHLPTOC2 3I>(2) 51P-1(2) SET LD0.PHLPTOC2.MinOpTmms.setVal ING INT32 SP 20 Minimum operate time Minimum operate time for IDMT curves 20...60000 ms Settings\Settings\Current protection\PHLPTOC2
PHLPTOC2 3I>(2) 51P-1(2) SET LD0.PHLPTOC2.OpDlTmms.setVal ING INT32 SG 40 Operate delay time Operate delay time 40...200000 ms Settings\Settings\Current protection\PHLPTOC2
PHLPTOC2 3I>(2) 51P-1(2) SET LD0.PHLPTOC2.RsDlTmms.setVal ING INT32 SP 20 Reset delay time Reset delay time 0...60000 ms Settings\Settings\Current protection\PHLPTOC2
PHLPTOC2 3I>(2) 51P-1(2) SET LD0.PHLPTOC2.AMeasMod.setVal ING Enum SP 2 Measurement mode Selects used measurement mode 1=RMS; 2=DFT; 3=Peak-to-Peak Settings\Settings\Current protection\PHLPTOC2
PHLPTOC2 3I>(2) 51P-1(2) TES LD0.PHLPTOC2.TstOutCmd.Oper.ctlVal INC Enum CO 0 PHLPTOC2 Test control for outputs 0=Reset; 1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE Tests\Function tests\Current protection
PHLPTOC2 3I>(2) 51P-1(2) VER LD0.PHLPTOC2.NamPlt.swRev LPL VisString255 (20) DC B

SSCBR1: Circuit breaker condition monitoring

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 CBCM INP LD0.SSCBR1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block input status Monitoring\I/O status\Condition monitoring\SSCBR1\Inputs
SSCBR1 CBCM CBCM INP LD0.SSCBR1.InSprChStr.stVal SPS BOOLEAN ST 0 SPR_CHR_ST CB spring charging started input Monitoring\I/O status\Condition monitoring\SSCBR1\Inputs
SSCBR1 CBCM CBCM INP LD0.SSCBR1.InSprCha.stVal SPS BOOLEAN ST 0 SPR_CHR CB spring charged input Monitoring\I/O status\Condition monitoring\SSCBR1\Inputs
SSCBR1 CBCM CBCM INP LD0.SSCBR1.InPresAlm.stVal SPS BOOLEAN ST 0 PRES_ALM_IN Binary pressure alarm input Monitoring\I/O status\Condition monitoring\SSCBR1\Inputs
SSCBR1 CBCM CBCM INP LD0.SSCBR1.InPresLO.stVal SPS BOOLEAN ST 0 PRES_LO_IN Binary pressure input for lockout indication Monitoring\I/O status\Condition monitoring\SSCBR1\Inputs
SSCBR1 CBCM CBCM INP LD0.SSCBR1.InPosOpn.stVal SPS BOOLEAN ST 0 POSOPEN Signal for open position of apparatus from I/O Monitoring\I/O status\Condition monitoring\SSCBR1\Inputs
SSCBR1 CBCM CBCM INP LD0.SSCBR1.InPosCls.stVal SPS BOOLEAN ST 0 POSCLOSE Signal for closeposition of apparatus from I/O Monitoring\I/O status\Condition monitoring\SSCBR1\Inputs
SSCBR1 CBCM CBCM INP LD0.SSCBR1.RsAccAPwr.stVal SPC BOOLEAN ST 0 RST_IPOW Reset accumulation energy Monitoring\I/O status\Condition monitoring\SSCBR1\Inputs
SSCBR1 CBCM CBCM INP LD0.SSCBR1.RsCBWear.stVal SPC BOOLEAN ST 0 RST_CB_WEAR Reset input for CB remaining life and operation counter Monitoring\I/O status\Condition monitoring\SSCBR1\Inputs
SSCBR1 CBCM CBCM INP LD0.SSCBR1.RsTrvTm.stVal SPC BOOLEAN ST 0 RST_TRV_T Reset input for CB closing and opening travel times Monitoring\I/O status\Condition monitoring\SSCBR1\Inputs
SSCBR1 CBCM CBCM INP LD0.SSCBR1.RsSprChaTm.stVal SPC BOOLEAN ST 0 RST_SPR_T Reset input for the charging time of the CB spring Monitoring\I/O status\Condition monitoring\SSCBR1\Inputs
SSCBR1 CBCM CBCM OUT LD0.SSCBR1.OpnAlm.stVal SPS BOOLEAN ST StatIed PH TRV_T_OP_ALM CB open travel time exceeded set value Monitoring\I/O status\Condition monitoring\SSCBR1\Outputs
SSCBR1 CBCM CBCM OUT LD0.SSCBR1.ClsAlm.stVal SPS BOOLEAN ST StatIed PH TRV_T_CL_ALM CB close travel time exceeded set value Monitoring\I/O status\Condition monitoring\SSCBR1\Outputs
SSCBR1 CBCM CBCM OUT LD0.SSCBR1.SprChaAlm.stVal SPS BOOLEAN ST StatIed PH SPR_CHR_ALM Spring charging time has crossed the set value Monitoring\I/O status\Condition monitoring\SSCBR1\Outputs
SSCBR1 CBCM CBCM OUT LD0.SSCBR1.OpNumAlm.stVal SPS BOOLEAN ST StatIed PH OPR_ALM Number of CB operations exceeds alarm limit Monitoring\I/O status\Condition monitoring\SSCBR1\Outputs
SSCBR1 CBCM CBCM OUT LD0.SSCBR1.OpNumLO.stVal SPS BOOLEAN ST StatIed PH OPR_LO Number of CB operations exceeds lockout limit Monitoring\I/O status\Condition monitoring\SSCBR1\Outputs
SSCBR1 CBCM CBCM OUT LD0.SSCBR1.LonTmAlm.stVal SPS BOOLEAN ST StatIed PH MON_ALM CB 'not operated for long time' alarm Monitoring\I/O status\Condition monitoring\SSCBR1\Outputs
SSCBR1 CBCM CBCM OUT LD0.SSCBR1.PresAlm.stVal SPS BOOLEAN ST StatIed PH PRES_ALM Pressure below alarm level Monitoring\I/O status\Condition monitoring\SSCBR1\Outputs
SSCBR1 CBCM CBCM OUT LD0.SSCBR1.PresLO.stVal SPS BOOLEAN ST StatIed PH PRES_LO Pressure below lockout level Monitoring\I/O status\Condition monitoring\SSCBR1\Outputs
SSCBR1 CBCM CBCM OUT LD0.SSCBR1.PosOpn.stVal SPS BOOLEAN ST OPENPOS CB is in open position Monitoring\I/O status\Condition monitoring\SSCBR1\Outputs
SSCBR1 CBCM CBCM OUT LD0.SSCBR1.PosIvd.stVal SPS BOOLEAN ST INVALIDPOS CB is in invalid position (not positively open or closed) Monitoring\I/O status\Condition monitoring\SSCBR1\Outputs
SSCBR1 CBCM CBCM OUT LD0.SSCBR1.PosCls.stVal SPS BOOLEAN ST CLOSEPOS CB is in closed position Monitoring\I/O status\Condition monitoring\SSCBR1\Outputs
SSCBR1 CBCM CBCM OUT LD0.SSCBR1.APwrAlm.stVal SPS BOOLEAN ST StatIed PH IPOW_ALM Accumulated currents power (Iyt),exceeded alarm limit Monitoring\I/O status\Condition monitoring\SSCBR1\Outputs
SSCBR1 CBCM CBCM OUT LD0.SSCBR1.APwrLO.stVal SPS BOOLEAN ST StatIed PH IPOW_LO Accumulated currents power (Iyt),exceeded lockout limit Monitoring\I/O status\Condition monitoring\SSCBR1\Outputs
SSCBR1 CBCM CBCM OUT LD0.SSCBR1.CBLifAlm.stVal SPS BOOLEAN ST StatIed PH CB_LIFE_ALM Remaining life of CB exceeded alarm limit Monitoring\I/O status\Condition monitoring\SSCBR1\Outputs
SSCBR1 CBCM CBCM CTR LD0.SSCBR1.RsAccAPwr.Oper.ctlVal SPC BOOLEAN CO 0 SSCBR1 acc.energy Resets SSCBR1 accumulation energy 0=Cancel; 1=Clear Clear\Clear
SSCBR1 CBCM CBCM CTR LD0.SSCBR1.RsCBWear.Oper.ctlVal SPC BOOLEAN CO 0 SSCBR1 rem.life Reset SSCBR1 CB remaining life and operation counter 0=Cancel; 1=Clear Clear\Clear
SSCBR1 CBCM CBCM CTR LD0.SSCBR1.RsTrvTm.Oper.ctlVal SPC BOOLEAN CO 0 SSCBR1 travel times Reset CB closing and opening travel times 0=Cancel; 1=Clear Clear\Clear
SSCBR1 CBCM CBCM CTR LD0.SSCBR1.RsSprChaTm.Oper.ctlVal SPC BOOLEAN CO 0 SSCBR1 spr.charge t Reset the charging time of the CB spring 0=Cancel; 1=Clear Clear\Clear
SSCBR1 CBCM CBCM MON LD0.SSCBR1.Beh.stVal INS Enum ST SSCBR1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
SSCBR1 CBCM CBCM MON LD0.SSCBR1.OpCnt.stVal INS INT32 ST StatIed PH NO_OPR Number of CB operation cycle 0...99999 Monitoring\I/O status\Condition monitoring\SSCBR1\Monitored data
SSCBR1 CBCM CBCM MON LD0.SSCBR1.InaTmdCnt.stVal INS INT32 ST INA_DAYS The number of days CB has been inactive 0...9999 Monitoring\I/O status\Condition monitoring\SSCBR1\Monitored data
SSCBR1 CBCM CBCM MON LD0.SSCBR1.TmmsOpn.mag.f MV FLOAT32 MX 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 CBCM MON LD0.SSCBR1.TmmsCls.mag.f MV FLOAT32 MX 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 CBCM MON LD0.SSCBR1.TmsSprCha.mag.f MV FLOAT32 MX 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 CBCM MON LD0.SSCBR1.RmnLifPhA.stVal INS INT32 ST CB_LIFE_A CB Remaining life phase A -9999...9999 Monitoring\I/O status\Condition monitoring\SSCBR1\Monitored data
SSCBR1 CBCM CBCM MON LD0.SSCBR1.RmnLifPhB.stVal INS INT32 ST CB_LIFE_B CB Remaining life phase B -9999...9999 Monitoring\I/O status\Condition monitoring\SSCBR1\Monitored data
SSCBR1 CBCM CBCM MON LD0.SSCBR1.RmnLifPhC.stVal INS INT32 ST CB_LIFE_C CB Remaining life phase C -9999...9999 Monitoring\I/O status\Condition monitoring\SSCBR1\Monitored data
SSCBR1 CBCM CBCM MON LD0.SSCBR1.AccAPwrPhA.mag.f MV FLOAT32 MX IPOW_A Accumulated currents power (Iyt), phase A 0.000...30000.000 Monitoring\I/O status\Condition monitoring\SSCBR1\Monitored data
SSCBR1 CBCM CBCM MON LD0.SSCBR1.AccAPwrPhB.mag.f MV FLOAT32 MX IPOW_B Accumulated currents power (Iyt), phase B 0.000...30000.000 Monitoring\I/O status\Condition monitoring\SSCBR1\Monitored data
SSCBR1 CBCM CBCM MON LD0.SSCBR1.AccAPwrPhC.mag.f MV FLOAT32 MX IPOW_C Accumulated currents power (Iyt), phase C 0.000...30000.000 Monitoring\I/O status\Condition monitoring\SSCBR1\Monitored data
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.CorOpnTmms.setVal ING INT32 SP 10 Opening time Cor Correction factor for open travel time in ms 0...100 ms Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.OpnAlmTmms.setVal ING INT32 SP 40 Open alarm time Alarm level setting for open travel time in ms 0...200 ms Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.ClsAlmTmms.setVal ING INT32 SP 40 Close alarm time Alarm level Setting for close travel time in ms 0...200 ms Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.CorClsTmms.setVal ING INT32 SP 10 Closing time Cor Correction factor for CB close travel time in ms 0...100 ms Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.AlmOpNum.setVal ING INT32 SP 200 Alarm Op number Alarm limit for number of operations 0...9999 Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.LOOpNum.setVal ING INT32 SP 300 Lockout Op number Lock out limit for number of operations 0...9999 Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.AlmAccAPwr.setMag.f ASG FLOAT32 SP 2500.00 Alm Acc currents Pwr Setting of alarm level for accumulated currents power 0.00...20000.00 Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.SprChaTmms.setVal ING INT32 SP 1000 Spring charge time Setting of alarm for spring charging time of CB in ms 0...60000 ms Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.CorDifTmms.setVal ING INT32 SP 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 CBCM CFG LD0.SSCBR1.AccStopA.setMag.f ASG FLOAT32 SP 10.00 Acc stop current RMS current setting below which engy acm stops 5.00...500.00 A Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.LOAccAPwr.setMag.f ASG FLOAT32 SP 2500.00 LO Acc currents Pwr Lockout limit setting for accumulated currents power 0.00...20000.00 Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.OpNumRtg.setVal ING INT32 SP 10000 Op number rated Number of operations possible at rated current 1...99999 Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.DirCoef.setMag.f ASG FLOAT32 SP -1.50 Directional Coef Directional coefficient for CB life calculation -3.00...-0.50 Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.PresAlTmms.setVal ING INT32 SP 10 Pressure alarm time Time delay for gas pressure alarm in ms 0...60000 ms Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.LifAlmLev.setVal ING INT32 SP 500 Life alarm level Alarm level for CB remaining life 0...99999 Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.OpNumFlt.setVal ING INT32 SP 1000 Op number fault Number of operations possible at rated fault current 1...10000 Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.PresLOTmms.setVal ING INT32 SP 10 Pres lockout time Time delay for gas pressure lockout in ms 0...60000 ms Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.CntIniVal.setVal ING INT32 SP 0 Counter initial Val The operation numbers counter initialization value 0...9999 Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.InaAlmTmd.setVal ING INT32 SP 2000 Inactive Alm days Alarm limit value of the inactive days counter 0...9999 Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.IniInaTmd.setVal ING INT32 SP 0 Ini inactive days Initial value of the inactive days counter 0...9999 Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.InaAlmTmh.setVal ING INT32 SP 0 Inactive Alm hours Alarm time of the inactive days counter in hours 0...23 h Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.IniRmnLif.setMag.f ASG FLOAT32 SP 5000 Initial CB Rmn life Initial value for the CB remaining life 0...9999 Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.AExpn.setMag.f ASG FLOAT32 SP 2.00 Current exponent Current exponent setting for energy calculation 0.00...2.00 Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.AOpRtg.setMag.f ASG FLOAT32 SP 1000.00 Rated Op current Rated operating current of the breaker 100.00...5000.00 A Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.AFltRtg.setMag.f ASG FLOAT32 SP 5000.00 Rated fault current Rated fault current of the breaker 500.00...75000.00 A Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM CFG LD0.SSCBR1.IniAccAPwr.setMag.f ASG FLOAT32 SP 0.00 Ini Acc currents Pwr Initial value for accumulation energy (Iyt) 0.00...20000.00 Configuration\Condition monitoring\SSCBR1
SSCBR1 CBCM CBCM TES LD0.SSCBR1.TstOutCmd.Oper.ctlVal INC Enum CO 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 CBCM VER LD0.SSCBR1.NamPlt.swRev LPL VisString255 (20) DC D

MDSOPT1: Generic operation time supervision for machines and devices

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
MDSOPT1 OPTS OPTM INP LD0.MDSOPT1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block input status Monitoring\I/O status\Condition monitoring\MDSOPT1\Inputs
MDSOPT1 OPTS OPTM INP LD0.MDSOPT1.OpTmRs.stVal SPC BOOLEAN ST 0 RESET Resets the accumulated operation time to initial value Monitoring\I/O status\Condition monitoring\MDSOPT1\Inputs
MDSOPT1 OPTS OPTM INP LD0.MDSOPT1.TmOp.stVal SPS BOOLEAN ST 0 POS_ACTIVE When active indicates the equipment is running Monitoring\I/O status\Condition monitoring\MDSOPT1\Inputs
MDSOPT1 OPTS OPTM OUT LD0.MDSOPT1.OpTmWrn.stVal SPS BOOLEAN ST StatIed PH WARNING Warning accumulated operation time exceeds Warning value Monitoring\I/O status\Condition monitoring\MDSOPT1\Outputs
MDSOPT1 OPTS OPTM OUT LD0.MDSOPT1.OpTmAlm.stVal SPS BOOLEAN ST StatIed PH ALARM Alarm accumulated operation time exceeds Alarm value Monitoring\I/O status\Condition monitoring\MDSOPT1\Outputs
MDSOPT1 OPTS OPTM CTR LD0.MDSOPT1.OpTmRs.Oper.ctlVal SPC BOOLEAN CO 0 MDSOPT1 operation t Resets the accumulated operation time to initial value 0=Cancel; 1=Clear Clear\Clear
MDSOPT1 OPTS OPTM MON LD0.MDSOPT1.Beh.stVal INS Enum ST MDSOPT1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
MDSOPT1 OPTS OPTM MON LD0.MDSOPT1.OpTmh.stVal INS INT32 ST OPR_TIME Total operation time in hours 0...299999 h Monitoring\I/O status\Condition monitoring\MDSOPT1\Monitored data
MDSOPT1 OPTS OPTM CFG LD0.MDSOPT1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Configuration\Condition monitoring\MDSOPT1
MDSOPT1 OPTS OPTM CFG LD0.MDSOPT1.OpWrnTmh.setVal ING INT32 SP 8000 Warning value Warning value for operation time supervision 0...299999 h Configuration\Condition monitoring\MDSOPT1
MDSOPT1 OPTS OPTM CFG LD0.MDSOPT1.OpAlmTmh.setVal ING INT32 SP 10000 Alarm value Alarm value for operation time supervision 0...299999 h Configuration\Condition monitoring\MDSOPT1
MDSOPT1 OPTS OPTM CFG LD0.MDSOPT1.IniOpTmh.setVal ING INT32 SP 0 Initial value Initial value for operation time supervision 0...299999 h Configuration\Condition monitoring\MDSOPT1
MDSOPT1 OPTS OPTM CFG LD0.MDSOPT1.OpActTmh.setVal ING INT32 SP 0 Operating time hour Time of day when alarm and warning will occur 0...23 h Configuration\Condition monitoring\MDSOPT1
MDSOPT1 OPTS OPTM CFG LD0.MDSOPT1.OpActMod.setVal ING Enum SP 1 Operating time mode Operating time mode for warning and alarm 1=Immediate; 2=Timed Warn; 3=Timed Warn Alm Configuration\Condition monitoring\MDSOPT1
MDSOPT1 OPTS OPTM TES LD0.MDSOPT1.TstOutCmd.Oper.ctlVal INC Enum CO 1 MDSOPT1 Operation Off / On 0=Reset; 17=Activate ALARM; 18=Deactive ALARM; 19=Activate WARNING; 20=Deactive WARNING Tests\Function tests\Condition monitoring
MDSOPT1 OPTS OPTM VER LD0.MDSOPT1.NamPlt.swRev LPL VisString255 (20) DC A

TPOSSLTC1: Tap changer position indication

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
TPOSSLTC1 TPOSM 84M INP LD0.TPOSSLTC1.TapPos.valWTr.posVal ISC INT8 ST 0 StatUrg PH TAP_POS Tap position indication -63...63 Monitoring\I/O status\Measurements\TPOSSLTC1\Monitored data
TPOSSLTC1 TPOSM 84M INP LD0.TPOSGGIO1.Ind1.stVal SPS BOOLEAN ST 0 BI0 Binary input 1 Monitoring\I/O status\Measurements\TPOSSLTC1\Inputs
TPOSSLTC1 TPOSM 84M INP LD0.TPOSGGIO1.Ind2.stVal SPS BOOLEAN ST 0 BI1 Binary input 2 Monitoring\I/O status\Measurements\TPOSSLTC1\Inputs
TPOSSLTC1 TPOSM 84M INP LD0.TPOSGGIO1.Ind3.stVal SPS BOOLEAN ST 0 BI2 Binary input 3 Monitoring\I/O status\Measurements\TPOSSLTC1\Inputs
TPOSSLTC1 TPOSM 84M INP LD0.TPOSGGIO1.Ind4.stVal SPS BOOLEAN ST 0 BI3 Binary input 4 Monitoring\I/O status\Measurements\TPOSSLTC1\Inputs
TPOSSLTC1 TPOSM 84M INP LD0.TPOSGGIO1.Ind5.stVal SPS BOOLEAN ST 0 BI4 Binary input 5 Monitoring\I/O status\Measurements\TPOSSLTC1\Inputs
TPOSSLTC1 TPOSM 84M INP LD0.TPOSGGIO1.Ind6.stVal SPS BOOLEAN ST 0 BI5 Binary input 6 Monitoring\I/O status\Measurements\TPOSSLTC1\Inputs
TPOSSLTC1 TPOSM 84M INP LD0.TPOSGGIO1.Ind7.stVal SPS BOOLEAN ST 0 SIGN_BIT Binary input sign bit Monitoring\I/O status\Measurements\TPOSSLTC1\Inputs
TPOSSLTC1 TPOSM 84M CFG LD0.TPOSSLTC1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Configuration\Measurements\TPOSSLTC1
TPOSSLTC1 TPOSM 84M CFG LD0.TPOSGGIO1.BinCdMod.setVal ING Enum SP 2 Operation mode Operation mode selection 1=NAT2INT; 2=BCD2INT; 3=GRAY2INT Configuration\Measurements\TPOSSLTC1
TPOSSLTC1 TPOSM 84M VER LD0.TPOSSLTC1.NamPlt.swRev LPL VisString255 (20) DC B
TPOSSLTC1 TPOSM 84M VER LD0.TPOSGGIO1.NamPlt.swRev LPL VisString255 (20) DC B

TR2PTDF1: Transformer differential protection of two winding transformers

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
TR2PTDF1 3dI>T 87T INP LD0.TR2PDIF1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block Monitoring\I/O status\Differential prot\TR2PTDF1\Inputs
TR2PTDF1 3dI>T 87T INP LD0.TR2PDIF1.InBlkLo.stVal SPS BOOLEAN ST 0 BLK_OPR_LS Blocks operate outputs from biased stage Monitoring\I/O status\Differential prot\TR2PTDF1\Inputs
TR2PTDF1 3dI>T 87T INP LD0.TR2PDIF1.InBlkHi.stVal SPS BOOLEAN ST 0 BLK_OPR_HS Blocks operate outputs from instantaneous stage Monitoring\I/O status\Differential prot\TR2PTDF1\Inputs
TR2PTDF1 3dI>T 87T OUT LD0.TR2PDIF1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate combined Monitoring\I/O status\Differential prot\TR2PTDF1\Outputs
TR2PTDF1 3dI>T 87T OUT LD0.TR2PDIF1.OpLoSet.general ACT BOOLEAN ST OPR_LS Operate from low set Monitoring\I/O status\Differential prot\TR2PTDF1\Outputs
TR2PTDF1 3dI>T 87T OUT LD0.TR2PDIF1.OpHiSet.general ACT BOOLEAN ST OPR_HS Operate from high set Monitoring\I/O status\Differential prot\TR2PTDF1\Outputs
TR2PTDF1 3dI>T 87T OUT LD0.TR2PDIF1.BlkWavSt.general ACT BOOLEAN ST BLKDWAV Waveform blocking status Monitoring\I/O status\Differential prot\TR2PTDF1\Outputs
TR2PTDF1 3dI>T 87T OUT LD0.TR2PDIF1.Blk2HSt.general ACT BOOLEAN ST StatNrml PH BLKD2H 2nd harmonic restraint block status Monitoring\I/O status\Differential prot\TR2PTDF1\Outputs
TR2PTDF1 3dI>T 87T OUT LD0.TR2PDIF1.Blk5HSt.general ACT BOOLEAN ST BLKD5H 5th harmonic restraint block status Monitoring\I/O status\Differential prot\TR2PTDF1\Outputs
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.Beh.stVal INS Enum ST TR2PTDF1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.Op.phsA ACT BOOLEAN ST StatNrml PHT OPR_A Operate phase A Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.Op.phsB ACT BOOLEAN ST StatNrml PHT OPR_B Operate phase B Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.Op.phsC ACT BOOLEAN ST StatNrml PHT OPR_C Operate phase C Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.BlkWavSt.phsA ACT BOOLEAN ST BLKDWAV_A Waveform blocking phase A status Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.BlkWavSt.phsB ACT BOOLEAN ST BLKDWAV_B Waveform blocking phase B status Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.BlkWavSt.phsC ACT BOOLEAN ST BLKDWAV_C Waveform blocking phase C status Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.Blk2HSt.phsA ACT BOOLEAN ST StatNrml PH BLKD2H_A 2nd harmonic restraint block phase A status Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.Blk2HSt.phsB ACT BOOLEAN ST StatNrml PH BLKD2H_B 2nd harmonic restraint block phase B status Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.Blk2HSt.phsC ACT BOOLEAN ST StatNrml PH BLKD2H_C 2nd harmonic restraint block phase C status Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.Blk5HSt.phsA ACT BOOLEAN ST BLKD5H_A 5th harmonic restraint block phase A status Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.Blk5HSt.phsB ACT BOOLEAN ST BLKD5H_B 5th harmonic restraint block phase B status Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.Blk5HSt.phsC ACT BOOLEAN ST BLKD5H_C 5th harmonic restraint block phase C status Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.SecnACom.phsA.cVal.mag.f WYE FLOAT32 MX I_AMPL_A2 Connection group compensated secondary current phase A 0.00...40.00 xIr Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.SecnACom.phsB.cVal.mag.f WYE FLOAT32 MX I_AMPL_B2 Connection group compensated secondary current phase B 0.00...40.00 xIr Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.SecnACom.phsC.cVal.mag.f WYE FLOAT32 MX I_AMPL_C2 Connection group compensated secondary current phase C 0.00...40.00 xIr Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.PriACom.phsA.cVal.mag.f WYE FLOAT32 MX I_AMPL_A1 Connection group compensated primary current phase A 0.00...40.00 xIr Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.PriACom.phsB.cVal.mag.f WYE FLOAT32 MX I_AMPL_B1 Connection group compensated primary current phase B 0.00...40.00 xIr Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.PriACom.phsC.cVal.mag.f WYE FLOAT32 MX I_AMPL_C1 Connection group compensated primary current phase C 0.00...40.00 xIr Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.DifAClc.phsA.cVal.mag.f WYE FLOAT32 MX IL1-diff Measured differential current amplitude phase IL1 0.00...80.00 Measurements\TR2PTDF1
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.DifAClc.phsB.cVal.mag.f WYE FLOAT32 MX IL2-diff Measured differential current amplitude phase IL2 0.00...80.00 Measurements\TR2PTDF1
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.DifAClc.phsC.cVal.mag.f WYE FLOAT32 MX IL3-diff Measured differential current amplitude phase IL3 0.00...80.00 Measurements\TR2PTDF1
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.RstA.phsA.cVal.mag.f WYE FLOAT32 MX IL1-bias Measured bias current amplitude phase IL1 0.00...80.00 Measurements\TR2PTDF1
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.RstA.phsB.cVal.mag.f WYE FLOAT32 MX IL2-bias Measured bias current amplitude phase IL2 0.00...80.00 Measurements\TR2PTDF1
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.RstA.phsC.cVal.mag.f WYE FLOAT32 MX IL3-bias Measured bias current amplitude phase IL3 0.00...80.00 Measurements\TR2PTDF1
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.A2HRat.phsA.cVal.mag.f WYE FLOAT32 MX I_2H_RAT_A Differential current second harmonic ratio, phase A 0.00...1.00 Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.A2HRat.phsB.cVal.mag.f WYE FLOAT32 MX I_2H_RAT_B Differential current second harmonic ratio, phase B 0.00...1.00 Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.A2HRat.phsC.cVal.mag.f WYE FLOAT32 MX I_2H_RAT_C Differential current second harmonic ratio, phase C 0.00...1.00 Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.AngPriAB.mag.f MV FLOAT32 MX I_ANGL_A1_B1 Current phase angle phase A to B, winding 1 -180.00...180.00 deg Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.AngPriBC.mag.f MV FLOAT32 MX I_ANGL_B1_C1 Current phase angle phase B to C, winding 1 -180.00...180.00 deg Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.AngPriCA.mag.f MV FLOAT32 MX I_ANGL_C1_A1 Current phase angle phase C to A, winding 1 -180.00...180.00 deg Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.AngScyAB.mag.f MV FLOAT32 MX I_ANGL_A2_B2 Current phase angle phase A to B, winding 2 -180.00...180.00 deg Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.AngScyBC.mag.f MV FLOAT32 MX I_ANGL_B2_C2 Current phase angle phase B to C, winding 2 -180.00...180.00 deg Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.AngScyCA.mag.f MV FLOAT32 MX I_ANGL_C2_A2 Current phase angle phase C to A, winding 2 -180.00...180.00 deg Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.AngPriScyA.mag.f MV FLOAT32 MX I_ANGL_A1_A2 Current phase angle diff between winding 1 and 2, phase A -180.00...180.00 deg Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.AngPriScyB.mag.f MV FLOAT32 MX I_ANGL_B1_B2 Current phase angle diff between winding 1 and 2, phase B -180.00...180.00 deg Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.AngPriScyC.mag.f MV FLOAT32 MX I_ANGL_C1_C2 Current phase angle diff between winding 1 and 2, phase C -180.00...180.00 deg Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.A5HRat.phsA.cVal.mag.f WYE FLOAT32 MX I_5H_RAT_A Differential current fifth harmonic ratio, phase A 0.00...1.00 Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.A5HRat.phsB.cVal.mag.f WYE FLOAT32 MX I_5H_RAT_B Differential current fifth harmonic ratio, phase B 0.00...1.00 Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2PDIF1.A5HRat.phsC.cVal.mag.f WYE FLOAT32 MX I_5H_RAT_C Differential current fifth harmonic ratio, phase C 0.00...1.00 Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2HPHAR1.Str.general ACD BOOLEAN ST BLKD2HPHAR 2nd harmonic restraint blocking for PHAR LN, combined Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2HPHAR1.Str.phsA ACD BOOLEAN ST BLKD2HPHAR_A 2nd harmonic restraint blocking for PHAR LN, phase A Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2HPHAR1.Str.phsB ACD BOOLEAN ST BLKD2HPHAR_B 2nd harmonic restraint blocking for PHAR LN, phase B Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR2HPHAR1.Str.phsC ACD BOOLEAN ST BLKD2HPHAR_C 2nd harmonic restraint blocking for PHAR LN, phase C Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR5HPHAR1.Str.general ACD BOOLEAN ST BLKD5HPHAR 5th harmonic restraint blocking for PHAR LN, combined Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR5HPHAR1.Str.phsA ACD BOOLEAN ST BLKD5HPHAR_A 5th harmonic restraint blocking for PHAR LN, phase A Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR5HPHAR1.Str.phsB ACD BOOLEAN ST BLKD5HPHAR_B 5th harmonic restraint blocking for PHAR LN, phase B Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T MON LD0.TR5HPHAR1.Str.phsC ACD BOOLEAN ST BLKD5HPHAR_C 5th harmonic restraint blocking for PHAR LN, phase C Monitoring\I/O status\Differential prot\TR2PTDF1\Monitored data
TR2PTDF1 3dI>T 87T SET LD0.TR2PDIF1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off/On 1=on; 5=off Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR2PDIF1.HiSet.setVal ING INT32 SG 1000 High operate value Instantaneous stage setting 500...3000 %Ir Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR2PDIF1.EnaHiSet.setVal SPG BOOLEAN SG 1 Enable high set Enable high set stage Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR2PDIF1.LoSet.setVal ING INT32 SG 20 Low operate value Basic setting for biased operation 5...50 %Ir Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR2PDIF1.SpeScn2.setMag.f ASG FLOAT32 SG 30 Slope section 2 Slope of the second line of the operating characteristics 10...50 % Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR2PDIF1.EndScn2.setMag.f ASG FLOAT32 SG 150 End section 2 Turn-point between the second and the third line of the operating characteristics 100...500 %Ir Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR2PDIF1.RstMod.setVal ING Enum SG -1 Restraint mode Restraint mode -1=2.h + 5.h + wav; 5=Waveform; 6=2.h + waveform; 7=5.h + waveform Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR2PDIF1.CTConnTyp.setVal ING Enum SP 1 CT connection type CT connection type. Determined by the directions of the connected current transformers 1=Type 1; 2=Type 2 Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR2PDIF1.Wnd1Typ.setVal ING Enum SP 1 Winding 1 type Connection of the HV side windings 1=Y; 2=YN; 3=D; 4=Z; 5=ZN Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR2PDIF1.Wnd2Typ.setVal ING Enum SP 1 Winding 2 type Connection of the LV side windings 1=y; 2=yn; 3=d; 4=z; 5=zn Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR2PDIF1.ClkNum.setVal ING Enum SP 0 Clock number Setting the phase shift between HV and LV with clock number for connection group compensation (e.g. Dyn11 -> 11) 0=Clk Num 0; 1=Clk Num 1; 2=Clk Num 2; 4=Clk Num 4; 5=Clk Num 5; 6=Clk Num 6; 7=Clk Num 7; 8=Clk Num 8; 10=Clk Num 10; 11=Clk Num 11 Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR2PDIF1.ZroAElm.setVal ING Enum SP 1 Zro A elimination Elimination of the zero-sequence current 1=Not eliminated; 2=Winding 1; 3=Winding 2; 4=Winding 1 and 2 Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR2PDIF1.MinWndTap.setVal ING INT32 SP 36 Min winding tap The tap position number resulting the minimum number of effective winding turns on the side of the transformer where the tap changer is. -36...36 Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR2PDIF1.MaxWndTap.setVal ING INT32 SP 0 Max winding tap The tap position number resulting the maximum number of effective winding turns on the side of the transformer where the tap changer is. -36...36 Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR2PDIF1.TapNomLTC1.setVal ING INT32 SP 18 Tap nominal The nominal position of the tap changer resulting the default transformation ratio of the transformer (as if there was no tap changer) -36...36 Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR2PDIF1.TapWnd.setVal ING Enum SP 1 Tapped winding The winding where the tap changer is connected to 1=Not in use; 2=Winding 1; 3=Winding 2 Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR2PDIF1.STap1.setMag.f ASG FLOAT32 SP 1.50 Step of tap The percentage change in voltage corresponding one step of the tap changer 0.60...9.00 % Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR2PDIF1.HDBlk.setVal SPG BOOLEAN SG 1 Harmonic deblock 2. 2. harmonic deblocking in case of switch on to fault Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR2PDIF1.CTRatCor1.setMag.f ASG FLOAT32 SP 1.00 CT ratio Cor Wnd 1 CT ratio correction, winding 1 0.40...4.00 Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR2PDIF1.CTRatCor2.setMag.f ASG FLOAT32 SP 1.00 CT ratio Cor Wnd 2 CT ratio correction, winding 2 0.40...4.00 Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR2HPHAR1.PhStr.setMag.f ASG FLOAT32 SG 15 Start value 2.H 2. harmonic blocking ratio 7...20 % Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR5HPHAR1.PhStr.setMag.f ASG FLOAT32 SG 35 Start value 5.H 5. harmonic blocking ratio 10...50 % Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR5HPHAR1.PhStop.setMag.f ASG FLOAT32 SG 35 Stop value 5.H 5. harmonic deblocking ratio 10...50 % Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T SET LD0.TR5HPHAR1.HDBlk.setVal SPG BOOLEAN SG 0 Harmonic deblock 5. 5. harmonic deblocking in case of severe overvoltage Settings\Settings\Differential prot\TR2PTDF1
TR2PTDF1 3dI>T 87T TES LD0.TR2PDIF1.TstOutCmd.Oper.ctlVal INC Enum CO 0 TR2PTDF1 Test control for outputs 0=Reset; 9=Activate OPERATE; 10=Deactive OPERATE; -11=Activate OPR_LS; -12=Deactive OPR_LS; -13=Activate OPR_HS; -14=Deactive OPR_HS; -15=Activate BLKD2H; -16=Deactive BLKD2H; -17=Activate BLKD5H; -18=Deactive BLKD5H; -19=Activate BLKDWAV; -20=Deactive BLKDWAV Tests\Function tests\Differential prot
TR2PTDF1 3dI>T 87T VER LD0.TR2PDIF1.NamPlt.swRev LPL VisString255 (20) DC A
TR2PTDF1 3dI>T 87T VER LD0.TR2HPHAR1.NamPlt.swRev LPL VisString255 (20) DC A
TR2PTDF1 3dI>T 87T VER LD0.TR5HPHAR1.NamPlt.swRev LPL VisString255 (20) DC A

T2PTTR1: Thermal overload protection, two time constants

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
T2PTTR1 3Ith>T 49T INP LD0.T2PTTR1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Current protection\T2PTTR1\Inputs
T2PTTR1 3Ith>T 49T INP LD0.T2PTTR1.TmpUsed.mag.f MV FLOAT32 MX 0 TEMP_AMB The ambient temperature used in the calculation -99...999 °C Monitoring\I/O status\Current protection\T2PTTR1\Monitored data
T2PTTR1 3Ith>T 49T OUT LD0.T2PTTR1.AlmThm.general ACT BOOLEAN ST StatUrg PH ALARM Thermal Alarm Monitoring\I/O status\Current protection\T2PTTR1\Outputs
T2PTTR1 3Ith>T 49T OUT LD0.T2PTTR1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\T2PTTR1\Outputs
T2PTTR1 3Ith>T 49T OUT LD0.T2PTTR1.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Current protection\T2PTTR1\Outputs
T2PTTR1 3Ith>T 49T OUT LD0.T2PTTR1.InhRec.stVal SPS BOOLEAN ST BLK_CLOSE Thermal overload indicator. To inhibite reclose. Monitoring\I/O status\Current protection\T2PTTR1\Outputs
T2PTTR1 3Ith>T 49T CTR LD0.T2PTTR1.RsTmp.Oper.ctlVal SPC BOOLEAN CO 0 T2PTTR1 Reset T2PTTR1 temperature 0=Cancel; 1=Clear Clear\Clear
T2PTTR1 3Ith>T 49T MON LD0.T2PTTR1.Beh.stVal INS Enum ST T2PTTR1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
T2PTTR1 3Ith>T 49T MON LD0.T2PTTR1.Tmp.mag.f MV FLOAT32 MX MeasFlt P TEMP The calculated temperature of the protected object -100.0...9999.9 °C Monitoring\I/O status\Current protection\T2PTTR1\Monitored data
T2PTTR1 3Ith>T 49T MON LD0.T2PTTR1.TmpRl.mag.f MV FLOAT32 MX 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\T2PTTR1\Monitored data
T2PTTR1 3Ith>T 49T MON LD0.T2PTTR1.TmsOp.stVal INS INT32 ST T_OPERATE Estimated time to operate 0...60000 s Monitoring\I/O status\Current protection\T2PTTR1\Monitored data
T2PTTR1 3Ith>T 49T MON LD0.T2PTTR1.TmsRecEna.stVal INS INT32 ST T_ENA_CLOSE Estimated time to deactivate BLK_CLOSE in seconds 0...60000 s Monitoring\I/O status\Current protection\T2PTTR1\Monitored data
T2PTTR1 3Ith>T 49T SET LD0.T2PTTR1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Current protection\T2PTTR1
T2PTTR1 3Ith>T 49T SET LD0.T2PTTR1.TmpMax.setMag.f ASG FLOAT32 SG 105.0 Max temperature Maximum temperature allowed for the transformer 0.0...200.0 °C Settings\Settings\Current protection\T2PTTR1
T2PTTR1 3Ith>T 49T SET LD0.T2PTTR1.AlmVal.setMag.f ASG FLOAT32 SG 90.0 Alarm temperature Alarm temperature, percent value 40.0...100.0 % Settings\Settings\Current protection\T2PTTR1
T2PTTR1 3Ith>T 49T SET LD0.T2PTTR1.ARef.setMag.f ASG FLOAT32 SG 1.00 Current reference The load current leading to Temperature raise temperature 0.05...4.00 xIn Settings\Settings\Current protection\T2PTTR1 IL1TCTR1
T2PTTR1 3Ith>T 49T SET LD0.T2PTTR1.EnvTmpSet.setMag.f ASG FLOAT32 SG 40 Env temperature Set Ambient temperature used when no external temperature measurement available -50...100 °C Settings\Settings\Current protection\T2PTTR1
T2PTTR1 3Ith>T 49T SET LD0.T2PTTR1.IniTmp.setMag.f ASG FLOAT32 SP 80.0 Initial temperature Initial temperature, percent value 0.0...100.0 % Settings\Settings\Current protection\T2PTTR1
T2PTTR1 3Ith>T 49T SET LD0.T2PTTR1.RecTmpSet.setMag.f ASG FLOAT32 SG 60.0 Reclose temperature Temperature for reset of block reclose after operate 40.0...100.0 % Settings\Settings\Current protection\T2PTTR1
T2PTTR1 3Ith>T 49T SET LD0.T2PTTR1.TmpR.setMag.f ASG FLOAT32 SG 78.0 Temperature rise End temperature rise above ambient 0.0...200.0 °C Settings\Settings\Current protection\T2PTTR1
T2PTTR1 3Ith>T 49T SET LD0.T2PTTR1.ConsTms1.setVal ING INT32 SG 450 Short time constant Short time constant in seconds 6...60000 s Settings\Settings\Current protection\T2PTTR1
T2PTTR1 3Ith>T 49T SET LD0.T2PTTR1.ConsTms2.setVal ING INT32 SG 7200 Long time constant Long time constant in seconds 60...60000 s Settings\Settings\Current protection\T2PTTR1
T2PTTR1 3Ith>T 49T SET LD0.T2PTTR1.WghFact.setMag.f ASG FLOAT32 SG 0.40 Weighting factor p Weighting factor of the short time constant 0.00...1.00 Settings\Settings\Current protection\T2PTTR1
T2PTTR1 3Ith>T 49T SET LD0.T2PTTR1.OpTmp.setMag.f ASG FLOAT32 SG 100.0 Operate temperature Operate temperature, percent value 80.0...120.0 % Settings\Settings\Current protection\T2PTTR1
T2PTTR1 3Ith>T 49T TES LD0.T2PTTR1.TstOutCmd.Oper.ctlVal INC Enum CO 0 T2PTTR1 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
T2PTTR1 3Ith>T 49T VER LD0.T2PTTR1.NamPlt.swRev LPL VisString255 (20) DC B

ESMGAPC1: Allow emergency start

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
ESMGAPC1 ESTART ESTART INP LD0.ESMGAPC1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Control\ESMGAPC1\Inputs
ESMGAPC1 ESTART ESTART INP LD0.ESMGAPC1.RqEmgStr.stVal SPS BOOLEAN ST 0 ST_EMERG_RQ Emergency start input Monitoring\I/O status\Control\ESMGAPC1\Inputs
ESMGAPC1 ESTART ESTART OUT LD0.ESMGAPC1.Str.general ACD BOOLEAN ST StatNrml PH ST_EMERG_ENA Emergency start Monitoring\I/O status\Control\ESMGAPC1\Outputs
ESMGAPC1 ESTART ESTART MON LD0.ESMGAPC1.Beh.stVal INS Enum ST ESMGAPC1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
ESMGAPC1 ESTART ESTART MON LD0.ESMGAPC1.Op.t ACT Timestamp ST T_ST_EMERG Emergency start activation timestamp Monitoring\I/O status\Control\ESMGAPC1\Monitored data
ESMGAPC1 ESTART ESTART SET LD0.ESMGAPC1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Control\ESMGAPC1
ESMGAPC1 ESTART ESTART SET LD0.ESMGAPC1.StrVal.setMag.f ASG FLOAT32 SG 0.12 Motor standstill A Current limit to check for motor standstill condition 0.05...0.20 xIn Settings\Settings\Control\ESMGAPC1 IL1TCTR1
ESMGAPC1 ESTART ESTART TES LD0.ESMGAPC1.TstOutCmd.Oper.ctlVal INC Enum CO 0 ESMGAPC1 Test control for outputs 0=Reset; 1=Activate START; 2=Deactive START Tests\Function tests\Control
ESMGAPC1 ESTART ESTART VER LD0.ESMGAPC1.NamPlt.swRev LPL VisString255 (20) DC A

STTPMSU1: Motor startup supervision

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
STTPMSU1 Is2t n< 49,66,48,51LR INP LD0.STTPMSS1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block of function Monitoring\I/O status\Current protection\STTPMSU1\Inputs
STTPMSU1 Is2t n< 49,66,48,51LR INP LD0.STTPMSS1.EnaEmgStr.stVal SPS BOOLEAN ST 0 ST_EMERG_ENA Enable emergency start to disable lock of start of motor Monitoring\I/O status\Current protection\STTPMSU1\Inputs
STTPMSU1 Is2t n< 49,66,48,51LR INP LD0.STTPMSS1.StlInd.stVal SPS BOOLEAN ST 0 STALL_IND Input signal for showing the motor is not stalling Monitoring\I/O status\Current protection\STTPMSU1\Inputs
STTPMSU1 Is2t n< 49,66,48,51LR INP LD0.STTPMSS1.BlkLOStr.stVal SPS BOOLEAN ST 0 BLK_LK_ST Blocks lock out condition for restart of motor Monitoring\I/O status\Current protection\STTPMSU1\Inputs
STTPMSU1 Is2t n< 49,66,48,51LR INP LD0.STTPMSS1.InPosCls.stVal SPS BOOLEAN ST 0 CB_CLOSED Input showing the status of motor circuit breaker Monitoring\I/O status\Current protection\STTPMSU1\Inputs
STTPMSU1 Is2t n< 49,66,48,51LR OUT LD0.STTPMSS1.Str.general ACD BOOLEAN ST StatNrml PH MOT_START Signal to show that motor startup is in progress Monitoring\I/O status\Current protection\STTPMSU1\Outputs
STTPMSU1 Is2t n< 49,66,48,51LR OUT LD0.STTPMSS1.Op.general ACT BOOLEAN ST StatNrml PHT OPR_IIT Operate/trip signal for thermal stress. Monitoring\I/O status\Current protection\STTPMSU1\Outputs
STTPMSU1 Is2t n< 49,66,48,51LR OUT LD0.STTPMRI1.StrInh.stVal SPS BOOLEAN ST StatNrml PH LOCK_START Lock out condition for restart of motor. Monitoring\I/O status\Current protection\STTPMSU1\Outputs
STTPMSU1 Is2t n< 49,66,48,51LR OUT LD0.STTPMRI1.Op.general ACT BOOLEAN ST StatNrml PHT OPR_STALL Operate/trip signal for stalling protection. Monitoring\I/O status\Current protection\STTPMSU1\Outputs
STTPMSU1 Is2t n< 49,66,48,51LR CTR LD0.STTPMRI1.RsStUpCnt.Oper.ctlVal SPC BOOLEAN CO 0 STTPMSU1 counter Reset number of motor start-ups counter 0=Cancel; 1=Clear Clear\Clear
STTPMSU1 Is2t n< 49,66,48,51LR MON LD0.STTPMSS1.Beh.stVal INS Enum ST STTPMSU1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
STTPMSU1 Is2t n< 49,66,48,51LR MON LD0.STTPMSS1.StrDur.mag.f MV FLOAT32 MX STALL_RL Start time relative to the operate time for stall condition 0.00...100.00 % Monitoring\I/O status\Current protection\STTPMSU1\Monitored data
STTPMSU1 Is2t n< 49,66,48,51LR MON LD0.STTPMRI1.StrInhTmm.stVal INS INT32 ST T_RST_ENA Time left for restart when lockstart is enabled in minutes 0...999 min Monitoring\I/O status\Current protection\STTPMSU1\Monitored data
STTPMSU1 Is2t n< 49,66,48,51LR MON LD0.STTPMRI1.StUpCnt.stVal INS INT32 ST START_CNT Number of motor start-ups occurred 0...999999 Monitoring\I/O status\Current protection\STTPMSU1\Monitored data
STTPMSU1 Is2t n< 49,66,48,51LR MON LD0.STTPMRI1.ThmStsPct.mag.f MV FLOAT32 MX IIT_RL Thermal stress relative to set maximum thermal stress 0.00...100.00 % Monitoring\I/O status\Current protection\STTPMSU1\Monitored data
STTPMSU1 Is2t n< 49,66,48,51LR MON LD0.STTPMRI1.TmsCumStUp.mag.f MV FLOAT32 MX T_ST_CNT Cumulated start-up time in sec 0.0...99999.9 s Monitoring\I/O status\Current protection\STTPMSU1\Monitored data
STTPMSU1 Is2t n< 49,66,48,51LR MON LD0.STTPMRI1.TmsStUp.mag.f MV FLOAT32 MX START_TIME Measured motor latest startup time in sec 0.0...999.9 s Monitoring\I/O status\Current protection\STTPMSU1\Monitored data
STTPMSU1 Is2t n< 49,66,48,51LR SET LD0.STTPMSS1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Current protection\STTPMSU1
STTPMSU1 Is2t n< 49,66,48,51LR SET LD0.STTPMSS1.MotStr.setMag.f ASG FLOAT32 SG 1.5 Start detection A Current value for detecting starting of motor. 0.1...10.0 xIn Settings\Settings\Current protection\STTPMSU1 IL1TCTR1
STTPMSU1 Is2t n< 49,66,48,51LR SET LD0.STTPMSS1.OpModStUp.setVal ING Enum SP 1 Operation mode Motor start-up operation mode 1=IIt; 2=IIt, CB; 3=IIt + stall; 4=IIt + stall, CB Settings\Settings\Current protection\STTPMSU1
STTPMSU1 Is2t n< 49,66,48,51LR SET LD0.STTPMSS1.StOvDlTmms.setVal ING INT32 SG 100 Str over delay time Time delay to check for completion of motor startup period 0...60000 ms Settings\Settings\Current protection\STTPMSU1
STTPMSU1 Is2t n< 49,66,48,51LR SET LD0.STTPMSS1.LokRotTms.setVal ING INT32 SG 10 Lock rotor time Permitted stalling time 2...120 s Settings\Settings\Current protection\STTPMSU1
STTPMSU1 Is2t n< 49,66,48,51LR SET LD0.STTPMSS1.MotStop.setMag.f ASG FLOAT32 SP 0.12 Motor standstill A Current limit to check for motor standstill condition 0.05...0.20 xIn Settings\Settings\Current protection\STTPMSU1 IL1TCTR1
STTPMSU1 Is2t n< 49,66,48,51LR SET LD0.STTPMRI1.SetA.setMag.f ASG FLOAT32 SG 2.0 Motor start-up A Motor starting current 1.0...10.0 xIn Settings\Settings\Current protection\STTPMSU1 IL1TCTR1
STTPMSU1 Is2t n< 49,66,48,51LR SET LD0.STTPMRI1.SetTms.setVal ING INT32 SG 5 Motor start-up time Motor starting time 1...80 s Settings\Settings\Current protection\STTPMSU1
STTPMSU1 Is2t n< 49,66,48,51LR SET LD0.STTPMRI1.InhTmm.setVal ING INT32 SP 30 Restart inhibit time Time delay between consecutive startups 0...250 min Settings\Settings\Current protection\STTPMSU1
STTPMSU1 Is2t n< 49,66,48,51LR SET LD0.STTPMRI1.CntRedRte.setMag.f ASG FLOAT32 SP 60.0 Counter Red rate Start time counter reduction rate 2.0...250.0 s/h Settings\Settings\Current protection\STTPMSU1
STTPMSU1 Is2t n< 49,66,48,51LR SET LD0.STTPMRI1.EmgRedRte.setMag.f ASG FLOAT32 SP 20.00 Emg start Red rate Start time reduction factor when emergency start is On 0.00...100.00 % Settings\Settings\Current protection\STTPMSU1
STTPMSU1 Is2t n< 49,66,48,51LR SET LD0.STTPMRI1.CumLimTms.setVal ING INT32 SP 10 Cumulative time Lim Cumulative time based restart inhibit limit 1...500 s Settings\Settings\Current protection\STTPMSU1
STTPMSU1 Is2t n< 49,66,48,51LR TES LD0.STTPMSS1.TstOutCmd.Oper.ctlVal INC Enum CO 0 STTPMSU1 Test control for outputs 0=Reset; -1=Activate OPR_IIT; -2=Deactive OPR_IIT; -3=Activate OPR_STALL; -4=Deactive OPR_STALL; -5=Activate MOT_START; -6=Deactive MOT_START; -7=Activate LOCK_START; -8=Deactive LOCK_START Tests\Function tests\Current protection
STTPMSU1 Is2t n< 49,66,48,51LR VER LD0.STTPMSS1.NamPlt.swRev LPL VisString255 (20) DC A
STTPMSU1 Is2t n< 49,66,48,51LR VER LD0.STTPMRI1.NamPlt.swRev LPL VisString255 (20) DC A

PREVPTOC1: Phase reversal protection

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
PREVPTOC1 I2>> 46R INP LD0.PREVPTOC1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Current protection\PREVPTOC1\Inputs
PREVPTOC1 I2>> 46R OUT LD0.PREVPTOC1.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Current protection\PREVPTOC1\Outputs
PREVPTOC1 I2>> 46R OUT LD0.PREVPTOC1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\PREVPTOC1\Outputs
PREVPTOC1 I2>> 46R MON LD0.PREVPTOC1.Beh.stVal INS Enum ST PREVPTOC1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
PREVPTOC1 I2>> 46R MON LD0.PREVPTOC1.StrDur.mag.f MV FLOAT32 MX START_DUR Ratio of start time / operate time 0.00...100.00 % Monitoring\I/O status\Current protection\PREVPTOC1\Monitored data
PREVPTOC1 I2>> 46R SET LD0.PREVPTOC1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Current protection\PREVPTOC1
PREVPTOC1 I2>> 46R SET LD0.PREVPTOC1.StrVal.setMag.f ASG FLOAT32 SG 0.75 Start value Start value 0.05...1.00 xIn Settings\Settings\Current protection\PREVPTOC1 IL1TCTR1
PREVPTOC1 I2>> 46R SET LD0.PREVPTOC1.OpDlTmms.setVal ING INT32 SG 100 Operate delay time Operate delay time 100...60000 ms Settings\Settings\Current protection\PREVPTOC1
PREVPTOC1 I2>> 46R TES LD0.PREVPTOC1.TstOutCmd.Oper.ctlVal INC Enum CO 0 PREVPTOC1 Test control for outputs 0=Reset; 1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE Tests\Function tests\Current protection
PREVPTOC1 I2>> 46R VER LD0.PREVPTOC1.NamPlt.swRev LPL VisString255 (20) DC A

JAMPTOC1: Stalled motor

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
JAMPTOC1 Ist> 51LR INP LD0.JAMPTOC1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Current protection\JAMPTOC1\Inputs
JAMPTOC1 Ist> 51LR OUT LD0.JAMPTOC1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\JAMPTOC1\Outputs
JAMPTOC1 Ist> 51LR MON LD0.JAMPTOC1.Beh.stVal INS Enum ST JAMPTOC1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
JAMPTOC1 Ist> 51LR MON LD0.JAMPTOC1.Str.general ACD BOOLEAN ST START Start Monitoring\I/O status\Current protection\JAMPTOC1\Monitored data
JAMPTOC1 Ist> 51LR MON LD0.JAMPTOC1.StrDur.mag.f MV FLOAT32 MX START_DUR Ratio of start time / operate time 0.00...100.00 % Monitoring\I/O status\Current protection\JAMPTOC1\Monitored data
JAMPTOC1 Ist> 51LR SET LD0.JAMPTOC1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Current protection\JAMPTOC1
JAMPTOC1 Ist> 51LR SET LD0.JAMPTOC1.StrVal.setMag.f ASG FLOAT32 SP 2.50 Start value Start value 0.10...10.00 xIn Settings\Settings\Current protection\JAMPTOC1 IL1TCTR1
JAMPTOC1 Ist> 51LR SET LD0.JAMPTOC1.OpDlTmms.setVal ING INT32 SP 2000 Operate delay time Operate delay time 100...120000 ms Settings\Settings\Current protection\JAMPTOC1
JAMPTOC1 Ist> 51LR SET LD0.JAMPTOC1.RsDlTmms.setVal ING INT32 SP 100 Reset delay time Reset delay time 0...60000 ms Settings\Settings\Current protection\JAMPTOC1
JAMPTOC1 Ist> 51LR TES LD0.JAMPTOC1.TstOutCmd.Oper.ctlVal INC Enum CO 0 JAMPTOC1 Test control for outputs 0=Reset; 9=Activate OPERATE; 10=Deactive OPERATE Tests\Function tests\Current protection
JAMPTOC1 Ist> 51LR VER LD0.JAMPTOC1.NamPlt.swRev LPL VisString255 (20) DC A

MPTTR1: Motor thermal overload protection

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
MPTTR1 3Ith>M 49M INP LD0.MPTTR1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Current protection\MPTTR1\Inputs
MPTTR1 3Ith>M 49M INP LD0.MPTTR1.EnaEmgStr.stVal SPS BOOLEAN ST 0 START_EMERG Signal for indicating the need for emergency start Monitoring\I/O status\Current protection\MPTTR1\Inputs
MPTTR1 3Ith>M 49M INP LD0.MPTTR1.TmpUsed.mag.f MV FLOAT32 MX 0 TEMP_AMB The ambient temperature used in the calculation -99...999 °C Monitoring\I/O status\Current protection\MPTTR1\Monitored data
MPTTR1 3Ith>M 49M OUT LD0.MPTTR1.AlmThm.general ACT BOOLEAN ST StatUrg PH ALARM Thermal Alarm Monitoring\I/O status\Current protection\MPTTR1\Outputs
MPTTR1 3Ith>M 49M OUT LD0.MPTTR1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\MPTTR1\Outputs
MPTTR1 3Ith>M 49M OUT LD0.MPTTR1.StrInh.stVal SPS BOOLEAN ST StatNrml PH BLK_RESTART Thermal overload indicator, to inhibit restart Monitoring\I/O status\Current protection\MPTTR1\Outputs
MPTTR1 3Ith>M 49M CTR LD0.MPTTR1.RsTmp.Oper.ctlVal SPC BOOLEAN CO 0 MPTTR1 temperature Reset MPTTR1 tempetature 0=Cancel; 1=Clear Clear\Clear
MPTTR1 3Ith>M 49M MON LD0.MPTTR1.Beh.stVal INS Enum ST MPTTR1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
MPTTR1 3Ith>M 49M MON LD0.MPTTR1.TmpRl.mag.f MV FLOAT32 MX MeasFlt P Therm-Lev Thermal level of protected object (1.00 is the operate level) 0.00...9.99 Measurements\MPTTR1
MPTTR1 3Ith>M 49M MON LD0.MPTTR1.ThmLevSt.mag.f MV FLOAT32 MX THERMLEV_ST Thermal level at beginning of motor startup 0.00...9.99 Monitoring\I/O status\Current protection\MPTTR1\Monitored data
MPTTR1 3Ith>M 49M MON LD0.MPTTR1.ThmLevEnd.mag.f MV FLOAT32 MX THERMLEV_END Thermal level at the end of motor startup situation 0.00...9.99 Monitoring\I/O status\Current protection\MPTTR1\Monitored data
MPTTR1 3Ith>M 49M MON LD0.MPTTR1.StrInhTms.stVal INS INT32 ST T_ENARESTART Estimated time to reset of block restart 0...99999 s Monitoring\I/O status\Current protection\MPTTR1\Monitored data
MPTTR1 3Ith>M 49M SET LD0.MPTTR1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Current protection\MPTTR1
MPTTR1 3Ith>M 49M SET LD0.MPTTR1.ARtg.setMag.f ASG FLOAT32 SP 1.00 Rated current Rated current (FLC) of the motor 0.30...2.00 xIn Settings\Settings\Current protection\MPTTR1 IL1TCTR1
MPTTR1 3Ith>M 49M SET LD0.MPTTR1.AlmVal.setMag.f ASG FLOAT32 SG 95.0 Alarm thermal value Thermal level above which function gives an alarm 50.0...100.0 % Settings\Settings\Current protection\MPTTR1
MPTTR1 3Ith>M 49M SET LD0.MPTTR1.ReStThmVal.setMag.f ASG FLOAT32 SG 40.0 Restart thermal Val Thermal level above which function inhibits motor restarting 20.0...80.0 % Settings\Settings\Current protection\MPTTR1
MPTTR1 3Ith>M 49M SET LD0.MPTTR1.ConsTms1.setVal ING INT32 SG 320 Time constant normal Motor time constant during the normal operation of motor 80...4000 s Settings\Settings\Current protection\MPTTR1
MPTTR1 3Ith>M 49M SET LD0.MPTTR1.ConsTms2.setVal ING INT32 SG 320 Time constant start Motor time constant during the start of motor 80...4000 s Settings\Settings\Current protection\MPTTR1
MPTTR1 3Ith>M 49M SET LD0.MPTTR1.ConsTms3.setVal ING INT32 SG 500 Time constant stop Motor time constant during the standstill condition of motor 80...8000 s Settings\Settings\Current protection\MPTTR1
MPTTR1 3Ith>M 49M SET LD0.MPTTR1.WghFact.setMag.f ASG FLOAT32 SG 50.0 Weighting factor p Weighting factor (p) 20.0...100.0 % Settings\Settings\Current protection\MPTTR1
MPTTR1 3Ith>M 49M SET LD0.MPTTR1.OvLodFact.setMag.f ASG FLOAT32 SG 1.05 Overload factor Overload factor (k) 1.00...1.20 Settings\Settings\Current protection\MPTTR1
MPTTR1 3Ith>M 49M SET LD0.MPTTR1.NgSeqFact.setMag.f ASG FLOAT32 SG 0.0 Negative Seq factor Heating effect factor for negative sequence current 0.0...10.0 Settings\Settings\Current protection\MPTTR1
MPTTR1 3Ith>M 49M SET LD0.MPTTR1.EnvTmpSet.setMag.f ASG FLOAT32 SG 40.0 Env temperature Set Ambient temperature used when no external temperature measurement available -20.0...70.0 °C Settings\Settings\Current protection\MPTTR1
MPTTR1 3Ith>M 49M SET LD0.MPTTR1.IniTmp.setMag.f ASG FLOAT32 SP 74.0 Initial thermal Val Initial thermal level of the motor 0.0...100.0 % Settings\Settings\Current protection\MPTTR1
MPTTR1 3Ith>M 49M SET LD0.MPTTR1.EnvTmpMod.setVal ING Enum SG 1 Env temperature mode Mode of measuring ambient temperature 1=FLC Only; 2=Use input; 3=Set Amb Temp Settings\Settings\Current protection\MPTTR1
MPTTR1 3Ith>M 49M TES LD0.MPTTR1.TstOutCmd.Oper.ctlVal INC Enum CO 0 MPTTR1 Test control for outputs 0=Reset; 9=Activate OPERATE; 10=Deactive OPERATE; 17=Activate ALARM; 18=Deactive ALARM; -9=Activate BLK_RESTART; -10=Deactive BLK_RESTART Tests\Function tests\Current protection
MPTTR1 3Ith>M 49M VER LD0.MPTTR1.NamPlt.swRev LPL VisString255 (20) DC B

MNSPTOC1: Negative-phase-sequence time overcurrent protection for machines

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
MNSPTOC1 I2>M(1) 46M(1) INP LD0.MNSPTOC1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Current protection\MNSPTOC1\Inputs
MNSPTOC1 I2>M(1) 46M(1) OUT LD0.MNSPTOC1.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Current protection\MNSPTOC1\Outputs
MNSPTOC1 I2>M(1) 46M(1) OUT LD0.MNSPTOC1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\MNSPTOC1\Outputs
MNSPTOC1 I2>M(1) 46M(1) OUT LD0.MNSPTOC1.StrInh.stVal SPS BOOLEAN ST BLK_RESTART Overheated machine reconnection blocking Monitoring\I/O status\Current protection\MNSPTOC1\Outputs
MNSPTOC1 I2>M(1) 46M(1) MON LD0.MNSPTOC1.Beh.stVal INS Enum ST MNSPTOC1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
MNSPTOC1 I2>M(1) 46M(1) MON LD0.MNSPTOC1.StrDur.mag.f MV FLOAT32 MX START_DUR Ratio of start time / operate time 0.00...100.00 % Monitoring\I/O status\Current protection\MNSPTOC1\Monitored data
MNSPTOC1 I2>M(1) 46M(1) MON LD0.MNSPTOC1.TmsRecEna.mag.f MV FLOAT32 MX T_ENARESTART Estimated time to reset of block restart 0.00...7200.00 s Monitoring\I/O status\Current protection\MNSPTOC1\Monitored data
MNSPTOC1 I2>M(1) 46M(1) SET LD0.MNSPTOC1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Current protection\MNSPTOC1
MNSPTOC1 I2>M(1) 46M(1) SET LD0.MNSPTOC1.StrVal.setMag.f ASG FLOAT32 SG 0.20 Start value Start value 0.01...0.50 xIn Settings\Settings\Current protection\MNSPTOC1 IL1TCTR1
MNSPTOC1 I2>M(1) 46M(1) SET LD0.MNSPTOC1.OpDlTmms.setVal ING INT32 SG 1000 Operate delay time Operate delay time 100...120000 ms Settings\Settings\Current protection\MNSPTOC1
MNSPTOC1 I2>M(1) 46M(1) SET LD0.MNSPTOC1.RsDlTmms.setVal ING INT32 SP 20 Reset delay time Reset delay time 0...60000 ms Settings\Settings\Current protection\MNSPTOC1
MNSPTOC1 I2>M(1) 46M(1) SET LD0.MNSPTOC1.TmACrv.setCharact CURVE Enum SG 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 Settings\Settings\Current protection\MNSPTOC1
MNSPTOC1 I2>M(1) 46M(1) SET LD0.MNSPTOC1.MinOpTmms.setVal ING INT32 SP 100 Minimum operate time Minimum operate time for IDMT curves 100...120000 ms Settings\Settings\Current protection\MNSPTOC1
MNSPTOC1 I2>M(1) 46M(1) SET LD0.MNSPTOC1.MaxOpTmms.setVal ING INT32 SP 1000000 Maximum operate time Max operate time regardless of the inverse characteristic 500000...7200000 ms Settings\Settings\Current protection\MNSPTOC1
MNSPTOC1 I2>M(1) 46M(1) SET LD0.MNSPTOC1.CoolTms.setVal ING INT32 SP 50 Cooling time Time required to cool the machine 5...7200 s Settings\Settings\Current protection\MNSPTOC1
MNSPTOC1 I2>M(1) 46M(1) SET LD0.MNSPTOC1.TmMult.setMag.f ASG FLOAT32 SG 5.0 Machine time Mult Machine related time constant 5.0...100.0 Settings\Settings\Current protection\MNSPTOC1
MNSPTOC1 I2>M(1) 46M(1) SET LD0.MNSPTOC1.ARtg.setMag.f ASG FLOAT32 SP 1.00 Rated current Rated current (Ir) of the machine (used only in the IDMT) 0.30...2.00 xIn Settings\Settings\Current protection\MNSPTOC1 IL1TCTR1
MNSPTOC1 I2>M(1) 46M(1) TES LD0.MNSPTOC1.TstOutCmd.Oper.ctlVal INC Enum CO 0 MNSPTOC1 Test control for outputs 0=Reset; 1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE; -9=Activate BLK_RESTART; -10=Deactive BLK_RESTART Tests\Function tests\Current protection
MNSPTOC1 I2>M(1) 46M(1) VER LD0.MNSPTOC1.NamPlt.swRev LPL VisString255 (20) DC A

MNSPTOC2: Negative-phase-sequence time overcurrent protection for machines

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
MNSPTOC2 I2>M(2) 46M(2) INP LD0.MNSPTOC2.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Current protection\MNSPTOC2\Inputs
MNSPTOC2 I2>M(2) 46M(2) OUT LD0.MNSPTOC2.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Current protection\MNSPTOC2\Outputs
MNSPTOC2 I2>M(2) 46M(2) OUT LD0.MNSPTOC2.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\MNSPTOC2\Outputs
MNSPTOC2 I2>M(2) 46M(2) OUT LD0.MNSPTOC2.StrInh.stVal SPS BOOLEAN ST BLK_RESTART Overheated machine reconnection blocking Monitoring\I/O status\Current protection\MNSPTOC2\Outputs
MNSPTOC2 I2>M(2) 46M(2) MON LD0.MNSPTOC2.Beh.stVal INS Enum ST MNSPTOC2 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
MNSPTOC2 I2>M(2) 46M(2) MON LD0.MNSPTOC2.StrDur.mag.f MV FLOAT32 MX START_DUR Ratio of start time / operate time 0.00...100.00 % Monitoring\I/O status\Current protection\MNSPTOC2\Monitored data
MNSPTOC2 I2>M(2) 46M(2) MON LD0.MNSPTOC2.TmsRecEna.mag.f MV FLOAT32 MX T_ENARESTART Estimated time to reset of block restart 0.00...7200.00 s Monitoring\I/O status\Current protection\MNSPTOC2\Monitored data
MNSPTOC2 I2>M(2) 46M(2) SET LD0.MNSPTOC2.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Current protection\MNSPTOC2
MNSPTOC2 I2>M(2) 46M(2) SET LD0.MNSPTOC2.StrVal.setMag.f ASG FLOAT32 SG 0.20 Start value Start value 0.01...0.50 xIn Settings\Settings\Current protection\MNSPTOC2 IL1TCTR1
MNSPTOC2 I2>M(2) 46M(2) SET LD0.MNSPTOC2.OpDlTmms.setVal ING INT32 SG 1000 Operate delay time Operate delay time 100...120000 ms Settings\Settings\Current protection\MNSPTOC2
MNSPTOC2 I2>M(2) 46M(2) SET LD0.MNSPTOC2.RsDlTmms.setVal ING INT32 SP 20 Reset delay time Reset delay time 0...60000 ms Settings\Settings\Current protection\MNSPTOC2
MNSPTOC2 I2>M(2) 46M(2) SET LD0.MNSPTOC2.TmACrv.setCharact CURVE Enum SG 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 Settings\Settings\Current protection\MNSPTOC2
MNSPTOC2 I2>M(2) 46M(2) SET LD0.MNSPTOC2.MinOpTmms.setVal ING INT32 SP 100 Minimum operate time Minimum operate time for IDMT curves 100...120000 ms Settings\Settings\Current protection\MNSPTOC2
MNSPTOC2 I2>M(2) 46M(2) SET LD0.MNSPTOC2.MaxOpTmms.setVal ING INT32 SP 1000000 Maximum operate time Max operate time regardless of the inverse characteristic 500000...7200000 ms Settings\Settings\Current protection\MNSPTOC2
MNSPTOC2 I2>M(2) 46M(2) SET LD0.MNSPTOC2.CoolTms.setVal ING INT32 SP 50 Cooling time Time required to cool the machine 5...7200 s Settings\Settings\Current protection\MNSPTOC2
MNSPTOC2 I2>M(2) 46M(2) SET LD0.MNSPTOC2.TmMult.setMag.f ASG FLOAT32 SG 5.0 Machine time Mult Machine related time constant 5.0...100.0 Settings\Settings\Current protection\MNSPTOC2
MNSPTOC2 I2>M(2) 46M(2) SET LD0.MNSPTOC2.ARtg.setMag.f ASG FLOAT32 SP 1.00 Rated current Rated current (Ir) of the machine (used only in the IDMT) 0.30...2.00 xIn Settings\Settings\Current protection\MNSPTOC2 IL1TCTR1
MNSPTOC2 I2>M(2) 46M(2) TES LD0.MNSPTOC2.TstOutCmd.Oper.ctlVal INC Enum CO 0 MNSPTOC2 Test control for outputs 0=Reset; 1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE; -9=Activate BLK_RESTART; -10=Deactive BLK_RESTART Tests\Function tests\Current protection
MNSPTOC2 I2>M(2) 46M(2) VER LD0.MNSPTOC2.NamPlt.swRev LPL VisString255 (20) DC A

LOFLPTUC1: Loss of load protection

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
LOFLPTUC1 3I< 37 INP LD0.LOFLPTUC1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block all binary outputs by resetting timers Monitoring\I/O status\Current protection\LOFLPTUC1\Inputs
LOFLPTUC1 3I< 37 OUT LD0.LOFLPTUC1.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Current protection\LOFLPTUC1\Outputs
LOFLPTUC1 3I< 37 OUT LD0.LOFLPTUC1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\LOFLPTUC1\Outputs
LOFLPTUC1 3I< 37 MON LD0.LOFLPTUC1.Beh.stVal INS Enum ST LOFLPTUC1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
LOFLPTUC1 3I< 37 MON LD0.LOFLPTUC1.StrDur.mag.f MV FLOAT32 MX START_DUR Ratio of start time / operate time 0.00...100.00 % Monitoring\I/O status\Current protection\LOFLPTUC1\Monitored data
LOFLPTUC1 3I< 37 SET LD0.LOFLPTUC1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Current protection\LOFLPTUC1
LOFLPTUC1 3I< 37 SET LD0.LOFLPTUC1.StrVal.setMag.f ASG FLOAT32 SG 0.50 Start value high Current setting/Start value high 0.01...1.00 xIn Settings\Settings\Current protection\LOFLPTUC1 IL1TCTR1
LOFLPTUC1 3I< 37 SET LD0.LOFLPTUC1.OpDlTmms.setVal ING INT32 SG 2000 Operate delay time Operate delay time 400...600000 ms Settings\Settings\Current protection\LOFLPTUC1
LOFLPTUC1 3I< 37 SET LD0.LOFLPTUC1.RsDlTmms.setVal ING INT32 SP 20 Reset delay time Reset delay time 0...60000 ms Settings\Settings\Current protection\LOFLPTUC1
LOFLPTUC1 3I< 37 SET LD0.LOFLPTUC1.BlkValA.setMag.f ASG FLOAT32 SG 0.10 Start value low Current setting/Start value low 0.01...0.50 xIn Settings\Settings\Current protection\LOFLPTUC1 IL1TCTR1
LOFLPTUC1 3I< 37 TES LD0.LOFLPTUC1.TstOutCmd.Oper.ctlVal INC Enum CO 0 LOFLPTUC1 Test control for outputs 0=Reset; 1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE Tests\Function tests\Current protection
LOFLPTUC1 3I< 37 VER LD0.LOFLPTUC1.NamPlt.swRev LPL VisString255 (20) DC A

TPSGAPC1

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 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 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 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 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 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

TPMGAPC1

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 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 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 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 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 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

PHPTUV1: Three phase undervoltage protection

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 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 StatNrml PH START Start Monitoring\I/O status\Voltage protection\PHPTUV1\Outputs
PHPTUV1 3U<(1) 27(1) OUT LD0.PHPTUV1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Voltage protection\PHPTUV1\Outputs
PHPTUV1 3U<(1) 27(1) MON LD0.PHPTUV1.Beh.stVal INS Enum ST 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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

PHPTUV2: Three phase undervoltage protection

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 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 StatNrml PH START Start Monitoring\I/O status\Voltage protection\PHPTUV2\Outputs
PHPTUV2 3U<(2) 27(2) OUT LD0.PHPTUV2.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Voltage protection\PHPTUV2\Outputs
PHPTUV2 3U<(2) 27(2) MON LD0.PHPTUV2.Beh.stVal INS Enum ST 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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

PHPTUV3: Three phase undervoltage protection

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
PHPTUV3 3U<(3) 27(3) INP LD0.PHPTUV3.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Voltage protection\PHPTUV3\Inputs
PHPTUV3 3U<(3) 27(3) OUT LD0.PHPTUV3.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Voltage protection\PHPTUV3\Outputs
PHPTUV3 3U<(3) 27(3) OUT LD0.PHPTUV3.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Voltage protection\PHPTUV3\Outputs
PHPTUV3 3U<(3) 27(3) MON LD0.PHPTUV3.Beh.stVal INS Enum ST PHPTUV3 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
PHPTUV3 3U<(3) 27(3) MON LD0.PHPTUV3.StrDur.mag.f MV FLOAT32 MX START_DUR Ratio of start time / operate time 0.00...100.00 % Monitoring\I/O status\Voltage protection\PHPTUV3\Monitored data
PHPTUV3 3U<(3) 27(3) SET LD0.PHPTUV3.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Voltage protection\PHPTUV3
PHPTUV3 3U<(3) 27(3) SET LD0.PHPTUV3.NumPh.setVal ING Enum SP 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\PHPTUV3
PHPTUV3 3U<(3) 27(3) SET LD0.PHPTUV3.StrVal.setMag.f ASG FLOAT32 SG 0.90 Start value Start value 0.05...1.20 xUn Settings\Settings\Voltage protection\PHPTUV3 UL1TVTR1
PHPTUV3 3U<(3) 27(3) SET LD0.PHPTUV3.TmMult.setMag.f ASG FLOAT32 SG 1.0 Time multiplier Time multiplier in IEC/ANSI IDMT curves 0.05...15.0 Settings\Settings\Voltage protection\PHPTUV3
PHPTUV3 3U<(3) 27(3) SET LD0.PHPTUV3.TypRsCrv.setVal ING Enum SG 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\PHPTUV3
PHPTUV3 3U<(3) 27(3) SET LD0.PHPTUV3.TmVCrv.setCharact CURVE Enum SG 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\PHPTUV3
PHPTUV3 3U<(3) 27(3) SET LD0.PHPTUV3.TmVCrv.setParA CURVE FLOAT32 SP 1.000 Curve parameter A Parameter A for customer programmable curve 0.005...200.000 Settings\Settings\Voltage protection\PHPTUV3
PHPTUV3 3U<(3) 27(3) SET LD0.PHPTUV3.TmVCrv.setParB CURVE FLOAT32 SP 1.00 Curve parameter B Parameter B for customer programmable curve 0.50...100.00 Settings\Settings\Voltage protection\PHPTUV3
PHPTUV3 3U<(3) 27(3) SET LD0.PHPTUV3.TmVCrv.setParC CURVE FLOAT32 SP 0.0 Curve parameter C Parameter C for customer programmable curve 0.0...1.0 Settings\Settings\Voltage protection\PHPTUV3
PHPTUV3 3U<(3) 27(3) SET LD0.PHPTUV3.TmVCrv.setParD CURVE FLOAT32 SP 0.000 Curve parameter D Parameter D for customer programmable curve 0.000...60.000 Settings\Settings\Voltage protection\PHPTUV3
PHPTUV3 3U<(3) 27(3) SET LD0.PHPTUV3.TmVCrv.setParE CURVE FLOAT32 SP 1.000 Curve parameter E Parameter E for customer programmable curve 0.000...3.000 Settings\Settings\Voltage protection\PHPTUV3
PHPTUV3 3U<(3) 27(3) SET LD0.PHPTUV3.MinOpTmms.setVal ING INT32 SP 60 Minimum operate time Minimum operate time for IDMT curves 60...60000 ms Settings\Settings\Voltage protection\PHPTUV3
PHPTUV3 3U<(3) 27(3) SET LD0.PHPTUV3.OpDlTmms.setVal ING INT32 SG 60 Operate delay time Operate delay time 60...300000 ms Settings\Settings\Voltage protection\PHPTUV3
PHPTUV3 3U<(3) 27(3) SET LD0.PHPTUV3.RsDlTmms.setVal ING INT32 SP 20 Reset delay time Reset delay time 0...60000 ms Settings\Settings\Voltage protection\PHPTUV3
PHPTUV3 3U<(3) 27(3) SET LD0.PHPTUV3.CrvSatRl.setMag.f ASG FLOAT32 SP 2.0 Curve Sat Relative Tuning parameter to avoid curve discontinuities 0.0...3.0 Settings\Settings\Voltage protection\PHPTUV3
PHPTUV3 3U<(3) 27(3) SET LD0.PHPTUV3.VSel.setVal ING Enum SP 2 Voltage selection Parameter to select phase or phase-to-phase voltages 1=phase-to-earth; 2=phase-to-phase Settings\Settings\Voltage protection\PHPTUV3
PHPTUV3 3U<(3) 27(3) SET LD0.PHPTUV3.BlkVal.setMag.f ASG FLOAT32 SP 0.20 Voltage block value Low level blocking for undervoltage mode 0.05...1.00 xUn Settings\Settings\Voltage protection\PHPTUV3 UL1TVTR1
PHPTUV3 3U<(3) 27(3) SET LD0.PHPTUV3.EnaBlkVal.setVal SPG BOOLEAN SP 1 Enable block value Enable internal blocking Settings\Settings\Voltage protection\PHPTUV3
PHPTUV3 3U<(3) 27(3) SET LD0.PHPTUV3.HysRl.setMag.f ASG FLOAT32 SP 4.0 Relative hysteresis Relative hysteresis for operation 1.0...5.0 % Settings\Settings\Voltage protection\PHPTUV3
PHPTUV3 3U<(3) 27(3) TES LD0.PHPTUV3.TstOutCmd.Oper.ctlVal INC Enum CO 0 PHPTUV3 Test control for outputs 0=Reset; 1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE Tests\Function tests\Voltage protection
PHPTUV3 3U<(3) 27(3) VER LD0.PHPTUV3.NamPlt.swRev LPL VisString255 (20) DC A

PHPTOV1: Three phase overvoltage protection

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 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 StatNrml PH START Start Monitoring\I/O status\Voltage protection\PHPTOV1\Outputs
PHPTOV1 3U>(1) 59(1) OUT LD0.PHPTOV1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Voltage protection\PHPTOV1\Outputs
PHPTOV1 3U>(1) 59(1) MON LD0.PHPTOV1.Beh.stVal INS Enum ST 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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

PHPTOV2: Three phase overvoltage protection

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 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 StatNrml PH START Start Monitoring\I/O status\Voltage protection\PHPTOV2\Outputs
PHPTOV2 3U>(2) 59(2) OUT LD0.PHPTOV2.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Voltage protection\PHPTOV2\Outputs
PHPTOV2 3U>(2) 59(2) MON LD0.PHPTOV2.Beh.stVal INS Enum ST 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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

PHPTOV3: Three phase overvoltage protection

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
PHPTOV3 3U>(3) 59(3) INP LD0.PHPTOV3.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Voltage protection\PHPTOV3\Inputs
PHPTOV3 3U>(3) 59(3) OUT LD0.PHPTOV3.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Voltage protection\PHPTOV3\Outputs
PHPTOV3 3U>(3) 59(3) OUT LD0.PHPTOV3.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Voltage protection\PHPTOV3\Outputs
PHPTOV3 3U>(3) 59(3) MON LD0.PHPTOV3.Beh.stVal INS Enum ST PHPTOV3 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
PHPTOV3 3U>(3) 59(3) MON LD0.PHPTOV3.StrDur.mag.f MV FLOAT32 MX START_DUR Ratio of start time / operate time 0.00...100.00 % Monitoring\I/O status\Voltage protection\PHPTOV3\Monitored data
PHPTOV3 3U>(3) 59(3) SET LD0.PHPTOV3.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Voltage protection\PHPTOV3
PHPTOV3 3U>(3) 59(3) SET LD0.PHPTOV3.NumPh.setVal ING Enum SP 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\PHPTOV3
PHPTOV3 3U>(3) 59(3) SET LD0.PHPTOV3.StrVal.setMag.f ASG FLOAT32 SG 1.10 Start value Start value 0.05...1.60 xUn Settings\Settings\Voltage protection\PHPTOV3 UL1TVTR1
PHPTOV3 3U>(3) 59(3) SET LD0.PHPTOV3.TmMult.setMag.f ASG FLOAT32 SG 1.0 Time multiplier Time multiplier in IEC/ANSI IDMT curves 0.05...15.0 Settings\Settings\Voltage protection\PHPTOV3
PHPTOV3 3U>(3) 59(3) SET LD0.PHPTOV3.TypRsCrv.setVal ING Enum SG 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\PHPTOV3
PHPTOV3 3U>(3) 59(3) SET LD0.PHPTOV3.TmVCrv.setCharact CURVE Enum SG 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\PHPTOV3
PHPTOV3 3U>(3) 59(3) SET LD0.PHPTOV3.TmVCrv.setParA CURVE FLOAT32 SP 1.000 Curve parameter A Parameter A for customer programmable curve 0.005...200.000 Settings\Settings\Voltage protection\PHPTOV3
PHPTOV3 3U>(3) 59(3) SET LD0.PHPTOV3.TmVCrv.setParB CURVE FLOAT32 SP 1.00 Curve parameter B Parameter B for customer programmable curve 0.50...100.00 Settings\Settings\Voltage protection\PHPTOV3
PHPTOV3 3U>(3) 59(3) SET LD0.PHPTOV3.TmVCrv.setParC CURVE FLOAT32 SP 0.0 Curve parameter C Parameter C for customer programmable curve 0.0...1.0 Settings\Settings\Voltage protection\PHPTOV3
PHPTOV3 3U>(3) 59(3) SET LD0.PHPTOV3.TmVCrv.setParD CURVE FLOAT32 SP 0.000 Curve parameter D Parameter D for customer programmable curve 0.000...60.000 Settings\Settings\Voltage protection\PHPTOV3
PHPTOV3 3U>(3) 59(3) SET LD0.PHPTOV3.TmVCrv.setParE CURVE FLOAT32 SP 1.000 Curve parameter E Parameter E for customer programmable curve 0.000...3.000 Settings\Settings\Voltage protection\PHPTOV3
PHPTOV3 3U>(3) 59(3) SET LD0.PHPTOV3.MinOpTmms.setVal ING INT32 SP 40 Minimum operate time Minimum operate time for IDMT curves 40...60000 ms Settings\Settings\Voltage protection\PHPTOV3
PHPTOV3 3U>(3) 59(3) SET LD0.PHPTOV3.OpDlTmms.setVal ING INT32 SG 40 Operate delay time Operate delay time 40...300000 ms Settings\Settings\Voltage protection\PHPTOV3
PHPTOV3 3U>(3) 59(3) SET LD0.PHPTOV3.RsDlTmms.setVal ING INT32 SP 20 Reset delay time Reset delay time 0...60000 ms Settings\Settings\Voltage protection\PHPTOV3
PHPTOV3 3U>(3) 59(3) SET LD0.PHPTOV3.CrvSatRl.setMag.f ASG FLOAT32 SP 2.0 Curve Sat Relative Tuning parameter to avoid curve discontinuities 0.0...3.0 Settings\Settings\Voltage protection\PHPTOV3
PHPTOV3 3U>(3) 59(3) SET LD0.PHPTOV3.VSel.setVal ING Enum SP 2 Voltage selection Parameter to select phase or phase-to-phase voltages 1=phase-to-earth; 2=phase-to-phase Settings\Settings\Voltage protection\PHPTOV3
PHPTOV3 3U>(3) 59(3) SET LD0.PHPTOV3.HysRl.setMag.f ASG FLOAT32 SP 4.0 Relative hysteresis Relative hysteresis for operation 1.0...5.0 % Settings\Settings\Voltage protection\PHPTOV3
PHPTOV3 3U>(3) 59(3) TES LD0.PHPTOV3.TstOutCmd.Oper.ctlVal INC Enum CO 0 PHPTOV3 Test control for outputs 0=Reset; 1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE Tests\Function tests\Voltage protection
PHPTOV3 3U>(3) 59(3) VER LD0.PHPTOV3.NamPlt.swRev LPL VisString255 (20) DC A

VSMSQI1: Sequence voltage measurement

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 MON LD0.VSMSQI1.SeqV.c1.instCVal.mag.f SEQ FLOAT32 MX MeasFlt P U1_INST Positive sequence voltage amplitude, instantaneous 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.cVal.mag.f SEQ FLOAT32 MX 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 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 MeasFlt P U2_INST Negative sequence voltage amplitude, instantaneous 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.cVal.mag.f SEQ FLOAT32 MX 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 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 MeasFlt P U0_INST Zero sequence voltage amplitude, instantaneous 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.cVal.mag.f SEQ FLOAT32 MX 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 A

VMMXU1: Three-phase voltage measurement

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 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 StatUrg PH HIGH_ALARM High alarm Monitoring\I/O status\Measurements\VMMXU1\Outputs
VMMXU1 3U 3U OUT LD0.VMMXU1.HiWrn.stVal SPS BOOLEAN ST StatUrg PH HIGH_WARN High warning Monitoring\I/O status\Measurements\VMMXU1\Outputs
VMMXU1 3U 3U OUT LD0.VMMXU1.LoWrn.stVal SPS BOOLEAN ST StatUrg PH LOW_WARN Low warning Monitoring\I/O status\Measurements\VMMXU1\Outputs
VMMXU1 3U 3U OUT LD0.VMMXU1.LoAlm.stVal SPS BOOLEAN ST StatUrg PH LOW_ALARM Low alarm Monitoring\I/O status\Measurements\VMMXU1\Outputs
VMMXU1 3U 3U MON LD0.VMMXU1.PhV.phsA.cVal.mag.f WYE FLOAT32 MX 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.phsB.cVal.mag.f WYE FLOAT32 MX 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.phsC.cVal.mag.f WYE FLOAT32 MX 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.PPV.phsAB.instCVal.mag.f DEL FLOAT32 MX MeasFlt P U_INST_AB U12 Amplitude, magnitude of instantaneous value 0.00...4.00 xUn Monitoring\I/O status\Measurements\VMMXU1\Monitored data
VMMXU1 3U 3U MON LD0.VMMXU1.PPV.phsAB.cVal.mag.f DEL FLOAT32 MX 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 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 MeasFlt P U_INST_BC U23 Amplitude, magnitude of instantaneous value 0.00...4.00 xUn Monitoring\I/O status\Measurements\VMMXU1\Monitored data
VMMXU1 3U 3U MON LD0.VMMXU1.PPV.phsBC.cVal.mag.f DEL FLOAT32 MX 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 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 MeasFlt P U_INST_CA U31 Amplitude, magnitude of instantaneous value 0.00...4.00 xUn Monitoring\I/O status\Measurements\VMMXU1\Monitored data
VMMXU1 3U 3U MON LD0.VMMXU1.PPV.phsCA.cVal.mag.f DEL FLOAT32 MX 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 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 CFG LD0.VMMXU1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Configuration\Measurements\VMMXU1
VMMXU1 3U 3U CFG LD0.VMMXU1.PPV.phsAB.db DEL INT32U CF 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 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 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 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 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 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 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 A

T1PTTR1: Thermal overload protection, one time constant

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 49F INP LD0.T1PTTR1.Mod.blockIn INC BOOLEAN EX 0 BLK_OPR Block signal for operate outputs Monitoring\I/O status\Current protection\T1PTTR1\Inputs
T1PTTR1 3Ith>F 49F INP LD0.T1PTTR1.InEnaMult.stVal SPS BOOLEAN ST 0 ENA_MULT Enable Current multiplier Monitoring\I/O status\Current protection\T1PTTR1\Inputs
T1PTTR1 3Ith>F 49F INP LD0.T1PTTR1.TmpUsed.mag.f MV FLOAT32 MX 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 49F OUT LD0.T1PTTR1.AlmThm.general ACT BOOLEAN ST StatUrg PH ALARM Thermal Alarm Monitoring\I/O status\Current protection\T1PTTR1\Outputs
T1PTTR1 3Ith>F 49F OUT LD0.T1PTTR1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\T1PTTR1\Outputs
T1PTTR1 3Ith>F 49F OUT LD0.T1PTTR1.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Current protection\T1PTTR1\Outputs
T1PTTR1 3Ith>F 49F OUT LD0.T1PTTR1.InhRec.stVal SPS BOOLEAN ST BLK_CLOSE Thermal overload indicator. To inhibite reclose. Monitoring\I/O status\Current protection\T1PTTR1\Outputs
T1PTTR1 3Ith>F 49F CTR LD0.T1PTTR1.RsTmp.Oper.ctlVal SPC BOOLEAN CO 0 T1PTTR1 temperature Reset T1PTTR1 tempetature 0=Cancel; 1=Clear Clear\Clear
T1PTTR1 3Ith>F 49F MON LD0.T1PTTR1.Beh.stVal INS Enum ST T1PTTR1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
T1PTTR1 3Ith>F 49F MON LD0.T1PTTR1.Tmp.mag.f MV FLOAT32 MX 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 49F MON LD0.T1PTTR1.TmpRl.mag.f MV FLOAT32 MX 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 49F MON LD0.T1PTTR1.TmsOp.stVal INS INT32 ST T_OPERATE Estimated time to operate 0...60000 s Monitoring\I/O status\Current protection\T1PTTR1\Monitored data
T1PTTR1 3Ith>F 49F MON LD0.T1PTTR1.TmsRecEna.stVal INS INT32 ST T_ENA_CLOSE Estimated time to deactivate BLK_CLOSE 0...60000 s Monitoring\I/O status\Current protection\T1PTTR1\Monitored data
T1PTTR1 3Ith>F 49F SET LD0.T1PTTR1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Current protection\T1PTTR1
T1PTTR1 3Ith>F 49F SET LD0.T1PTTR1.TmpMax.setMag.f ASG FLOAT32 SG 90.0 Maximum temperature Temperature level for operate 20.0...200.0 °C Settings\Settings\Current protection\T1PTTR1
T1PTTR1 3Ith>F 49F SET LD0.T1PTTR1.AlmVal.setMag.f ASG FLOAT32 SG 80.0 Alarm value Temperature level for start (alarm) 20.0...150.0 °C Settings\Settings\Current protection\T1PTTR1
T1PTTR1 3Ith>F 49F SET LD0.T1PTTR1.ConsTms.setVal ING INT32 SG 2700 Time constant Time constant of the line in seconds. 60...60000 s Settings\Settings\Current protection\T1PTTR1
T1PTTR1 3Ith>F 49F SET LD0.T1PTTR1.AMult.setVal ING INT32 SG 1 Current multiplier Current multiplier when function is used for parallel lines 1...5 Settings\Settings\Current protection\T1PTTR1
T1PTTR1 3Ith>F 49F SET LD0.T1PTTR1.ARef.setMag.f ASG FLOAT32 SG 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 49F SET LD0.T1PTTR1.EnvTmpSet.setMag.f ASG FLOAT32 SG 40 Env temperature Set Ambient temperature used when no external temperature measurement available -50...100 °C Settings\Settings\Current protection\T1PTTR1
T1PTTR1 3Ith>F 49F SET LD0.T1PTTR1.IniTmp.setMag.f ASG FLOAT32 SP 0.0 Initial temperature Temperature raise above ambient temperature at startup -50.0...100.0 °C Settings\Settings\Current protection\T1PTTR1
T1PTTR1 3Ith>F 49F SET LD0.T1PTTR1.RecTmpSet.setMag.f ASG FLOAT32 SG 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 49F SET LD0.T1PTTR1.TmpR.setMag.f ASG FLOAT32 SG 75.0 Temperature rise End temperature rise above ambient 0.0...200.0 °C Settings\Settings\Current protection\T1PTTR1
T1PTTR1 3Ith>F 49F TES LD0.T1PTTR1.TstOutCmd.Oper.ctlVal INC Enum CO 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 49F VER LD0.T1PTTR1.NamPlt.swRev LPL VisString255 (20) DC D

EFHPTOC1: Non-directional earth-fault protection, high stage

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 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 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 StatNrml PH START Start Monitoring\I/O status\Current protection\EFHPTOC1\Outputs
EFHPTOC1 Io>>(1) 51N-2(1) OUT LD0.EFHPTOC1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\EFHPTOC1\Outputs
EFHPTOC1 Io>>(1) 51N-2(1) MON LD0.EFHPTOC1.Beh.stVal INS Enum ST 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 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 1 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 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 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.TmMult.setMag.f ASG FLOAT32 SG 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 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\EFHPTOC1
EFHPTOC1 Io>>(1) 51N-2(1) SET LD0.EFHPTOC1.TmACrv.setParA CURVE FLOAT32 SP 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 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 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 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 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 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 40 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 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 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 1 Io signal Sel Selection for used Io signal 1=Measured Io; 2=Calculated Io Settings\Settings\Current protection\EFHPTOC1
EFHPTOC1 Io>>(1) 51N-2(1) TES LD0.EFHPTOC1.TstOutCmd.Oper.ctlVal INC Enum CO 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 C

INTRPTEF1: Intermittent earth fault protection

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
INTRPTEF1 Io>->IEF 67NIEF INP LD0.INTRPTEF1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Current protection\INTRPTEF1\Inputs
INTRPTEF1 Io>->IEF 67NIEF OUT LD0.INTRPTEF1.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Current protection\INTRPTEF1\Outputs
INTRPTEF1 Io>->IEF 67NIEF OUT LD0.INTRPTEF1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\INTRPTEF1\Outputs
INTRPTEF1 Io>->IEF 67NIEF OUT LD0.INTRPTEF1.BlkEF.stVal SPS BOOLEAN ST BLK_EF Block signal for EF to indicate oposite direction peaks Monitoring\I/O status\Current protection\INTRPTEF1\Outputs
INTRPTEF1 Io>->IEF 67NIEF MON LD0.INTRPTEF1.Beh.stVal INS Enum ST INTRPTEF1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
INTRPTEF1 Io>->IEF 67NIEF MON LD0.INTRPTEF1.Str.dirGeneral ACD Enum ST StatNrml PH FAULT_DIR Detected fault direction 0=unknown; 1=forward; 2=backward; 3=both Monitoring\I/O status\Current protection\INTRPTEF1\Monitored data
INTRPTEF1 Io>->IEF 67NIEF MON LD0.INTRPTEF1.StrDur.mag.f MV FLOAT32 MX START_DUR Ratio of start time / operate time 0.00...100.00 % Monitoring\I/O status\Current protection\INTRPTEF1\Monitored data
INTRPTEF1 Io>->IEF 67NIEF SET LD0.INTRPTEF1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Current protection\INTRPTEF1
INTRPTEF1 Io>->IEF 67NIEF SET LD0.INTRPTEF1.DirMod.setVal ING Enum SG 2 Directional mode Directional mode, Non-directional / Forward / Reverse 1=Non-directional; 2=Forward; 3=Reverse Settings\Settings\Current protection\INTRPTEF1
INTRPTEF1 Io>->IEF 67NIEF SET LD0.INTRPTEF1.OpDlTmms.setVal ING INT32 SG 500 Operate delay time Operate delay time 40...1200000 ms Settings\Settings\Current protection\INTRPTEF1
INTRPTEF1 Io>->IEF 67NIEF SET LD0.INTRPTEF1.RsDlTmms.setVal ING INT32 SP 500 Reset delay time Reset delay time 0...60000 ms Settings\Settings\Current protection\INTRPTEF1
INTRPTEF1 Io>->IEF 67NIEF SET LD0.INTRPTEF1.PkCntLim.setVal ING INT32 SP 2 Peak counter limit Min requirement for peak counter before start in IEF mode 2...20 Settings\Settings\Current protection\INTRPTEF1
INTRPTEF1 Io>->IEF 67NIEF SET LD0.INTRPTEF1.OpModTEF.setVal ING Enum SP 1 Operation mode Operation criteria 1=Intermittent EF; 2=Transient EF Settings\Settings\Current protection\INTRPTEF1
INTRPTEF1 Io>->IEF 67NIEF SET LD0.INTRPTEF1.GndStr.setMag.f ASG FLOAT32 SG 0.01 Voltage start value Voltage start value for transient EF 0.01...0.50 xUn Settings\Settings\Current protection\INTRPTEF1 RESTVTR1
INTRPTEF1 Io>->IEF 67NIEF TES LD0.INTRPTEF1.TstOutCmd.Oper.ctlVal INC Enum CO 0 INTRPTEF1 Test control for outputs 0=Reset; 1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE; 31=Activate BLK_EF; 32=Deactive BLK_EF Tests\Function tests\Current protection
INTRPTEF1 Io>->IEF 67NIEF VER LD0.INTRPTEF1.NamPlt.swRev LPL VisString255 (20) DC B

ROVPTOV1: Residual overvoltage protection

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 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 StatNrml PH START Start Monitoring\I/O status\Voltage protection\ROVPTOV1\Outputs
ROVPTOV1 Uo>(1) 59G(1) OUT LD0.ROVPTOV1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Voltage protection\ROVPTOV1\Outputs
ROVPTOV1 Uo>(1) 59G(1) MON LD0.ROVPTOV1.Beh.stVal INS Enum ST 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 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 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Voltage protection\ROVPTOV1
ROVPTOV1 Uo>(1) 59G(1) SET LD0.ROVPTOV1.OpDlTmms.setVal ING INT32 SG 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 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 1 Uo signal Sel Selection for used Uo signal 1=Measured Uo; 2=Calculated Uo Settings\Settings\Voltage protection\ROVPTOV1
ROVPTOV1 Uo>(1) 59G(1) TES LD0.ROVPTOV1.TstOutCmd.Oper.ctlVal INC Enum CO 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

ROVPTOV2: Residual overvoltage protection

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 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 StatNrml PH START Start Monitoring\I/O status\Voltage protection\ROVPTOV2\Outputs
ROVPTOV2 Uo>(2) 59G(2) OUT LD0.ROVPTOV2.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Voltage protection\ROVPTOV2\Outputs
ROVPTOV2 Uo>(2) 59G(2) MON LD0.ROVPTOV2.Beh.stVal INS Enum ST 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 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 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Voltage protection\ROVPTOV2
ROVPTOV2 Uo>(2) 59G(2) SET LD0.ROVPTOV2.OpDlTmms.setVal ING INT32 SG 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 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 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 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

ROVPTOV3: Residual overvoltage protection

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
ROVPTOV3 Uo>(3) 59G(3) INP LD0.ROVPTOV3.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Voltage protection\ROVPTOV3\Inputs
ROVPTOV3 Uo>(3) 59G(3) OUT LD0.ROVPTOV3.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Voltage protection\ROVPTOV3\Outputs
ROVPTOV3 Uo>(3) 59G(3) OUT LD0.ROVPTOV3.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Voltage protection\ROVPTOV3\Outputs
ROVPTOV3 Uo>(3) 59G(3) MON LD0.ROVPTOV3.Beh.stVal INS Enum ST ROVPTOV3 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
ROVPTOV3 Uo>(3) 59G(3) MON LD0.ROVPTOV3.StrDur.mag.f MV FLOAT32 MX START_DUR Ratio of start time / operate time 0.00...100.00 % Monitoring\I/O status\Voltage protection\ROVPTOV3\Monitored data
ROVPTOV3 Uo>(3) 59G(3) SET LD0.ROVPTOV3.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Voltage protection\ROVPTOV3
ROVPTOV3 Uo>(3) 59G(3) SET LD0.ROVPTOV3.OpDlTmms.setVal ING INT32 SG 40 Operate delay time Operate delay time 40...300000 ms Settings\Settings\Voltage protection\ROVPTOV3
ROVPTOV3 Uo>(3) 59G(3) SET LD0.ROVPTOV3.RsDlTmms.setVal ING INT32 SP 20 Reset delay time Reset delay time 0...60000 ms Settings\Settings\Voltage protection\ROVPTOV3
ROVPTOV3 Uo>(3) 59G(3) SET LD0.ROVPTOV3.VResSigSel.setVal ING Enum SP 1 Uo signal Sel Selection for used Uo signal 1=Measured Uo; 2=Calculated Uo Settings\Settings\Voltage protection\ROVPTOV3
ROVPTOV3 Uo>(3) 59G(3) TES LD0.ROVPTOV3.TstOutCmd.Oper.ctlVal INC Enum CO 0 ROVPTOV3 Test control for outputs 0=Reset; 1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE Tests\Function tests\Voltage protection
ROVPTOV3 Uo>(3) 59G(3) VER LD0.ROVPTOV3.NamPlt.swRev LPL VisString255 (20) DC B

EFLPTOC1: Non-directional earth-fault protection, low stage

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 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 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 StatNrml PH START Start Monitoring\I/O status\Current protection\EFLPTOC1\Outputs
EFLPTOC1 Io>(1) 51N-1(1) OUT LD0.EFLPTOC1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\EFLPTOC1\Outputs
EFLPTOC1 Io>(1) 51N-1(1) MON LD0.EFLPTOC1.Beh.stVal INS Enum ST 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 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 1 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 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 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.TmMult.setMag.f ASG FLOAT32 SG 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 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\EFLPTOC1
EFLPTOC1 Io>(1) 51N-1(1) SET LD0.EFLPTOC1.TmACrv.setParA CURVE FLOAT32 SP 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 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 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 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 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 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 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 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 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 1 Io signal Sel Selection for used Io signal 1=Measured Io; 2=Calculated Io Settings\Settings\Current protection\EFLPTOC1
EFLPTOC1 Io>(1) 51N-1(1) TES LD0.EFLPTOC1.TstOutCmd.Oper.ctlVal INC Enum CO 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 D

EFLPTOC2: Non-directional earth-fault protection, low stage

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
EFLPTOC2 Io>(2) 51N-1(2) INP LD0.EFLPTOC2.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Current protection\EFLPTOC2\Inputs
EFLPTOC2 Io>(2) 51N-1(2) INP LD0.EFLPTOC2.InEnaMult.stVal SPS BOOLEAN ST 0 ENA_MULT Enable signal for current multiplier Monitoring\I/O status\Current protection\EFLPTOC2\Inputs
EFLPTOC2 Io>(2) 51N-1(2) OUT LD0.EFLPTOC2.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Current protection\EFLPTOC2\Outputs
EFLPTOC2 Io>(2) 51N-1(2) OUT LD0.EFLPTOC2.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\EFLPTOC2\Outputs
EFLPTOC2 Io>(2) 51N-1(2) MON LD0.EFLPTOC2.Beh.stVal INS Enum ST EFLPTOC2 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
EFLPTOC2 Io>(2) 51N-1(2) MON LD0.EFLPTOC2.StrDur.mag.f MV FLOAT32 MX START_DUR Ratio of start time / operate time 0.00...100.00 % Monitoring\I/O status\Current protection\EFLPTOC2\Monitored data
EFLPTOC2 Io>(2) 51N-1(2) SET LD0.EFLPTOC2.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Current protection\EFLPTOC2
EFLPTOC2 Io>(2) 51N-1(2) SET LD0.EFLPTOC2.AMeasMod.setVal ING Enum SP 2 Measurement mode Selects used measurement mode 1=RMS; 2=DFT; 3=Peak-to-Peak Settings\Settings\Current protection\EFLPTOC2
EFLPTOC2 Io>(2) 51N-1(2) SET LD0.EFLPTOC2.StrValMult.setMag.f ASG FLOAT32 SG 1.0 Start value Mult Multiplier for scaling the start value 0.8...10.0 Settings\Settings\Current protection\EFLPTOC2
EFLPTOC2 Io>(2) 51N-1(2) SET LD0.EFLPTOC2.TmMult.setMag.f ASG FLOAT32 SG 1.00 Time multiplier Time multiplier in IEC/ANSI IDMT curves 0.05...15.00 Settings\Settings\Current protection\EFLPTOC2
EFLPTOC2 Io>(2) 51N-1(2) SET LD0.EFLPTOC2.TmACrv.setCharact CURVE Enum SG 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\EFLPTOC2
EFLPTOC2 Io>(2) 51N-1(2) SET LD0.EFLPTOC2.TmACrv.setParA CURVE FLOAT32 SP 28.2000 Curve parameter A Parameter A for customer programmable curve 0.0086...120.0000 Settings\Settings\Current protection\EFLPTOC2
EFLPTOC2 Io>(2) 51N-1(2) SET LD0.EFLPTOC2.TmACrv.setParB CURVE FLOAT32 SP 0.1217 Curve parameter B Parameter B for customer programmable curve 0.0000...0.7120 Settings\Settings\Current protection\EFLPTOC2
EFLPTOC2 Io>(2) 51N-1(2) SET LD0.EFLPTOC2.TmACrv.setParC CURVE FLOAT32 SP 2.00 Curve parameter C Parameter C for customer programmable curve 0.02...2.00 Settings\Settings\Current protection\EFLPTOC2
EFLPTOC2 Io>(2) 51N-1(2) SET LD0.EFLPTOC2.TmACrv.setParD CURVE FLOAT32 SP 29.10 Curve parameter D Parameter D for customer programmable curve 0.46...30.00 Settings\Settings\Current protection\EFLPTOC2
EFLPTOC2 Io>(2) 51N-1(2) SET LD0.EFLPTOC2.TmACrv.setParE CURVE FLOAT32 SP 1.0 Curve parameter E Parameter E for customer programmable curve 0.0...1.0 Settings\Settings\Current protection\EFLPTOC2
EFLPTOC2 Io>(2) 51N-1(2) SET LD0.EFLPTOC2.MinOpTmms.setVal ING INT32 SP 20 Minimum operate time Minimum operate time for IDMT curves 20...60000 ms Settings\Settings\Current protection\EFLPTOC2
EFLPTOC2 Io>(2) 51N-1(2) SET LD0.EFLPTOC2.OpDlTmms.setVal ING INT32 SG 40 Operate delay time Operate delay time 40...200000 ms Settings\Settings\Current protection\EFLPTOC2
EFLPTOC2 Io>(2) 51N-1(2) SET LD0.EFLPTOC2.RsDlTmms.setVal ING INT32 SP 20 Reset delay time Reset delay time 0...60000 ms Settings\Settings\Current protection\EFLPTOC2
EFLPTOC2 Io>(2) 51N-1(2) SET LD0.EFLPTOC2.TypRsCrv.setVal ING Enum SG 1 Type of reset curve Selection of reset curve type 1=Immediate; 2=Def time reset; 3=Inverse reset Settings\Settings\Current protection\EFLPTOC2
EFLPTOC2 Io>(2) 51N-1(2) SET LD0.EFLPTOC2.AResSigSel.setVal ING Enum SP 1 Io signal Sel Selection for used Io signal 1=Measured Io; 2=Calculated Io Settings\Settings\Current protection\EFLPTOC2
EFLPTOC2 Io>(2) 51N-1(2) TES LD0.EFLPTOC2.TstOutCmd.Oper.ctlVal INC Enum CO 0 EFLPTOC2 Test control for outputs 0=Reset; 1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE Tests\Function tests\Current protection
EFLPTOC2 Io>(2) 51N-1(2) VER LD0.EFLPTOC2.NamPlt.swRev LPL VisString255 (20) DC D

EFIPTOC1: Non-directional earth-fault protection, inst. stage

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>>> 50N/51N INP LD0.EFIPTOC1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Current protection\EFIPTOC1\Inputs
EFIPTOC1 Io>>> 50N/51N INP LD0.EFIPTOC1.InEnaMult.stVal SPS BOOLEAN ST 0 ENA_MULT Enable signal for current multiplier Monitoring\I/O status\Current protection\EFIPTOC1\Inputs
EFIPTOC1 Io>>> 50N/51N OUT LD0.EFIPTOC1.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Current protection\EFIPTOC1\Outputs
EFIPTOC1 Io>>> 50N/51N OUT LD0.EFIPTOC1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\EFIPTOC1\Outputs
EFIPTOC1 Io>>> 50N/51N MON LD0.EFIPTOC1.Beh.stVal INS Enum ST EFIPTOC1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
EFIPTOC1 Io>>> 50N/51N MON LD0.EFIPTOC1.StrDur.mag.f MV FLOAT32 MX START_DUR Ratio of start time / operate time 0.00...100.00 % Monitoring\I/O status\Current protection\EFIPTOC1\Monitored data
EFIPTOC1 Io>>> 50N/51N SET LD0.EFIPTOC1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Current protection\EFIPTOC1
EFIPTOC1 Io>>> 50N/51N SET LD0.EFIPTOC1.StrValMult.setMag.f ASG FLOAT32 SG 1.0 Start value Mult Multiplier for scaling the start value 0.8...10.0 Settings\Settings\Current protection\EFIPTOC1
EFIPTOC1 Io>>> 50N/51N SET LD0.EFIPTOC1.OpDlTmms.setVal ING INT32 SG 20 Operate delay time Operate delay time 20...200000 ms Settings\Settings\Current protection\EFIPTOC1
EFIPTOC1 Io>>> 50N/51N SET LD0.EFIPTOC1.RsDlTmms.setVal ING INT32 SP 20 Reset delay time Reset delay time 0...60000 ms Settings\Settings\Current protection\EFIPTOC1
EFIPTOC1 Io>>> 50N/51N SET LD0.EFIPTOC1.AResSigSel.setVal ING Enum SP 1 Io signal Sel Selection for used Io signal 1=Measured Io; 2=Calculated Io Settings\Settings\Current protection\EFIPTOC1
EFIPTOC1 Io>>> 50N/51N TES LD0.EFIPTOC1.TstOutCmd.Oper.ctlVal INC Enum CO 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>>> 50N/51N VER LD0.EFIPTOC1.NamPlt.swRev LPL VisString255 (20) DC D

SEQRFUF1: Fuse failure supervision

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 60 INP LD0.SEQRFUF1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block of function Monitoring\I/O status\Condition monitoring\SEQRFUF1\Inputs
SEQRFUF1 FUSEF 60 INP LD0.SEQRFUF1.InPosCls.stVal SPS BOOLEAN ST 0 CB_CLOSED Active when circuit breaker is closed Monitoring\I/O status\Condition monitoring\SEQRFUF1\Inputs
SEQRFUF1 FUSEF 60 INP LD0.SEQRFUF1.InDCPosOpn.stVal SPS BOOLEAN ST 0 DISCON_OPEN Active when line disconnector is open Monitoring\I/O status\Condition monitoring\SEQRFUF1\Inputs
SEQRFUF1 FUSEF 60 INP LD0.SEQRFUF1.InMCBPsOpn.stVal SPS BOOLEAN ST 0 MINCB_OPEN Active when external MCB opens protected voltage circuit Monitoring\I/O status\Condition monitoring\SEQRFUF1\Inputs
SEQRFUF1 FUSEF 60 OUT LD0.SEQRFUF1.Str.general ACD BOOLEAN ST StatIed PH FUSEF_U General start of function Monitoring\I/O status\Condition monitoring\SEQRFUF1\Outputs
SEQRFUF1 FUSEF 60 OUT LD0.SEQRFUF1.Str3Ph.general ACD BOOLEAN ST StatIed PH FUSEF_3PH Three-phase start of function Monitoring\I/O status\Condition monitoring\SEQRFUF1\Outputs
SEQRFUF1 FUSEF 60 MON LD0.SEQRFUF1.Beh.stVal INS Enum ST SEQRFUF1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
SEQRFUF1 FUSEF 60 CFG LD0.SEQRFUF1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Configuration\Condition monitoring\SEQRFUF1
SEQRFUF1 FUSEF 60 CFG LD0.SEQRFUF1.BlkValA.setMag.f ASG FLOAT32 SP 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 60 CFG LD0.SEQRFUF1.NgSeqLevA.setMag.f ASG FLOAT32 SP 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 60 CFG LD0.SEQRFUF1.ChgRteA.setMag.f ASG FLOAT32 SP 0.15 Current change rate Operate level of change in phase current 0.01...0.50 xIn Configuration\Condition monitoring\SEQRFUF1 IL1TCTR1
SEQRFUF1 FUSEF 60 CFG LD0.SEQRFUF1.ChgRteEna.setVal SPG BOOLEAN SP 0 Change rate enable Enabling operation of change based function Configuration\Condition monitoring\SEQRFUF1
SEQRFUF1 FUSEF 60 CFG LD0.SEQRFUF1.ChgRteV.setMag.f ASG FLOAT32 SP 0.60 Voltage change rate Operate level of change in phase voltage 0.50...0.90 xUn Configuration\Condition monitoring\SEQRFUF1 UL1TVTR1
SEQRFUF1 FUSEF 60 CFG LD0.SEQRFUF1.EnaSealIn.setVal SPG BOOLEAN SP 0 Enable seal in Enabling seal in functionality Configuration\Condition monitoring\SEQRFUF1
SEQRFUF1 FUSEF 60 CFG LD0.SEQRFUF1.BlkValV.setMag.f ASG FLOAT32 SP 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 60 CFG LD0.SEQRFUF1.SealInV.setMag.f ASG FLOAT32 SP 0.70 Seal in voltage Operate level of seal-in phase voltage 0.01...1.00 xUn Configuration\Condition monitoring\SEQRFUF1 UL1TVTR1
SEQRFUF1 FUSEF 60 CFG LD0.SEQRFUF1.NgSeqLevV.setMag.f ASG FLOAT32 SP 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 60 CFG LD0.SEQRFUF1.DeaLinValA.setMag.f ASG FLOAT32 SP 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 60 TES LD0.SEQRFUF1.TstOutCmd.Oper.ctlVal INC Enum CO 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 60 VER LD0.SEQRFUF1.NamPlt.swRev LPL VisString255 (20) DC A

PEMMXU1: Three-phase power and energy measurement

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 0 RSTACM Reset of accumulated energy reading Monitoring\I/O status\Measurements\PEMMXU1\Inputs
PEMMXU1 P,E P,E CTR LD0.PEMMTR1.SupDmdRs.Oper.ctlVal SPC BOOLEAN CO 0 PEMMXU1 acc.energy Reset of accumulated energy reading 0=Cancel; 1=Clear Clear\Clear
PEMMXU1 P,E P,E MON LD0.PEMMXU1.TotPF.instMag.f MV FLOAT32 MX MeasFlt P PF_INST Power factor, magnitude of instantaneous value -1.00...1.00 Monitoring\I/O status\Measurements\PEMMXU1\Monitored data
PEMMXU1 P,E P,E MON LD0.PEMMXU1.TotPF.mag.f MV FLOAT32 MX 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 CFG LD0.PEMMXU1.Mod.Oper.ctlVal INC Enum CO 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 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 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 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 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 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 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 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 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 A
PEMMXU1 P,E P,E VER LD0.PEMMTR1.NamPlt.swRev LPL VisString255 (20) DC A

DPHHPDOC1: Three-phase directional overcurrent, high stage

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>>-> 67-2 INP LD0.DPHHPTOC1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Current protection\DPHHPDOC1\Inputs
DPHHPDOC1 3I>>-> 67-2 INP LD0.DPHHPTOC1.InEnaMult.stVal SPS BOOLEAN ST 0 ENA_MULT Enable signal for current multiplier Monitoring\I/O status\Current protection\DPHHPDOC1\Inputs
DPHHPDOC1 3I>>-> 67-2 INP LD0.DPHHPTOC1.NonDir.stVal SPS BOOLEAN ST 0 NON_DIR Forces protection to non-directional Monitoring\I/O status\Current protection\DPHHPDOC1\Inputs
DPHHPDOC1 3I>>-> 67-2 OUT LD0.DPHHPTOC1.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Current protection\DPHHPDOC1\Outputs
DPHHPDOC1 3I>>-> 67-2 OUT LD0.DPHHPTOC1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\DPHHPDOC1\Outputs
DPHHPDOC1 3I>>-> 67-2 MON LD0.DPHHPTOC1.Beh.stVal INS Enum ST DPHHPDOC1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
DPHHPDOC1 3I>>-> 67-2 MON LD0.DPHHPTOC1.Str.dirGeneral ACD Enum ST StatNrml PH FAULT_DIR Detected fault direction 0=unknown; 1=forward; 2=backward; 3=both Monitoring\I/O status\Current protection\DPHHPDOC1\Monitored data
DPHHPDOC1 3I>>-> 67-2 MON LD0.DPHHPTOC1.StrDur.mag.f MV FLOAT32 MX START_DUR Ratio of start time / operate time 0.00...100.00 % Monitoring\I/O status\Current protection\DPHHPDOC1\Monitored data
DPHHPDOC1 3I>>-> 67-2 MON LD0.DPHHRDIR1.Dir.dirGeneral ACD Enum ST DIRECTION Direction information 0=unknown; 1=forward; 2=backward; 3=both Monitoring\I/O status\Current protection\DPHHPDOC1\Monitored data
DPHHPDOC1 3I>>-> 67-2 MON LD0.DPHHRDIR1.Dir.dirPhsA ACD Enum ST DIR_A Direction phase A 0=unknown; 1=forward; 2=backward; 3=both Monitoring\I/O status\Current protection\DPHHPDOC1\Monitored data
DPHHPDOC1 3I>>-> 67-2 MON LD0.DPHHRDIR1.Dir.dirPhsB ACD Enum ST DIR_B Direction phase B 0=unknown; 1=forward; 2=backward; 3=both Monitoring\I/O status\Current protection\DPHHPDOC1\Monitored data
DPHHPDOC1 3I>>-> 67-2 MON LD0.DPHHRDIR1.Dir.dirPhsC ACD Enum ST DIR_C Direction phase C 0=unknown; 1=forward; 2=backward; 3=both Monitoring\I/O status\Current protection\DPHHPDOC1\Monitored data
DPHHPDOC1 3I>>-> 67-2 MON LD0.DPHHRDIR1.OpCrhAngA.mag.f MV FLOAT32 MX ANGLE_A Calculated angle difference, Phase A -180.00...180.00 deg Monitoring\I/O status\Current protection\DPHHPDOC1\Monitored data
DPHHPDOC1 3I>>-> 67-2 MON LD0.DPHHRDIR1.OpCrhAngB.mag.f MV FLOAT32 MX ANGLE_B Calculated angle difference, Phase B -180.00...180.00 deg Monitoring\I/O status\Current protection\DPHHPDOC1\Monitored data
DPHHPDOC1 3I>>-> 67-2 MON LD0.DPHHRDIR1.OpCrhAngC.mag.f MV FLOAT32 MX ANGLE_C Calculated angle difference, Phase C -180.00...180.00 deg Monitoring\I/O status\Current protection\DPHHPDOC1\Monitored data
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHPTOC1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Current protection\DPHHPDOC1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHPTOC1.NumPh.setVal ING Enum SP 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>>-> 67-2 SET LD0.DPHHPTOC1.StrValMult.setMag.f ASG FLOAT32 SG 1.0 Start value Mult Multiplier for scaling the start value 0.8...10.0 Settings\Settings\Current protection\DPHHPDOC1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHPTOC1.StrVal.setMag.f ASG FLOAT32 SG 0.10 Start value Start value 0.10...40.00 xIn Settings\Settings\Current protection\DPHHPDOC1 IL1TCTR1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHPTOC1.TmMult.setMag.f ASG FLOAT32 SG 1.00 Time multiplier Time multiplier in IEC/ANSI IDMT curves 0.05...15.00 Settings\Settings\Current protection\DPHHPDOC1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHPTOC1.TypRsCrv.setVal ING Enum SG 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>>-> 67-2 SET LD0.DPHHPTOC1.TmACrv.setCharact CURVE Enum SG 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>>-> 67-2 SET LD0.DPHHPTOC1.TmACrv.setParA CURVE FLOAT32 SP 28.2000 Curve parameter A Parameter A for customer programmable curve 0.0086...120.0000 Settings\Settings\Current protection\DPHHPDOC1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHPTOC1.TmACrv.setParB CURVE FLOAT32 SP 0.1217 Curve parameter B Parameter B for customer programmable curve 0.0000...0.7120 Settings\Settings\Current protection\DPHHPDOC1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHPTOC1.TmACrv.setParC CURVE FLOAT32 SP 2.00 Curve parameter C Parameter C for customer programmable curve 0.02...2.00 Settings\Settings\Current protection\DPHHPDOC1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHPTOC1.TmACrv.setParD CURVE FLOAT32 SP 29.10 Curve parameter D Parameter D for customer programmable curve 0.46...30.00 Settings\Settings\Current protection\DPHHPDOC1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHPTOC1.TmACrv.setParE CURVE FLOAT32 SP 1.0 Curve parameter E Parameter E for customer programmable curve 0.0...1.0 Settings\Settings\Current protection\DPHHPDOC1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHPTOC1.MinOpTmms.setVal ING INT32 SP 20 Minimum operate time Minimum operate time for IDMT curves 20...60000 ms Settings\Settings\Current protection\DPHHPDOC1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHPTOC1.OpDlTmms.setVal ING INT32 SG 40 Operate delay time Operate delay time 40...200000 ms Settings\Settings\Current protection\DPHHPDOC1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHPTOC1.RsDlTmms.setVal ING INT32 SP 20 Reset delay time Reset delay time 0...60000 ms Settings\Settings\Current protection\DPHHPDOC1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHPTOC1.AMeasMod.setVal ING Enum SP 2 Measurement mode Selects used measurement mode 1=RMS; 2=DFT; 3=Peak-to-Peak Settings\Settings\Current protection\DPHHPDOC1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHPTOC1.DirMod.setVal ING Enum SG 2 Directional mode Directional mode 1=Non-directional; 2=Forward; 3=Reverse Settings\Settings\Current protection\DPHHPDOC1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHPTOC1.AllwNonDir.setVal SPG BOOLEAN SP 0 Allow Non Dir Allows prot activation as non-dir when dir info is invalid Settings\Settings\Current protection\DPHHPDOC1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHRDIR1.ChrAng.setMag.f ASG FLOAT32 SG +60 Characteristic angle Characteristic angle -179...180 deg Settings\Settings\Current protection\DPHHPDOC1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHRDIR1.MaxFwdAng.setMag.f ASG FLOAT32 SG 80 Max forward angle Maximum phase angle in forward direction 0...90 deg Settings\Settings\Current protection\DPHHPDOC1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHRDIR1.MinFwdAng.setMag.f ASG FLOAT32 SG 80 Min forward angle Minimum phase angle in forward direction 0...90 deg Settings\Settings\Current protection\DPHHPDOC1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHRDIR1.MaxRvAng.setMag.f ASG FLOAT32 SG 80 Max reverse angle Maximum phase angle in reverse direction 0...90 deg Settings\Settings\Current protection\DPHHPDOC1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHRDIR1.MinRvAng.setMag.f ASG FLOAT32 SG 80 Min reverse angle Minimum phase angle in reverse direction 0...90 deg Settings\Settings\Current protection\DPHHPDOC1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHRDIR1.BlkValA.setMag.f ASG FLOAT32 SP 0.01 Min operate current Minimum operating current 0.01...1.00 xIn Settings\Settings\Current protection\DPHHPDOC1 IL1TCTR1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHRDIR1.BlkValV.setMag.f ASG FLOAT32 SP 0.01 Min operate voltage Minimum operating voltage 0.01...1.00 xUn Settings\Settings\Current protection\DPHHPDOC1 UL1TVTR1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHRDIR1.FicTmms.setVal ING INT32 SG 40 Voltage Mem time Voltage memory time 0...3000 ms Settings\Settings\Current protection\DPHHPDOC1
DPHHPDOC1 3I>>-> 67-2 SET LD0.DPHHRDIR1.PolQty.setVal ING Enum SG 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>>-> 67-2 TES LD0.DPHHPTOC1.TstOutCmd.Oper.ctlVal INC Enum CO 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>>-> 67-2 VER LD0.DPHHPTOC1.NamPlt.swRev LPL VisString255 (20) DC B
DPHHPDOC1 3I>>-> 67-2 VER LD0.DPHHRDIR1.NamPlt.swRev LPL VisString255 (20) DC B

DPHLPDOC1: Three-phase directional overcurrent, low stage

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 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 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 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 StatNrml PH START Start Monitoring\I/O status\Current protection\DPHLPDOC1\Outputs
DPHLPDOC1 3I>->(1) 67-1(1) OUT LD0.DPHLPTOC1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\DPHLPDOC1\Outputs
DPHLPDOC1 3I>->(1) 67-1(1) MON LD0.DPHLPTOC1.Beh.stVal INS Enum ST 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 StatNrml PH 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 +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 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 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 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 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 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 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 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 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 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 B
DPHLPDOC1 3I>->(1) 67-1(1) VER LD0.DPHLRDIR1.NamPlt.swRev LPL VisString255 (20) DC B

DPHLPDOC2: Three-phase directional overcurrent, low stage

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
DPHLPDOC2 3I>->(2) 67-1(2) INP LD0.DPHLPTOC2.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Current protection\DPHLPDOC2\Inputs
DPHLPDOC2 3I>->(2) 67-1(2) INP LD0.DPHLPTOC2.InEnaMult.stVal SPS BOOLEAN ST 0 ENA_MULT Enable signal for current multiplier Monitoring\I/O status\Current protection\DPHLPDOC2\Inputs
DPHLPDOC2 3I>->(2) 67-1(2) INP LD0.DPHLPTOC2.NonDir.stVal SPS BOOLEAN ST 0 NON_DIR Forces protection to non-directional Monitoring\I/O status\Current protection\DPHLPDOC2\Inputs
DPHLPDOC2 3I>->(2) 67-1(2) OUT LD0.DPHLPTOC2.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Current protection\DPHLPDOC2\Outputs
DPHLPDOC2 3I>->(2) 67-1(2) OUT LD0.DPHLPTOC2.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\DPHLPDOC2\Outputs
DPHLPDOC2 3I>->(2) 67-1(2) MON LD0.DPHLPTOC2.Beh.stVal INS Enum ST DPHLPDOC2 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
DPHLPDOC2 3I>->(2) 67-1(2) MON LD0.DPHLPTOC2.Str.dirGeneral ACD Enum ST StatNrml PH FAULT_DIR Detected fault direction 0=unknown; 1=forward; 2=backward; 3=both Monitoring\I/O status\Current protection\DPHLPDOC2\Monitored data
DPHLPDOC2 3I>->(2) 67-1(2) MON LD0.DPHLPTOC2.StrDur.mag.f MV FLOAT32 MX START_DUR Ratio of start time / operate time 0.00...100.00 % Monitoring\I/O status\Current protection\DPHLPDOC2\Monitored data
DPHLPDOC2 3I>->(2) 67-1(2) MON LD0.DPHLRDIR2.Dir.dirGeneral ACD Enum ST DIRECTION Direction information 0=unknown; 1=forward; 2=backward; 3=both Monitoring\I/O status\Current protection\DPHLPDOC2\Monitored data
DPHLPDOC2 3I>->(2) 67-1(2) MON LD0.DPHLRDIR2.Dir.dirPhsA ACD Enum ST DIR_A Direction phase A 0=unknown; 1=forward; 2=backward; 3=both Monitoring\I/O status\Current protection\DPHLPDOC2\Monitored data
DPHLPDOC2 3I>->(2) 67-1(2) MON LD0.DPHLRDIR2.Dir.dirPhsB ACD Enum ST DIR_B Direction phase B 0=unknown; 1=forward; 2=backward; 3=both Monitoring\I/O status\Current protection\DPHLPDOC2\Monitored data
DPHLPDOC2 3I>->(2) 67-1(2) MON LD0.DPHLRDIR2.Dir.dirPhsC ACD Enum ST DIR_C Direction phase C 0=unknown; 1=forward; 2=backward; 3=both Monitoring\I/O status\Current protection\DPHLPDOC2\Monitored data
DPHLPDOC2 3I>->(2) 67-1(2) MON LD0.DPHLRDIR2.OpCrhAngA.mag.f MV FLOAT32 MX ANGLE_A Calculated angle difference, Phase A -180.00...180.00 deg Monitoring\I/O status\Current protection\DPHLPDOC2\Monitored data
DPHLPDOC2 3I>->(2) 67-1(2) MON LD0.DPHLRDIR2.OpCrhAngB.mag.f MV FLOAT32 MX ANGLE_B Calculated angle difference, Phase B -180.00...180.00 deg Monitoring\I/O status\Current protection\DPHLPDOC2\Monitored data
DPHLPDOC2 3I>->(2) 67-1(2) MON LD0.DPHLRDIR2.OpCrhAngC.mag.f MV FLOAT32 MX ANGLE_C Calculated angle difference, Phase C -180.00...180.00 deg Monitoring\I/O status\Current protection\DPHLPDOC2\Monitored data
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLPTOC2.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Current protection\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLPTOC2.NumPh.setVal ING Enum SP 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\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLPTOC2.StrValMult.setMag.f ASG FLOAT32 SG 1.0 Start value Mult Multiplier for scaling the start value 0.8...10.0 Settings\Settings\Current protection\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLPTOC2.StrVal.setMag.f ASG FLOAT32 SG 0.05 Start value Start value 0.05...5.00 xIn Settings\Settings\Current protection\DPHLPDOC2 IL1TCTR1
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLPTOC2.TmMult.setMag.f ASG FLOAT32 SG 1.0 Time multiplier Time multiplier in IEC/ANSI IDMT curves 0.05...15.0 Settings\Settings\Current protection\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLPTOC2.TypRsCrv.setVal ING Enum SG 1 Type of reset curve Selection of reset curve type 1=Immediate; 2=Def time reset; 3=Inverse reset Settings\Settings\Current protection\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLPTOC2.TmACrv.setCharact CURVE Enum SG 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\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLPTOC2.TmACrv.setParA CURVE FLOAT32 SP 28.2000 Curve parameter A Parameter A for customer programmable curve 0.0086...120.0000 Settings\Settings\Current protection\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLPTOC2.TmACrv.setParB CURVE FLOAT32 SP 0.1217 Curve parameter B Parameter B for customer programmable curve 0.0000...0.7120 Settings\Settings\Current protection\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLPTOC2.TmACrv.setParC CURVE FLOAT32 SP 2.00 Curve parameter C Parameter C for customer programmable curve 0.02...2.00 Settings\Settings\Current protection\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLPTOC2.TmACrv.setParD CURVE FLOAT32 SP 29.10 Curve parameter D Parameter D for customer programmable curve 0.46...30.00 Settings\Settings\Current protection\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLPTOC2.TmACrv.setParE CURVE FLOAT32 SP 1.0 Curve parameter E Parameter E for customer programmable curve 0.0...1.0 Settings\Settings\Current protection\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLPTOC2.MinOpTmms.setVal ING INT32 SP 20 Minimum operate time Minimum operate time for IDMT curves 20...60000 ms Settings\Settings\Current protection\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLPTOC2.OpDlTmms.setVal ING INT32 SG 40 Operate delay time Operate delay time 40...200000 ms Settings\Settings\Current protection\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLPTOC2.RsDlTmms.setVal ING INT32 SP 20 Reset delay time Reset delay time 0...60000 ms Settings\Settings\Current protection\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLPTOC2.AMeasMod.setVal ING Enum SP 2 Measurement mode Selects used measurement mode 1=RMS; 2=DFT; 3=Peak-to-Peak Settings\Settings\Current protection\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLPTOC2.DirMod.setVal ING Enum SG 2 Directional mode Directional mode 1=Non-directional; 2=Forward; 3=Reverse Settings\Settings\Current protection\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLPTOC2.AllwNonDir.setVal SPG BOOLEAN SP 0 Allow Non Dir Allows prot activation as non-dir when dir info is invalid Settings\Settings\Current protection\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLRDIR2.ChrAng.setMag.f ASG FLOAT32 SG +60 Characteristic angle Characteristic angle -179...180 deg Settings\Settings\Current protection\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLRDIR2.MaxFwdAng.setMag.f ASG FLOAT32 SG 80 Max forward angle Maximum phase angle in forward direction 0...90 deg Settings\Settings\Current protection\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLRDIR2.MinFwdAng.setMag.f ASG FLOAT32 SG 80 Min forward angle Minimum phase angle in forward direction 0...90 deg Settings\Settings\Current protection\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLRDIR2.MaxRvAng.setMag.f ASG FLOAT32 SG 80 Max reverse angle Maximum phase angle in reverse direction 0...90 deg Settings\Settings\Current protection\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLRDIR2.MinRvAng.setMag.f ASG FLOAT32 SG 80 Min reverse angle Minimum phase angle in reverse direction 0...90 deg Settings\Settings\Current protection\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLRDIR2.BlkValA.setMag.f ASG FLOAT32 SP 0.01 Min operate current Minimum operating current 0.01...1.00 xIn Settings\Settings\Current protection\DPHLPDOC2 IL1TCTR1
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLRDIR2.BlkValV.setMag.f ASG FLOAT32 SP 0.01 Min operate voltage Minimum operating voltage 0.01...1.00 xUn Settings\Settings\Current protection\DPHLPDOC2 UL1TVTR1
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLRDIR2.FicTmms.setVal ING INT32 SG 40 Voltage Mem time Voltage memory time 0...3000 ms Settings\Settings\Current protection\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) SET LD0.DPHLRDIR2.PolQty.setVal ING Enum SG 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\DPHLPDOC2
DPHLPDOC2 3I>->(2) 67-1(2) TES LD0.DPHLPTOC2.TstOutCmd.Oper.ctlVal INC Enum CO 0 DPHLPDOC2 Test control for outputs 0=Reset; 1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE Tests\Function tests\Current protection
DPHLPDOC2 3I>->(2) 67-1(2) VER LD0.DPHLPTOC2.NamPlt.swRev LPL VisString255 (20) DC B
DPHLPDOC2 3I>->(2) 67-1(2) VER LD0.DPHLRDIR2.NamPlt.swRev LPL VisString255 (20) DC B

PSPTUV1: Positive sequence undervoltage

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
PSPTUV1 U1<(1) 47U+(1) INP LD0.PSPTUV1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Voltage protection\PSPTUV1\Inputs
PSPTUV1 U1<(1) 47U+(1) OUT LD0.PSPTUV1.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Voltage protection\PSPTUV1\Outputs
PSPTUV1 U1<(1) 47U+(1) OUT LD0.PSPTUV1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Voltage protection\PSPTUV1\Outputs
PSPTUV1 U1<(1) 47U+(1) MON LD0.PSPTUV1.Beh.stVal INS Enum ST PSPTUV1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
PSPTUV1 U1<(1) 47U+(1) MON LD0.PSPTUV1.StrDur.mag.f MV FLOAT32 MX START_DUR Ratio of start time / operate time 0.00...100.00 % Monitoring\I/O status\Voltage protection\PSPTUV1\Monitored data
PSPTUV1 U1<(1) 47U+(1) SET LD0.PSPTUV1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Voltage protection\PSPTUV1
PSPTUV1 U1<(1) 47U+(1) SET LD0.PSPTUV1.StrVal.setMag.f ASG FLOAT32 SG 0.500 Start value Start value 0.010...1.200 xUn Settings\Settings\Voltage protection\PSPTUV1 UL1TVTR1
PSPTUV1 U1<(1) 47U+(1) SET LD0.PSPTUV1.OpDlTmms.setVal ING INT32 SG 40 Operate delay time Operate delay time 40...120000 ms Settings\Settings\Voltage protection\PSPTUV1
PSPTUV1 U1<(1) 47U+(1) SET LD0.PSPTUV1.RsDlTmms.setVal ING INT32 SP 20 Reset delay time Reset delay time 0...60000 ms Settings\Settings\Voltage protection\PSPTUV1
PSPTUV1 U1<(1) 47U+(1) SET LD0.PSPTUV1.BlkVal.setMag.f ASG FLOAT32 SG 0.20 Voltage block value Internal blocking level 0.01...1.00 xUn Settings\Settings\Voltage protection\PSPTUV1 UL1TVTR1
PSPTUV1 U1<(1) 47U+(1) SET LD0.PSPTUV1.EnaBlkVal.setVal SPG BOOLEAN SG 1 Enable block value Enable Internal Blocking Settings\Settings\Voltage protection\PSPTUV1
PSPTUV1 U1<(1) 47U+(1) SET LD0.PSPTUV1.HysRl.setMag.f ASG FLOAT32 SP 4.0 Relative hysteresis Relative hysteresis for operation 1.0...5.0 % Settings\Settings\Voltage protection\PSPTUV1
PSPTUV1 U1<(1) 47U+(1) TES LD0.PSPTUV1.TstOutCmd.Oper.ctlVal INC Enum CO 0 PSPTUV1 Test control for outputs 0=Reset; 1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE Tests\Function tests\Voltage protection
PSPTUV1 U1<(1) 47U+(1) VER LD0.PSPTUV1.NamPlt.swRev LPL VisString255 (20) DC B

NSPTOV1: Negative sequence overvoltage

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 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 StatNrml PH START Start Monitoring\I/O status\Voltage protection\NSPTOV1\Outputs
NSPTOV1 U2>(1) 47O-(1) OUT LD0.NSPTOV1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Voltage protection\NSPTOV1\Outputs
NSPTOV1 U2>(1) 47O-(1) MON LD0.NSPTOV1.Beh.stVal INS Enum ST 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 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 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 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 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 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 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

FMMXU1: Frequency measurement

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 MON LD0.FMMXU1.Hz.instMag.f MV FLOAT32 MX MeasFlt P F_INST Frequency, instantaneous value 35.00...75.00 Hz Monitoring\I/O status\Measurements\FMMXU1\Monitored data
FMMXU1 f f MON LD0.FMMXU1.Hz.mag.f MV FLOAT32 MX 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 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 1 Operation Operation Off / On 1=on; 5=off Configuration\Measurements\FMMXU1
FMMXU1 f f CFG LD0.FMMXU1.Hz.db MV INT32U CF 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 60.00 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 55.00 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 45.00 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 40.00 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

FRPFRQ1: Frequency protection

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<,df/dt(1) 81(1) INP LD0.FRPTRC1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Frequency protection\FRPFRQ1\Inputs
FRPFRQ1 f>/f<,df/dt(1) 81(1) OUT LD0.FRPTRC1.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Frequency protection\FRPFRQ1\Outputs
FRPFRQ1 f>/f<,df/dt(1) 81(1) OUT LD0.FRPTRC1.Op.general ACT BOOLEAN ST OPERATE Operate Monitoring\I/O status\Frequency protection\FRPFRQ1\Outputs
FRPFRQ1 f>/f<,df/dt(1) 81(1) OUT LD0.FRPTOF1.Str.general ACD BOOLEAN ST ST_OFRQ Start signal for overfrequency Monitoring\I/O status\Frequency protection\FRPFRQ1\Outputs
FRPFRQ1 f>/f<,df/dt(1) 81(1) OUT LD0.FRPTOF1.Op.general ACT BOOLEAN ST StatNrml PHT OPR_OFRQ Operate signal for overfrequency Monitoring\I/O status\Frequency protection\FRPFRQ1\Outputs
FRPFRQ1 f>/f<,df/dt(1) 81(1) OUT LD0.FRPTUF1.Str.general ACD BOOLEAN ST ST_UFRQ Start signal for underfrequency Monitoring\I/O status\Frequency protection\FRPFRQ1\Outputs
FRPFRQ1 f>/f<,df/dt(1) 81(1) OUT LD0.FRPTUF1.Op.general ACT BOOLEAN ST StatNrml PHT OPR_UFRQ Operate signal for underfrequency Monitoring\I/O status\Frequency protection\FRPFRQ1\Outputs
FRPFRQ1 f>/f<,df/dt(1) 81(1) OUT LD0.FRPFRC1.Str.general ACD BOOLEAN ST ST_FRG Start signal for frequency gradient Monitoring\I/O status\Frequency protection\FRPFRQ1\Outputs
FRPFRQ1 f>/f<,df/dt(1) 81(1) OUT LD0.FRPFRC1.Op.general ACT BOOLEAN ST StatNrml PHT OPR_FRG Operate signal for frequency gradient Monitoring\I/O status\Frequency protection\FRPFRQ1\Outputs
FRPFRQ1 f>/f<,df/dt(1) 81(1) MON LD0.FRPTRC1.Beh.stVal INS Enum ST FRPFRQ1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
FRPFRQ1 f>/f<,df/dt(1) 81(1) MON LD0.FRPTRC1.StrDur.mag.f MV FLOAT32 MX START_DUR Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ1\Monitored data
FRPFRQ1 f>/f<,df/dt(1) 81(1) MON LD0.FRPTOF1.StrDur.mag.f MV FLOAT32 MX ST_DUR_OFRQ Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ1\Monitored data
FRPFRQ1 f>/f<,df/dt(1) 81(1) MON LD0.FRPTUF1.StrDur.mag.f MV FLOAT32 MX ST_DUR_UFRQ Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ1\Monitored data
FRPFRQ1 f>/f<,df/dt(1) 81(1) MON LD0.FRPFRC1.StrDur.mag.f MV FLOAT32 MX ST_DUR_FRG Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ1\Monitored data
FRPFRQ1 f>/f<,df/dt(1) 81(1) SET LD0.FRPTRC1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Frequency protection\FRPFRQ1
FRPFRQ1 f>/f<,df/dt(1) 81(1) SET LD0.FRPTRC1.OpModProHz.setVal ING Enum SG 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<,df/dt(1) 81(1) SET LD0.FRPTOF1.StrVal.setMag.f ASG FLOAT32 SG 1.050 Start value Freq> Frequency start value overfrequency 0.900...1.200 xFn Settings\Settings\Frequency protection\FRPFRQ1
FRPFRQ1 f>/f<,df/dt(1) 81(1) SET LD0.FRPTOF1.OpDlTmms.setVal ING INT32 SG 200 Operate Tm Freq Operate delay time for frequency 80...200000 ms Settings\Settings\Frequency protection\FRPFRQ1
FRPFRQ1 f>/f<,df/dt(1) 81(1) SET LD0.FRPTOF1.RsDlTmms.setVal ING INT32 SP 0 Reset delay Tm Freq Reset delay time for frequency 0...60000 ms Settings\Settings\Frequency protection\FRPFRQ1
FRPFRQ1 f>/f<,df/dt(1) 81(1) SET LD0.FRPTUF1.StrVal.setMag.f ASG FLOAT32 SG 0.950 Start value Freq< Frequency start value underfrequency 0.800...1.100 xFn Settings\Settings\Frequency protection\FRPFRQ1
FRPFRQ1 f>/f<,df/dt(1) 81(1) SET LD0.FRPFRC1.StrVal.setMag.f ASG FLOAT32 SG 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<,df/dt(1) 81(1) SET LD0.FRPFRC1.OpDlTmms.setVal ING INT32 SG 400 Operate Tm df/dt Operate delay time for frequency rate of change 120...200000 ms Settings\Settings\Frequency protection\FRPFRQ1
FRPFRQ1 f>/f<,df/dt(1) 81(1) SET LD0.FRPFRC1.RsDlTmms.setVal ING INT32 SP 0 Reset delay Tm df/dt Reset delay time for rate of change 0...60000 ms Settings\Settings\Frequency protection\FRPFRQ1
FRPFRQ1 f>/f<,df/dt(1) 81(1) TES LD0.FRPTRC1.TstOutCmd.Oper.ctlVal INC Enum CO 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<,df/dt(1) 81(1) VER LD0.FRPTRC1.NamPlt.swRev LPL VisString255 (20) DC A
FRPFRQ1 f>/f<,df/dt(1) 81(1) VER LD0.FRPTOF1.NamPlt.swRev LPL VisString255 (20) DC A
FRPFRQ1 f>/f<,df/dt(1) 81(1) VER LD0.FRPTUF1.NamPlt.swRev LPL VisString255 (20) DC A
FRPFRQ1 f>/f<,df/dt(1) 81(1) VER LD0.FRPFRC1.NamPlt.swRev LPL VisString255 (20) DC A

FRPFRQ2: Frequency protection

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<,df/dt(2) 81(2) INP LD0.FRPTRC2.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Frequency protection\FRPFRQ2\Inputs
FRPFRQ2 f>/f<,df/dt(2) 81(2) OUT LD0.FRPTRC2.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Frequency protection\FRPFRQ2\Outputs
FRPFRQ2 f>/f<,df/dt(2) 81(2) OUT LD0.FRPTRC2.Op.general ACT BOOLEAN ST OPERATE Operate Monitoring\I/O status\Frequency protection\FRPFRQ2\Outputs
FRPFRQ2 f>/f<,df/dt(2) 81(2) OUT LD0.FRPTOF2.Str.general ACD BOOLEAN ST ST_OFRQ Start signal for overfrequency Monitoring\I/O status\Frequency protection\FRPFRQ2\Outputs
FRPFRQ2 f>/f<,df/dt(2) 81(2) OUT LD0.FRPTOF2.Op.general ACT BOOLEAN ST StatNrml PHT OPR_OFRQ Operate signal for overfrequency Monitoring\I/O status\Frequency protection\FRPFRQ2\Outputs
FRPFRQ2 f>/f<,df/dt(2) 81(2) OUT LD0.FRPTUF2.Str.general ACD BOOLEAN ST ST_UFRQ Start signal for underfrequency Monitoring\I/O status\Frequency protection\FRPFRQ2\Outputs
FRPFRQ2 f>/f<,df/dt(2) 81(2) OUT LD0.FRPTUF2.Op.general ACT BOOLEAN ST StatNrml PHT OPR_UFRQ Operate signal for underfrequency Monitoring\I/O status\Frequency protection\FRPFRQ2\Outputs
FRPFRQ2 f>/f<,df/dt(2) 81(2) OUT LD0.FRPFRC2.Str.general ACD BOOLEAN ST ST_FRG Start signal for frequency gradient Monitoring\I/O status\Frequency protection\FRPFRQ2\Outputs
FRPFRQ2 f>/f<,df/dt(2) 81(2) OUT LD0.FRPFRC2.Op.general ACT BOOLEAN ST StatNrml PHT OPR_FRG Operate signal for frequency gradient Monitoring\I/O status\Frequency protection\FRPFRQ2\Outputs
FRPFRQ2 f>/f<,df/dt(2) 81(2) MON LD0.FRPTRC2.Beh.stVal INS Enum ST FRPFRQ2 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
FRPFRQ2 f>/f<,df/dt(2) 81(2) MON LD0.FRPTRC2.StrDur.mag.f MV FLOAT32 MX START_DUR Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ2\Monitored data
FRPFRQ2 f>/f<,df/dt(2) 81(2) MON LD0.FRPTOF2.StrDur.mag.f MV FLOAT32 MX ST_DUR_OFRQ Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ2\Monitored data
FRPFRQ2 f>/f<,df/dt(2) 81(2) MON LD0.FRPTUF2.StrDur.mag.f MV FLOAT32 MX ST_DUR_UFRQ Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ2\Monitored data
FRPFRQ2 f>/f<,df/dt(2) 81(2) MON LD0.FRPFRC2.StrDur.mag.f MV FLOAT32 MX ST_DUR_FRG Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ2\Monitored data
FRPFRQ2 f>/f<,df/dt(2) 81(2) SET LD0.FRPTRC2.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Frequency protection\FRPFRQ2
FRPFRQ2 f>/f<,df/dt(2) 81(2) SET LD0.FRPTRC2.OpModProHz.setVal ING Enum SG 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<,df/dt(2) 81(2) SET LD0.FRPTOF2.StrVal.setMag.f ASG FLOAT32 SG 1.050 Start value Freq> Frequency start value overfrequency 0.900...1.200 xFn Settings\Settings\Frequency protection\FRPFRQ2
FRPFRQ2 f>/f<,df/dt(2) 81(2) SET LD0.FRPTOF2.OpDlTmms.setVal ING INT32 SG 200 Operate Tm Freq Operate delay time for frequency 80...200000 ms Settings\Settings\Frequency protection\FRPFRQ2
FRPFRQ2 f>/f<,df/dt(2) 81(2) SET LD0.FRPTOF2.RsDlTmms.setVal ING INT32 SP 0 Reset delay Tm Freq Reset delay time for frequency 0...60000 ms Settings\Settings\Frequency protection\FRPFRQ2
FRPFRQ2 f>/f<,df/dt(2) 81(2) SET LD0.FRPTUF2.StrVal.setMag.f ASG FLOAT32 SG 0.950 Start value Freq< Frequency start value underfrequency 0.800...1.100 xFn Settings\Settings\Frequency protection\FRPFRQ2
FRPFRQ2 f>/f<,df/dt(2) 81(2) SET LD0.FRPFRC2.StrVal.setMag.f ASG FLOAT32 SG 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<,df/dt(2) 81(2) SET LD0.FRPFRC2.OpDlTmms.setVal ING INT32 SG 400 Operate Tm df/dt Operate delay time for frequency rate of change 120...200000 ms Settings\Settings\Frequency protection\FRPFRQ2
FRPFRQ2 f>/f<,df/dt(2) 81(2) SET LD0.FRPFRC2.RsDlTmms.setVal ING INT32 SP 0 Reset delay Tm df/dt Reset delay time for rate of change 0...60000 ms Settings\Settings\Frequency protection\FRPFRQ2
FRPFRQ2 f>/f<,df/dt(2) 81(2) TES LD0.FRPTRC2.TstOutCmd.Oper.ctlVal INC Enum CO 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<,df/dt(2) 81(2) VER LD0.FRPTRC2.NamPlt.swRev LPL VisString255 (20) DC A
FRPFRQ2 f>/f<,df/dt(2) 81(2) VER LD0.FRPTOF2.NamPlt.swRev LPL VisString255 (20) DC A
FRPFRQ2 f>/f<,df/dt(2) 81(2) VER LD0.FRPTUF2.NamPlt.swRev LPL VisString255 (20) DC A
FRPFRQ2 f>/f<,df/dt(2) 81(2) VER LD0.FRPFRC2.NamPlt.swRev LPL VisString255 (20) DC A

FRPFRQ3: Frequency protection

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
FRPFRQ3 f>/f<,df/dt(3) 81(3) INP LD0.FRPTRC3.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Frequency protection\FRPFRQ3\Inputs
FRPFRQ3 f>/f<,df/dt(3) 81(3) OUT LD0.FRPTRC3.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Frequency protection\FRPFRQ3\Outputs
FRPFRQ3 f>/f<,df/dt(3) 81(3) OUT LD0.FRPTRC3.Op.general ACT BOOLEAN ST OPERATE Operate Monitoring\I/O status\Frequency protection\FRPFRQ3\Outputs
FRPFRQ3 f>/f<,df/dt(3) 81(3) OUT LD0.FRPTOF3.Str.general ACD BOOLEAN ST ST_OFRQ Start signal for overfrequency Monitoring\I/O status\Frequency protection\FRPFRQ3\Outputs
FRPFRQ3 f>/f<,df/dt(3) 81(3) OUT LD0.FRPTOF3.Op.general ACT BOOLEAN ST StatNrml PHT OPR_OFRQ Operate signal for overfrequency Monitoring\I/O status\Frequency protection\FRPFRQ3\Outputs
FRPFRQ3 f>/f<,df/dt(3) 81(3) OUT LD0.FRPTUF3.Str.general ACD BOOLEAN ST ST_UFRQ Start signal for underfrequency Monitoring\I/O status\Frequency protection\FRPFRQ3\Outputs
FRPFRQ3 f>/f<,df/dt(3) 81(3) OUT LD0.FRPTUF3.Op.general ACT BOOLEAN ST StatNrml PHT OPR_UFRQ Operate signal for underfrequency Monitoring\I/O status\Frequency protection\FRPFRQ3\Outputs
FRPFRQ3 f>/f<,df/dt(3) 81(3) OUT LD0.FRPFRC3.Str.general ACD BOOLEAN ST ST_FRG Start signal for frequency gradient Monitoring\I/O status\Frequency protection\FRPFRQ3\Outputs
FRPFRQ3 f>/f<,df/dt(3) 81(3) OUT LD0.FRPFRC3.Op.general ACT BOOLEAN ST StatNrml PHT OPR_FRG Operate signal for frequency gradient Monitoring\I/O status\Frequency protection\FRPFRQ3\Outputs
FRPFRQ3 f>/f<,df/dt(3) 81(3) MON LD0.FRPTRC3.Beh.stVal INS Enum ST FRPFRQ3 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
FRPFRQ3 f>/f<,df/dt(3) 81(3) MON LD0.FRPTRC3.StrDur.mag.f MV FLOAT32 MX START_DUR Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ3\Monitored data
FRPFRQ3 f>/f<,df/dt(3) 81(3) MON LD0.FRPTOF3.StrDur.mag.f MV FLOAT32 MX ST_DUR_OFRQ Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ3\Monitored data
FRPFRQ3 f>/f<,df/dt(3) 81(3) MON LD0.FRPTUF3.StrDur.mag.f MV FLOAT32 MX ST_DUR_UFRQ Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ3\Monitored data
FRPFRQ3 f>/f<,df/dt(3) 81(3) MON LD0.FRPFRC3.StrDur.mag.f MV FLOAT32 MX ST_DUR_FRG Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ3\Monitored data
FRPFRQ3 f>/f<,df/dt(3) 81(3) SET LD0.FRPTRC3.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Frequency protection\FRPFRQ3
FRPFRQ3 f>/f<,df/dt(3) 81(3) SET LD0.FRPTRC3.OpModProHz.setVal ING Enum SG 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\FRPFRQ3
FRPFRQ3 f>/f<,df/dt(3) 81(3) SET LD0.FRPTOF3.StrVal.setMag.f ASG FLOAT32 SG 1.050 Start value Freq> Frequency start value overfrequency 0.900...1.200 xFn Settings\Settings\Frequency protection\FRPFRQ3
FRPFRQ3 f>/f<,df/dt(3) 81(3) SET LD0.FRPTOF3.OpDlTmms.setVal ING INT32 SG 200 Operate Tm Freq Operate delay time for frequency 80...200000 ms Settings\Settings\Frequency protection\FRPFRQ3
FRPFRQ3 f>/f<,df/dt(3) 81(3) SET LD0.FRPTOF3.RsDlTmms.setVal ING INT32 SP 0 Reset delay Tm Freq Reset delay time for frequency 0...60000 ms Settings\Settings\Frequency protection\FRPFRQ3
FRPFRQ3 f>/f<,df/dt(3) 81(3) SET LD0.FRPTUF3.StrVal.setMag.f ASG FLOAT32 SG 0.950 Start value Freq< Frequency start value underfrequency 0.800...1.100 xFn Settings\Settings\Frequency protection\FRPFRQ3
FRPFRQ3 f>/f<,df/dt(3) 81(3) SET LD0.FRPFRC3.StrVal.setMag.f ASG FLOAT32 SG 0.010 Start value df/dt Frequency start value rate of change -0.200...0.200 xFn /s Settings\Settings\Frequency protection\FRPFRQ3
FRPFRQ3 f>/f<,df/dt(3) 81(3) SET LD0.FRPFRC3.OpDlTmms.setVal ING INT32 SG 400 Operate Tm df/dt Operate delay time for frequency rate of change 120...200000 ms Settings\Settings\Frequency protection\FRPFRQ3
FRPFRQ3 f>/f<,df/dt(3) 81(3) SET LD0.FRPFRC3.RsDlTmms.setVal ING INT32 SP 0 Reset delay Tm df/dt Reset delay time for rate of change 0...60000 ms Settings\Settings\Frequency protection\FRPFRQ3
FRPFRQ3 f>/f<,df/dt(3) 81(3) TES LD0.FRPTRC3.TstOutCmd.Oper.ctlVal INC Enum CO 0 FRPFRQ3 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
FRPFRQ3 f>/f<,df/dt(3) 81(3) VER LD0.FRPTRC3.NamPlt.swRev LPL VisString255 (20) DC A
FRPFRQ3 f>/f<,df/dt(3) 81(3) VER LD0.FRPTOF3.NamPlt.swRev LPL VisString255 (20) DC A
FRPFRQ3 f>/f<,df/dt(3) 81(3) VER LD0.FRPTUF3.NamPlt.swRev LPL VisString255 (20) DC A
FRPFRQ3 f>/f<,df/dt(3) 81(3) VER LD0.FRPFRC3.NamPlt.swRev LPL VisString255 (20) DC A

SECRSYN1: Synchrocheck

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 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 0 CL_COMMAND External closing request Monitoring\I/O status\Control\SECRSYN1\Inputs
SECRSYN1 SYNC 25 INP LD0.SECRSYN1.ByPss.stVal SPS BOOLEAN ST 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 SYNC_OK Systems in synchronism Monitoring\I/O status\Control\SECRSYN1\Outputs
SECRSYN1 SYNC 25 OUT LD0.SECRSYN1.SynPrg.stVal SPS BOOLEAN ST StatNrml PH SYNC_INPRO Synchronizing in progress Monitoring\I/O status\Control\SECRSYN1\Outputs
SECRSYN1 SYNC 25 OUT LD0.SECRSYN1.FailCmd.stVal SPS BOOLEAN ST StatUrg PH 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 StatUrg PH CL_FAIL_AL CB closing failed Monitoring\I/O status\Control\SECRSYN1\Outputs
SECRSYN1 SYNC 25 OUT LD0.SECRSYN1.LLDBInd.stVal SPS BOOLEAN ST LLDB Live Line, Dead Bus Monitoring\I/O status\Control\SECRSYN1\Outputs
SECRSYN1 SYNC 25 OUT LD0.SECRSYN1.LLLBInd.stVal SPS BOOLEAN ST LLLB Live Line, Live Bus Monitoring\I/O status\Control\SECRSYN1\Outputs
SECRSYN1 SYNC 25 OUT LD0.SECRSYN1.DLLBInd.stVal SPS BOOLEAN ST DLLB Dead Line, Live Bus Monitoring\I/O status\Control\SECRSYN1\Outputs
SECRSYN1 SYNC 25 OUT LD0.SECRSYN1.DLDBInd.stVal SPS BOOLEAN ST DLDB Dead Line, Dead Bus Monitoring\I/O status\Control\SECRSYN1\Outputs
SECRSYN1 SYNC 25 MON LD0.SECRSYN1.Beh.stVal INS Enum ST 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 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 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 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 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 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 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 StatUrg PH 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 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Control\SECRSYN1
SECRSYN1 SYNC 25 SET LD0.SECRSYN1.DifV.setMag.f ASG FLOAT32 SG 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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

RESVMMXU1: Residual voltage measurement

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 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 StatUrg PH HIGH_ALARM High alarm Monitoring\I/O status\Measurements\RESVMMXU1\Outputs
RESVMMXU1 Uo Vn OUT LD0.RESVMMXU1.HiWrn.stVal SPS BOOLEAN ST StatUrg PH HIGH_WARN High warning Monitoring\I/O status\Measurements\RESVMMXU1\Outputs
RESVMMXU1 Uo Vn MON LD0.RESVMMXU1.PhV.res.instCVal.mag.f WYE FLOAT32 MX MeasFlt P U_INST_RES Residual voltage Amplitude, magnitude of instantaneous value 0.00...4.00 xUn Monitoring\I/O status\Measurements\RESVMMXU1\Monitored data
RESVMMXU1 Uo Vn MON LD0.RESVMMXU1.PhV.res.cVal.mag.f WYE FLOAT32 MX 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 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 CFG LD0.RESVMMXU1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Configuration\Measurements\RESVMMXU1
RESVMMXU1 Uo Vn CFG LD0.RESVMMXU1.PhV.res.db WYE INT32U CF 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 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 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 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

LREFPNDF1: Low impedance restricted earth fault protection

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 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 StatNrml PH START Start Monitoring\I/O status\Differential prot\LREFPNDF1\Outputs
LREFPNDF1 dIoLo> 87NL OUT LD0.LREFPDIF1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Differential prot\LREFPNDF1\Outputs
LREFPNDF1 dIoLo> 87NL OUT LD0.LREFPDIF1.Blk2Hst.general ACT BOOLEAN ST BLK2H 2nd harmonic block Monitoring\I/O status\Differential prot\LREFPNDF1\Outputs
LREFPNDF1 dIoLo> 87NL MON LD0.LREFPDIF1.Beh.stVal INS Enum ST 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 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 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 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 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 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Differential prot\LREFPNDF1
LREFPNDF1 dIoLo> 87NL SET LD0.LREFPDIF1.RsDlTmms.setVal ING INT32 SP 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 5 Operate value Operate value 5...50 %In Settings\Settings\Differential prot\LREFPNDF1
LREFPNDF1 dIoLo> 87NL SET LD0.LREFPDIF1.CTConnTyp.setVal ING Enum SP 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 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 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 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 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
LREFPNDF1 dIoLo> 87NL VER LD0.LREFPHAR1.NamPlt.swRev LPL VisString255 (20) DC A

EFHPTOC2: Non-directional earth-fault protection, high stage

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 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 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 StatNrml PH START Start Monitoring\I/O status\Current protection\EFHPTOC2\Outputs
EFHPTOC2 Io>>(2) 51N-2(2) OUT LD0.EFHPTOC2.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\EFHPTOC2\Outputs
EFHPTOC2 Io>>(2) 51N-2(2) MON LD0.EFHPTOC2.Beh.stVal INS Enum ST 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 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 1 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 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 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.TmMult.setMag.f ASG FLOAT32 SG 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 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\EFHPTOC2
EFHPTOC2 Io>>(2) 51N-2(2) SET LD0.EFHPTOC2.TmACrv.setParA CURVE FLOAT32 SP 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 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 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 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 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 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 40 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 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 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 1 Io signal Sel Selection for used Io signal 1=Measured Io; 2=Calculated Io Settings\Settings\Current protection\EFHPTOC2
EFHPTOC2 Io>>(2) 51N-2(2) TES LD0.EFHPTOC2.TstOutCmd.Oper.ctlVal INC Enum CO 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 C

HREFPDIF1: High impedance restricted earth fault protection

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
HREFPDIF1 dIoHi> 87NH INP LD0.HREFPDIF1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Differential prot\HREFPDIF1\Inputs
HREFPDIF1 dIoHi> 87NH OUT LD0.HREFPDIF1.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Differential prot\HREFPDIF1\Outputs
HREFPDIF1 dIoHi> 87NH OUT LD0.HREFPDIF1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Differential prot\HREFPDIF1\Outputs
HREFPDIF1 dIoHi> 87NH MON LD0.HREFPDIF1.Beh.stVal INS Enum ST HREFPDIF1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
HREFPDIF1 dIoHi> 87NH MON LD0.HREFPDIF1.StrDur.mag.f MV FLOAT32 MX START_DUR Ratio of start time / operate time 0.00...100.00 % Monitoring\I/O status\Differential prot\HREFPDIF1\Monitored data
HREFPDIF1 dIoHi> 87NH SET LD0.HREFPDIF1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Differential prot\HREFPDIF1
HREFPDIF1 dIoHi> 87NH SET LD0.HREFPDIF1.StrVal.setMag.f ASG FLOAT32 SG 1.0 Operate value Low operate value, percentage of the nominal current 1.0...50.0 %In Settings\Settings\Differential prot\HREFPDIF1 RESTCTR1
HREFPDIF1 dIoHi> 87NH SET LD0.HREFPDIF1.MinOpTmms.setVal ING INT32 SG 40 Minimum operate time Minimum operate time 40...300000 ms Settings\Settings\Differential prot\HREFPDIF1
HREFPDIF1 dIoHi> 87NH SET LD0.HREFPDIF1.RsDlTmms.setVal ING INT32 SP 20 Reset delay time Reset delay time 0...60000 ms Settings\Settings\Differential prot\HREFPDIF1
HREFPDIF1 dIoHi> 87NH TES LD0.HREFPDIF1.TstOutCmd.Oper.ctlVal INC Enum CO 0 HREFPDIF1 Test control for outputs 0=Reset; 1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE Tests\Function tests\Differential prot
HREFPDIF1 dIoHi> 87NH VER LD0.HREFPDIF1.NamPlt.swRev LPL VisString255 (20) DC A

DEFLPDEF1: Directional earth-fault, low stage

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 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 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 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 StatNrml PH START Start Monitoring\I/O status\Current protection\DEFLPDEF1\Outputs
DEFLPDEF1 Io>->(1) 67N-1(1) OUT LD0.DEFLPTOC1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Current protection\DEFLPDEF1\Outputs
DEFLPDEF1 Io>->(1) 67N-1(1) MON LD0.DEFLPTOC1.Beh.stVal INS Enum ST 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 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 StatNrml PH 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 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 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 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 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 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Current protection\DEFLPDEF1
DEFLPDEF1 Io>->(1) 67N-1(1) SET LD0.DEFLPTOC1.StrValMult.setMag.f ASG FLOAT32 SG 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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.EnaVLim.setVal SPG BOOLEAN SG 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 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 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 -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 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 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 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 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.CorAng.setMag.f ASG FLOAT32 SP 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 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 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 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 C
DEFLPDEF1 Io>->(1) 67N-1(1) VER LD0.DEFLRDIR1.NamPlt.swRev LPL VisString255 (20) DC C

LSHDPFRQ1: Load shedding

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 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 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 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 StatNrml PH START Start Monitoring\I/O status\Frequency protection\LSHDPFRQ1\Outputs
LSHDPFRQ1 UFLS/R(1) 81LSH(1) OUT LD0.LSHDPTRC1.Op.general ACT BOOLEAN ST StatNrml PHT 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 StatNrml PH 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 StatNrml PHT 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 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 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 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 OPR_FRG Operate signal for high df/dt Monitoring\I/O status\Frequency protection\LSHDPFRQ1\Outputs
LSHDPFRQ1 UFLS/R(1) 81LSH(1) MON LD0.LSHDPTRC1.Beh.stVal INS Enum ST 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 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 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 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 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 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 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 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 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 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 -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 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 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
LSHDPFRQ1 UFLS/R(1) 81LSH(1) VER LD0.LSHDPTUF1.NamPlt.swRev LPL VisString255 (20) DC A
LSHDPFRQ1 UFLS/R(1) 81LSH(1) VER LD0.LSHDPFRC1.NamPlt.swRev LPL VisString255 (20) DC A

LSHDPFRQ2: Load shedding

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 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 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 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 StatNrml PH START Start Monitoring\I/O status\Frequency protection\LSHDPFRQ2\Outputs
LSHDPFRQ2 UFLS/R(2) 81LSH(2) OUT LD0.LSHDPTRC2.Op.general ACT BOOLEAN ST StatNrml PHT 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 StatNrml PH 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 StatNrml PHT 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 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 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 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 OPR_FRG Operate signal for high df/dt Monitoring\I/O status\Frequency protection\LSHDPFRQ2\Outputs
LSHDPFRQ2 UFLS/R(2) 81LSH(2) MON LD0.LSHDPTRC2.Beh.stVal INS Enum ST 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 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 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 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 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 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 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 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 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 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 -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 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 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
LSHDPFRQ2 UFLS/R(2) 81LSH(2) VER LD0.LSHDPTUF2.NamPlt.swRev LPL VisString255 (20) DC A
LSHDPFRQ2 UFLS/R(2) 81LSH(2) VER LD0.LSHDPFRC2.NamPlt.swRev LPL VisString255 (20) DC A

LSHDPFRQ3: Load shedding

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
LSHDPFRQ3 UFLS/R(3) 81LSH(3) INP LD0.LSHDPTRC3.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Frequency protection\LSHDPFRQ3\Inputs
LSHDPFRQ3 UFLS/R(3) 81LSH(3) INP LD0.LSHDPTRC3.ManRest.stVal SPC BOOLEAN ST 0 MAN_RESTORE Manual restore signal Monitoring\I/O status\Frequency protection\LSHDPFRQ3\Inputs
LSHDPFRQ3 UFLS/R(3) 81LSH(3) INP LD0.LSHDPTRC3.BlkRest.stVal SPC BOOLEAN ST 0 BLK_REST Block restore Monitoring\I/O status\Frequency protection\LSHDPFRQ3\Inputs
LSHDPFRQ3 UFLS/R(3) 81LSH(3) OUT LD0.LSHDPTRC3.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Frequency protection\LSHDPFRQ3\Outputs
LSHDPFRQ3 UFLS/R(3) 81LSH(3) OUT LD0.LSHDPTRC3.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operation of load shedding Monitoring\I/O status\Frequency protection\LSHDPFRQ3\Outputs
LSHDPFRQ3 UFLS/R(3) 81LSH(3) OUT LD0.LSHDPTRC3.RestLodStr.general ACD BOOLEAN ST StatNrml PH ST_REST Restore frequency attained and restore timer started Monitoring\I/O status\Frequency protection\LSHDPFRQ3\Outputs
LSHDPFRQ3 UFLS/R(3) 81LSH(3) OUT LD0.LSHDPTRC3.RestLodOp.general ACT BOOLEAN ST StatNrml PHT RESTORE Restore signal for load restoring purposes Monitoring\I/O status\Frequency protection\LSHDPFRQ3\Outputs
LSHDPFRQ3 UFLS/R(3) 81LSH(3) OUT LD0.LSHDPTUF3.Str.general ACD BOOLEAN ST ST_FRQ Pick-Up signal for under frequency detection Monitoring\I/O status\Frequency protection\LSHDPFRQ3\Outputs
LSHDPFRQ3 UFLS/R(3) 81LSH(3) OUT LD0.LSHDPTUF3.Op.general ACT BOOLEAN ST OPR_FRQ Operate signal for under frequency Monitoring\I/O status\Frequency protection\LSHDPFRQ3\Outputs
LSHDPFRQ3 UFLS/R(3) 81LSH(3) OUT LD0.LSHDPFRC3.Str.general ACD BOOLEAN ST ST_FRG Pick-Up signal for high df/dt detection Monitoring\I/O status\Frequency protection\LSHDPFRQ3\Outputs
LSHDPFRQ3 UFLS/R(3) 81LSH(3) OUT LD0.LSHDPFRC3.Op.general ACT BOOLEAN ST OPR_FRG Operate signal for high df/dt Monitoring\I/O status\Frequency protection\LSHDPFRQ3\Outputs
LSHDPFRQ3 UFLS/R(3) 81LSH(3) MON LD0.LSHDPTRC3.Beh.stVal INS Enum ST LSHDPFRQ3 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
LSHDPFRQ3 UFLS/R(3) 81LSH(3) MON LD0.LSHDPTRC3.StrDur.mag.f MV FLOAT32 MX START_DUR Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\LSHDPFRQ3\Monitored data
LSHDPFRQ3 UFLS/R(3) 81LSH(3) SET LD0.LSHDPTRC3.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Frequency protection\LSHDPFRQ3
LSHDPFRQ3 UFLS/R(3) 81LSH(3) SET LD0.LSHDPTRC3.LodShdMod.setVal ING Enum SG 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\LSHDPFRQ3
LSHDPFRQ3 UFLS/R(3) 81LSH(3) SET LD0.LSHDPTRC3.RestStrVal.setMag.f ASG FLOAT32 SG 0.998 Restore start Val Restore frequency setting value 0.800...1.200 xFn Settings\Settings\Frequency protection\LSHDPFRQ3
LSHDPFRQ3 UFLS/R(3) 81LSH(3) SET LD0.LSHDPTRC3.OpDlTmms.setVal ING INT32 SG 300 Restore delay time Time delay to restore 80...200000 ms Settings\Settings\Frequency protection\LSHDPFRQ3
LSHDPFRQ3 UFLS/R(3) 81LSH(3) SET LD0.LSHDPTRC3.RestMod.setVal ING Enum SG 1 Restore mode Mode of operation of restore functionality 1=Disabled; 2=Auto; 3=Manual Settings\Settings\Frequency protection\LSHDPFRQ3
LSHDPFRQ3 UFLS/R(3) 81LSH(3) SET LD0.LSHDPTRC3.RsDlTmms.setVal ING INT32 SP 50 Reset delay time Time delay after which the definite timers will reset 0...60000 ms Settings\Settings\Frequency protection\LSHDPFRQ3
LSHDPFRQ3 UFLS/R(3) 81LSH(3) SET LD0.LSHDPTUF3.StrVal.setMag.f ASG FLOAT32 SG 0.975 Start value Freq Frequency setting/start value 0.800...1.200 xFn Settings\Settings\Frequency protection\LSHDPFRQ3
LSHDPFRQ3 UFLS/R(3) 81LSH(3) SET LD0.LSHDPTUF3.OpDlTmms.setVal ING INT32 SG 200 Operate Tm Freq Time delay to operate for under frequency stage 80...200000 ms Settings\Settings\Frequency protection\LSHDPFRQ3
LSHDPFRQ3 UFLS/R(3) 81LSH(3) SET LD0.LSHDPFRC3.StrVal.setMag.f ASG FLOAT32 SG -0.010 Start value df/dt Setting of frequency gradient for df/dt detection -0.200...-0.005 xFn /s Settings\Settings\Frequency protection\LSHDPFRQ3
LSHDPFRQ3 UFLS/R(3) 81LSH(3) SET LD0.LSHDPFRC3.OpDlTmms.setVal ING INT32 SG 200 Operate Tm df/dt Time delay to operate for df/dt stage 120...200000 ms Settings\Settings\Frequency protection\LSHDPFRQ3
LSHDPFRQ3 UFLS/R(3) 81LSH(3) TES LD0.LSHDPTRC3.TstOutCmd.Oper.ctlVal INC Enum CO 0 LSHDPFRQ3 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
LSHDPFRQ3 UFLS/R(3) 81LSH(3) VER LD0.LSHDPTRC3.NamPlt.swRev LPL VisString255 (20) DC A
LSHDPFRQ3 UFLS/R(3) 81LSH(3) VER LD0.LSHDPTUF3.NamPlt.swRev LPL VisString255 (20) DC A
LSHDPFRQ3 UFLS/R(3) 81LSH(3) VER LD0.LSHDPFRC3.NamPlt.swRev LPL VisString255 (20) DC A

LSHDPFRQ4: Load shedding

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
LSHDPFRQ4 UFLS/R(4) 81LSH(4) INP LD0.LSHDPTRC4.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Frequency protection\LSHDPFRQ4\Inputs
LSHDPFRQ4 UFLS/R(4) 81LSH(4) INP LD0.LSHDPTRC4.ManRest.stVal SPC BOOLEAN ST 0 MAN_RESTORE Manual restore signal Monitoring\I/O status\Frequency protection\LSHDPFRQ4\Inputs
LSHDPFRQ4 UFLS/R(4) 81LSH(4) INP LD0.LSHDPTRC4.BlkRest.stVal SPC BOOLEAN ST 0 BLK_REST Block restore Monitoring\I/O status\Frequency protection\LSHDPFRQ4\Inputs
LSHDPFRQ4 UFLS/R(4) 81LSH(4) OUT LD0.LSHDPTRC4.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Frequency protection\LSHDPFRQ4\Outputs
LSHDPFRQ4 UFLS/R(4) 81LSH(4) OUT LD0.LSHDPTRC4.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operation of load shedding Monitoring\I/O status\Frequency protection\LSHDPFRQ4\Outputs
LSHDPFRQ4 UFLS/R(4) 81LSH(4) OUT LD0.LSHDPTRC4.RestLodStr.general ACD BOOLEAN ST StatNrml PH ST_REST Restore frequency attained and restore timer started Monitoring\I/O status\Frequency protection\LSHDPFRQ4\Outputs
LSHDPFRQ4 UFLS/R(4) 81LSH(4) OUT LD0.LSHDPTRC4.RestLodOp.general ACT BOOLEAN ST StatNrml PHT RESTORE Restore signal for load restoring purposes Monitoring\I/O status\Frequency protection\LSHDPFRQ4\Outputs
LSHDPFRQ4 UFLS/R(4) 81LSH(4) OUT LD0.LSHDPTUF4.Str.general ACD BOOLEAN ST ST_FRQ Pick-Up signal for under frequency detection Monitoring\I/O status\Frequency protection\LSHDPFRQ4\Outputs
LSHDPFRQ4 UFLS/R(4) 81LSH(4) OUT LD0.LSHDPTUF4.Op.general ACT BOOLEAN ST OPR_FRQ Operate signal for under frequency Monitoring\I/O status\Frequency protection\LSHDPFRQ4\Outputs
LSHDPFRQ4 UFLS/R(4) 81LSH(4) OUT LD0.LSHDPFRC4.Str.general ACD BOOLEAN ST ST_FRG Pick-Up signal for high df/dt detection Monitoring\I/O status\Frequency protection\LSHDPFRQ4\Outputs
LSHDPFRQ4 UFLS/R(4) 81LSH(4) OUT LD0.LSHDPFRC4.Op.general ACT BOOLEAN ST OPR_FRG Operate signal for high df/dt Monitoring\I/O status\Frequency protection\LSHDPFRQ4\Outputs
LSHDPFRQ4 UFLS/R(4) 81LSH(4) MON LD0.LSHDPTRC4.Beh.stVal INS Enum ST LSHDPFRQ4 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
LSHDPFRQ4 UFLS/R(4) 81LSH(4) MON LD0.LSHDPTRC4.StrDur.mag.f MV FLOAT32 MX START_DUR Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\LSHDPFRQ4\Monitored data
LSHDPFRQ4 UFLS/R(4) 81LSH(4) SET LD0.LSHDPTRC4.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Frequency protection\LSHDPFRQ4
LSHDPFRQ4 UFLS/R(4) 81LSH(4) SET LD0.LSHDPTRC4.LodShdMod.setVal ING Enum SG 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\LSHDPFRQ4
LSHDPFRQ4 UFLS/R(4) 81LSH(4) SET LD0.LSHDPTRC4.RestStrVal.setMag.f ASG FLOAT32 SG 0.998 Restore start Val Restore frequency setting value 0.800...1.200 xFn Settings\Settings\Frequency protection\LSHDPFRQ4
LSHDPFRQ4 UFLS/R(4) 81LSH(4) SET LD0.LSHDPTRC4.OpDlTmms.setVal ING INT32 SG 300 Restore delay time Time delay to restore 80...200000 ms Settings\Settings\Frequency protection\LSHDPFRQ4
LSHDPFRQ4 UFLS/R(4) 81LSH(4) SET LD0.LSHDPTRC4.RestMod.setVal ING Enum SG 1 Restore mode Mode of operation of restore functionality 1=Disabled; 2=Auto; 3=Manual Settings\Settings\Frequency protection\LSHDPFRQ4
LSHDPFRQ4 UFLS/R(4) 81LSH(4) SET LD0.LSHDPTRC4.RsDlTmms.setVal ING INT32 SP 50 Reset delay time Time delay after which the definite timers will reset 0...60000 ms Settings\Settings\Frequency protection\LSHDPFRQ4
LSHDPFRQ4 UFLS/R(4) 81LSH(4) SET LD0.LSHDPTUF4.StrVal.setMag.f ASG FLOAT32 SG 0.975 Start value Freq Frequency setting/start value 0.800...1.200 xFn Settings\Settings\Frequency protection\LSHDPFRQ4
LSHDPFRQ4 UFLS/R(4) 81LSH(4) SET LD0.LSHDPTUF4.OpDlTmms.setVal ING INT32 SG 200 Operate Tm Freq Time delay to operate for under frequency stage 80...200000 ms Settings\Settings\Frequency protection\LSHDPFRQ4
LSHDPFRQ4 UFLS/R(4) 81LSH(4) SET LD0.LSHDPFRC4.StrVal.setMag.f ASG FLOAT32 SG -0.010 Start value df/dt Setting of frequency gradient for df/dt detection -0.200...-0.005 xFn /s Settings\Settings\Frequency protection\LSHDPFRQ4
LSHDPFRQ4 UFLS/R(4) 81LSH(4) SET LD0.LSHDPFRC4.OpDlTmms.setVal ING INT32 SG 200 Operate Tm df/dt Time delay to operate for df/dt stage 120...200000 ms Settings\Settings\Frequency protection\LSHDPFRQ4
LSHDPFRQ4 UFLS/R(4) 81LSH(4) TES LD0.LSHDPTRC4.TstOutCmd.Oper.ctlVal INC Enum CO 0 LSHDPFRQ4 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
LSHDPFRQ4 UFLS/R(4) 81LSH(4) VER LD0.LSHDPTRC4.NamPlt.swRev LPL VisString255 (20) DC A
LSHDPFRQ4 UFLS/R(4) 81LSH(4) VER LD0.LSHDPTUF4.NamPlt.swRev LPL VisString255 (20) DC A
LSHDPFRQ4 UFLS/R(4) 81LSH(4) VER LD0.LSHDPFRC4.NamPlt.swRev LPL VisString255 (20) DC A

LSHDPFRQ5: Load shedding

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
LSHDPFRQ5 UFLS/R(5) 81LSH(5) INP LD0.LSHDPTRC5.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Frequency protection\LSHDPFRQ5\Inputs
LSHDPFRQ5 UFLS/R(5) 81LSH(5) INP LD0.LSHDPTRC5.ManRest.stVal SPC BOOLEAN ST 0 MAN_RESTORE Manual restore signal Monitoring\I/O status\Frequency protection\LSHDPFRQ5\Inputs
LSHDPFRQ5 UFLS/R(5) 81LSH(5) INP LD0.LSHDPTRC5.BlkRest.stVal SPC BOOLEAN ST 0 BLK_REST Block restore Monitoring\I/O status\Frequency protection\LSHDPFRQ5\Inputs
LSHDPFRQ5 UFLS/R(5) 81LSH(5) OUT LD0.LSHDPTRC5.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Frequency protection\LSHDPFRQ5\Outputs
LSHDPFRQ5 UFLS/R(5) 81LSH(5) OUT LD0.LSHDPTRC5.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operation of load shedding Monitoring\I/O status\Frequency protection\LSHDPFRQ5\Outputs
LSHDPFRQ5 UFLS/R(5) 81LSH(5) OUT LD0.LSHDPTRC5.RestLodStr.general ACD BOOLEAN ST StatNrml PH ST_REST Restore frequency attained and restore timer started Monitoring\I/O status\Frequency protection\LSHDPFRQ5\Outputs
LSHDPFRQ5 UFLS/R(5) 81LSH(5) OUT LD0.LSHDPTRC5.RestLodOp.general ACT BOOLEAN ST StatNrml PHT RESTORE Restore signal for load restoring purposes Monitoring\I/O status\Frequency protection\LSHDPFRQ5\Outputs
LSHDPFRQ5 UFLS/R(5) 81LSH(5) OUT LD0.LSHDPTUF5.Str.general ACD BOOLEAN ST ST_FRQ Pick-Up signal for under frequency detection Monitoring\I/O status\Frequency protection\LSHDPFRQ5\Outputs
LSHDPFRQ5 UFLS/R(5) 81LSH(5) OUT LD0.LSHDPTUF5.Op.general ACT BOOLEAN ST OPR_FRQ Operate signal for under frequency Monitoring\I/O status\Frequency protection\LSHDPFRQ5\Outputs
LSHDPFRQ5 UFLS/R(5) 81LSH(5) OUT LD0.LSHDPFRC5.Str.general ACD BOOLEAN ST ST_FRG Pick-Up signal for high df/dt detection Monitoring\I/O status\Frequency protection\LSHDPFRQ5\Outputs
LSHDPFRQ5 UFLS/R(5) 81LSH(5) OUT LD0.LSHDPFRC5.Op.general ACT BOOLEAN ST OPR_FRG Operate signal for high df/dt Monitoring\I/O status\Frequency protection\LSHDPFRQ5\Outputs
LSHDPFRQ5 UFLS/R(5) 81LSH(5) MON LD0.LSHDPTRC5.Beh.stVal INS Enum ST LSHDPFRQ5 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
LSHDPFRQ5 UFLS/R(5) 81LSH(5) MON LD0.LSHDPTRC5.StrDur.mag.f MV FLOAT32 MX START_DUR Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\LSHDPFRQ5\Monitored data
LSHDPFRQ5 UFLS/R(5) 81LSH(5) SET LD0.LSHDPTRC5.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Frequency protection\LSHDPFRQ5
LSHDPFRQ5 UFLS/R(5) 81LSH(5) SET LD0.LSHDPTRC5.LodShdMod.setVal ING Enum SG 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\LSHDPFRQ5
LSHDPFRQ5 UFLS/R(5) 81LSH(5) SET LD0.LSHDPTRC5.RestStrVal.setMag.f ASG FLOAT32 SG 0.998 Restore start Val Restore frequency setting value 0.800...1.200 xFn Settings\Settings\Frequency protection\LSHDPFRQ5
LSHDPFRQ5 UFLS/R(5) 81LSH(5) SET LD0.LSHDPTRC5.OpDlTmms.setVal ING INT32 SG 300 Restore delay time Time delay to restore 80...200000 ms Settings\Settings\Frequency protection\LSHDPFRQ5
LSHDPFRQ5 UFLS/R(5) 81LSH(5) SET LD0.LSHDPTRC5.RestMod.setVal ING Enum SG 1 Restore mode Mode of operation of restore functionality 1=Disabled; 2=Auto; 3=Manual Settings\Settings\Frequency protection\LSHDPFRQ5
LSHDPFRQ5 UFLS/R(5) 81LSH(5) SET LD0.LSHDPTRC5.RsDlTmms.setVal ING INT32 SP 50 Reset delay time Time delay after which the definite timers will reset 0...60000 ms Settings\Settings\Frequency protection\LSHDPFRQ5
LSHDPFRQ5 UFLS/R(5) 81LSH(5) SET LD0.LSHDPTUF5.StrVal.setMag.f ASG FLOAT32 SG 0.975 Start value Freq Frequency setting/start value 0.800...1.200 xFn Settings\Settings\Frequency protection\LSHDPFRQ5
LSHDPFRQ5 UFLS/R(5) 81LSH(5) SET LD0.LSHDPTUF5.OpDlTmms.setVal ING INT32 SG 200 Operate Tm Freq Time delay to operate for under frequency stage 80...200000 ms Settings\Settings\Frequency protection\LSHDPFRQ5
LSHDPFRQ5 UFLS/R(5) 81LSH(5) SET LD0.LSHDPFRC5.StrVal.setMag.f ASG FLOAT32 SG -0.010 Start value df/dt Setting of frequency gradient for df/dt detection -0.200...-0.005 xFn /s Settings\Settings\Frequency protection\LSHDPFRQ5
LSHDPFRQ5 UFLS/R(5) 81LSH(5) SET LD0.LSHDPFRC5.OpDlTmms.setVal ING INT32 SG 200 Operate Tm df/dt Time delay to operate for df/dt stage 120...200000 ms Settings\Settings\Frequency protection\LSHDPFRQ5
LSHDPFRQ5 UFLS/R(5) 81LSH(5) TES LD0.LSHDPTRC5.TstOutCmd.Oper.ctlVal INC Enum CO 0 LSHDPFRQ5 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
LSHDPFRQ5 UFLS/R(5) 81LSH(5) VER LD0.LSHDPTRC5.NamPlt.swRev LPL VisString255 (20) DC A
LSHDPFRQ5 UFLS/R(5) 81LSH(5) VER LD0.LSHDPTUF5.NamPlt.swRev LPL VisString255 (20) DC A
LSHDPFRQ5 UFLS/R(5) 81LSH(5) VER LD0.LSHDPFRC5.NamPlt.swRev LPL VisString255 (20) DC A

PSPTUV2: Positive sequence undervoltage

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
PSPTUV2 U1<(2) 47U+(2) INP LD0.PSPTUV2.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Voltage protection\PSPTUV2\Inputs
PSPTUV2 U1<(2) 47U+(2) OUT LD0.PSPTUV2.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Voltage protection\PSPTUV2\Outputs
PSPTUV2 U1<(2) 47U+(2) OUT LD0.PSPTUV2.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Voltage protection\PSPTUV2\Outputs
PSPTUV2 U1<(2) 47U+(2) MON LD0.PSPTUV2.Beh.stVal INS Enum ST PSPTUV2 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
PSPTUV2 U1<(2) 47U+(2) MON LD0.PSPTUV2.StrDur.mag.f MV FLOAT32 MX START_DUR Ratio of start time / operate time 0.00...100.00 % Monitoring\I/O status\Voltage protection\PSPTUV2\Monitored data
PSPTUV2 U1<(2) 47U+(2) SET LD0.PSPTUV2.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Voltage protection\PSPTUV2
PSPTUV2 U1<(2) 47U+(2) SET LD0.PSPTUV2.StrVal.setMag.f ASG FLOAT32 SG 0.500 Start value Start value 0.010...1.200 xUn Settings\Settings\Voltage protection\PSPTUV2 UL1TVTR1
PSPTUV2 U1<(2) 47U+(2) SET LD0.PSPTUV2.OpDlTmms.setVal ING INT32 SG 40 Operate delay time Operate delay time 40...120000 ms Settings\Settings\Voltage protection\PSPTUV2
PSPTUV2 U1<(2) 47U+(2) SET LD0.PSPTUV2.RsDlTmms.setVal ING INT32 SP 20 Reset delay time Reset delay time 0...60000 ms Settings\Settings\Voltage protection\PSPTUV2
PSPTUV2 U1<(2) 47U+(2) SET LD0.PSPTUV2.BlkVal.setMag.f ASG FLOAT32 SG 0.20 Voltage block value Internal blocking level 0.01...1.00 xUn Settings\Settings\Voltage protection\PSPTUV2 UL1TVTR1
PSPTUV2 U1<(2) 47U+(2) SET LD0.PSPTUV2.EnaBlkVal.setVal SPG BOOLEAN SG 1 Enable block value Enable Internal Blocking Settings\Settings\Voltage protection\PSPTUV2
PSPTUV2 U1<(2) 47U+(2) SET LD0.PSPTUV2.HysRl.setMag.f ASG FLOAT32 SP 4.0 Relative hysteresis Relative hysteresis for operation 1.0...5.0 % Settings\Settings\Voltage protection\PSPTUV2
PSPTUV2 U1<(2) 47U+(2) TES LD0.PSPTUV2.TstOutCmd.Oper.ctlVal INC Enum CO 0 PSPTUV2 Test control for outputs 0=Reset; 1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE Tests\Function tests\Voltage protection
PSPTUV2 U1<(2) 47U+(2) VER LD0.PSPTUV2.NamPlt.swRev LPL VisString255 (20) DC B

NSPTOV2: Negative sequence overvoltage

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 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 StatNrml PH START Start Monitoring\I/O status\Voltage protection\NSPTOV2\Outputs
NSPTOV2 U2>(2) 47O-(2) OUT LD0.NSPTOV2.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Voltage protection\NSPTOV2\Outputs
NSPTOV2 U2>(2) 47O-(2) MON LD0.NSPTOV2.Beh.stVal INS Enum ST 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 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 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 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 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 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 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

FRPFRQ4: Frequency protection

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
FRPFRQ4 f>/f<,df/dt(4) 81(4) INP LD0.FRPTRC4.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Frequency protection\FRPFRQ4\Inputs
FRPFRQ4 f>/f<,df/dt(4) 81(4) OUT LD0.FRPTRC4.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Frequency protection\FRPFRQ4\Outputs
FRPFRQ4 f>/f<,df/dt(4) 81(4) OUT LD0.FRPTRC4.Op.general ACT BOOLEAN ST OPERATE Operate Monitoring\I/O status\Frequency protection\FRPFRQ4\Outputs
FRPFRQ4 f>/f<,df/dt(4) 81(4) OUT LD0.FRPTOF4.Str.general ACD BOOLEAN ST ST_OFRQ Start signal for overfrequency Monitoring\I/O status\Frequency protection\FRPFRQ4\Outputs
FRPFRQ4 f>/f<,df/dt(4) 81(4) OUT LD0.FRPTOF4.Op.general ACT BOOLEAN ST StatNrml PHT OPR_OFRQ Operate signal for overfrequency Monitoring\I/O status\Frequency protection\FRPFRQ4\Outputs
FRPFRQ4 f>/f<,df/dt(4) 81(4) OUT LD0.FRPTUF4.Str.general ACD BOOLEAN ST ST_UFRQ Start signal for underfrequency Monitoring\I/O status\Frequency protection\FRPFRQ4\Outputs
FRPFRQ4 f>/f<,df/dt(4) 81(4) OUT LD0.FRPTUF4.Op.general ACT BOOLEAN ST StatNrml PHT OPR_UFRQ Operate signal for underfrequency Monitoring\I/O status\Frequency protection\FRPFRQ4\Outputs
FRPFRQ4 f>/f<,df/dt(4) 81(4) OUT LD0.FRPFRC4.Str.general ACD BOOLEAN ST ST_FRG Start signal for frequency gradient Monitoring\I/O status\Frequency protection\FRPFRQ4\Outputs
FRPFRQ4 f>/f<,df/dt(4) 81(4) OUT LD0.FRPFRC4.Op.general ACT BOOLEAN ST StatNrml PHT OPR_FRG Operate signal for frequency gradient Monitoring\I/O status\Frequency protection\FRPFRQ4\Outputs
FRPFRQ4 f>/f<,df/dt(4) 81(4) MON LD0.FRPTRC4.Beh.stVal INS Enum ST FRPFRQ4 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
FRPFRQ4 f>/f<,df/dt(4) 81(4) MON LD0.FRPTRC4.StrDur.mag.f MV FLOAT32 MX START_DUR Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ4\Monitored data
FRPFRQ4 f>/f<,df/dt(4) 81(4) MON LD0.FRPTOF4.StrDur.mag.f MV FLOAT32 MX ST_DUR_OFRQ Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ4\Monitored data
FRPFRQ4 f>/f<,df/dt(4) 81(4) MON LD0.FRPTUF4.StrDur.mag.f MV FLOAT32 MX ST_DUR_UFRQ Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ4\Monitored data
FRPFRQ4 f>/f<,df/dt(4) 81(4) MON LD0.FRPFRC4.StrDur.mag.f MV FLOAT32 MX ST_DUR_FRG Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ4\Monitored data
FRPFRQ4 f>/f<,df/dt(4) 81(4) SET LD0.FRPTRC4.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Frequency protection\FRPFRQ4
FRPFRQ4 f>/f<,df/dt(4) 81(4) SET LD0.FRPTRC4.OpModProHz.setVal ING Enum SG 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\FRPFRQ4
FRPFRQ4 f>/f<,df/dt(4) 81(4) SET LD0.FRPTOF4.StrVal.setMag.f ASG FLOAT32 SG 1.050 Start value Freq> Frequency start value overfrequency 0.900...1.200 xFn Settings\Settings\Frequency protection\FRPFRQ4
FRPFRQ4 f>/f<,df/dt(4) 81(4) SET LD0.FRPTOF4.OpDlTmms.setVal ING INT32 SG 200 Operate Tm Freq Operate delay time for frequency 80...200000 ms Settings\Settings\Frequency protection\FRPFRQ4
FRPFRQ4 f>/f<,df/dt(4) 81(4) SET LD0.FRPTOF4.RsDlTmms.setVal ING INT32 SP 0 Reset delay Tm Freq Reset delay time for frequency 0...60000 ms Settings\Settings\Frequency protection\FRPFRQ4
FRPFRQ4 f>/f<,df/dt(4) 81(4) SET LD0.FRPTUF4.StrVal.setMag.f ASG FLOAT32 SG 0.950 Start value Freq< Frequency start value underfrequency 0.800...1.100 xFn Settings\Settings\Frequency protection\FRPFRQ4
FRPFRQ4 f>/f<,df/dt(4) 81(4) SET LD0.FRPFRC4.StrVal.setMag.f ASG FLOAT32 SG 0.010 Start value df/dt Frequency start value rate of change -0.200...0.200 xFn /s Settings\Settings\Frequency protection\FRPFRQ4
FRPFRQ4 f>/f<,df/dt(4) 81(4) SET LD0.FRPFRC4.OpDlTmms.setVal ING INT32 SG 400 Operate Tm df/dt Operate delay time for frequency rate of change 120...200000 ms Settings\Settings\Frequency protection\FRPFRQ4
FRPFRQ4 f>/f<,df/dt(4) 81(4) SET LD0.FRPFRC4.RsDlTmms.setVal ING INT32 SP 0 Reset delay Tm df/dt Reset delay time for rate of change 0...60000 ms Settings\Settings\Frequency protection\FRPFRQ4
FRPFRQ4 f>/f<,df/dt(4) 81(4) TES LD0.FRPTRC4.TstOutCmd.Oper.ctlVal INC Enum CO 0 FRPFRQ4 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
FRPFRQ4 f>/f<,df/dt(4) 81(4) VER LD0.FRPTRC4.NamPlt.swRev LPL VisString255 (20) DC A
FRPFRQ4 f>/f<,df/dt(4) 81(4) VER LD0.FRPTOF4.NamPlt.swRev LPL VisString255 (20) DC A
FRPFRQ4 f>/f<,df/dt(4) 81(4) VER LD0.FRPTUF4.NamPlt.swRev LPL VisString255 (20) DC A
FRPFRQ4 f>/f<,df/dt(4) 81(4) VER LD0.FRPFRC4.NamPlt.swRev LPL VisString255 (20) DC A

FRPFRQ5: Frequency protection

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
FRPFRQ5 f>/f<,df/dt(5) 81(5) INP LD0.FRPTRC5.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Frequency protection\FRPFRQ5\Inputs
FRPFRQ5 f>/f<,df/dt(5) 81(5) OUT LD0.FRPTRC5.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Frequency protection\FRPFRQ5\Outputs
FRPFRQ5 f>/f<,df/dt(5) 81(5) OUT LD0.FRPTRC5.Op.general ACT BOOLEAN ST OPERATE Operate Monitoring\I/O status\Frequency protection\FRPFRQ5\Outputs
FRPFRQ5 f>/f<,df/dt(5) 81(5) OUT LD0.FRPTOF5.Str.general ACD BOOLEAN ST ST_OFRQ Start signal for overfrequency Monitoring\I/O status\Frequency protection\FRPFRQ5\Outputs
FRPFRQ5 f>/f<,df/dt(5) 81(5) OUT LD0.FRPTOF5.Op.general ACT BOOLEAN ST StatNrml PHT OPR_OFRQ Operate signal for overfrequency Monitoring\I/O status\Frequency protection\FRPFRQ5\Outputs
FRPFRQ5 f>/f<,df/dt(5) 81(5) OUT LD0.FRPTUF5.Str.general ACD BOOLEAN ST ST_UFRQ Start signal for underfrequency Monitoring\I/O status\Frequency protection\FRPFRQ5\Outputs
FRPFRQ5 f>/f<,df/dt(5) 81(5) OUT LD0.FRPTUF5.Op.general ACT BOOLEAN ST StatNrml PHT OPR_UFRQ Operate signal for underfrequency Monitoring\I/O status\Frequency protection\FRPFRQ5\Outputs
FRPFRQ5 f>/f<,df/dt(5) 81(5) OUT LD0.FRPFRC5.Str.general ACD BOOLEAN ST ST_FRG Start signal for frequency gradient Monitoring\I/O status\Frequency protection\FRPFRQ5\Outputs
FRPFRQ5 f>/f<,df/dt(5) 81(5) OUT LD0.FRPFRC5.Op.general ACT BOOLEAN ST StatNrml PHT OPR_FRG Operate signal for frequency gradient Monitoring\I/O status\Frequency protection\FRPFRQ5\Outputs
FRPFRQ5 f>/f<,df/dt(5) 81(5) MON LD0.FRPTRC5.Beh.stVal INS Enum ST FRPFRQ5 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
FRPFRQ5 f>/f<,df/dt(5) 81(5) MON LD0.FRPTRC5.StrDur.mag.f MV FLOAT32 MX START_DUR Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ5\Monitored data
FRPFRQ5 f>/f<,df/dt(5) 81(5) MON LD0.FRPTOF5.StrDur.mag.f MV FLOAT32 MX ST_DUR_OFRQ Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ5\Monitored data
FRPFRQ5 f>/f<,df/dt(5) 81(5) MON LD0.FRPTUF5.StrDur.mag.f MV FLOAT32 MX ST_DUR_UFRQ Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ5\Monitored data
FRPFRQ5 f>/f<,df/dt(5) 81(5) MON LD0.FRPFRC5.StrDur.mag.f MV FLOAT32 MX ST_DUR_FRG Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ5\Monitored data
FRPFRQ5 f>/f<,df/dt(5) 81(5) SET LD0.FRPTRC5.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Frequency protection\FRPFRQ5
FRPFRQ5 f>/f<,df/dt(5) 81(5) SET LD0.FRPTRC5.OpModProHz.setVal ING Enum SG 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\FRPFRQ5
FRPFRQ5 f>/f<,df/dt(5) 81(5) SET LD0.FRPTOF5.StrVal.setMag.f ASG FLOAT32 SG 1.050 Start value Freq> Frequency start value overfrequency 0.900...1.200 xFn Settings\Settings\Frequency protection\FRPFRQ5
FRPFRQ5 f>/f<,df/dt(5) 81(5) SET LD0.FRPTOF5.OpDlTmms.setVal ING INT32 SG 200 Operate Tm Freq Operate delay time for frequency 80...200000 ms Settings\Settings\Frequency protection\FRPFRQ5
FRPFRQ5 f>/f<,df/dt(5) 81(5) SET LD0.FRPTOF5.RsDlTmms.setVal ING INT32 SP 0 Reset delay Tm Freq Reset delay time for frequency 0...60000 ms Settings\Settings\Frequency protection\FRPFRQ5
FRPFRQ5 f>/f<,df/dt(5) 81(5) SET LD0.FRPTUF5.StrVal.setMag.f ASG FLOAT32 SG 0.950 Start value Freq< Frequency start value underfrequency 0.800...1.100 xFn Settings\Settings\Frequency protection\FRPFRQ5
FRPFRQ5 f>/f<,df/dt(5) 81(5) SET LD0.FRPFRC5.StrVal.setMag.f ASG FLOAT32 SG 0.010 Start value df/dt Frequency start value rate of change -0.200...0.200 xFn /s Settings\Settings\Frequency protection\FRPFRQ5
FRPFRQ5 f>/f<,df/dt(5) 81(5) SET LD0.FRPFRC5.OpDlTmms.setVal ING INT32 SG 400 Operate Tm df/dt Operate delay time for frequency rate of change 120...200000 ms Settings\Settings\Frequency protection\FRPFRQ5
FRPFRQ5 f>/f<,df/dt(5) 81(5) SET LD0.FRPFRC5.RsDlTmms.setVal ING INT32 SP 0 Reset delay Tm df/dt Reset delay time for rate of change 0...60000 ms Settings\Settings\Frequency protection\FRPFRQ5
FRPFRQ5 f>/f<,df/dt(5) 81(5) TES LD0.FRPTRC5.TstOutCmd.Oper.ctlVal INC Enum CO 0 FRPFRQ5 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
FRPFRQ5 f>/f<,df/dt(5) 81(5) VER LD0.FRPTRC5.NamPlt.swRev LPL VisString255 (20) DC A
FRPFRQ5 f>/f<,df/dt(5) 81(5) VER LD0.FRPTOF5.NamPlt.swRev LPL VisString255 (20) DC A
FRPFRQ5 f>/f<,df/dt(5) 81(5) VER LD0.FRPTUF5.NamPlt.swRev LPL VisString255 (20) DC A
FRPFRQ5 f>/f<,df/dt(5) 81(5) VER LD0.FRPFRC5.NamPlt.swRev LPL VisString255 (20) DC A

FRPFRQ6: Frequency protection

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
FRPFRQ6 f>/f<,df/dt(6) 81(6) INP LD0.FRPTRC6.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Frequency protection\FRPFRQ6\Inputs
FRPFRQ6 f>/f<,df/dt(6) 81(6) OUT LD0.FRPTRC6.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Frequency protection\FRPFRQ6\Outputs
FRPFRQ6 f>/f<,df/dt(6) 81(6) OUT LD0.FRPTRC6.Op.general ACT BOOLEAN ST OPERATE Operate Monitoring\I/O status\Frequency protection\FRPFRQ6\Outputs
FRPFRQ6 f>/f<,df/dt(6) 81(6) OUT LD0.FRPTOF6.Str.general ACD BOOLEAN ST ST_OFRQ Start signal for overfrequency Monitoring\I/O status\Frequency protection\FRPFRQ6\Outputs
FRPFRQ6 f>/f<,df/dt(6) 81(6) OUT LD0.FRPTOF6.Op.general ACT BOOLEAN ST StatNrml PHT OPR_OFRQ Operate signal for overfrequency Monitoring\I/O status\Frequency protection\FRPFRQ6\Outputs
FRPFRQ6 f>/f<,df/dt(6) 81(6) OUT LD0.FRPTUF6.Str.general ACD BOOLEAN ST ST_UFRQ Start signal for underfrequency Monitoring\I/O status\Frequency protection\FRPFRQ6\Outputs
FRPFRQ6 f>/f<,df/dt(6) 81(6) OUT LD0.FRPTUF6.Op.general ACT BOOLEAN ST StatNrml PHT OPR_UFRQ Operate signal for underfrequency Monitoring\I/O status\Frequency protection\FRPFRQ6\Outputs
FRPFRQ6 f>/f<,df/dt(6) 81(6) OUT LD0.FRPFRC6.Str.general ACD BOOLEAN ST ST_FRG Start signal for frequency gradient Monitoring\I/O status\Frequency protection\FRPFRQ6\Outputs
FRPFRQ6 f>/f<,df/dt(6) 81(6) OUT LD0.FRPFRC6.Op.general ACT BOOLEAN ST StatNrml PHT OPR_FRG Operate signal for frequency gradient Monitoring\I/O status\Frequency protection\FRPFRQ6\Outputs
FRPFRQ6 f>/f<,df/dt(6) 81(6) MON LD0.FRPTRC6.Beh.stVal INS Enum ST FRPFRQ6 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
FRPFRQ6 f>/f<,df/dt(6) 81(6) MON LD0.FRPTRC6.StrDur.mag.f MV FLOAT32 MX START_DUR Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ6\Monitored data
FRPFRQ6 f>/f<,df/dt(6) 81(6) MON LD0.FRPTOF6.StrDur.mag.f MV FLOAT32 MX ST_DUR_OFRQ Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ6\Monitored data
FRPFRQ6 f>/f<,df/dt(6) 81(6) MON LD0.FRPTUF6.StrDur.mag.f MV FLOAT32 MX ST_DUR_UFRQ Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ6\Monitored data
FRPFRQ6 f>/f<,df/dt(6) 81(6) MON LD0.FRPFRC6.StrDur.mag.f MV FLOAT32 MX ST_DUR_FRG Start duration 0.00...100.00 % Monitoring\I/O status\Frequency protection\FRPFRQ6\Monitored data
FRPFRQ6 f>/f<,df/dt(6) 81(6) SET LD0.FRPTRC6.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Frequency protection\FRPFRQ6
FRPFRQ6 f>/f<,df/dt(6) 81(6) SET LD0.FRPTRC6.OpModProHz.setVal ING Enum SG 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\FRPFRQ6
FRPFRQ6 f>/f<,df/dt(6) 81(6) SET LD0.FRPTOF6.StrVal.setMag.f ASG FLOAT32 SG 1.050 Start value Freq> Frequency start value overfrequency 0.900...1.200 xFn Settings\Settings\Frequency protection\FRPFRQ6
FRPFRQ6 f>/f<,df/dt(6) 81(6) SET LD0.FRPTOF6.OpDlTmms.setVal ING INT32 SG 200 Operate Tm Freq Operate delay time for frequency 80...200000 ms Settings\Settings\Frequency protection\FRPFRQ6
FRPFRQ6 f>/f<,df/dt(6) 81(6) SET LD0.FRPTOF6.RsDlTmms.setVal ING INT32 SP 0 Reset delay Tm Freq Reset delay time for frequency 0...60000 ms Settings\Settings\Frequency protection\FRPFRQ6
FRPFRQ6 f>/f<,df/dt(6) 81(6) SET LD0.FRPTUF6.StrVal.setMag.f ASG FLOAT32 SG 0.950 Start value Freq< Frequency start value underfrequency 0.800...1.100 xFn Settings\Settings\Frequency protection\FRPFRQ6
FRPFRQ6 f>/f<,df/dt(6) 81(6) SET LD0.FRPFRC6.StrVal.setMag.f ASG FLOAT32 SG 0.010 Start value df/dt Frequency start value rate of change -0.200...0.200 xFn /s Settings\Settings\Frequency protection\FRPFRQ6
FRPFRQ6 f>/f<,df/dt(6) 81(6) SET LD0.FRPFRC6.OpDlTmms.setVal ING INT32 SG 400 Operate Tm df/dt Operate delay time for frequency rate of change 120...200000 ms Settings\Settings\Frequency protection\FRPFRQ6
FRPFRQ6 f>/f<,df/dt(6) 81(6) SET LD0.FRPFRC6.RsDlTmms.setVal ING INT32 SP 0 Reset delay Tm df/dt Reset delay time for rate of change 0...60000 ms Settings\Settings\Frequency protection\FRPFRQ6
FRPFRQ6 f>/f<,df/dt(6) 81(6) TES LD0.FRPTRC6.TstOutCmd.Oper.ctlVal INC Enum CO 0 FRPFRQ6 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
FRPFRQ6 f>/f<,df/dt(6) 81(6) VER LD0.FRPTRC6.NamPlt.swRev LPL VisString255 (20) DC A
FRPFRQ6 f>/f<,df/dt(6) 81(6) VER LD0.FRPTOF6.NamPlt.swRev LPL VisString255 (20) DC A
FRPFRQ6 f>/f<,df/dt(6) 81(6) VER LD0.FRPTUF6.NamPlt.swRev LPL VisString255 (20) DC A
FRPFRQ6 f>/f<,df/dt(6) 81(6) VER LD0.FRPFRC6.NamPlt.swRev LPL VisString255 (20) DC A

OLATCC1: On-load tap changer controller

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
OLATCC1 COLTC 90V INP LD0.OLATCC1.ParOp.stVal SPC BOOLEAN ST 0 PARALLEL Parallel or single operation Monitoring\I/O status\Control\OLATCC1\Monitored data
OLATCC1 COLTC 90V INP LD0.OLATCC1.LTCBlk.stVal SPC BOOLEAN ST 0 LTC_BLOCK External signal for blocking Monitoring\I/O status\Control\OLATCC1\Inputs
OLATCC1 COLTC 90V INP LD0.OLATCC1.VRed1.stVal SPC BOOLEAN ST 0 RSV Reduce set voltage active Monitoring\I/O status\Control\OLATCC1\Inputs
OLATCC1 COLTC 90V INP LD0.OLATCC1.Auto.stVal SPS BOOLEAN ST 0 AUTO Auto/Manual indication Monitoring\I/O status\Control\OLATCC1\Monitored data
OLATCC1 COLTC 90V INP LD0.OLATCC1.Tra1TapPos.stVal INS INT32 ST 0 TR1_TAP_POS Integer value representing tap changer position of transformer 1 -36...36 Monitoring\I/O status\Control\OLATCC1\Inputs
OLATCC1 COLTC 90V INP LD0.OLATCC1.Tra2TapPos.stVal INS INT32 ST 0 TR2_TAP_POS Integer value representing tap changer position of transformer 2 -36...36 Monitoring\I/O status\Control\OLATCC1\Inputs
OLATCC1 COLTC 90V INP LD0.OLATCC1.Tra3TapPos.stVal INS INT32 ST 0 TR3_TAP_POS Integer value representing tap changer position of transformer 3 -36...36 Monitoring\I/O status\Control\OLATCC1\Inputs
OLATCC1 COLTC 90V INP LD0.OLATCC1.TapChgFllw.stVal INS INT32 ST 0
OLATCC1 COLTC 90V INP LD0.OLATCC1.InConSta.stVal SPS BOOLEAN ST 0 CON_STATUS Network connection status of the (own) transformer Monitoring\I/O status\Control\OLATCC1\Inputs
OLATCC1 COLTC 90V INP LD0.OLATCC1.InLTCOp.stVal SPS BOOLEAN ST 0 TCO Tap changer operating input Monitoring\I/O status\Control\OLATCC1\Inputs
OLATCC1 COLTC 90V INP LD0.OLATCC1.Tra1A.cVal.mag.f CMV FLOAT32 MX 0.00 TR1_I_AMPL Received current magnitude from transformer 1 0.00...15000.00 A Monitoring\I/O status\Control\OLATCC1\Inputs
OLATCC1 COLTC 90V INP LD0.OLATCC1.Tra1A.cVal.ang.f CMV FLOAT32 MX 0.0 TR1_I_ANGL Received current angle from transformer 1 -180.00...180.00 deg Monitoring\I/O status\Control\OLATCC1\Inputs
OLATCC1 COLTC 90V INP LD0.OLATCC1.Tra2A.cVal.mag.f CMV FLOAT32 MX 0.00 TR2_I_AMPL Received current magnitude from transformer 2 0.00...15000.00 A Monitoring\I/O status\Control\OLATCC1\Inputs
OLATCC1 COLTC 90V INP LD0.OLATCC1.Tra2A.cVal.ang.f CMV FLOAT32 MX 0.0 TR2_I_ANGL Received current angle from transformer 2 -180.00...180.00 deg Monitoring\I/O status\Control\OLATCC1\Inputs
OLATCC1 COLTC 90V INP LD0.OLATCC1.Tra3A.cVal.mag.f CMV FLOAT32 MX 0.00 TR3_I_AMPL Received current magnitude from transformer 3 0.00...15000.00 A Monitoring\I/O status\Control\OLATCC1\Inputs
OLATCC1 COLTC 90V INP LD0.OLATCC1.Tra3A.cVal.ang.f CMV FLOAT32 MX 0.0 TR3_I_ANGL Received current angle from transformer 3 -180.00...180.00 deg Monitoring\I/O status\Control\OLATCC1\Inputs
OLATCC1 COLTC 90V INP LD0.OLATCC1.TapChgR.stVal SPS BOOLEAN ST 0 RAISE_LOCAL Raise command input from configuration Monitoring\I/O status\Control\OLATCC1\Inputs
OLATCC1 COLTC 90V INP LD0.OLATCC1.TapChgL.stVal SPS BOOLEAN ST 0 LOWER_LOCAL Lower command input from configuration Monitoring\I/O status\Control\OLATCC1\Inputs
OLATCC1 COLTC 90V OUT LD0.OLATCC1.TapOpErr.stVal SPS BOOLEAN ST StatUrg PH ALARM Alarm status Monitoring\I/O status\Control\OLATCC1\Outputs
OLATCC1 COLTC 90V OUT LD0.OLATCC1.TapOpR.stVal SPS BOOLEAN ST StatIO PT RAISE_OWN Raise command for own transformer Monitoring\I/O status\Control\OLATCC1\Outputs
OLATCC1 COLTC 90V OUT LD0.OLATCC1.TapOpL.stVal SPS BOOLEAN ST StatIO PT LOWER_OWN Lower command for own transformer Monitoring\I/O status\Control\OLATCC1\Outputs
OLATCC1 COLTC 90V OUT LD0.OLATCC1.TapOpFllw1.stVal INS INT32 ST FLLW1_CTL Lower/Raise command for follower transformer 1 in the Master/Follower operation mode 0...2 Monitoring\I/O status\Control\OLATCC1\Outputs
OLATCC1 COLTC 90V OUT LD0.OLATCC1.TapOpFllw2.stVal INS INT32 ST FLLW2_CTL Lower/Raise command for follower transformer 2 in the Master/Follower operation mode 0...2 Monitoring\I/O status\Control\OLATCC1\Outputs
OLATCC1 COLTC 90V OUT LD0.OLATCC1.TapOpFllw3.stVal INS INT32 ST FLLW3_CTL Lower/Raise command for follower transformer 3 in the Master/Follower operation mode 0...2 Monitoring\I/O status\Control\OLATCC1\Outputs
OLATCC1 COLTC 90V OUT LD0.OLATCC1.ALod.cVal.mag.f CMV FLOAT32 MX TR0_I_AMPL Transmitted current magnitude 0.00...15000.00 A Monitoring\I/O status\Control\OLATCC1\Outputs
OLATCC1 COLTC 90V OUT LD0.OLATCC1.ALod.cVal.ang.f CMV FLOAT32 MX TR0_I_ANGL Transmitted current angle -180.00...180.00 deg Monitoring\I/O status\Control\OLATCC1\Outputs
OLATCC1 COLTC 90V OUT LD0.OLATCC1.ErrParTra.stVal SPS BOOLEAN ST StatUrg PH PAR_FAIL Parallel failure detected Monitoring\I/O status\Control\OLATCC1\Outputs
OLATCC1 COLTC 90V CTR LD0.OLATCC1.RsCnt.Oper.ctlVal SPC BOOLEAN CO 0 OLATCC1 counter OLATCC1 counter reset 0=Cancel; 1=Clear Clear\Clear
OLATCC1 COLTC 90V MON LD0.OLATCC1.Beh.stVal INS Enum ST OLATCC1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
OLATCC1 COLTC 90V MON LD0.OLATCC1.OpCntRs.stVal INC INT32 ST OPR_CNT Total number of raise and lower commands given in the manual and automatic modes 0...2147483647 Monitoring\I/O status\Control\OLATCC1\Monitored data
OLATCC1 COLTC 90V MON LD0.OLATCC1.TapChg.valWTr.posVal BSC INT8 ST TAP_POS Integer value representing tap changer position of own transformer -36...36 Monitoring\I/O status\Control\OLATCC1\Inputs
OLATCC1 COLTC 90V MON LD0.OLATCC1.CtlV.mag.f MV FLOAT32 MX U_CTL Control voltage, Up, target voltage level 0.000...3.000 xUn Monitoring\I/O status\Control\OLATCC1\Monitored data
OLATCC1 COLTC 90V MON LD0.OLATCC1.CircA.mag.f MV FLOAT32 MX I_CIR Calculated circulating current - calculated in operation modes NRP and MCC -10.00...10.00 xIn Monitoring\I/O status\Control\OLATCC1\Monitored data
OLATCC1 COLTC 90V MON LD0.OLATCC1.VMeas.mag.f MV FLOAT32 MX U_MEAS Phase-to-phase voltage, average filtered 0.00...5.00 xUn Monitoring\I/O status\Control\OLATCC1\Monitored data UL1TVTR1
OLATCC1 COLTC 90V MON LD0.OLATCC1.AngVAPhA.mag.f MV FLOAT32 MX ANGL_UA_IA Measured angle value between phase A voltage and current -180...180 deg Monitoring\I/O status\Control\OLATCC1\Monitored data
OLATCC1 COLTC 90V MON LD0.OLATCC1.CtlDlOn.stVal INS Enum ST StatIed PH TIMER_STS Timer T1, T2 or fast lower timer active 0=Timer off; 1=Lower timer1 on; 2=Raise timer1 on; 3=Lower timer2 on; 4=Raise timer2 on; 5=Fast lower T on Monitoring\I/O status\Control\OLATCC1\Monitored data
OLATCC1 COLTC 90V MON LD0.OLATCC1.CtlOpModSt.stVal INS Enum ST StatNrml PH OPR_MODE_STS The acting operation mode of the function block 0=Not in use; 1=Manual; 2=Auto single; 3=Auto master; 4=Auto follower; 5=MCC; 6=NRP Monitoring\I/O status\Control\OLATCC1\Monitored data
OLATCC1 COLTC 90V MON LD0.OLATCC1.CtlVDif.mag.f MV FLOAT32 MX UD_CTL Voltage difference between Measured voltage - Control Voltage: Um - Up -2.000...2.000 xUn Monitoring\I/O status\Control\OLATCC1\Monitored data
OLATCC1 COLTC 90V MON LD0.OLATCC1.ClcLDC.mag.f MV FLOAT32 MX LDC Calculated line drop compensation -2.00...2.00 xUn Monitoring\I/O status\Control\OLATCC1\Monitored data
OLATCC1 COLTC 90V MON LD0.OLATCC1.BlkSt.stVal INS INT32 ST BLK_STATUS Bit-coded output showing the blocking status for the next operation 0...127 Monitoring\I/O status\Control\OLATCC1\Monitored data
OLATCC1 COLTC 90V MON LD0.OLATCC1.LTCBlkAHi.stVal SPS BOOLEAN ST StatUrg PH BLKD_I_LOD Indication of over current blocking Monitoring\I/O status\Control\OLATCC1\Monitored data
OLATCC1 COLTC 90V MON LD0.OLATCC1.LTCBlkVLo.stVal SPS BOOLEAN ST StatUrg PH BLKD_U_UN Indication of under voltage blocking Monitoring\I/O status\Control\OLATCC1\Monitored data
OLATCC1 COLTC 90V MON LD0.OLATCC1.LTCRnbk.stVal SPS BOOLEAN ST StatUrg PH RNBK_U_OV Indication of raise voltage runback Monitoring\I/O status\Control\OLATCC1\Monitored data
OLATCC1 COLTC 90V MON LD0.OLATCC1.LTCBlkCirA.stVal SPS BOOLEAN ST StatUrg PH BLKD_I_CIR Indication of high circulating current blocking Monitoring\I/O status\Control\OLATCC1\Monitored data
OLATCC1 COLTC 90V MON LD0.OLATCC1.LTCBlkSt.stVal SPS BOOLEAN ST StatUrg PH BLKD_LTCBLK Indication of external blocking Monitoring\I/O status\Control\OLATCC1\Monitored data
OLATCC1 COLTC 90V MON LD0.OLATCC1.AlmReas.stVal INS Enum ST ALARM_REAS Status and reason for alarm 0=No alarm; 1=Cmd error; 2=TCO error; 3=Cmd + TCO err; 4=Pump error; 5=Pump + cmd err; 6=Pump + TCO err; 7=Pmp+TCO+cmd err Monitoring\I/O status\Control\OLATCC1\Monitored data
OLATCC1 COLTC 90V MON LD0.OLATCC1.FllwFlt.stVal INS Enum ST FAIL_FLLW Failed followers 0=No failed followers; 1=Follower 1; 2=Follower 2; 3=Followers 1+2; 4=Follower 3; 5=Followers 1+3; 6=Followers 2+3; 7=Followers 1+2+3 Monitoring\I/O status\Control\OLATCC1\Monitored data
OLATCC1 COLTC 90V MON LD0.OLATCC1.NumParUnit.stVal INS Enum ST PAR_UNIT_MCC Parallel units included in MCC calculation 0=No parall units; 1=Trafo 1; 2=Trafo 2; 3=Trafos 1 and 2; 4=Trafo 3; 5=Trafos 1 and 3; 6=Trafos 2 and 3; 7=Trafos 1+2+3 Monitoring\I/O status\Control\OLATCC1\Monitored data
OLATCC1 COLTC 90V MON LD0.OLATCC1.OpTmhNum.stVal INS INT32 ST OP_TM_NUM_H Number of controls for own tap changer during last hour 0...2147483647 Monitoring\I/O status\Control\OLATCC1\Monitored data
OLATCC1 COLTC 90V SET LD0.OLATCC1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.BndCtr.setMag.f ASG FLOAT32 SG 1.000 Band center voltage Band center voltage Us 0.000...2.000 xUn Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.BndWid.setMag.f ASG FLOAT32 SP 3.00 Band width voltage Allowed deviation of the control voltage 1.20...18.00 %Un Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.CtlDlTmms1.setVal ING INT32 SG 60000 Control delay time 1 Control delay time for the first control pulse 1000...300000 ms Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.CtlDlTmms2.setVal ING INT32 SG 30000 Control delay time 2 Control delay time for the following control pulses 1000...300000 ms Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.LDCR.setMag.f ASG FLOAT32 SG 0.0 Line drop V Ris Resistive line-drop compensation factor 0.0...25.0 % Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.LDCX.setMag.f ASG FLOAT32 SG 0.0 Line drop V React Reactive line-drop compensation factor 0.0...25.0 % Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.RnbkRV.setMag.f ASG FLOAT32 SP 1.25 Runback raise V Voltage limit, where fast lower commands takes place 0.80...2.40 xUn Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.LimLodA.setMag.f ASG FLOAT32 SP 2.00 Load current limit Load current blocking limit 0.10...5.00 xIn Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.TmDlChr.setVal SPG BOOLEAN SP 1 Delay characteristic Selection of delay characteristic 0=Inverse time; 1=Definite time Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.VRedVal.setMag.f ASG FLOAT32 SG 0.00 Band reduction Step size for reduce set voltage (RSV) 0.00...9.00 %Un Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.TapBlkR.setVal ING INT32 SP 17 Raise block tap Tap changer limit position which gives highest voltage on the regulated side -36...36 Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.TapBlkL.setVal ING INT32 SP 0 Lower block tap Tap changer limit position which gives lowest voltage on the regulated side -36...36 Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.BlkVLo.setMag.f ASG FLOAT32 SP 0.70 Block lower voltage Voltage limit, where further voltage lowering commands are blocked 0.10...1.20 xUn Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.ParTraMod.setVal ING Enum SG 2 Auto parallel mode Parallel mode selection 2=Auto master; 3=Auto follower; 5=NRP; 7=MCC Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.LodPhAng.setMag.f ASG FLOAT32 SG 0 Load phase angle Load phase-shift, used only with the negative reactance principle -89...89 deg Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.StabFact.setMag.f ASG FLOAT32 SG 0.0 Stability factor Stability factor in parallel operation 0.0...70.0 % Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.VCtlOpMod.setVal ING Enum SP 1 Operation mode The operation mode 1=Manual; 2=Auto single; 3=Auto parallel; 4=Input control Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.LTCPlsTmms.setVal ING INT32 SP 1500 LTC pulse time Output pulse duration, common for raise and lower pulses 500...10000 ms Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.ManBlkTyp.setVal ING Enum SP 2 Custom Man blocking Customized manual blocking 1=Custom disabled; 2=OC; 3=UV; 4=OC, UV; 5=EXT; 6=OC, EXT; 7=UV, EXT; 8=OC, UV, EXT Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.LimCircA.setMag.f ASG FLOAT32 SP 0.15 Cir current limit Blocking limit for high circulating current 0.10...5.00 xIn Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.LimLDC.setMag.f ASG FLOAT32 SP 0.10 LDC limit Maximum limit for line drop compensation term 0.00...2.00 xUn Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.LDCEna.setVal SPG BOOLEAN SP 1 LDC enable Selection for line drop compensation Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.RPFAllw.setVal SPG BOOLEAN SP 0 Rv Pwr flow allowed Reverse power flow allowed Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.OpTmhMax.setVal ING INT32 SP 100 Max operations in 1h Allowed number of controls per one hour sliding window 0...10000 Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.CmdErrTms.setVal ING INT32 SP 20 Cmd error delay time Time delay before command error will be activated 10...50 s Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.FllwDlTms.setVal ING INT32 SP 6 Follower delay time Time delay between successive follower commands by a master 6...20 s Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.AlmEna.setVal SPG BOOLEAN SP 1 Alarms enabled Alarm selection Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V SET LD0.OLATCC1.ParTraNum.setVal ING INT32 SP 0 Parallel trafos Number of parallel transformers in addition to own transformer 0...10 Settings\Settings\Control\OLATCC1
OLATCC1 COLTC 90V TES LD0.OLATCC1.TstOutCmd.Oper.ctlVal INC Enum CO 1 OLATCC1 Test control for outputs 0=Reset; -33=Activate RAISE; -34=Deactive RAISE; -35=Activate LOWER; -36=Deactive LOWER; 17=Activate ALARM; 18=Deactive ALARM; -37=Activate PAR_FAIL; -38=Deactive PAR_FAIL Tests\Function tests\Control
OLATCC1 COLTC 90V VER LD0.OLATCC1.NamPlt.swRev LPL VisString255 (20) DC A
OLYLTC1 VER LD0.OLYLTC1.NamPlt.swRev LPL VisString255 (20) DC A

Current (3I,CT)

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 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 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 # 2 Secondary current Rated secondary current 2=1A; 3=5A Configuration\Analog inputs\Current (3I,CT)
Current (3I,CT) CFG LD0.IL1TCTR1.ARtgNom.setMag.f ASG FLOAT32 SP # 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 # 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 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 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 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

Current (Io,CT)

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) CFG LD0.RESTCTR1.Cor.setMag.f ASG FLOAT32 SP 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 100.0 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 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 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

Voltage (Uo,VT)

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) CFG LD0.RESTVTR1.Cor.setMag.f ASG FLOAT32 SP 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 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 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

X120 (AIM)

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) OUT LD0.XGGIO120.Ind1.stVal SPS BOOLEAN ST StatIO P X120-Input 1 Connectors 1-2c Monitoring\I/O status\Binary input values\X120 (AIM)
X120 (AIM) X120 (AIM) X120 (AIM) OUT LD0.XGGIO120.Ind2.stVal SPS BOOLEAN ST StatIO P X120-Input 2 Connectors 3-2c Monitoring\I/O status\Binary input values\X120 (AIM)
X120 (AIM) X120 (AIM) X120 (AIM) OUT LD0.XGGIO120.Ind3.stVal SPS BOOLEAN ST StatIO P X120-Input 3 Connectors 4-2c Monitoring\I/O status\Binary input values\X120 (AIM)
X120 (AIM) X120 (AIM) X120 (AIM) OUT LD0.XGGIO120.Ind4.stVal SPS BOOLEAN ST # 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 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 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 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 # 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 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 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 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 # 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 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 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 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 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 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
X120 (AIM) X120 (AIM) X120 (AIM) VER LD0.XGGIO120.EEName.swRev DPL VisString255 (20) DC A

Voltage (3U,VT)

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 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 20.000 Primary voltage Primary rated voltage 0.100...440.000 kV Configuration\Analog inputs\Voltage (3U,VT)
Voltage (3U,VT) CFG LD0.UL1TVTR1.VConnType.setVal ING Enum SP 1 VT connection Wye, delta, U12 or UL1 VT connection 1=Wye; 2=Delta Configuration\Analog inputs\Voltage (3U,VT)
Voltage (3U,VT) CFG LD0.UL1TVTR1.VInType.setVal ING Enum SP 3 Voltage input type Type of the voltage input 1=Voltage trafo; 3=CVD sensor Configuration\Analog inputs\Voltage (3U,VT)
Voltage (3U,VT) CFG LD0.UL2TVTR1.Cor.setMag.f ASG FLOAT32 SP 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 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

X130 (SIM)

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 (SIM) X130 (SIM) X130 (SIM) INF LD0.XSGGIO130.EEName.hwRev DPL VisString255 (20) DC 0 HW revision Card HW revision Information\HW modules\X130 (SIM)
X130 (SIM) X130 (SIM) X130 (SIM) INF LD0.XSGGIO130.EEName.serNum DPL VisString255 (20) DC 0 Serial number Card serial number Information\HW modules\X130 (SIM)
X130 (SIM) X130 (SIM) X130 (SIM) INF LD0.XSGGIO130.EEName.eArtNum DPL VisString255 (20) EX 0 Article number Card article number Information\HW modules\X130 (SIM)
X130 (SIM) X130 (SIM) X130 (SIM) INF LD0.XSGGIO130.EEName.eManDate DPL VisString255 (20) EX 0 Manufacturing date Card manufacturing date Information\HW modules\X130 (SIM)
X130 (SIM) X130 (SIM) X130 (SIM) INF LD0.XSGGIO130.EEName.eTestDate DPL VisString255 (20) EX 0 Test date Card test date Information\HW modules\X130 (SIM)
X130 (SIM) X130 (SIM) X130 (SIM) VER LD0.XSGGIO130.NamPlt.swRev LPL VisString255 (20) DC C
X130 (SIM) X130 (SIM) X130 (SIM) VER LD0.XSGGIO130.EEName.swRev DPL VisString255 (20) DC A

X130 (AIM)

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.XAGGIO130.Ind1.stVal SPS BOOLEAN ST StatIO P X130-Input 1 Connectors 1-2 Monitoring\I/O status\Binary input values\X130 (AIM)
X130 (AIM) X130 (AIM) X130 (AIM) OUT LD0.XAGGIO130.Ind2.stVal SPS BOOLEAN ST StatIO P X130-Input 2 Connectors 3-4 Monitoring\I/O status\Binary input values\X130 (AIM)
X130 (AIM) X130 (AIM) X130 (AIM) OUT LD0.XAGGIO130.Ind3.stVal SPS BOOLEAN ST StatIO P X130-Input 3 Connectors 5-6 Monitoring\I/O status\Binary input values\X130 (AIM)
X130 (AIM) X130 (AIM) X130 (AIM) OUT LD0.XAGGIO130.Ind4.stVal SPS BOOLEAN ST StatIO P X130-Input 4 Connectors 7-8 Monitoring\I/O status\Binary input values\X130 (AIM)
X130 (AIM) X130 (AIM) X130 (AIM) CFG LD0.XAGGIO130.OpDlTmms1.setVal ING INT32 SP 5 Input 1 filter time Connectors 1-2 5...1000 ms Configuration\I/O modules\X130 (AIM)\Input filtering
X130 (AIM) X130 (AIM) X130 (AIM) CFG LD0.XAGGIO130.OpDlTmms2.setVal ING INT32 SP 5 Input 2 filter time Connectors 3-4 5...1000 ms Configuration\I/O modules\X130 (AIM)\Input filtering
X130 (AIM) X130 (AIM) X130 (AIM) CFG LD0.XAGGIO130.OpDlTmms3.setVal ING INT32 SP 5 Input 3 filter time Connectors 5-6 5...1000 ms Configuration\I/O modules\X130 (AIM)\Input filtering
X130 (AIM) X130 (AIM) X130 (AIM) CFG LD0.XAGGIO130.OpDlTmms4.setVal ING INT32 SP 5 Input 4 filter time Connectors 7-8 5...1000 ms Configuration\I/O modules\X130 (AIM)\Input filtering
X130 (AIM) X130 (AIM) X130 (AIM) CFG LD0.XAGGIO130.DiInvert1.setVal SPG BOOLEAN SP 0 Input 1 inversion Connectors 1-2 Configuration\I/O modules\X130 (AIM)\Input inversion
X130 (AIM) X130 (AIM) X130 (AIM) CFG LD0.XAGGIO130.DiInvert2.setVal SPG BOOLEAN SP 0 Input 2 inversion Connectors 3-4 Configuration\I/O modules\X130 (AIM)\Input inversion
X130 (AIM) X130 (AIM) X130 (AIM) CFG LD0.XAGGIO130.DiInvert3.setVal SPG BOOLEAN SP 0 Input 3 inversion Connectors 5-6 Configuration\I/O modules\X130 (AIM)\Input inversion
X130 (AIM) X130 (AIM) X130 (AIM) CFG LD0.XAGGIO130.DiInvert4.setVal SPG BOOLEAN SP 0 Input 4 inversion Connectors 7-8 Configuration\I/O modules\X130 (AIM)\Input inversion
X130 (AIM) X130 (AIM) X130 (AIM) INF LD0.XAGGIO130.EEName.hwRev DPL VisString255 (20) DC 0 HW revision Card HW revision Information\HW modules\X130 (AIM)
X130 (AIM) X130 (AIM) X130 (AIM) INF LD0.XAGGIO130.EEName.serNum DPL VisString255 (20) DC 0 Serial number Card serial number Information\HW modules\X130 (AIM)
X130 (AIM) X130 (AIM) X130 (AIM) INF LD0.XAGGIO130.EEName.eArtNum DPL VisString255 (20) EX 0 Article number Card article number Information\HW modules\X130 (AIM)
X130 (AIM) X130 (AIM) X130 (AIM) INF LD0.XAGGIO130.EEName.eManDate DPL VisString255 (20) EX 0 Manufacturing date Card manufacturing date Information\HW modules\X130 (AIM)
X130 (AIM) X130 (AIM) X130 (AIM) INF LD0.XAGGIO130.EEName.eTestDate DPL VisString255 (20) EX 0 Test date Card test date Information\HW modules\X130 (AIM)
X130 (AIM) X130 (AIM) X130 (AIM) VER LD0.XAGGIO130.NamPlt.swRev LPL VisString255 (20) DC A
X130 (AIM) X130 (AIM) X130 (AIM) VER LD0.XAGGIO130.EEName.swRev DPL VisString255 (20) DC A

Current (3IB,CT)

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 (3IB,CT) CFG LD0.IL1TCTR2.Cor.setMag.f ASG FLOAT32 SP 1.000 Amplitude corr. A Phase A amplitude correction factor 0.900...1.100 Configuration\Analog inputs\Current (3IB,CT)
Current (3IB,CT) CFG LD0.IL1TCTR2.ARtg.setMag.f ASG FLOAT32 SP 100.0 Primary current Rated primary current 1.0...6000.0 A Configuration\Analog inputs\Current (3IB,CT)
Current (3IB,CT) CFG LD0.IL1TCTR2.ARtgSec.setVal ING Enum SP 2 Secondary current Rated secondary current 2=1A; 3=5A Configuration\Analog inputs\Current (3IB,CT)
Current (3IB,CT) CFG LD0.IL1TCTR2.RevPol.setVal SPG BOOLEAN SP 0 Reverse polarity Reverse the polarity of the phase CTs Configuration\Analog inputs\Current (3IB,CT)
Current (3IB,CT) CFG LD0.IL2TCTR2.Cor.setMag.f ASG FLOAT32 SP 1.000 Amplitude corr. B Phase B amplitude correction factor 0.900...1.100 Configuration\Analog inputs\Current (3IB,CT)
Current (3IB,CT) CFG LD0.IL3TCTR2.Cor.setMag.f ASG FLOAT32 SP 1.000 Amplitude corr. C Phase C amplitude correction factor 0.900...1.100 Configuration\Analog inputs\Current (3IB,CT)
Current (3IB,CT) VER LD0.IL1TCTR2.NamPlt.swRev LPL VisString255 (20) DC C

CMMXU2: Three-phase current measurement

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
CMMXU2 3I(B) 3I(B) INP LD0.CMMXU2.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for all binary outputs Monitoring\I/O status\Measurements\CMMXU2\Inputs
CMMXU2 3I(B) 3I(B) OUT LD0.CMMXU2.HiAlm.stVal SPS BOOLEAN ST StatUrg PH HIGH_ALARM High alarm Monitoring\I/O status\Measurements\CMMXU2\Outputs
CMMXU2 3I(B) 3I(B) OUT LD0.CMMXU2.HiWrn.stVal SPS BOOLEAN ST StatUrg PH HIGH_WARN High warning Monitoring\I/O status\Measurements\CMMXU2\Outputs
CMMXU2 3I(B) 3I(B) OUT LD0.CMMXU2.LoWrn.stVal SPS BOOLEAN ST StatUrg PH LOW_WARN Low warning Monitoring\I/O status\Measurements\CMMXU2\Outputs
CMMXU2 3I(B) 3I(B) OUT LD0.CMMXU2.LoAlm.stVal SPS BOOLEAN ST StatUrg PH LOW_ALARM Low alarm Monitoring\I/O status\Measurements\CMMXU2\Outputs
CMMXU2 3I(B) 3I(B) CTR LD0.CMSTA2.RecRs.Oper.ctlVal SPC BOOLEAN CO 0 CMMXU2 max.demands Clear CMMXU2 maximum demands 0=Cancel; 1=Clear Clear\Clear
CMMXU2 3I(B) 3I(B) MON LD0.CMMXU2.A.phsA.instCVal.mag.f WYE FLOAT32 MX MeasFlt P I_INST_A IL1 Amplitude, magnitude of instantaneous value 0.00...40.00 xIn Monitoring\I/O status\Measurements\CMMXU2\Monitored data
CMMXU2 3I(B) 3I(B) MON LD0.CMMXU2.A.phsA.cVal.mag.f WYE FLOAT32 MX MeasFlt P I_DB_A IL1 Amplitude, magnitude of reported value 0.00...40.00 xIn Monitoring\I/O status\Measurements\CMMXU2\Monitored data
CMMXU2 3I(B) 3I(B) MON LD0.CMMXU2.A.phsA.range WYE Enum MX 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\CMMXU2\Monitored data
CMMXU2 3I(B) 3I(B) MON LD0.CMMXU2.A.phsB.instCVal.mag.f WYE FLOAT32 MX MeasFlt P I_INST_B IL2 Amplitude, magnitude of instantaneous value 0.00...40.00 xIn Monitoring\I/O status\Measurements\CMMXU2\Monitored data
CMMXU2 3I(B) 3I(B) MON LD0.CMMXU2.A.phsB.cVal.mag.f WYE FLOAT32 MX MeasFlt P I_DB_B IL2 Amplitude, magnitude of reported value 0.00...40.00 xIn Monitoring\I/O status\Measurements\CMMXU2\Monitored data
CMMXU2 3I(B) 3I(B) MON LD0.CMMXU2.A.phsB.range WYE Enum MX 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\CMMXU2\Monitored data
CMMXU2 3I(B) 3I(B) MON LD0.CMMXU2.A.phsC.instCVal.mag.f WYE FLOAT32 MX MeasFlt P I_INST_C IL3 Amplitude, magnitude of instantaneous value 0.00...40.00 xIn Monitoring\I/O status\Measurements\CMMXU2\Monitored data
CMMXU2 3I(B) 3I(B) MON LD0.CMMXU2.A.phsC.cVal.mag.f WYE FLOAT32 MX MeasFlt P I_DB_C IL3 Amplitude, magnitude of reported value 0.00...40.00 xIn Monitoring\I/O status\Measurements\CMMXU2\Monitored data
CMMXU2 3I(B) 3I(B) MON LD0.CMMXU2.A.phsC.range WYE Enum MX 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\CMMXU2\Monitored data
CMMXU2 3I(B) 3I(B) MON LD0.CMSTA2.AvAmps1.mag.f MV FLOAT32 MX I_DMD_A Demand value of IL1 current 0.00...40.00 xIn Monitoring\I/O status\Measurements\CMMXU2\Monitored data IL1TCTR2
CMMXU2 3I(B) 3I(B) MON LD0.CMSTA2.MaxAmps1.mag.f MV FLOAT32 MX Max demand IL1B Maximum demand for Phase A 0.00...40.00 xIn Monitoring\Recorded data\CMMXU2 IL1TCTR2
CMMXU2 3I(B) 3I(B) MON LD0.CMSTA2.MaxAmps1.t MV Timestamp MX Time max demand IL1B Time of maximum demand phase A Monitoring\Recorded data\CMMXU2
CMMXU2 3I(B) 3I(B) MON LD0.CMSTA2.AvAmps2.mag.f MV FLOAT32 MX I_DMD_B Demand value of IL2 current 0.00...40.00 xIn Monitoring\I/O status\Measurements\CMMXU2\Monitored data IL1TCTR2
CMMXU2 3I(B) 3I(B) MON LD0.CMSTA2.MaxAmps2.mag.f MV FLOAT32 MX Max demand IL2B Maximum demand for Phase B 0.00...40.00 xIn Monitoring\Recorded data\CMMXU2 IL1TCTR2
CMMXU2 3I(B) 3I(B) MON LD0.CMSTA2.MaxAmps2.t MV Timestamp MX Time max demand IL2B Time of maximum demand phase B Monitoring\Recorded data\CMMXU2
CMMXU2 3I(B) 3I(B) MON LD0.CMSTA2.AvAmps3.mag.f MV FLOAT32 MX I_DMD_C Demand value of IL3 current 0.00...40.00 xIn Monitoring\I/O status\Measurements\CMMXU2\Monitored data IL1TCTR2
CMMXU2 3I(B) 3I(B) MON LD0.CMSTA2.MaxAmps3.mag.f MV FLOAT32 MX Max demand IL3B Maximum demand for Phase C 0.00...40.00 xIn Monitoring\Recorded data\CMMXU2 IL1TCTR2
CMMXU2 3I(B) 3I(B) MON LD0.CMSTA2.MaxAmps3.t MV Timestamp MX Time max demand IL3B Time of maximum demand phase C Monitoring\Recorded data\CMMXU2
CMMXU2 3I(B) 3I(B) CFG LD0.CMMXU2.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Configuration\Measurements\CMMXU2
CMMXU2 3I(B) 3I(B) CFG LD0.CMMXU2.A.phsA.db WYE INT32U CF 2500 A deadband Deadband configuration value for integral calculation. (percentage of difference between min and max as 0,001 % s) 100...100000 Configuration\Measurements\CMMXU2
CMMXU2 3I(B) 3I(B) CFG LD0.CMMXU2.A.phsA.rangeC.hhLim.f WYE FLOAT32 CF 1.40 A high high limit High alarm current limit 0.00...40.00 xIn Configuration\Measurements\CMMXU2
CMMXU2 3I(B) 3I(B) CFG LD0.CMMXU2.A.phsA.rangeC.hLim.f WYE FLOAT32 CF 1.20 A high limit High warning current limit 0.00...40.00 xIn Configuration\Measurements\CMMXU2
CMMXU2 3I(B) 3I(B) CFG LD0.CMMXU2.A.phsA.rangeC.lLim.f WYE FLOAT32 CF 0.00 A low limit Low warning current limit 0.00...40.00 xIn Configuration\Measurements\CMMXU2
CMMXU2 3I(B) 3I(B) CFG LD0.CMMXU2.A.phsA.rangeC.llLim.f WYE FLOAT32 CF 0.00 A low low limit Low alarm current limit 0.00...40.00 xIn Configuration\Measurements\CMMXU2
CMMXU2 3I(B) 3I(B) CFG LD0.CMMXU2.AMeasMod.setVal ING Enum SP 2 Measurement mode Selects used measurement mode 1=RMS; 2=DFT Configuration\Measurements\CMMXU2
CMMXU2 3I(B) 3I(B) CFG LD0.CMMXU2.NumPh.setVal ING Enum SP 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\CMMXU2
CMMXU2 3I(B) 3I(B) CFG LD0.CMSTA2.DmdItrv.setVal ING Enum SP 0 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 Configuration\Measurements\CMMXU2
CMMXU2 3I(B) 3I(B) VER LD0.CMMXU2.NamPlt.swRev LPL VisString255 (20) DC B
CMMXU2 3I(B) 3I(B) VER LD0.CMSTA2.NamPlt.swRev LPL VisString255 (20) DC B

X120 (AIM2)

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 (AIM2) (X120 (AIM2)) (X120 (AIM2)) INF LD0.XAGGIO120.EEName.hwRev DPL VisString255 (20) DC 0 HW revision Card HW revision Information\HW modules\X120 (AIM2)
X120 (AIM2) (X120 (AIM2)) (X120 (AIM2)) INF LD0.XAGGIO120.EEName.serNum DPL VisString255 (20) DC 0 Serial number Card serial number Information\HW modules\X120 (AIM2)
X120 (AIM2) (X120 (AIM2)) (X120 (AIM2)) INF LD0.XAGGIO120.EEName.eArtNum DPL VisString255 (20) EX 0 Article number Card article number Information\HW modules\X120 (AIM2)
X120 (AIM2) (X120 (AIM2)) (X120 (AIM2)) INF LD0.XAGGIO120.EEName.eManDate DPL VisString255 (20) EX 0 Manufacturing date Card manufacturing date Information\HW modules\X120 (AIM2)
X120 (AIM2) (X120 (AIM2)) (X120 (AIM2)) INF LD0.XAGGIO120.EEName.eTestDate DPL VisString255 (20) EX 0 Test date Card test date Information\HW modules\X120 (AIM2)
X120 (AIM2) (X120 (AIM2)) (X120 (AIM2)) VER LD0.XAGGIO120.NamPlt.swRev LPL VisString255 (20) DC C
X120 (AIM2) (X120 (AIM2)) (X120 (AIM2)) VER LD0.XAGGIO120.EEName.swRev DPL VisString255 (20) DC A

X130 (RTD)

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 (RTD) X130 (RTD) X130 (RTD) OUT LD0.XRGGIO130.Alm.stVal SPS BOOLEAN ST StatUrg PH ALARM General alarm Monitoring\I/O status\Analog input values\X130 (RTD)\Outputs
X130 (RTD) X130 (RTD) X130 (RTD) OUT LD0.XRGGIO130.Wrn.stVal SPS BOOLEAN ST StatUrg PH WARNING General warning Monitoring\I/O status\Analog input values\X130 (RTD)\Outputs
X130 (RTD) X130 (RTD) X130 (RTD) OUT LD0.XRGGIO130.AnIn1.instMag.f MV FLOAT32 MX MeasFlt P AI_VAL1 mA input, Connectors 1-2, instantaneous value -10000.0...10000.0 Ω
X130 (RTD) X130 (RTD) X130 (RTD) OUT LD0.XRGGIO130.AnIn2.instMag.f MV FLOAT32 MX MeasFlt P AI_VAL2 mA input, Connectors 3-4, instantaneous value -10000.0...10000.0 Ω
X130 (RTD) X130 (RTD) X130 (RTD) OUT LD0.XRGGIO130.AnIn3.instMag.f MV FLOAT32 MX MeasFlt P AI_VAL3 RTD input, Connectors 5-6-11c, instantaneous value -10000.0...10000.0 Ω
X130 (RTD) X130 (RTD) X130 (RTD) OUT LD0.XRGGIO130.AnIn4.instMag.f MV FLOAT32 MX MeasFlt P AI_VAL4 RTD input, Connectors 7-8-11c, instantaneous value -10000.0...10000.0 Ω
X130 (RTD) X130 (RTD) X130 (RTD) OUT LD0.XRGGIO130.AnIn5.instMag.f MV FLOAT32 MX MeasFlt P AI_VAL5 RTD input, Connectors 9-10-11c, instantaneous value -10000.0...10000.0 Ω
X130 (RTD) X130 (RTD) X130 (RTD) OUT LD0.XRGGIO130.AnIn6.instMag.f MV FLOAT32 MX MeasFlt P AI_VAL6 RTD input, Connectors 13-14-12c, instantaneous value -10000.0...10000.0 Ω
X130 (RTD) X130 (RTD) X130 (RTD) OUT LD0.XRGGIO130.AnIn7.instMag.f MV FLOAT32 MX MeasFlt P AI_VAL7 RTD input, Connectors 15-16-12c, instantaneous value -10000.0...10000.0 Ω
X130 (RTD) X130 (RTD) X130 (RTD) OUT LD0.XRGGIO130.AnIn8.instMag.f MV FLOAT32 MX MeasFlt P AI_VAL8 RTD input, Connectors 17-18-12c, instantaneous value -10000.0...10000.0 Ω
X130 (RTD) X130 (RTD) X130 (RTD) MON LD0.XRGGIO130.AnIn1.range MV Enum MX MeasFlt P AI_RANGE1 mA input, Connectors 1-2, range 0=normal; 1=high; 2=low; 3=high-high; 4=low-low Monitoring\I/O status\Analog input values\X130 (RTD)\Monitored data
X130 (RTD) X130 (RTD) X130 (RTD) MON LD0.XRGGIO130.AnIn2.range MV Enum MX MeasFlt P AI_RANGE2 mA input, Connectors 3-4, range 0=normal; 1=high; 2=low; 3=high-high; 4=low-low Monitoring\I/O status\Analog input values\X130 (RTD)\Monitored data
X130 (RTD) X130 (RTD) X130 (RTD) MON LD0.XRGGIO130.AnIn3.range MV Enum MX MeasFlt P AI_RANGE3 RTD input, Connectors 5-6-11c, range 0=normal; 1=high; 2=low; 3=high-high; 4=low-low Monitoring\I/O status\Analog input values\X130 (RTD)\Monitored data
X130 (RTD) X130 (RTD) X130 (RTD) MON LD0.XRGGIO130.AnIn4.range MV Enum MX MeasFlt P AI_RANGE4 RTD input, Connectors 7-8-11c, range 0=normal; 1=high; 2=low; 3=high-high; 4=low-low Monitoring\I/O status\Analog input values\X130 (RTD)\Monitored data
X130 (RTD) X130 (RTD) X130 (RTD) MON LD0.XRGGIO130.AnIn5.range MV Enum MX MeasFlt P AI_RANGE5 RTD input, Connectors 9-10-11c, range 0=normal; 1=high; 2=low; 3=high-high; 4=low-low Monitoring\I/O status\Analog input values\X130 (RTD)\Monitored data
X130 (RTD) X130 (RTD) X130 (RTD) MON LD0.XRGGIO130.AnIn6.range MV Enum MX MeasFlt P AI_RANGE6 RTD input, Connectors 13-14-12c, range 0=normal; 1=high; 2=low; 3=high-high; 4=low-low Monitoring\I/O status\Analog input values\X130 (RTD)\Monitored data
X130 (RTD) X130 (RTD) X130 (RTD) MON LD0.XRGGIO130.AnIn7.range MV Enum MX MeasFlt P AI_RANGE7 RTD input, Connectors 15-16-12c, range 0=normal; 1=high; 2=low; 3=high-high; 4=low-low Monitoring\I/O status\Analog input values\X130 (RTD)\Monitored data
X130 (RTD) X130 (RTD) X130 (RTD) MON LD0.XRGGIO130.AnIn8.range MV Enum MX MeasFlt P AI_RANGE8 RTD input, Connectors 17-18-12c, range 0=normal; 1=high; 2=low; 3=high-high; 4=low-low Monitoring\I/O status\Analog input values\X130 (RTD)\Monitored data
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.AnIn1.units.SIUnit MV Enum CF 1 Value unit Selected unit for output value format 1=Dimensionless; 5=Ampere; 23=Degrees celsius; 30=Ohm Configuration\I/O modules\X130 (RTD)\Input 1
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.AnIn1.db MV INT32U CF 1000 Value deadband Deadband configuration value for integral calculation. (percentage of difference between min and max as 0,001 % s) 100...100000 Configuration\I/O modules\X130 (RTD)\Input 1
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.AnIn2.units.SIUnit MV Enum CF 1 Value unit Selected unit for output value format 1=Dimensionless; 5=Ampere; 23=Degrees celsius; 30=Ohm Configuration\I/O modules\X130 (RTD)\Input 2
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.AnIn2.db MV INT32U CF 1000 Value deadband Deadband configuration value for integral calculation. (percentage of difference between min and max as 0,001 % s) 100...100000 Configuration\I/O modules\X130 (RTD)\Input 2
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.AnIn3.units.SIUnit MV Enum CF 1 Value unit Selected unit for output value format 1=Dimensionless; 5=Ampere; 23=Degrees celsius; 30=Ohm Configuration\I/O modules\X130 (RTD)\Input 3
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.AnIn3.db MV INT32U CF 1000 Value deadband Deadband configuration value for integral calculation. (percentage of difference between min and max as 0,001 % s) 100...100000 Configuration\I/O modules\X130 (RTD)\Input 3
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.AnIn4.units.SIUnit MV Enum CF 1 Value unit Selected unit for output value format 1=Dimensionless; 5=Ampere; 23=Degrees celsius; 30=Ohm Configuration\I/O modules\X130 (RTD)\Input 4
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.AnIn4.db MV INT32U CF 1000 Value deadband Deadband configuration value for integral calculation. (percentage of difference between min and max as 0,001 % s) 100...100000 Configuration\I/O modules\X130 (RTD)\Input 4
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.AnIn5.units.SIUnit MV Enum CF 1 Value unit Selected unit for output value format 1=Dimensionless; 5=Ampere; 23=Degrees celsius; 30=Ohm Configuration\I/O modules\X130 (RTD)\Input 5
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.AnIn5.db MV INT32U CF 1000 Value deadband Deadband configuration value for integral calculation. (percentage of difference between min and max as 0,001 % s) 100...100000 Configuration\I/O modules\X130 (RTD)\Input 5
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.AnIn6.units.SIUnit MV Enum CF 1 Value unit Selected unit for output value format 1=Dimensionless; 5=Ampere; 23=Degrees celsius; 30=Ohm Configuration\I/O modules\X130 (RTD)\Input 6
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.AnIn6.db MV INT32U CF 1000 Value deadband Deadband configuration value for integral calculation. (percentage of difference between min and max as 0,001 % s) 100...100000 Configuration\I/O modules\X130 (RTD)\Input 6
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.AnIn7.units.SIUnit MV Enum CF 1 Value unit Selected unit for output value format 1=Dimensionless; 5=Ampere; 23=Degrees celsius; 30=Ohm Configuration\I/O modules\X130 (RTD)\Input 7
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.AnIn7.db MV INT32U CF 1000 Value deadband Deadband configuration value for integral calculation. (percentage of difference between min and max as 0,001 % s) 100...100000 Configuration\I/O modules\X130 (RTD)\Input 7
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.AnIn8.units.SIUnit MV Enum CF 1 Value unit Selected unit for output value format 1=Dimensionless; 5=Ampere; 23=Degrees celsius; 30=Ohm Configuration\I/O modules\X130 (RTD)\Input 8
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.AnIn8.db MV INT32U CF 1000 Value deadband Deadband configuration value for integral calculation. (percentage of difference between min and max as 0,001 % s) 100...100000 Configuration\I/O modules\X130 (RTD)\Input 8
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.InMod1.setVal ING Enum SP 1 Input mode Analogue input mode 1=Not in use; 5=0..20mA Configuration\I/O modules\X130 (RTD)\Input 1
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.InMod2.setVal ING Enum SP 1 Input mode Analogue input mode 1=Not in use; 5=0..20mA Configuration\I/O modules\X130 (RTD)\Input 2
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.InMod3.setVal ING Enum SP 1 Input mode Analogue input mode 1=Not in use; 2=Resistance; 10=Pt100; 11=Pt250; 20=Ni100; 21=Ni120; 22=Ni250; 30=Cu10 Configuration\I/O modules\X130 (RTD)\Input 3
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.InMod4.setVal ING Enum SP 1 Input mode Analogue input mode 1=Not in use; 2=Resistance; 10=Pt100; 11=Pt250; 20=Ni100; 21=Ni120; 22=Ni250; 30=Cu10 Configuration\I/O modules\X130 (RTD)\Input 4
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.InMod5.setVal ING Enum SP 1 Input mode Analogue input mode 1=Not in use; 2=Resistance; 10=Pt100; 11=Pt250; 20=Ni100; 21=Ni120; 22=Ni250; 30=Cu10 Configuration\I/O modules\X130 (RTD)\Input 5
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.InMod6.setVal ING Enum SP 1 Input mode Analogue input mode 1=Not in use; 2=Resistance; 10=Pt100; 11=Pt250; 20=Ni100; 21=Ni120; 22=Ni250; 30=Cu10 Configuration\I/O modules\X130 (RTD)\Input 6
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.InMod7.setVal ING Enum SP 1 Input mode Analogue input mode 1=Not in use; 2=Resistance; 10=Pt100; 11=Pt250; 20=Ni100; 21=Ni120; 22=Ni250; 30=Cu10 Configuration\I/O modules\X130 (RTD)\Input 7
X130 (RTD) X130 (RTD) X130 (RTD) CFG LD0.XRGGIO130.InMod8.setVal ING Enum SP 1 Input mode Analogue input mode 1=Not in use; 2=Resistance; 10=Pt100; 11=Pt250; 20=Ni100; 21=Ni120; 22=Ni250; 30=Cu10 Configuration\I/O modules\X130 (RTD)\Input 8
X130 (RTD) X130 (RTD) X130 (RTD) INF LD0.XRGGIO130.EEName.hwRev DPL VisString255 (20) DC 0 HW revision Card HW revision Information\HW modules\X130 (RTD)
X130 (RTD) X130 (RTD) X130 (RTD) INF LD0.XRGGIO130.EEName.serNum DPL VisString255 (20) DC 0 Serial number Card serial number Information\HW modules\X130 (RTD)
X130 (RTD) X130 (RTD) X130 (RTD) INF LD0.XRGGIO130.EEName.eArtNum DPL VisString255 (20) EX 0 Article number Card article number Information\HW modules\X130 (RTD)
X130 (RTD) X130 (RTD) X130 (RTD) INF LD0.XRGGIO130.EEName.eManDate DPL VisString255 (20) EX 0 Manufacturing date Card manufacturing date Information\HW modules\X130 (RTD)
X130 (RTD) X130 (RTD) X130 (RTD) INF LD0.XRGGIO130.EEName.eTestDate DPL VisString255 (20) EX 0 Test date Card test date Information\HW modules\X130 (RTD)
X130 (RTD) X130 (RTD) X130 (RTD) VER LD0.XRGGIO130.NamPlt.swRev LPL VisString255 (20) DC A
X130 (RTD) X130 (RTD) X130 (RTD) VER LD0.XRGGIO130.EEName.swRev DPL VisString255 (20) DC A

MAPGAPC1: Multipurpose analogue protection function

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
MAPGAPC1 MAP(1) MAP(1) INP LD0.MAPGAPC1.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Other protection\MAPGAPC1\Inputs
MAPGAPC1 MAP(1) MAP(1) INP LD0.MAPGAPC1.AnIn.mag.f MV FLOAT32 MX 0.0 AI_VALUE Analogue input value -10000.0...10000.0 Monitoring\I/O status\Other protection\MAPGAPC1\Inputs
MAPGAPC1 MAP(1) MAP(1) INP LD0.MAPGAPC1.InEnaAdd.stVal SPS BOOLEAN ST 0 ENA_ADD Enable start added Monitoring\I/O status\Other protection\MAPGAPC1\Inputs
MAPGAPC1 MAP(1) MAP(1) OUT LD0.MAPGAPC1.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Other protection\MAPGAPC1\Outputs
MAPGAPC1 MAP(1) MAP(1) OUT LD0.MAPGAPC1.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Other protection\MAPGAPC1\Outputs
MAPGAPC1 MAP(1) MAP(1) MON LD0.MAPGAPC1.Beh.stVal INS Enum ST MAPGAPC1 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
MAPGAPC1 MAP(1) MAP(1) MON LD0.MAPGAPC1.StrDur.mag.f MV FLOAT32 MX START_DUR Ratio of start time / operate time 0.00...100.00 % Monitoring\I/O status\Other protection\MAPGAPC1\Monitored data
MAPGAPC1 MAP(1) MAP(1) SET LD0.MAPGAPC1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Other protection\MAPGAPC1
MAPGAPC1 MAP(1) MAP(1) SET LD0.MAPGAPC1.StrVal.setMag.f ASG FLOAT32 SG 0.0 Start value Start value -10000.0...10000.0 Settings\Settings\Other protection\MAPGAPC1
MAPGAPC1 MAP(1) MAP(1) SET LD0.MAPGAPC1.OpModComp.setVal ING Enum SP 1 Operation mode Operation mode 1=Over; 2=Under Settings\Settings\Other protection\MAPGAPC1
MAPGAPC1 MAP(1) MAP(1) SET LD0.MAPGAPC1.OpDlTmms.setVal ING INT32 SG 0 Operate delay time Operate delay time 0...200000 ms Settings\Settings\Other protection\MAPGAPC1
MAPGAPC1 MAP(1) MAP(1) SET LD0.MAPGAPC1.RsDlTmms.setVal ING INT32 SP 0 Reset delay time Reset delay time 0...60000 ms Settings\Settings\Other protection\MAPGAPC1
MAPGAPC1 MAP(1) MAP(1) SET LD0.MAPGAPC1.HysAbs.setMag.f ASG FLOAT32 SP 0.10 Absolute hysteresis Absolute hysteresis for operation 0.01...100.00 Settings\Settings\Other protection\MAPGAPC1
MAPGAPC1 MAP(1) MAP(1) SET LD0.MAPGAPC1.StrValAdd.setMag.f ASG FLOAT32 SG 0.0 Start value Add Start value Add -100.0...100.0 Settings\Settings\Other protection\MAPGAPC1
MAPGAPC1 MAP(1) MAP(1) TES LD0.MAPGAPC1.TstOutCmd.Oper.ctlVal INC Enum CO 0 MAPGAPC1 Test control for outputs 0=Reset; 1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE Tests\Function tests\Other protection
MAPGAPC1 MAP(1) MAP(1) VER LD0.MAPGAPC1.NamPlt.swRev LPL VisString255 (20) DC A

MAPGAPC2: Multipurpose analogue protection function

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
MAPGAPC2 MAP(2) MAP(2) INP LD0.MAPGAPC2.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Other protection\MAPGAPC2\Inputs
MAPGAPC2 MAP(2) MAP(2) INP LD0.MAPGAPC2.AnIn.mag.f MV FLOAT32 MX 0.0 AI_VALUE Analogue input value -10000.0...10000.0 Monitoring\I/O status\Other protection\MAPGAPC2\Inputs
MAPGAPC2 MAP(2) MAP(2) INP LD0.MAPGAPC2.InEnaAdd.stVal SPS BOOLEAN ST 0 ENA_ADD Enable start added Monitoring\I/O status\Other protection\MAPGAPC2\Inputs
MAPGAPC2 MAP(2) MAP(2) OUT LD0.MAPGAPC2.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Other protection\MAPGAPC2\Outputs
MAPGAPC2 MAP(2) MAP(2) OUT LD0.MAPGAPC2.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Other protection\MAPGAPC2\Outputs
MAPGAPC2 MAP(2) MAP(2) MON LD0.MAPGAPC2.Beh.stVal INS Enum ST MAPGAPC2 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
MAPGAPC2 MAP(2) MAP(2) MON LD0.MAPGAPC2.StrDur.mag.f MV FLOAT32 MX START_DUR Ratio of start time / operate time 0.00...100.00 % Monitoring\I/O status\Other protection\MAPGAPC2\Monitored data
MAPGAPC2 MAP(2) MAP(2) SET LD0.MAPGAPC2.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Other protection\MAPGAPC2
MAPGAPC2 MAP(2) MAP(2) SET LD0.MAPGAPC2.StrVal.setMag.f ASG FLOAT32 SG 0.0 Start value Start value -10000.0...10000.0 Settings\Settings\Other protection\MAPGAPC2
MAPGAPC2 MAP(2) MAP(2) SET LD0.MAPGAPC2.OpModComp.setVal ING Enum SP 1 Operation mode Operation mode 1=Over; 2=Under Settings\Settings\Other protection\MAPGAPC2
MAPGAPC2 MAP(2) MAP(2) SET LD0.MAPGAPC2.OpDlTmms.setVal ING INT32 SG 0 Operate delay time Operate delay time 0...200000 ms Settings\Settings\Other protection\MAPGAPC2
MAPGAPC2 MAP(2) MAP(2) SET LD0.MAPGAPC2.RsDlTmms.setVal ING INT32 SP 0 Reset delay time Reset delay time 0...60000 ms Settings\Settings\Other protection\MAPGAPC2
MAPGAPC2 MAP(2) MAP(2) SET LD0.MAPGAPC2.HysAbs.setMag.f ASG FLOAT32 SP 0.10 Absolute hysteresis Absolute hysteresis for operation 0.01...100.00 Settings\Settings\Other protection\MAPGAPC2
MAPGAPC2 MAP(2) MAP(2) SET LD0.MAPGAPC2.StrValAdd.setMag.f ASG FLOAT32 SG 0.0 Start value Add Start value Add -100.0...100.0 Settings\Settings\Other protection\MAPGAPC2
MAPGAPC2 MAP(2) MAP(2) TES LD0.MAPGAPC2.TstOutCmd.Oper.ctlVal INC Enum CO 0 MAPGAPC2 Test control for outputs 0=Reset; 1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE Tests\Function tests\Other protection
MAPGAPC2 MAP(2) MAP(2) VER LD0.MAPGAPC2.NamPlt.swRev LPL VisString255 (20) DC A

MAPGAPC3: Multipurpose analogue protection function

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
MAPGAPC3 MAP(3) MAP(3) INP LD0.MAPGAPC3.Mod.blockIn INC BOOLEAN EX 0 BLOCK Block signal for activating the blocking mode Monitoring\I/O status\Other protection\MAPGAPC3\Inputs
MAPGAPC3 MAP(3) MAP(3) INP LD0.MAPGAPC3.AnIn.mag.f MV FLOAT32 MX 0.0 AI_VALUE Analogue input value -10000.0...10000.0 Monitoring\I/O status\Other protection\MAPGAPC3\Inputs
MAPGAPC3 MAP(3) MAP(3) INP LD0.MAPGAPC3.InEnaAdd.stVal SPS BOOLEAN ST 0 ENA_ADD Enable start added Monitoring\I/O status\Other protection\MAPGAPC3\Inputs
MAPGAPC3 MAP(3) MAP(3) OUT LD0.MAPGAPC3.Str.general ACD BOOLEAN ST StatNrml PH START Start Monitoring\I/O status\Other protection\MAPGAPC3\Outputs
MAPGAPC3 MAP(3) MAP(3) OUT LD0.MAPGAPC3.Op.general ACT BOOLEAN ST StatNrml PHT OPERATE Operate Monitoring\I/O status\Other protection\MAPGAPC3\Outputs
MAPGAPC3 MAP(3) MAP(3) MON LD0.MAPGAPC3.Beh.stVal INS Enum ST MAPGAPC3 Status 1=on; 2=blocked; 3=test; 4=test/blocked; 5=off Monitoring\FB status
MAPGAPC3 MAP(3) MAP(3) MON LD0.MAPGAPC3.StrDur.mag.f MV FLOAT32 MX START_DUR Ratio of start time / operate time 0.00...100.00 % Monitoring\I/O status\Other protection\MAPGAPC3\Monitored data
MAPGAPC3 MAP(3) MAP(3) SET LD0.MAPGAPC3.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation Off / On 1=on; 5=off Settings\Settings\Other protection\MAPGAPC3
MAPGAPC3 MAP(3) MAP(3) SET LD0.MAPGAPC3.StrVal.setMag.f ASG FLOAT32 SG 0.0 Start value Start value -10000.0...10000.0 Settings\Settings\Other protection\MAPGAPC3
MAPGAPC3 MAP(3) MAP(3) SET LD0.MAPGAPC3.OpModComp.setVal ING Enum SP 1 Operation mode Operation mode 1=Over; 2=Under Settings\Settings\Other protection\MAPGAPC3
MAPGAPC3 MAP(3) MAP(3) SET LD0.MAPGAPC3.OpDlTmms.setVal ING INT32 SG 0 Operate delay time Operate delay time 0...200000 ms Settings\Settings\Other protection\MAPGAPC3
MAPGAPC3 MAP(3) MAP(3) SET LD0.MAPGAPC3.RsDlTmms.setVal ING INT32 SP 0 Reset delay time Reset delay time 0...60000 ms Settings\Settings\Other protection\MAPGAPC3
MAPGAPC3 MAP(3) MAP(3) SET LD0.MAPGAPC3.HysAbs.setMag.f ASG FLOAT32 SP 0.10 Absolute hysteresis Absolute hysteresis for operation 0.01...100.00 Settings\Settings\Other protection\MAPGAPC3
MAPGAPC3 MAP(3) MAP(3) SET LD0.MAPGAPC3.StrValAdd.setMag.f ASG FLOAT32 SG 0.0 Start value Add Start value Add -100.0...100.0 Settings\Settings\Other protection\MAPGAPC3
MAPGAPC3 MAP(3) MAP(3) TES LD0.MAPGAPC3.TstOutCmd.Oper.ctlVal INC Enum CO 0 MAPGAPC3 Test control for outputs 0=Reset; 1=Activate START; 2=Deactive START; 9=Activate OPERATE; 10=Deactive OPERATE Tests\Function tests\Other protection
MAPGAPC3 MAP(3) MAP(3) VER LD0.MAPGAPC3.NamPlt.swRev LPL VisString255 (20) DC A

X110 (BIO)

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.XGGIO110.SPCSO1.stVal SPC BOOLEAN ST 0 StatIO P X110-SO1 Connectors 14c-15no-16nc Monitoring\I/O status\Binary output values\X110 (BIO)
X110 (BIO) X110 (BIO) X110 (BIO) INP LD0.XGGIO110.SPCSO2.stVal SPC BOOLEAN ST 0 StatIO P X110-SO2 Connectors 17c-18no-19nc Monitoring\I/O status\Binary output values\X110 (BIO)
X110 (BIO) X110 (BIO) X110 (BIO) INP LD0.XGGIO110.SPCSO3.stVal SPC BOOLEAN ST 0 StatIO P X110-SO3 Connectors 20c-21no-22nc Monitoring\I/O status\Binary output values\X110 (BIO)
X110 (BIO) X110 (BIO) X110 (BIO) INP LD0.XGGIO110.SPCSO4.stVal SPC BOOLEAN ST 0 StatIO P X110-SO4 Connectors 23-24 Monitoring\I/O status\Binary output values\X110 (BIO)
X110 (BIO) X110 (BIO) X110 (BIO) OUT LD0.XGGIO110.Ind1.stVal SPS BOOLEAN ST StatIO P X110-Input 1 Connectors 1-2 Monitoring\I/O status\Binary input values\X110 (BIO)
X110 (BIO) X110 (BIO) X110 (BIO) OUT LD0.XGGIO110.Ind2.stVal SPS BOOLEAN ST StatIO P X110-Input 2 Connectors 3-4 Monitoring\I/O status\Binary input values\X110 (BIO)
X110 (BIO) X110 (BIO) X110 (BIO) OUT LD0.XGGIO110.Ind3.stVal SPS BOOLEAN ST StatIO P X110-Input 3 Connectors 5-6c Monitoring\I/O status\Binary input values\X110 (BIO)
X110 (BIO) X110 (BIO) X110 (BIO) OUT LD0.XGGIO110.Ind4.stVal SPS BOOLEAN ST StatIO P X110-Input 4 Connectors 7-6c Monitoring\I/O status\Binary input values\X110 (BIO)
X110 (BIO) X110 (BIO) X110 (BIO) OUT LD0.XGGIO110.Ind5.stVal SPS BOOLEAN ST StatIO P X110-Input 5 Connectors 8-9c Monitoring\I/O status\Binary input values\X110 (BIO)
X110 (BIO) X110 (BIO) X110 (BIO) OUT LD0.XGGIO110.Ind6.stVal SPS BOOLEAN ST StatIO P X110-Input 6 Connectors 10-9c Monitoring\I/O status\Binary input values\X110 (BIO)
X110 (BIO) X110 (BIO) X110 (BIO) OUT LD0.XGGIO110.Ind7.stVal SPS BOOLEAN ST StatIO P X110-Input 7 Connectors 11-12c Monitoring\I/O status\Binary input values\X110 (BIO)
X110 (BIO) X110 (BIO) X110 (BIO) OUT LD0.XGGIO110.Ind8.stVal SPS BOOLEAN ST StatIO P X110-Input 8 Connectors 13-12c Monitoring\I/O status\Binary input values\X110 (BIO)
X110 (BIO) X110 (BIO) X110 (BIO) CFG LD0.XGGIO110.OpDlTmms1.setVal ING INT32 SP 5 Input 1 filter time Connectors 1-2 5...1000 ms Configuration\I/O modules\X110 (BIO)\Input filtering
X110 (BIO) X110 (BIO) X110 (BIO) CFG LD0.XGGIO110.OpDlTmms2.setVal ING INT32 SP 5 Input 2 filter time Connectors 3-4 5...1000 ms Configuration\I/O modules\X110 (BIO)\Input filtering
X110 (BIO) X110 (BIO) X110 (BIO) CFG LD0.XGGIO110.OpDlTmms3.setVal ING INT32 SP 5 Input 3 filter time Connectors 5-6c 5...1000 ms Configuration\I/O modules\X110 (BIO)\Input filtering
X110 (BIO) X110 (BIO) X110 (BIO) CFG LD0.XGGIO110.OpDlTmms4.setVal ING INT32 SP 5 Input 4 filter time Connectors 7-6c 5...1000 ms Configuration\I/O modules\X110 (BIO)\Input filtering
X110 (BIO) X110 (BIO) X110 (BIO) CFG LD0.XGGIO110.OpDlTmms5.setVal ING INT32 SP 5 Input 5 filter time Connectors 8-9c 5...1000 ms Configuration\I/O modules\X110 (BIO)\Input filtering
X110 (BIO) X110 (BIO) X110 (BIO) CFG LD0.XGGIO110.OpDlTmms6.setVal ING INT32 SP 5 Input 6 filter time Connectors 10-9c 5...1000 ms Configuration\I/O modules\X110 (BIO)\Input filtering
X110 (BIO) X110 (BIO) X110 (BIO) CFG LD0.XGGIO110.OpDlTmms7.setVal ING INT32 SP 5 Input 7 filter time Connectors 11-12c 5...1000 ms Configuration\I/O modules\X110 (BIO)\Input filtering
X110 (BIO) X110 (BIO) X110 (BIO) CFG LD0.XGGIO110.OpDlTmms8.setVal ING INT32 SP 5 Input 8 filter time Connectors 13-12c 5...1000 ms Configuration\I/O modules\X110 (BIO)\Input filtering
X110 (BIO) X110 (BIO) X110 (BIO) CFG LD0.XGGIO110.DiInvert1.setVal SPG BOOLEAN SP 0 Input 1 inversion Connectors 1-2 Configuration\I/O modules\X110 (BIO)\Input inversion
X110 (BIO) X110 (BIO) X110 (BIO) CFG LD0.XGGIO110.DiInvert2.setVal SPG BOOLEAN SP 0 Input 2 inversion Connectors 3-4 Configuration\I/O modules\X110 (BIO)\Input inversion
X110 (BIO) X110 (BIO) X110 (BIO) CFG LD0.XGGIO110.DiInvert3.setVal SPG BOOLEAN SP 0 Input 3 inversion Connectors 5-6c Configuration\I/O modules\X110 (BIO)\Input inversion
X110 (BIO) X110 (BIO) X110 (BIO) CFG LD0.XGGIO110.DiInvert4.setVal SPG BOOLEAN SP 0 Input 4 inversion Connectors 7-6c Configuration\I/O modules\X110 (BIO)\Input inversion
X110 (BIO) X110 (BIO) X110 (BIO) CFG LD0.XGGIO110.DiInvert5.setVal SPG BOOLEAN SP 0 Input 5 inversion Connectors 8-9c Configuration\I/O modules\X110 (BIO)\Input inversion
X110 (BIO) X110 (BIO) X110 (BIO) CFG LD0.XGGIO110.DiInvert6.setVal SPG BOOLEAN SP 0 Input 6 inversion Connectors 10-9c Configuration\I/O modules\X110 (BIO)\Input inversion
X110 (BIO) X110 (BIO) X110 (BIO) CFG LD0.XGGIO110.DiInvert7.setVal SPG BOOLEAN SP 0 Input 7 inversion Connectors 11-12c Configuration\I/O modules\X110 (BIO)\Input inversion
X110 (BIO) X110 (BIO) X110 (BIO) CFG LD0.XGGIO110.DiInvert8.setVal SPG BOOLEAN SP 0 Input 8 inversion Connectors 13-12c Configuration\I/O modules\X110 (BIO)\Input inversion
X110 (BIO) X110 (BIO) X110 (BIO) TES LD0.XGGIO110.SPCSO1.Oper.ctlVal SPC BOOLEAN CO 0 X110-SO1 Connectors 14c-15no-16nc Tests\Binary outputs\X110 (BIO)
X110 (BIO) X110 (BIO) X110 (BIO) TES LD0.XGGIO110.SPCSO2.Oper.ctlVal SPC BOOLEAN CO 0 X110-SO2 Connectors 17c-18no-19nc Tests\Binary outputs\X110 (BIO)
X110 (BIO) X110 (BIO) X110 (BIO) TES LD0.XGGIO110.SPCSO3.Oper.ctlVal SPC BOOLEAN CO 0 X110-SO3 Connectors 20c-21no-22nc Tests\Binary outputs\X110 (BIO)
X110 (BIO) X110 (BIO) X110 (BIO) TES LD0.XGGIO110.SPCSO4.Oper.ctlVal SPC BOOLEAN CO 0 X110-SO4 Connectors 23-24 Tests\Binary outputs\X110 (BIO)
X110 (BIO) X110 (BIO) X110 (BIO) INF LD0.XGGIO110.EEName.hwRev DPL VisString255 (20) DC 0 HW revision Card HW revision Information\HW modules\X110 (BIO)
X110 (BIO) X110 (BIO) X110 (BIO) INF LD0.XGGIO110.EEName.serNum DPL VisString255 (20) DC 0 Serial number Card serial number Information\HW modules\X110 (BIO)
X110 (BIO) X110 (BIO) X110 (BIO) INF LD0.XGGIO110.EEName.eArtNum DPL VisString255 (20) EX 0 Article number Card article number Information\HW modules\X110 (BIO)
X110 (BIO) X110 (BIO) X110 (BIO) INF LD0.XGGIO110.EEName.eManDate DPL VisString255 (20) EX 0 Manufacturing date Card manufacturing date Information\HW modules\X110 (BIO)
X110 (BIO) X110 (BIO) X110 (BIO) INF LD0.XGGIO110.EEName.eTestDate DPL VisString255 (20) EX 0 Test date Card test date Information\HW modules\X110 (BIO)
X110 (BIO) X110 (BIO) X110 (BIO) VER LD0.XGGIO110.NamPlt.swRev LPL VisString255 (20) DC C
X110 (BIO) X110 (BIO) X110 (BIO) VER LD0.XGGIO110.EEName.swRev DPL VisString255 (20) DC -

X130 (BIO)

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 (BIO) X130 (BIO) X130 (BIO) INP LD0.XGGIO130.SPCSO1.stVal SPC BOOLEAN ST 0 StatIO P X130-SO1 Connectors 10c-11no-12nc Monitoring\I/O status\Binary output values\X130 (BIO)
X130 (BIO) X130 (BIO) X130 (BIO) INP LD0.XGGIO130.SPCSO2.stVal SPC BOOLEAN ST 0 StatIO P X130-SO2 Connectors 13c-14no-15nc Monitoring\I/O status\Binary output values\X130 (BIO)
X130 (BIO) X130 (BIO) X130 (BIO) INP LD0.XGGIO130.SPCSO3.stVal SPC BOOLEAN ST 0 StatIO P X130-SO3 Connectors 16c-17no-18nc Monitoring\I/O status\Binary output values\X130 (BIO)
X130 (BIO) X130 (BIO) X130 (BIO) OUT LD0.XGGIO130.Ind1.stVal SPS BOOLEAN ST StatIO P X130-Input 1 Connectors 1-2c Monitoring\I/O status\Binary input values\X130 (BIO)
X130 (BIO) X130 (BIO) X130 (BIO) OUT LD0.XGGIO130.Ind2.stVal SPS BOOLEAN ST StatIO P X130-Input 2 Connectors 3-2c Monitoring\I/O status\Binary input values\X130 (BIO)
X130 (BIO) X130 (BIO) X130 (BIO) OUT LD0.XGGIO130.Ind3.stVal SPS BOOLEAN ST StatIO P X130-Input 3 Connectors 4-5c Monitoring\I/O status\Binary input values\X130 (BIO)
X130 (BIO) X130 (BIO) X130 (BIO) OUT LD0.XGGIO130.Ind4.stVal SPS BOOLEAN ST StatIO P X130-Input 4 Connectors 6-5c Monitoring\I/O status\Binary input values\X130 (BIO)
X130 (BIO) X130 (BIO) X130 (BIO) OUT LD0.XGGIO130.Ind5.stVal SPS BOOLEAN ST StatIO P X130-Input 5 Connectors 7-8c Monitoring\I/O status\Binary input values\X130 (BIO)
X130 (BIO) X130 (BIO) X130 (BIO) OUT LD0.XGGIO130.Ind6.stVal SPS BOOLEAN ST StatIO P X130-Input 6 Connectors 9-8c Monitoring\I/O status\Binary input values\X130 (BIO)
X130 (BIO) X130 (BIO) X130 (BIO) CFG LD0.XGGIO130.OpDlTmms1.setVal ING INT32 SP 5 Input 1 filter time Connectors 1-2c 5...1000 ms Configuration\I/O modules\X130 (BIO)\Input filtering
X130 (BIO) X130 (BIO) X130 (BIO) CFG LD0.XGGIO130.OpDlTmms2.setVal ING INT32 SP 5 Input 2 filter time Connectors 3-2c 5...1000 ms Configuration\I/O modules\X130 (BIO)\Input filtering
X130 (BIO) X130 (BIO) X130 (BIO) CFG LD0.XGGIO130.OpDlTmms3.setVal ING INT32 SP 5 Input 3 filter time Connectors 4-5c 5...1000 ms Configuration\I/O modules\X130 (BIO)\Input filtering
X130 (BIO) X130 (BIO) X130 (BIO) CFG LD0.XGGIO130.OpDlTmms4.setVal ING INT32 SP 5 Input 4 filter time Connectors 6-5c 5...1000 ms Configuration\I/O modules\X130 (BIO)\Input filtering
X130 (BIO) X130 (BIO) X130 (BIO) CFG LD0.XGGIO130.OpDlTmms5.setVal ING INT32 SP 5 Input 5 filter time Connectors 7-8c 5...1000 ms Configuration\I/O modules\X130 (BIO)\Input filtering
X130 (BIO) X130 (BIO) X130 (BIO) CFG LD0.XGGIO130.OpDlTmms6.setVal ING INT32 SP 5 Input 6 filter time Connectors 9-8c 5...1000 ms Configuration\I/O modules\X130 (BIO)\Input filtering
X130 (BIO) X130 (BIO) X130 (BIO) CFG LD0.XGGIO130.DiInvert1.setVal SPG BOOLEAN SP 0 Input 1 inversion Connectors 1-2c Configuration\I/O modules\X130 (BIO)\Input inversion
X130 (BIO) X130 (BIO) X130 (BIO) CFG LD0.XGGIO130.DiInvert2.setVal SPG BOOLEAN SP 0 Input 2 inversion Connectors 3-2c Configuration\I/O modules\X130 (BIO)\Input inversion
X130 (BIO) X130 (BIO) X130 (BIO) CFG LD0.XGGIO130.DiInvert3.setVal SPG BOOLEAN SP 0 Input 3 inversion Connectors 4-5c Configuration\I/O modules\X130 (BIO)\Input inversion
X130 (BIO) X130 (BIO) X130 (BIO) CFG LD0.XGGIO130.DiInvert4.setVal SPG BOOLEAN SP 0 Input 4 inversion Connectors 6-5c Configuration\I/O modules\X130 (BIO)\Input inversion
X130 (BIO) X130 (BIO) X130 (BIO) CFG LD0.XGGIO130.DiInvert5.setVal SPG BOOLEAN SP 0 Input 5 inversion Connectors 7-8c Configuration\I/O modules\X130 (BIO)\Input inversion
X130 (BIO) X130 (BIO) X130 (BIO) CFG LD0.XGGIO130.DiInvert6.setVal SPG BOOLEAN SP 0 Input 6 inversion Connectors 9-8c Configuration\I/O modules\X130 (BIO)\Input inversion
X130 (BIO) X130 (BIO) X130 (BIO) TES LD0.XGGIO130.SPCSO1.Oper.ctlVal SPC BOOLEAN CO 0 X130-SO1 Connectors 10c-11no-12nc Tests\Binary outputs\X130 (BIO)
X130 (BIO) X130 (BIO) X130 (BIO) TES LD0.XGGIO130.SPCSO2.Oper.ctlVal SPC BOOLEAN CO 0 X130-SO2 Connectors 13c-14no-15nc Tests\Binary outputs\X130 (BIO)
X130 (BIO) X130 (BIO) X130 (BIO) TES LD0.XGGIO130.SPCSO3.Oper.ctlVal SPC BOOLEAN CO 0 X130-SO3 Connectors 16c-17no-18nc Tests\Binary outputs\X130 (BIO)
X130 (BIO) X130 (BIO) X130 (BIO) INF LD0.XGGIO130.EEName.hwRev DPL VisString255 (20) DC 0 HW revision Card HW revision Information\HW modules\X130 (BIO)
X130 (BIO) X130 (BIO) X130 (BIO) INF LD0.XGGIO130.EEName.serNum DPL VisString255 (20) DC 0 Serial number Card serial number Information\HW modules\X130 (BIO)
X130 (BIO) X130 (BIO) X130 (BIO) INF LD0.XGGIO130.EEName.eArtNum DPL VisString255 (20) EX 0 Article number Card article number Information\HW modules\X130 (BIO)
X130 (BIO) X130 (BIO) X130 (BIO) INF LD0.XGGIO130.EEName.eManDate DPL VisString255 (20) EX 0 Manufacturing date Card manufacturing date Information\HW modules\X130 (BIO)
X130 (BIO) X130 (BIO) X130 (BIO) INF LD0.XGGIO130.EEName.eTestDate DPL VisString255 (20) EX 0 Test date Card test date Information\HW modules\X130 (BIO)
X130 (BIO) X130 (BIO) X130 (BIO) VER LD0.XGGIO130.NamPlt.swRev LPL VisString255 (20) DC C
X130 (BIO) X130 (BIO) X130 (BIO) VER LD0.XGGIO130.EEName.swRev DPL VisString255 (20) DC -

IEC60870-5-103

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
IEC60870-5-103 MON LD0.I3CGGIO1.RcvFrms01.stVal INS INT32 ST Received frames 1 Received frames -1...2147483646 Monitoring\Communication\IEC60870-5-103\Serial
IEC60870-5-103 MON LD0.I3CGGIO1.ChksErr01.stVal INS INT32 ST Checksum errors 1 Checksum errors -1...2147483646 Monitoring\Communication\IEC60870-5-103\Serial
IEC60870-5-103 MON LD0.I3CGGIO1.TrmFrms01.stVal INS INT32 ST Transmitted frames 1 Transmitted frames -1...2147483646 Monitoring\Communication\IEC60870-5-103\Serial
IEC60870-5-103 MON LD0.I3CGGIO1.Status01.Oper.ctlVal SPC BOOLEAN CO 0 Status 1 Status Monitoring\Communication\IEC60870-5-103\Serial
IEC60870-5-103 MON LD0.I3CGGIO1.RcvFrms02.stVal INS INT32 ST Received frames 2 Received frames -1...2147483646 Monitoring\Communication\IEC60870-5-103\Serial
IEC60870-5-103 MON LD0.I3CGGIO1.ChksErr02.stVal INS INT32 ST Checksum errors 2 Checksum errors -1...2147483646 Monitoring\Communication\IEC60870-5-103\Serial
IEC60870-5-103 MON LD0.I3CGGIO1.TrmFrms02.stVal INS INT32 ST Transmitted frames 2 Transmitted frames -1...2147483646 Monitoring\Communication\IEC60870-5-103\Serial
IEC60870-5-103 MON LD0.I3CGGIO1.Status02.Oper.ctlVal SPC BOOLEAN CO 0 Status 2 Status Monitoring\Communication\IEC60870-5-103\Serial
IEC60870-5-103 CFG LD0.I3CGGIO1.InOv.stVal SPS BOOLEAN ST Internal Overflow Internal Overflow: TRUE-System level overflow occured (indication only) Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.SerPort1.setVal ING Enum SP 0 Serial port 1 COM port for instance 1 0=Not in use; 1=COM 1; 2=COM 2 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.UnAddr1.setVal ING INT32 SP 1 Address 1 Unit address for instance 1 1...255 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.StrFrmDl1.setVal ING INT32 SP 4 Start delay 1 Start frame delay in chars for instance 1 0...20 char Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.StopFrmDl1.setVal ING INT32 SP 4 End delay 1 End frame delay in chars for instance 1 0...20 char Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.Cls2Frm1i1.setVal ING Enum SP 6 Frame1InUse 1 Active Class2 Frame 1 for instance 1 -1=Not in use; 0=User frame; 1=Standard frame 1; 2=Standard frame 2; 3=Standard frame 3; 4=Standard frame 4; 5=Standard frame 5; 6=Private frame 6; 7=Private frame 7 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.Cls2Frm2i1.setVal ING Enum SP -1 Frame2InUse 1 Active Class2 Frame 2 for instance 1 -1=Not in use; 0=User frame; 1=Standard frame 1; 2=Standard frame 2; 3=Standard frame 3; 4=Standard frame 4; 5=Standard frame 5; 6=Private frame 6; 7=Private frame 7 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.Cls2Frm3i1.setVal ING Enum SP -1 Frame3InUse 1 Active Class2 Frame 3 for instance 1 -1=Not in use; 0=User frame; 1=Standard frame 1; 2=Standard frame 2; 3=Standard frame 3; 4=Standard frame 4; 5=Standard frame 5; 6=Private frame 6; 7=Private frame 7 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.Cls2Frm4i1.setVal ING Enum SP -1 Frame4InUse 1 Active Class2 Frame 4 for instance 1 -1=Not in use; 0=User frame; 1=Standard frame 1; 2=Standard frame 2; 3=Standard frame 3; 4=Standard frame 4; 5=Standard frame 5; 6=Private frame 6; 7=Private frame 7 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.UsrFnTyp1.setVal ING INT32 SP 10 UsrFType 1 Function type for User Class 2 Frame for instance 1 0...255 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.UsrInfNo1.setVal ING INT32 SP 230 UsrInfNo 1 Information Number for User Class2 Frame for instance 1 0...255 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.C1OvInd1.setVal ING Enum SP 2 Class1OvInd 1 Overflow Indication for instance 1 0=No indication; 1=Both edges; 2=Rising edge Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.C1OvFTyp1.setVal ING INT32 SP 10 Class1OvFType 1 Function Type for Class 1 overflow indication for instance 1 0...255 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.C1OvINo1.setVal ING INT32 SP 255 Class1OvInfNo 1 Information Number for Class 1 overflow indication for instance 1 0...255 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.C1OvBkOf1.setVal ING INT32 SP 500 Class1OvBackOff 1 Backoff Range for Class1 buffer for instance 1 0...500 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.GIOpt1.setVal ING Enum SP 0 GI Optimize 1 Optimize GI traffic for instance 1 0=Standard behaviour; 1=Skip spontaneous; 2=Only overflown; 3=Combined Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.DevFTyp1.setVal ING INT32 SP 9 DevFunType 1 Device Function Type for instance 1 0...255 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.SerPort2.setVal ING Enum SP 0 Serial port 2 COM port for instance 2 0=Not in use; 1=COM 1; 2=COM 2 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.UnAddr2.setVal ING INT32 SP 1 Address 2 Unit address for instance 2 1...255 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.StrFrmDl2.setVal ING INT32 SP 4 Start delay 2 Start frame delay in chars for instance 2 0...20 char Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.StopFrmDl2.setVal ING INT32 SP 4 End delay 2 End frame delay in chars for instance 2 0...20 char Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.Cls2Frm1i2.setVal ING Enum SP 6 Frame1InUse 2 Active Class2 Frame 1 for instance 2 -1=Not in use; 0=User frame; 1=Standard frame 1; 2=Standard frame 2; 3=Standard frame 3; 4=Standard frame 4; 5=Standard frame 5; 6=Private frame 6; 7=Private frame 7 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.Cls2Frm2i2.setVal ING Enum SP -1 Frame2InUse 2 Active Class2 Frame 2 for instance 2 -1=Not in use; 0=User frame; 1=Standard frame 1; 2=Standard frame 2; 3=Standard frame 3; 4=Standard frame 4; 5=Standard frame 5; 6=Private frame 6; 7=Private frame 7 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.Cls2Frm3i2.setVal ING Enum SP -1 Frame3InUse 2 Active Class2 Frame 3 for instance 2 -1=Not in use; 0=User frame; 1=Standard frame 1; 2=Standard frame 2; 3=Standard frame 3; 4=Standard frame 4; 5=Standard frame 5; 6=Private frame 6; 7=Private frame 7 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.Cls2Frm4i2.setVal ING Enum SP -1 Frame4InUse 2 Active Class2 Frame 4 for instance 2 -1=Not in use; 0=User frame; 1=Standard frame 1; 2=Standard frame 2; 3=Standard frame 3; 4=Standard frame 4; 5=Standard frame 5; 6=Private frame 6; 7=Private frame 7 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.UsrFnTyp2.setVal ING INT32 SP 10 UsrFType 2 Function type for User Class 2 Frame for instance 2 0...255 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.UsrInfNo2.setVal ING INT32 SP 230 UsrInfNo 2 Information Number for User Class2 Frame for instance 2 0...255 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.C1OvInd2.setVal ING Enum SP 2 Class1OvInd 2 Overflow Indication for instance 2 0=No indication; 1=Both edges; 2=Rising edge Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.C1OvFTyp2.setVal ING INT32 SP 10 Class1OvFType 2 Function Type for Class 1 overflow indication for instance 2 0...255 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.C1OvINo2.setVal ING INT32 SP 255 Class1OvInfNo 2 Information Number for Class 1 overflow indication for instance 2 0...255 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.C1OvBkOf2.setVal ING INT32 SP 500 Class1OvBackOff 2 Backoff Range for Class1 buffer for instance 2 0...500 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.GIOpt2.setVal ING Enum SP 0 GI Optimize 2 Optimize GI traffic for instance 2 0=Standard behaviour; 1=Skip spontaneous; 2=Only overflown; 3=Combined Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.DevFTyp2.setVal ING INT32 SP 9 DevFunType 2 Device Function Type for instance 2 0...255 Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.Cls1Prio1.setVal ING Enum SP 0 Class1Priority 1 Class 1 data sending priority relationship between Events and Disturbance Recorder data. 0=Ev High; 1=Ev/DR Equal; 2=DR High Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.Cls1Prio2.setVal ING Enum SP 0 Class1Priority 2 Class 1 data sending priority relationship between Events and Disturbance Recorder data. 0=Ev High; 1=Ev/DR Equal; 2=DR High Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.DREnabled1.setVal ING Enum SP 0 DR Notification 1 Disturbance Recorder spontaneous indications enabled/disabled 0=Disabled; 1=Enabled Configuration\Communication\IEC60870-5-103
IEC60870-5-103 CFG LD0.I3CGGIO1.DREnabled2.setVal ING Enum SP 0 DR Notification 2 Disturbance Recorder spontaneous indications enabled/disabled 0=Disabled; 1=Enabled Configuration\Communication\IEC60870-5-103
IEC60870-5-103 VER LD0.I3CGGIO1.NamPlt.swRev LPL VisString255 (20) DC A

DNP 3.0

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 CFG LD0.DNPGGIO1.PhysLayer.setVal ING Enum SP 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 1 Unit address DNP unit address 1...65519 Configuration\Communication\DNP3.0
DNP 3.0 CFG LD0.DNPGGIO1.MastAddr.setVal ING INT32 SP 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 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 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 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 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 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 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 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 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 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 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 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 2048 App layer fragment Application layer fragment size 256...2048 bytes Configuration\Communication\DNP3.0
DNP 3.0 CFG LD0.DNPGGIO1.SBOLgcyMas.setVal ING Enum SP 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 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 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 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 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

DARREC1: Autorecloser

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 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 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 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 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 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 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 0 SYNC Synchronizing check fulfilled Monitoring\I/O status\Control\DARREC1\Inputs
DARREC1 O->I 79 INP LD0.DARREC1.InIncrPntr.stVal SPS BOOLEAN ST 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 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 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 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 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 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 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 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 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 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 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 StatNrml PHT CLOSE_CB Close (reclose) command for circuit breaker Monitoring\I/O status\Control\DARREC1\Outputs
DARREC1 O->I 79 OUT LD0.DARREC1.OpOpn.general ACT BOOLEAN ST StatNrml PH OPEN_CB Open command for circuit breaker Monitoring\I/O status\Control\DARREC1\Outputs
DARREC1 O->I 79 OUT LD0.DARREC1.LO.stVal SPS BOOLEAN ST StatNrml PH 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 StatIed PH 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 StatNrml PH 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 StatNrml PH 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 StatIed PH 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 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 StatIed PH AR_ON Autoreclosing allowed Monitoring\I/O status\Control\DARREC1\Outputs
DARREC1 O->I 79 CTR LD0.DARREC1.RsRec.Oper.ctlVal SPC BOOLEAN CO 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 0 DARREC1 counters DARREC1 all counters reset 0=Cancel; 1=Clear Clear\Clear
DARREC1 O->I 79 MON LD0.DARREC1.Beh.stVal INS Enum ST 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 StatIed PH 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 StatIed PH 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 StatNrml PH 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 StatIed PH 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 StatIed PH 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 StatIed PH 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 StatIed PH 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 StatIed PH 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 StatIed PH 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 StatIed PH 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 StatIed PH 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 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 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 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 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 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 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 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 StatIed PH 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 DISA_COUNT Signal for counter disabling Monitoring\I/O status\Control\DARREC1\Monitored data
DARREC1 O->I 79 MON LD0.DARREC1.CBManCls.stVal SPS BOOLEAN ST StatIed PH 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 StatIed PH 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 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 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 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 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 0 Manual close mode Manual close mode Settings\Settings\Control\DARREC1
DARREC1 O->I 79 SET LD0.DARREC1.WtClsTmms.setVal ING INT32 SP 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 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 200 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 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 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 10000 Reclaim time Reclaim time 100...1800000 ms Settings\Settings\Control\DARREC1
DARREC1 O->I 79 SET LD0.DARREC1.DsrTmms1.setVal ING INT32 SP 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 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 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 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 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 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 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 1 Auto lockout reset Automatic lockout reset Settings\Settings\Control\DARREC1
DARREC1 O->I 79 SET LD0.DARREC1.ProtCrdLim.setVal ING INT32 SP 1 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 4 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 2 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 0 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 63 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 1 Enable shot jump Enable shot jumping Settings\Settings\Control\DARREC1
DARREC1 O->I 79 SET LD0.DARREC1.CBClsPosSt.setVal SPG BOOLEAN SP 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 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 5000 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 5000 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 5000 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 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 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 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 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 0 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 0 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 0 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 0 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 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 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 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 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 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 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 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 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 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 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 0 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 0 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 0 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 0 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 0 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 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 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 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 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

ARCSARC1: Arc protection

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 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 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 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 StatIed PH 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 StatNrml PHT OPERATE Operate Monitoring\I/O status\Other protection\ARCSARC1\Outputs
ARCSARC1 ARC(1) 50L/50NL(1) MON LD0.ARCSARC11.Beh.stVal INS Enum ST 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 1 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 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 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 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 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
ARCSARC1 ARC(1) 50L/50NL(1) VER LD0.ARCPIOC11.NamPlt.swRev LPL VisString255 (20) DC A
ARCSARC1 ARC(1) 50L/50NL(1) VER LD0.ARCPIOC12.NamPlt.swRev LPL VisString255 (20) DC A
ARCSARC1 ARC(1) 50L/50NL(1) VER LD0.ARCPTRC11.NamPlt.swRev LPL VisString255 (20) DC A

ARCSARC2: Arc protection

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 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 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 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 StatIed PH 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 StatNrml PHT OPERATE Operate Monitoring\I/O status\Other protection\ARCSARC2\Outputs
ARCSARC2 ARC(2) 50L/50NL(2) MON LD0.ARCSARC21.Beh.stVal INS Enum ST 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 1 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 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 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 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 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
ARCSARC2 ARC(2) 50L/50NL(2) VER LD0.ARCPIOC21.NamPlt.swRev LPL VisString255 (20) DC A
ARCSARC2 ARC(2) 50L/50NL(2) VER LD0.ARCPIOC22.NamPlt.swRev LPL VisString255 (20) DC A
ARCSARC2 ARC(2) 50L/50NL(2) VER LD0.ARCPTRC21.NamPlt.swRev LPL VisString255 (20) DC A

ARCSARC3: Arc protection

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 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 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 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 StatIed PH 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 StatNrml PHT OPERATE Operate Monitoring\I/O status\Other protection\ARCSARC3\Outputs
ARCSARC3 ARC(3) 50L/50NL(3) MON LD0.ARCSARC31.Beh.stVal INS Enum ST 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 1 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 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 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 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 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
ARCSARC3 ARC(3) 50L/50NL(3) VER LD0.ARCPIOC31.NamPlt.swRev LPL VisString255 (20) DC A
ARCSARC3 ARC(3) 50L/50NL(3) VER LD0.ARCPIOC32.NamPlt.swRev LPL VisString255 (20) DC A
ARCSARC3 ARC(3) 50L/50NL(3) VER LD0.ARCPTRC31.NamPlt.swRev LPL VisString255 (20) DC A

Modbus

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 MON LD0.MBSGGIO1.RcvFrms01.stVal INS INT32 ST Received frames 1 Received frames -1...2147483646 Monitoring\Communication\Modbus\Serial
Modbus MON LD0.MBSGGIO1.ChksErr01.stVal INS INT32 ST Checksum errors 1 Checksum errors -1...2147483646 Monitoring\Communication\Modbus\Serial
Modbus MON LD0.MBSGGIO1.TrmFrms01.stVal INS INT32 ST Transmitted frames 1 Transmitted frames -1...2147483646 Monitoring\Communication\Modbus\Serial
Modbus MON LD0.MBSGGIO1.TrmExcA01.stVal INS INT32 ST Transmitted exc A 1 Transmitted exceptions 01 and 02 -1...2147483646 Monitoring\Communication\Modbus\Serial
Modbus MON LD0.MBSGGIO1.TrmExcB01.stVal INS INT32 ST Transmitted exc B 1 Transmitted exceptions 03 -1...2147483646 Monitoring\Communication\Modbus\Serial
Modbus MON LD0.MBSGGIO1.Status01.Oper.ctlVal SPC BOOLEAN CO 0 Status 1 Communication status: 1:active, 0:inactive Monitoring\Communication\Modbus\Serial
Modbus MON LD0.MBSGGIO1.RcvFrms02.stVal INS INT32 ST Received frames 2 Received frames -1...2147483646 Monitoring\Communication\Modbus\Serial
Modbus MON LD0.MBSGGIO1.ChksErr02.stVal INS INT32 ST Checksum errors 2 Checksum errors -1...2147483646 Monitoring\Communication\Modbus\Serial
Modbus MON LD0.MBSGGIO1.TrmFrms02.stVal INS INT32 ST Transmitted frames 2 Transmitted frames -1...2147483646 Monitoring\Communication\Modbus\Serial
Modbus MON LD0.MBSGGIO1.TrmExcA02.stVal INS INT32 ST Transmitted exc A 2 Transmitted exceptions 01 and 02 -1...2147483646 Monitoring\Communication\Modbus\Serial
Modbus MON LD0.MBSGGIO1.TrmExcB02.stVal INS INT32 ST Transmitted exc B 2 Transmitted exceptions 03 -1...2147483646 Monitoring\Communication\Modbus\Serial
Modbus MON LD0.MBSGGIO1.Status02.Oper.ctlVal SPC BOOLEAN CO 0 Status 2 Communication status: 1:active, 0:inactive Monitoring\Communication\Modbus\Serial
Modbus MON LD0.MBSGGIO1.RcvFrms11.stVal INS INT32 ST Received frames 1 Received frames -1...2147483646 Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.TrmFrms11.stVal INS INT32 ST Transmitted frames 1 Transmitted frames -1...2147483646 Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.TrmExcA11.stVal INS INT32 ST Transmitted exc A 1 Transmitted exceptions 01 and 02 -1...2147483646 Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.TrmExcB11.stVal INS INT32 ST Transmitted exc B 1 Transmitted exceptions 03 -1...2147483646 Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.Status11.Oper.ctlVal SPC BOOLEAN CO 0 Status 1 Communication status: 1:active, 0:inactive Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.RcvFrms12.stVal INS INT32 ST Received frames 2 Received frames -1...2147483646 Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.TrmFrms12.stVal INS INT32 ST Transmitted frames 2 Transmitted frames -1...2147483646 Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.TrmExcA12.stVal INS INT32 ST Transmitted exc A 2 Transmitted exceptions 01 and 02 -1...2147483646 Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.TrmExcB12.stVal INS INT32 ST Transmitted exc B 2 Transmitted exceptions 03 -1...2147483646 Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.Status12.Oper.ctlVal SPC BOOLEAN CO 0 Status 2 Communication status: 1:active, 0:inactive Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.RcvFrms13.stVal INS INT32 ST Received frames 3 Received frames -1...2147483646 Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.TrmFrms13.stVal INS INT32 ST Transmitted frames 3 Transmitted frames -1...2147483646 Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.TrmExcA13.stVal INS INT32 ST Transmitted exc A 3 Transmitted exceptions 01 and 02 -1...2147483646 Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.TrmExcB13.stVal INS INT32 ST Transmitted exc B 3 Transmitted exceptions 03 -1...2147483646 Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.Status13.Oper.ctlVal SPC BOOLEAN CO 0 Status 3 Communication status: 1:active, 0:inactive Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.RcvFrms14.stVal INS INT32 ST Received frames 4 Received frames -1...2147483646 Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.TrmFrms14.stVal INS INT32 ST Transmitted frames 4 Transmitted frames -1...2147483646 Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.TrmExcA14.stVal INS INT32 ST Transmitted exc A 4 Transmitted exceptions 01 and 02 -1...2147483646 Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.TrmExcB14.stVal INS INT32 ST Transmitted exc B 4 Transmitted exceptions 03 -1...2147483646 Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.Status14.Oper.ctlVal SPC BOOLEAN CO 0 Status 4 Communication status: 1:active, 0:inactive Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.RcvFrms15.stVal INS INT32 ST Received frames 5 Received frames -1...2147483646 Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.TrmFrms15.stVal INS INT32 ST Transmitted frames 5 Transmitted frames -1...2147483646 Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.TrmExcA15.stVal INS INT32 ST Transmitted exc A 5 Transmitted exceptions 01 and 02 -1...2147483646 Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.TrmExcB15.stVal INS INT32 ST Transmitted exc B 5 Transmitted exceptions 03 -1...2147483646 Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.Status15.Oper.ctlVal SPC BOOLEAN CO 0 Status 5 Communication status: 1:active, 0:inactive Monitoring\Communication\Modbus\Ethernet
Modbus MON LD0.MBSGGIO1.CnRejNoSck.Oper.ctlVal INC INT32 CO -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 -1 CnReject Unregistered Connections rejected for unregistered client -1...2147483647 Monitoring\Communication\Modbus\Ethernet
Modbus CFG LD0.MBSGGIO1.NamPlt.clientIP1 LPL VisString255 (20) EX 000.000.000.000 ClientIP1 Modbus Registered Client 1 Configuration\Communication\Modbus
Modbus CFG LD0.MBSGGIO1.NamPlt.clientIP2 LPL VisString255 (20) EX 000.000.000.000 ClientIP2 Modbus Registered Client 2 Configuration\Communication\Modbus
Modbus CFG LD0.MBSGGIO1.NamPlt.clientIP3 LPL VisString255 (20) EX 000.000.000.000 ClientIP3 Modbus Registered Client 3 Configuration\Communication\Modbus
Modbus CFG LD0.MBSGGIO1.NamPlt.clientIP4 LPL VisString255 (20) EX 000.000.000.000 ClientIP4 Modbus Registered Client 4 Configuration\Communication\Modbus
Modbus CFG LD0.MBSGGIO1.NamPlt.clientIP5 LPL VisString255 (20) EX 000.000.000.000 ClientIP5 Modbus Registered Client 5 Configuration\Communication\Modbus
Modbus CFG LD0.MBSGGIO1.NamPlt.maxMBTCPClients LPL INT32 EX 5 MaxTCPClients Maximum number of Modbus TCP/IP clients 0...5 Configuration\Communication\Modbus
Modbus CFG LD0.MBSGGIO1.NamPlt.tcpClientWrAuth LPL Enum EX 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 **** CtlStructPWd1 Password for Modbus control struct 1 Configuration\Communication\Modbus
Modbus CFG LD0.MBSGGIO1.NamPlt.ctrlStructPassWd2 LPL VisString255 (20) EX **** CtlStructPWd2 Password for Modbus control struct 2 Configuration\Communication\Modbus
Modbus CFG LD0.MBSGGIO1.NamPlt.ctrlStructPassWd3 LPL VisString255 (20) EX **** CtlStructPWd3 Password for Modbus control struct 3 Configuration\Communication\Modbus
Modbus CFG LD0.MBSGGIO1.NamPlt.ctrlStructPassWd4 LPL VisString255 (20) EX **** CtlStructPWd4 Password for Modbus control struct 4 Configuration\Communication\Modbus
Modbus CFG LD0.MBSGGIO1.NamPlt.ctrlStructPassWd5 LPL VisString255 (20) EX **** CtlStructPWd5 Password for Modbus control struct 5 Configuration\Communication\Modbus
Modbus CFG LD0.MBSGGIO1.NamPlt.ctrlStructPassWd6 LPL VisString255 (20) EX **** CtlStructPWd6 Password for Modbus control struct 6 Configuration\Communication\Modbus
Modbus CFG LD0.MBSGGIO1.NamPlt.ctrlStructPassWd7 LPL VisString255 (20) EX **** CtlStructPWd7 Password for Modbus control struct 7 Configuration\Communication\Modbus
Modbus CFG LD0.MBSGGIO1.NamPlt.ctrlStructPassWd8 LPL VisString255 (20) EX **** CtlStructPWd8 Password for Modbus control struct 8 Configuration\Communication\Modbus
Modbus CFG LD0.MBSGGIO1.NamPlt.evIDSelection LPL Enum EX 0 EventID Event ID selection 0=Address; 1=UID Configuration\Communication\Modbus
Modbus CFG LD0.MBSGGIO1.NamPlt.useLocalTime LPL Enum EX 1 TimeFormat Time format for Modbus time stamps 0=UTC; 1=Local Configuration\Communication\Modbus
Modbus CFG LD0.MBSGGIO1.SerPort1.setVal ING Enum SP 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 1 Address 1 Modbus unit address on Serial interface 1 1...255 Configuration\Communication\Modbus
Modbus CFG LD0.MBSGGIO1.LnkMod1.setVal ING Enum SP 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 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 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 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 2 Address 2 Modbus unit address on Serial interface 2 1...255 Configuration\Communication\Modbus
Modbus CFG LD0.MBSGGIO1.LnkMod2.setVal ING Enum SP 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 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 3 End delay 2 End frame delay in chars on Serial interface 2 0...20 Configuration\Communication\Modbus
Modbus CFG LD0.MBSGGIO1.InOv.stVal SPS BOOLEAN ST StatIed PH Internal Overflow Modbus Internal Overflow: TRUE-System level overflow occured (indication only) Configuration\Communication\Modbus
Modbus CFG LD0.MBSGGIO1.SerPty1.setVal ING Enum SP 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 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

Control LLN0

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 LLN0 INP CTRL.LLN0.LocKeyLoc.stVal SPS BOOLEAN ST 0
Control LLN0 INP CTRL.LLN0.LocKeyRem.stVal SPS BOOLEAN ST 0
Control LLN0 INP CTRL.LLN0.LocKeySta.stVal SPS BOOLEAN ST 0
Control LLN0 OUT CTRL.LLN0.LocKeyDis.stVal SPS BOOLEAN ST 0
Control LLN0 OUT CTRL.LLN0.LocKeyLoc.stVal SPS BOOLEAN ST 0
Control LLN0 OUT CTRL.LLN0.LocKeyRem.stVal SPS BOOLEAN ST 0
Control LLN0 OUT CTRL.LLN0.LocKeySta.stVal SPS BOOLEAN ST 0
Control LLN0 MON CTRL.LLN0.CmdRsp.stVal INS Enum ST 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 StatUrg PH 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 1 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 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

CBXCBR1

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 I<->O CB INP CTRL.CBCILO1.EnaOpn.stVal SPS BOOLEAN ST 1 StatUrg PH ENA_OPEN Enables opening Monitoring\I/O status\Control\CBXCBR1\Inputs
CBXCBR1 I<->O CB I<->O CB INP CTRL.CBCILO1.EnaCls.stVal SPS BOOLEAN ST 1 StatUrg PH ENA_CLOSE Enables closing Monitoring\I/O status\Control\CBXCBR1\Inputs
CBXCBR1 I<->O CB I<->O CB INP CTRL.CBCILO1.ItlByPss.stVal SPS BOOLEAN ST 0 StatUrg PH ITL_BYPASS Discards ENA_OPEN and ENA_CLOSE interlocking when TRUE Monitoring\I/O status\Control\CBXCBR1\Inputs
CBXCBR1 I<->O CB I<->O CB INP CTRL.CBCSWI1.PosOpn.stVal SPS BOOLEAN ST 0 OPENPOS Apparatus open position Monitoring\I/O status\Control\CBXCBR1\Outputs
CBXCBR1 I<->O CB I<->O CB INP CTRL.CBCSWI1.PosCls.stVal SPS BOOLEAN ST 0 CLOSEPOS Apparatus closed position Monitoring\I/O status\Control\CBXCBR1\Outputs
CBXCBR1 I<->O CB I<->O CB INP CTRL.CBCSWI1.OpOpn.general ACT BOOLEAN ST 0 EXE_OP Executes the command for open direction Monitoring\I/O status\Control\CBXCBR1\Outputs
CBXCBR1 I<->O CB I<->O CB INP CTRL.CBCSWI1.OpCls.general ACT BOOLEAN ST 0 EXE_CL Executes the command for close direction Monitoring\I/O status\Control\CBXCBR1\Outputs
CBXCBR1 I<->O CB I<->O CB INP CTRL.CBXCBR1.BlkOpn.stVal SPC BOOLEAN ST 0 StatUrg PH BLK_OPEN Blocks opening Monitoring\I/O status\Control\CBXCBR1\Inputs
CBXCBR1 I<->O CB I<->O CB INP CTRL.CBXCBR1.BlkCls.stVal SPC BOOLEAN ST 0 StatUrg PH BLK_CLOSE Blocks closing Monitoring\I/O status\Control\CBXCBR1\Inputs
CBXCBR1 I<->O CB I<->O CB OUT CTRL.CBCSWI1.Pos.stSeld DPC BOOLEAN ST StatUrg PH SELECTED Object selected Monitoring\I/O status\Control\CBXCBR1\Outputs
CBXCBR1 I<->O CB I<->O CB OUT CTRL.CBCSWI1.PosOpn.stVal SPS BOOLEAN ST 0 OPENPOS Apparatus open position Monitoring\I/O status\Control\CBXCBR1\Outputs
CBXCBR1 I<->O CB I<->O CB OUT CTRL.CBCSWI1.PosCls.stVal SPS BOOLEAN ST 0 CLOSEPOS Apparatus closed position Monitoring\I/O status\Control\CBXCBR1\Outputs
CBXCBR1 I<->O CB I<->O CB OUT CTRL.CBCSWI1.PosOk.stVal SPS BOOLEAN ST OKPOS Apparatus position is ok Monitoring\I/O status\Control\CBXCBR1\Outputs
CBXCBR1 I<->O CB I<->O CB OUT CTRL.CBCSWI1.OpOpn.general ACT BOOLEAN ST 0 EXE_OP Executes the command for open direction Monitoring\I/O status\Control\CBXCBR1\Outputs
CBXCBR1 I<->O CB I<->O CB OUT CTRL.CBCSWI1.OpCls.general ACT BOOLEAN ST 0 EXE_CL Executes the command for close direction Monitoring\I/O status\Control\CBXCBR1\Outputs
CBXCBR1 I<->O CB I<->O CB OUT CTRL.CBCSWI1.OpnEna.stVal SPS BOOLEAN ST OPEN_ENAD Opening is enabled based on the input status Monitoring\I/O status\Control\CBXCBR1\Outputs
CBXCBR1 I<->O CB I<->O CB OUT CTRL.CBCSWI1.ClsEna.stVal SPS BOOLEAN ST CLOSE_ENAD Closing is enabled based on the input status Monitoring\I/O status\Control\CBXCBR1\Outputs
CBXCBR1 I<->O CB I<->O CB CTR CTRL.CBCSWI1.Pos.SBOw.ctlVal DPC BOOLEAN CO
CBXCBR1 I<->O CB I<->O CB CTR CTRL.CBCSWI1.Pos.Oper.ctlVal DPC BOOLEAN CO
CBXCBR1 I<->O CB I<->O CB CTR CTRL.CBCSWI1.Pos.Cancel.ctlVal DPC BOOLEAN CO
CBXCBR1 I<->O CB I<->O CB CFG CTRL.CBCSWI1.Mod.Oper.ctlVal INC Enum CO 1 Operation Operation mode on/off 1=on; 5=off Configuration\Control\CBXCBR1
CBXCBR1 I<->O CB I<->O CB CFG CTRL.CBCSWI1.Pos.pulseConfig.onDur DPC INT32U CF 100 Pulse length Open and close pulse length 10...60000 ms Configuration\Control\CBXCBR1
CBXCBR1 I<->O CB I<->O CB CFG CTRL.CBCSWI1.Pos.ctlModel DPC Enum CF 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 I<->O CB CFG CTRL.CBCSWI1.Pos.sboTimeout DPC INT32U CF 60000 Select timeout Select timeout in ms 10000...300000 ms Configuration\Control\CBXCBR1
CBXCBR1 I<->O CB I<->O CB CFG CTRL.CBCSWI1.Pos.operTimeout DPC INT32U CF 500 Operation timeout Timeout for negative termination 10...60000 ms Configuration\Control\CBXCBR1
CBXCBR1 I<->O CB I<->O CB CFG CTRL.CBCSWI1.AutoPls.setVal SPG BOOLEAN SP 1 Adaptive pulse Stop in right position Configuration\Control\CBXCBR1
CBXCBR1 I<->O CB I<->O CB CFG CTRL.CBCSWI1.OpDlTmms.setVal ING INT32 SP 100 Event delay Event delay of the intermediate position 0...10000 ms Configuration\Control\CBXCBR1
CBXCBR1 I<->O CB I<->O CB CFG CTRL.CBCSWI1.OpCntRs.Oper.ctlVal INC INT32 CO 0 Operation counter Breaker operation cycles 0...10000 Configuration\Control\CBXCBR1
CBXCBR1 I<->O CB I<->O CB VER CTRL.CBCILO1.NamPlt.swRev LPL VisString255 (20) DC B

DCSXSWI1

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
DCSXSWI1 I<->0 DC(1) I<->0 DC(1) INP CTRL.DCSXSWI1.PosOpn.stVal SPS BOOLEAN ST 0 OPENPOS Apparatus open position Monitoring\I/O status\Control\DCSXSWI1\Outputs
DCSXSWI1 I<->0 DC(1) I<->0 DC(1) INP CTRL.DCSXSWI1.PosCls.stVal SPS BOOLEAN ST 0 CLOSEPOS Apparatus closed position Monitoring\I/O status\Control\DCSXSWI1\Outputs
DCSXSWI1 I<->0 DC(1) I<->0 DC(1) OUT CTRL.DCSXSWI1.PosOpn.stVal SPS BOOLEAN ST 0 OPENPOS Apparatus open position Monitoring\I/O status\Control\DCSXSWI1\Outputs
DCSXSWI1 I<->0 DC(1) I<->0 DC(1) OUT CTRL.DCSXSWI1.PosCls.stVal SPS BOOLEAN ST 0 CLOSEPOS Apparatus closed position Monitoring\I/O status\Control\DCSXSWI1\Outputs
DCSXSWI1 I<->0 DC(1) I<->0 DC(1) OUT CTRL.DCSXSWI1.PosOk.stVal SPS BOOLEAN ST OKPOS Apparatus position is ok Monitoring\I/O status\Control\DCSXSWI1\Outputs
DCSXSWI1 I<->0 DC(1) I<->0 DC(1) MON CTRL.DCSXSWI1.Pos.stVal DPC Dbpos ST StatUrg PH POSITION Apparatus position indication 0=intermediate; 1=open; 2=closed; 3=faulty Monitoring\I/O status\Control\DCSXSWI1\Monitored data
DCSXSWI1 I<->0 DC(1) I<->0 DC(1) CFG CTRL.DCSXSWI1.OpDlTmms.setVal ING INT32 SP 100 Event delay Event delay of the intermediate position 0...10000 ms Configuration\Control\DCSXSWI1
DCSXSWI1 I<->0 DC(1) I<->0 DC(1) VER CTRL.DCSXSWI1.NamPlt.swRev LPL VisString255 (20) DC A

DCSXSWI2

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
DCSXSWI2 I<->0 DC(2) I<->0 DC(2) INP CTRL.DCSXSWI2.PosOpn.stVal SPS BOOLEAN ST 0 OPENPOS Apparatus open position Monitoring\I/O status\Control\DCSXSWI2\Outputs
DCSXSWI2 I<->0 DC(2) I<->0 DC(2) INP CTRL.DCSXSWI2.PosCls.stVal SPS BOOLEAN ST 0 CLOSEPOS Apparatus closed position Monitoring\I/O status\Control\DCSXSWI2\Outputs
DCSXSWI2 I<->0 DC(2) I<->0 DC(2) OUT CTRL.DCSXSWI2.PosOpn.stVal SPS BOOLEAN ST 0 OPENPOS Apparatus open position Monitoring\I/O status\Control\DCSXSWI2\Outputs
DCSXSWI2 I<->0 DC(2) I<->0 DC(2) OUT CTRL.DCSXSWI2.PosCls.stVal SPS BOOLEAN ST 0 CLOSEPOS Apparatus closed position Monitoring\I/O status\Control\DCSXSWI2\Outputs
DCSXSWI2 I<->0 DC(2) I<->0 DC(2) OUT CTRL.DCSXSWI2.PosOk.stVal SPS BOOLEAN ST OKPOS Apparatus position is ok Monitoring\I/O status\Control\DCSXSWI2\Outputs
DCSXSWI2 I<->0 DC(2) I<->0 DC(2) MON CTRL.DCSXSWI2.Pos.stVal DPC Dbpos ST StatUrg PH POSITION Apparatus position indication 0=intermediate; 1=open; 2=closed; 3=faulty Monitoring\I/O status\Control\DCSXSWI2\Monitored data
DCSXSWI2 I<->0 DC(2) I<->0 DC(2) CFG CTRL.DCSXSWI2.OpDlTmms.setVal ING INT32 SP 100 Event delay Event delay of the intermediate position 0...10000 ms Configuration\Control\DCSXSWI2
DCSXSWI2 I<->0 DC(2) I<->0 DC(2) VER CTRL.DCSXSWI2.NamPlt.swRev LPL VisString255 (20) DC A

DCSXSWI3

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
DCSXSWI3 I<->0 DC(3) I<->0 DC(3) INP CTRL.DCSXSWI3.PosOpn.stVal SPS BOOLEAN ST 0 OPENPOS Apparatus open position Monitoring\I/O status\Control\DCSXSWI3\Outputs
DCSXSWI3 I<->0 DC(3) I<->0 DC(3) INP CTRL.DCSXSWI3.PosCls.stVal SPS BOOLEAN ST 0 CLOSEPOS Apparatus closed position Monitoring\I/O status\Control\DCSXSWI3\Outputs
DCSXSWI3 I<->0 DC(3) I<->0 DC(3) OUT CTRL.DCSXSWI3.PosOpn.stVal SPS BOOLEAN ST 0 OPENPOS Apparatus open position Monitoring\I/O status\Control\DCSXSWI3\Outputs
DCSXSWI3 I<->0 DC(3) I<->0 DC(3) OUT CTRL.DCSXSWI3.PosCls.stVal SPS BOOLEAN ST 0 CLOSEPOS Apparatus closed position Monitoring\I/O status\Control\DCSXSWI3\Outputs
DCSXSWI3 I<->0 DC(3) I<->0 DC(3) OUT CTRL.DCSXSWI3.PosOk.stVal SPS BOOLEAN ST OKPOS Apparatus position is ok Monitoring\I/O status\Control\DCSXSWI3\Outputs
DCSXSWI3 I<->0 DC(3) I<->0 DC(3) MON CTRL.DCSXSWI3.Pos.stVal DPC Dbpos ST StatUrg PH POSITION Apparatus position indication 0=intermediate; 1=open; 2=closed; 3=faulty Monitoring\I/O status\Control\DCSXSWI3\Monitored data
DCSXSWI3 I<->0 DC(3) I<->0 DC(3) CFG CTRL.DCSXSWI3.OpDlTmms.setVal ING INT32 SP 100 Event delay Event delay of the intermediate position 0...10000 ms Configuration\Control\DCSXSWI3
DCSXSWI3 I<->0 DC(3) I<->0 DC(3) VER CTRL.DCSXSWI3.NamPlt.swRev LPL VisString255 (20) DC A

ESSXSWI1

IEC 61850 IEC 60617 ANSI Category IECName CDC Type FC Access Default Dataset Event Parameter name Parameter desc Parameter range Menu path Channel relation
ESSXSWI1 I<->0 ES I<->0 ES INP CTRL.ESSXSWI1.PosOpn.stVal SPS BOOLEAN ST 0 OPENPOS Apparatus open position Monitoring\I/O status\Control\ESSXSWI1\Outputs
ESSXSWI1 I<->0 ES I<->0 ES INP CTRL.ESSXSWI1.PosCls.stVal SPS BOOLEAN ST 0 CLOSEPOS Apparatus closed position Monitoring\I/O status\Control\ESSXSWI1\Outputs
ESSXSWI1 I<->0 ES I<->0 ES OUT CTRL.ESSXSWI1.PosOpn.stVal SPS BOOLEAN ST 0 OPENPOS Apparatus open position Monitoring\I/O status\Control\ESSXSWI1\Outputs
ESSXSWI1 I<->0 ES I<->0 ES OUT CTRL.ESSXSWI1.PosCls.stVal SPS BOOLEAN ST 0 CLOSEPOS Apparatus closed position Monitoring\I/O status\Control\ESSXSWI1\Outputs
ESSXSWI1 I<->0 ES I<->0 ES OUT CTRL.ESSXSWI1.PosOk.stVal SPS BOOLEAN ST OKPOS Apparatus position is ok Monitoring\I/O status\Control\ESSXSWI1\Outputs
ESSXSWI1 I<->0 ES I<->0 ES MON CTRL.ESSXSWI1.Pos.stVal DPC Dbpos ST StatUrg PH POSITION Apparatus position indication 0=intermediate; 1=open; 2=closed; 3=faulty Monitoring\I/O status\Control\ESSXSWI1\Monitored data
ESSXSWI1 I<->0 ES I<->0 ES CFG CTRL.ESSXSWI1.OpDlTmms.setVal ING INT32 SP 100 Event delay Event delay of the intermediate position 0...10000 ms Configuration\Control\ESSXSWI1
ESSXSWI1 I<->0 ES I<->0 ES VER CTRL.ESSXSWI1.NamPlt.swRev LPL VisString255 (20) DC A

DR LLN0: Disturbance recorder

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
Binary ch 2 INP DR.RBDR2.EInput.stVal SPS BOOLEAN ST 0
Binary ch 3 INP DR.RBDR3.EInput.stVal SPS BOOLEAN ST 0
Binary ch 4 INP DR.RBDR4.EInput.stVal SPS BOOLEAN ST 0
Binary ch 5 INP DR.RBDR5.EInput.stVal SPS BOOLEAN ST 0
Binary ch 6 INP DR.RBDR6.EInput.stVal SPS BOOLEAN ST 0
Binary ch 7 INP DR.RBDR7.EInput.stVal SPS BOOLEAN ST 0
Binary ch 8 INP DR.RBDR8.EInput.stVal SPS BOOLEAN ST 0
Binary ch 9 INP DR.RBDR9.EInput.stVal SPS BOOLEAN ST 0
Binary ch 10 INP DR.RBDR10.EInput.stVal SPS BOOLEAN ST 0
Binary ch 11 INP DR.RBDR11.EInput.stVal SPS BOOLEAN ST 0
Binary ch 12 INP DR.RBDR12.EInput.stVal SPS BOOLEAN ST 0
Binary ch 13 INP DR.RBDR13.EInput.stVal SPS BOOLEAN ST 0
Binary ch 14 INP DR.RBDR14.EInput.stVal SPS BOOLEAN ST 0
Binary ch 15 INP DR.RBDR15.EInput.stVal SPS BOOLEAN ST 0
Binary ch 16 INP DR.RBDR16.EInput.stVal SPS BOOLEAN ST 0
Binary ch 17 INP DR.RBDR17.EInput.stVal SPS BOOLEAN ST 0
Binary ch 18 INP DR.RBDR18.EInput.stVal SPS BOOLEAN ST 0
Binary ch 19 INP DR.RBDR19.EInput.stVal SPS BOOLEAN ST 0
Binary ch 20 INP DR.RBDR20.EInput.stVal SPS BOOLEAN ST 0
Binary ch 21 INP DR.RBDR21.EInput.stVal SPS BOOLEAN ST 0
Binary ch 22 INP DR.RBDR22.EInput.stVal SPS BOOLEAN ST 0
Binary ch 23 INP DR.RBDR23.EInput.stVal SPS BOOLEAN ST 0
Binary ch 24 INP DR.RBDR24.EInput.stVal SPS BOOLEAN ST 0
Binary ch 25 INP DR.RBDR25.EInput.stVal SPS BOOLEAN ST 0
Binary ch 26 INP DR.RBDR26.EInput.stVal SPS BOOLEAN ST 0
Binary ch 27 INP DR.RBDR27.EInput.stVal SPS BOOLEAN ST 0
Binary ch 28 INP DR.RBDR28.EInput.stVal SPS BOOLEAN ST 0
Binary ch 29 INP DR.RBDR29.EInput.stVal SPS BOOLEAN ST 0
Binary ch 30 INP DR.RBDR30.EInput.stVal SPS BOOLEAN ST 0
Binary ch 31 INP DR.RBDR31.EInput.stVal SPS BOOLEAN ST 0
Binary ch 32 INP DR.RBDR32.EInput.stVal SPS BOOLEAN ST 0
Binary ch 33 INP DR.RBDR33.EInput.stVal SPS BOOLEAN ST 0
Binary ch 34 INP DR.RBDR34.EInput.stVal SPS BOOLEAN ST 0
Binary ch 35 INP DR.RBDR35.EInput.stVal SPS BOOLEAN ST 0
Binary ch 36 INP DR.RBDR36.EInput.stVal SPS BOOLEAN ST 0
Binary ch 37 INP DR.RBDR37.EInput.stVal SPS BOOLEAN ST 0
Binary ch 38 INP DR.RBDR38.EInput.stVal SPS BOOLEAN ST 0
Binary ch 39 INP DR.RBDR39.EInput.stVal SPS BOOLEAN ST 0
Binary ch 40 INP DR.RBDR40.EInput.stVal SPS BOOLEAN ST 0
Binary ch 41 INP DR.RBDR41.EInput.stVal SPS BOOLEAN ST 0
Binary ch 42 INP DR.RBDR42.EInput.stVal SPS BOOLEAN ST 0
Binary ch 43 INP DR.RBDR43.EInput.stVal SPS BOOLEAN ST 0
Binary ch 44 INP DR.RBDR44.EInput.stVal SPS BOOLEAN ST 0
Binary ch 45 INP DR.RBDR45.EInput.stVal SPS BOOLEAN ST 0
Binary ch 46 INP DR.RBDR46.EInput.stVal SPS BOOLEAN ST 0
Binary ch 47 INP DR.RBDR47.EInput.stVal SPS BOOLEAN ST 0
Binary ch 48 INP DR.RBDR48.EInput.stVal SPS BOOLEAN ST 0
Binary ch 49 INP DR.RBDR49.EInput.stVal SPS BOOLEAN ST 0
Binary ch 50 INP DR.RBDR50.EInput.stVal SPS BOOLEAN ST 0
Binary ch 51 INP DR.RBDR51.EInput.stVal SPS BOOLEAN ST 0
Binary ch 52 INP DR.RBDR52.EInput.stVal SPS BOOLEAN ST 0
Binary ch 53 INP DR.RBDR53.EInput.stVal SPS BOOLEAN ST 0
Binary ch 54 INP DR.RBDR54.EInput.stVal SPS BOOLEAN ST 0
Binary ch 55 INP DR.RBDR55.EInput.stVal SPS BOOLEAN ST 0
Binary ch 56 INP DR.RBDR56.EInput.stVal SPS BOOLEAN ST 0
Binary ch 57 INP DR.RBDR57.EInput.stVal SPS BOOLEAN ST 0
Binary ch 58 INP DR.RBDR58.EInput.stVal SPS BOOLEAN ST 0
Binary ch 59 INP DR.RBDR59.EInput.stVal SPS BOOLEAN ST 0
Binary ch 60 INP DR.RBDR60.EInput.stVal SPS BOOLEAN ST 0
Binary ch 61 INP DR.RBDR61.EInput.stVal SPS BOOLEAN ST 0
Binary ch 62 INP DR.RBDR62.EInput.stVal SPS BOOLEAN ST 0
Binary ch 63 INP DR.RBDR63.EInput.stVal SPS BOOLEAN ST 0
Binary ch 64 INP DR.RBDR64.EInput.stVal SPS BOOLEAN ST 0
Disturbance recorder OUT DR.RDRE1.RcdStr.stVal SPS BOOLEAN ST StatDR P
Disturbance recorder CTR DR.RDRE1.MemClr.Oper.ctlVal SPC BOOLEAN CO 0 Disturbance records Clear all disturbance recordings in the memory 0=Cancel; 1=Clear Clear\Clear
DR LLN0 CFG DR.LLN0.Mod.Oper.ctlVal INC Enum CO 1 Operation Disturbance recorder on / off 1=on; 5=off Configuration\Disturbance recorder\General
Disturbance recorder CFG DR.RDRE1.PerTrgTms.setVal ING INT32 SP 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 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 1 Operation mode Saturation / overwrite 1=Saturation; 2=Overwrite Configuration\Disturbance recorder\General
Disturbance recorder CFG DR.RDRE1.EPreLgt.setVal ING INT32 SP 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 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 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 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 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 5 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 0 Channel selection Select a signal, which will be recorded by this channel 0=Disabled; 1=Io; 2=IL1; 3=IL2; 4=IL3; 6=IL1B; 7=IL2B; 8=IL3B; 9=Uo; 10=U1; 11=U2; 12=U3; 17=CIo; 18=SI1; 19=SI2; 20=SU0; 21=SU1; 22=SU2; 23=CIoB; 24=SI1B; 25=SI2B Configuration\Disturbance recorder\Channel settings\Analog channel 1
Analog ch 1 CFG DR.RADR1.EChNum.d ING VisString255 (64) DC 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 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 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 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 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 0 Channel selection Select a signal, which will be recorded by this channel 0=Disabled; 1=Io; 2=IL1; 3=IL2; 4=IL3; 6=IL1B; 7=IL2B; 8=IL3B; 9=Uo; 10=U1; 11=U2; 12=U3; 17=CIo; 18=SI1; 19=SI2; 20=SU0; 21=SU1; 22=SU2; 23=CIoB; 24=SI1B; 25=SI2B Configuration\Disturbance recorder\Channel settings\Analog channel 2
Analog ch 2 CFG DR.RADR2.EChNum.d ING VisString255 (64) DC 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 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 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 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 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 0 Channel selection Select a signal, which will be recorded by this channel 0=Disabled; 1=Io; 2=IL1; 3=IL2; 4=IL3; 6=IL1B; 7=IL2B; 8=IL3B; 9=Uo; 10=U1; 11=U2; 12=U3; 17=CIo; 18=SI1; 19=SI2; 20=SU0; 21=SU1; 22=SU2; 23=CIoB; 24=SI1B; 25=SI2B Configuration\Disturbance recorder\Channel settings\Analog channel 3
Analog ch 3 CFG DR.RADR3.EChNum.d ING VisString255 (64) DC 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 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 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 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 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 0 Channel selection Select a signal, which will be recorded by this channel 0=Disabled; 1=Io; 2=IL1; 3=IL2; 4=IL3; 6=IL1B; 7=IL2B; 8=IL3B; 9=Uo; 10=U1; 11=U2; 12=U3; 17=CIo; 18=SI1; 19=SI2; 20=SU0; 21=SU1; 22=SU2; 23=CIoB; 24=SI1B; 25=SI2B Configuration\Disturbance recorder\Channel settings\Analog channel 4
Analog ch 4 CFG DR.RADR4.EChNum.d ING VisString255 (64) DC 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 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 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 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 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 0 Channel selection Select a signal, which will be recorded by this channel 0=Disabled; 1=Io; 2=IL1; 3=IL2; 4=IL3; 6=IL1B; 7=IL2B; 8=IL3B; 9=Uo; 10=U1; 11=U2; 12=U3; 17=CIo; 18=SI1; 19=SI2; 20=SU0; 21=SU1; 22=SU2; 23=CIoB; 24=SI1B; 25=SI2B Configuration\Disturbance recorder\Channel settings\Analog channel 5
Analog ch 5 CFG DR.RADR5.EChNum.d ING VisString255 (64) DC 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 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 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 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 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 0 Channel selection Select a signal, which will be recorded by this channel 0=Disabled; 1=Io; 2=IL1; 3=IL2; 4=IL3; 6=IL1B; 7=IL2B; 8=IL3B; 9=Uo; 10=U1; 11=U2; 12=U3; 17=CIo; 18=SI1; 19=SI2; 20=SU0; 21=SU1; 22=SU2; 23=CIoB; 24=SI1B; 25=SI2B Configuration\Disturbance recorder\Channel settings\Analog channel 6
Analog ch 6 CFG DR.RADR6.EChNum.d ING VisString255 (64) DC 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 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 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 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 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 0 Channel selection Select a signal, which will be recorded by this channel 0=Disabled; 1=Io; 2=IL1; 3=IL2; 4=IL3; 6=IL1B; 7=IL2B; 8=IL3B; 9=Uo; 10=U1; 11=U2; 12=U3; 17=CIo; 18=SI1; 19=SI2; 20=SU0; 21=SU1; 22=SU2; 23=CIoB; 24=SI1B; 25=SI2B Configuration\Disturbance recorder\Channel settings\Analog channel 7
Analog ch 7 CFG DR.RADR7.EChNum.d ING VisString255 (64) DC 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 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 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 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 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 0 Channel selection Select a signal, which will be recorded by this channel 0=Disabled; 1=Io; 2=IL1; 3=IL2; 4=IL3; 6=IL1B; 7=IL2B; 8=IL3B; 9=Uo; 10=U1; 11=U2; 12=U3; 17=CIo; 18=SI1; 19=SI2; 20=SU0; 21=SU1; 22=SU2; 23=CIoB; 24=SI1B; 25=SI2B Configuration\Disturbance recorder\Channel settings\Analog channel 8
Analog ch 8 CFG DR.RADR8.EChNum.d ING VisString255 (64) DC 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 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 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 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 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 0 Channel selection Select a signal, which will be recorded by this channel 0=Disabled; 1=Io; 2=IL1; 3=IL2; 4=IL3; 6=IL1B; 7=IL2B; 8=IL3B; 9=Uo; 10=U1; 11=U2; 12=U3; 17=CIo; 18=SI1; 19=SI2; 20=SU0; 21=SU1; 22=SU2; 23=CIoB; 24=SI1B; 25=SI2B Configuration\Disturbance recorder\Channel settings\Analog channel 9
Analog ch 9 CFG DR.RADR9.EChNum.d ING VisString255 (64) DC 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 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 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 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 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 0 Channel selection Select a signal, which will be recorded by this channel 0=Disabled; 1=Io; 2=IL1; 3=IL2; 4=IL3; 6=IL1B; 7=IL2B; 8=IL3B; 9=Uo; 10=U1; 11=U2; 12=U3; 17=CIo; 18=SI1; 19=SI2; 20=SU0; 21=SU1; 22=SU2; 23=CIoB; 24=SI1B; 25=SI2B Configuration\Disturbance recorder\Channel settings\Analog channel 10
Analog ch 10 CFG DR.RADR10.EChNum.d ING VisString255 (64) DC 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 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 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 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 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 0 Channel selection Select a signal, which will be recorded by this channel 0=Disabled; 1=Io; 2=IL1; 3=IL2; 4=IL3; 6=IL1B; 7=IL2B; 8=IL3B; 9=Uo; 10=U1; 11=U2; 12=U3; 17=CIo; 18=SI1; 19=SI2; 20=SU0; 21=SU1; 22=SU2; 23=CIoB; 24=SI1B; 25=SI2B Configuration\Disturbance recorder\Channel settings\Analog channel 11
Analog ch 11 CFG DR.RADR11.EChNum.d ING VisString255 (64) DC 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 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 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 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 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 0 Channel selection Select a signal, which will be recorded by this channel 0=Disabled; 1=Io; 2=IL1; 3=IL2; 4=IL3; 6=IL1B; 7=IL2B; 8=IL3B; 9=Uo; 10=U1; 11=U2; 12=U3; 17=CIo; 18=SI1; 19=SI2; 20=SU0; 21=SU1; 22=SU2; 23=CIoB; 24=SI1B; 25=SI2B Configuration\Disturbance recorder\Channel settings\Analog channel 12
Analog ch 12 CFG DR.RADR12.EChNum.d ING VisString255 (64) DC 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 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 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 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