715 M1-PH-PH:. .Test Object - Device Settings. . .Substation/Bay:

Substation: 765/400KV PGCIL INDORE Substation address: INDOREBay: INDORE_BHOPAL Bay address: 710

. . .Device:

Name/description: REL670 V1.1 IEC Manufacturer: ABBDevice type: DISTANCE RELAY Device address: 1Serial/model number: REL670Additional info 1: VADODARA LINEAdditional info 2: Distance Protection

. . .Nominal Values:

f nom: 50.00 Hz Number of phases: 3V nom (secondary): 110.0 V V primary: 765.0 kVI nom (secondary): 1.000 A I primary: 3.000 kA

. . .Residual Voltage/Current Factors:

VLN / VN: 1.732 IN / I nom: 1.000. . .Limits:

V max: 200.0 V I max: 50.00 A. . .Debounce/Deglitch Filters:

Debounce time: 3.000 ms Deglitch time: 0.000 s. . .Overload Detection:

Suppression time: 50.00 ms

Test Object - Custom Settings.REL670 V1.1 IEC \ Relay Parameter Section \ IED Configuration \ HW Configuration \TRM_6I_6U_31Description Name ValueUser define string for analogue input 1 NAMECH1 TRM#-CH1Rated value on transformer RatedTrans1 1.0 AToObject= towards protected object, FromObject= the opposite CTStarPoint1 ToObjectRated CT secondary current CTsec1 1 ARated CT primary current CTprim1 3000 AUser define string for analogue input 2 NAMECH2 TRM#-CH2Rated value on transformer RatedTrans2 1.0 AToObject= towards protected object, FromObject= the opposite CTStarPoint2 ToObjectRated CT secondary current CTsec2 1 ARated CT primary current CTprim2 3000 AUser define string for analogue input 3 NAMECH3 TRM#-CH3Rated value on transformer RatedTrans3 1.0 AToObject= towards protected object, FromObject= the opposite CTStarPoint3 ToObjectRated CT secondary current CTsec3 1 ARated CT primary current CTprim3 3000 AUser define string for analogue input 4 NAMECH4 TRM#-CH4Rated value on transformer RatedTrans4 1.0 AToObject= towards protected object, FromObject= the opposite CTStarPoint4 ToObjectRated CT secondary current CTsec4 1 ARated CT primary current CTprim4 3000 A

User define string for analogue input 5 NAMECH5 TRM#-CH5Rated value on transformer RatedTrans5 1.0 AToObject= towards protected object, FromObject= the opposite CTStarPoint5 ToObjectRated CT secondary current CTsec5 1 ARated CT primary current CTprim5 3000 AUser define string for analogue input 6 NAMECH6 TRM#-CH6Rated value on transformer RatedTrans6 1.0 AToObject= towards protected object, FromObject= the opposite CTStarPoint6 ToObjectRated CT secondary current CTsec6 1 ARated CT primary current CTprim6 3000 AUser define string for analogue input 7 NAMECH7 TRM#-CH7Rated value on transformer RatedTrans7 1.0 VRated VT secondary voltage VTsec7 110.000 VRated VT primary voltage VTprim7 765.00 kVUser define string for analogue input 8 NAMECH8 TRM#-CH8Rated value on transformer RatedTrans8 1.0 VRated VT secondary voltage VTsec8 110.000 VRated VT primary voltage VTprim8 765.00 kVUser define string for analogue input 9 NAMECH9 TRM#-CH9Rated value on transformer RatedTrans9 1.0 VRated VT secondary voltage VTsec9 110.000 VRated VT primary voltage VTprim9 765.00 kVUser define string for analogue input 10 NAMECH10 TRM#-CH10Rated value on transformer RatedTrans10 1.0 VRated VT secondary voltage VTsec10 110.000 VRated VT primary voltage VTprim10 765.00 kVUser define string for analogue input 11 NAMECH11 TRM#-CH11Rated value on transformer RatedTrans11 1.0 VRated VT secondary voltage VTsec11 110.000 VRated VT primary voltage VTprim11 765.00 kVUser define string for analogue input 12 NAMECH12 TRM#-CH12Rated value on transformer RatedTrans12 1.0 VRated VT secondary voltage VTsec12 110.000 VRated VT primary voltage VTprim12 765.00 kV

.REL670 V1.1 IEC \ Relay Parameter Section \ IED Configuration \ Power system \PRIMVAL: 1Description Name ValueRated system frequency Frequency 50.0 Hz

.REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ Currentprotection \ InstPhaseOverCurrent(PIOC,50) \ PHPIOC: 1 \ Setting Group1Description Name ValueOperation Off / On Operation OffBase current IBase 3000 ASelect operation mode 2-out of 3 / 1-out of 3 OpMode 1 out of 3Operate phase current level in % of IBase IP>> 200 %IBMultiplier for operate current level StValMult 1.0

.REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ Currentprotection \ InstResidualOverCurrent(PIOC,50N) \ EFPIOC: 1 \ Setting Group1Description Name ValueOperation Off / On Operation OffBase current IBase 3000 AOperate residual current level in % of IBase IN>> 200 %IBMultiplier for operate current level StValMult 1.0

.REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ Currentprotection \ PhaseOverCurrent4Step(PTOC,51/67) \ OC4PTOC: 1 \ General \ GeneralDescription Name Value

Selection between DFT and RMS measurement MeasType DFT

.REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ Currentprotection \ PhaseOverCurrent4Step(PTOC,51/67) \ OC4PTOC: 1 \ General \ SettingGroup1Description Name ValueOperation Off / On Operation OffBase current IBase 3000 ABase voltage UBase 400.00 kVRelay characteristic angle (RCA) AngleRCA 55.0 DegRelay operation angle (ROA) AngleROA 80.0 DegNumber of phases required for op (1 of 3, 2 of 3, 3 of 3) StartPhSel 1 out of 3Minimum current for phase selection in % of IBase IMinOpPhSel 7 %IBOperate level of 2nd harm restrain op in % of Fundamental 2ndHarmStab 20 %IB

.REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ Currentprotection \ PhaseOverCurrent4Step(PTOC,51/67) \ OC4PTOC: 1 \ Step 1 \ Setting Group1Description Name ValueDirectional mode of step 1 (off, nodir, forward, reverse) DirMode1 Non-directionalSelection of time delay curve type for step 1 Characterist1 ANSI Def. TimePhase current operate level for step1 in % of IBase I1> 1000 %IBDefinitive time delay of step 1 t1 0.000 sTime multiplier for the inverse time delay for step 1 k1 0.05Minimum operate time for inverse curves for step 1 t1Min 0.000 sMultiplier for current operate level for step 1 I1Mult 2.0Selection of reset curve type for step 1 ResetTypeCrv1 InstantaneousReset time delay used in IEC Definite Time curve step 1 tReset1 0.020 sParameter P for customer programmable curve for step 1 tPCrv1 1.000Parameter A for customer programmable curve for step 1 tACrv1 13.500Parameter B for customer programmable curve for step 1 tBCrv1 0.00Parameter C for customer programmable curve for step 1 tCCrv1 1.0Parameter PR for customer programmable curve for step 1 tPRCrv1 0.500Parameter TR for customer programmable curve for step 1 tTRCrv1 13.500Parameter CR for customer programmable curve for step 1 tCRCrv1 1.0Enable block of step 1 from harmonic restrain HarmRestrain1 Off

.REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ Currentprotection \ PhaseOverCurrent4Step(PTOC,51/67) \ OC4PTOC: 1 \ Step 2 \ Setting Group1Description Name ValueDirectional mode of step 2 (off, nodir, forward, reverse) DirMode2 Non-directionalSelection of time delay curve type for step 2 Characterist2 ANSI Def. TimePhase current operate level for step2 in % of IBase I2> 500 %IBDefinitive time delay of step 2 t2 0.400 sTime multiplier for the inverse time delay for step 2 k2 0.05Multiplier for current operate level for step 2 I2Mult 2.0Minimum operate time for inverse curves for step 2 t2Min 0.000 sSelection of reset curve type for step 2 ResetTypeCrv2 InstantaneousReset time delay used in IEC Definite Time curve step 2 tReset2 0.020 sParameter P for customer programmable curve for step 2 tPCrv2 1.000Parameter A for customer programmable curve for step 2 tACrv2 13.500Parameter B for customer programmable curve for step 2 tBCrv2 0.00Parameter C for customer programmable curve for step 2 tCCrv2 1.0Parameter PR for customer programmable curve for step 2 tPRCrv2 0.500Parameter TR for customer programmable curve for step 2 tTRCrv2 13.500Parameter CR for customer programmable curve for step 2 tCRCrv2 1.0Enable block of step 2 from harmonic restrain HarmRestrain2 Off

.REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ Currentprotection \ PhaseOverCurrent4Step(PTOC,51/67) \ OC4PTOC: 1 \ Step 3 \ Setting Group1

Description Name ValueDirectional mode of step 3 (off, nodir, forward, reverse) DirMode3 Non-directionalSelection of time delay curve type for step 3 Characterist3 ANSI Def. TimePhase current operate level for step3 in % of IBase I3> 250 %IBDefinitive time delay of step 3 t3 0.800 sTime multiplier for the inverse time delay for step 3 k3 0.05Minimum operate time for inverse curves for step 3 t3Min 0.000 sMultiplier for current operate level for step 3 I3Mult 2.0Selection of reset curve type for step 3 ResetTypeCrv3 InstantaneousReset time delay used in IEC Definite Time curve step 3 tReset3 0.020 sParameter P for customer programmable curve for step 3 tPCrv3 1.000Parameter A for customer programmable curve for step 3 tACrv3 13.500Parameter B for customer programmable curve for step 3 tBCrv3 0.00Parameter C for customer programmable curve for step 3 tCCrv3 1.0Parameter PR for customer programmable curve for step 3 tPRCrv3 0.500Parameter TR for customer programmable curve for step 3 tTRCrv3 13.500Parameter CR for customer programmable curve for step 3 tCRCrv3 1.0Enable block of step3 from harmonic restrain HarmRestrain3 Off

.REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ Currentprotection \ PhaseOverCurrent4Step(PTOC,51/67) \ OC4PTOC: 1 \ Step 4 \ Setting Group1Description Name ValueDirectional mode of step 4 (off, nodir, forward, reverse) DirMode4 Non-directionalSelection of time delay curve type for step 4 Characterist4 ANSI Def. TimePhase current operate level for step4 in % of IBase I4> 175 %IBDefinitive time delay of step 4 t4 2.000 sTime multiplier for the inverse time delay for step 4 k4 0.05Minimum operate time for inverse curves for step 4 t4Min 0.000 sMultiplier for current operate level for step 4 I4Mult 2.0Selection of reset curve type for step 4 ResetTypeCrv4 InstantaneousReset time delay used in IEC Definite Time curve step 4 tReset4 0.020 sParameter P for customer programmable curve for step 4 tPCrv4 1.000Parameter A for customer programmable curve for step 4 tACrv4 13.500Parameter B for customer programmable curve for step 4 tBCrv4 0.00Parameter C for customer programmable curve for step 4 tCCrv4 1.0Parameter PR for customer programmable curve for step 4 tPRCrv4 0.500Parameter TR for customer programmable curve for step 4 tTRCrv4 13.500Parameter CR for customer programmable curve for step 4 tCRCrv4 1.0Enable block of step 4 from harmonic restrain HarmRestrain4 Off

.REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ Currentprotection \ ResidualOverCurr4Step(PTOC,51N/67N) \ EF4PTOC: 1 \ General \ SettingGroup1Description Name ValueOperation Off / On Operation OffBase value for current settings IBase 3000 ABase value for voltage settings UBase 400.00 kVRelay characteristic angle (RCA) AngleRCA 65 DegType of polarization polMethod VoltageMinimum voltage level for polarization in % of UBase UPolMin 1 %UBMinimum current level for polarization in % of IBase IPolMin 5 %IBReal part of source Z to be used for current polarisation RNPol 5.00 ohmImaginary part of source Z to be used for current polarisation XNPol 40.00 ohmResidual current level for Direction release in % of IBase IN>Dir 10 %IBSecond harmonic restrain operation in % of IN amplitude 2ndHarmStab 20 %Enable blocking at parallel transformers BlkParTransf OffCurrent level blk at parallel transf (step1, 2, 3 or 4) UseStartValue IN4>SOTF operation mode (Off/SOTF/Undertime/SOTF+undertime) SOTF OffSelect signal that shall activate SOTF ActivationSOTF OpenSelection of step used for SOTF StepForSOTF Step 2Enable harmonic restrain function in SOTF HarmResSOTF OffTime delay for SOTF tSOTF 0.200 sSwitch-onto-fault active time t4U 1.000 sSelect signal to activate under time (CB Pos/CBCommand) ActUnderTime CB position

Time delay for under time tUnderTime 0.300 s

.REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ Currentprotection \ ResidualOverCurr4Step(PTOC,51N/67N) \ EF4PTOC: 1 \ Step 1 \ SettingGroup1Description Name ValueDirectional mode of step 1 (off, nodir, forward, reverse) DirMode1 Non-directionalTime delay curve type for step 1 Characterist1 ANSI Def. TimeOperate residual current level for step 1 in % of IBase IN1> 100 %IBIndependent (defenite) time delay of step 1 t1 0.000 sTime multiplier for the dependent time delay for step 1 k1 0.05Multiplier for scaling the current setting value for step 1 IN1Mult 2.0Minimum operate time for inverse curves for step 1 t1Min 0.000 sReset curve type for step 1 ResetTypeCrv1 InstantaneousReset curve type for step 1 tReset1 0.020 sEnable block of step 1 from harmonic restrain HarmRestrain1 OnParameter P for customer programmable curve for step 1 tPCrv1 1.000Parameter A for customer programmable curve for step 1 tACrv1 13.500Parameter B for customer programmable curve for step 1 tBCrv1 0.00Parameter C for customer programmable curve for step 1 tCCrv1 1.0Parameter PR for customer programmable curve for step 1 tPRCrv1 0.500Parameter TR for customer programmable curve for step 1 tTRCrv1 13.500Parameter CR for customer programmable curve for step 1 tCRCrv1 1.0

.REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ Currentprotection \ ResidualOverCurr4Step(PTOC,51N/67N) \ EF4PTOC: 1 \ Step 2 \ SettingGroup1Description Name ValueDirectional mode of step 2 (off, nodir, forward, reverse) DirMode2 Non-directionalTime delay curve type for step 2 Characterist2 ANSI Def. TimeOperate residual current level for step 2 in % of IBase IN2> 50 %IBIndependent (definitive) time delay of step 2 t2 0.400 sTime multiplier for the dependent time delay for step 2 k2 0.05Multiplier for scaling the current setting value for step 2 IN2Mult 2.0Minimum operate time for inverse curves step 2 t2Min 0.000 sReset curve type for step 2 ResetTypeCrv2 InstantaneousReset curve type for step 2 tReset2 0.020 sEnable block of step 2 from harmonic restrain HarmRestrain2 OnParameter P for customer programmable curve for step 2 tPCrv2 1.000Parameter A for customer programmable curve for step 2 tACrv2 13.500Parameter B for customer programmable curve for step 2 tBCrv2 0.00Parameter C for customer programmable curve for step 2 tCCrv2 1.0Parameter PR for customer programmable curve for step 2 tPRCrv2 0.500Parameter TR for customer programmable curve for step 2 tTRCrv2 13.500Parameter CR for customer programmable curve for step 2 tCRCrv2 1.0

.REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ Currentprotection \ ResidualOverCurr4Step(PTOC,51N/67N) \ EF4PTOC: 1 \ Step 3 \ SettingGroup1Description Name ValueDirectional mode of step 3 (off, nodir, forward, reverse) DirMode3 Non-directionalTime delay curve type for step 3 Characterist3 ANSI Def. TimeOperate residual current level for step 3 in % of IBase IN3> 33 %IBIndependent time delay of step 3 t3 0.800 sTime multiplier for the dependent time delay for step 3 k3 0.05Multiplier for scaling the current setting value for step 3 IN3Mult 2.0Minimum operate time for inverse curves for step 3 t3Min 0.000 sReset curve type for step 3 ResetTypeCrv3 InstantaneousReset curve type for step 3 tReset3 0.020 sEnable block of step 3 from harmonic restrain HarmRestrain3 OnParameter P for customer programmable curve for step 3 tPCrv3 1.000Parameter A for customer programmable curve for step 3 tACrv3 13.500

Parameter B for customer programmable curve for step 3 tBCrv3 0.00Parameter C for customer programmable curve step 3 tCCrv3 1.0Parameter PR for customer programmable curve step 3 tPRCrv3 0.500Parameter TR for customer programmable curve step 3 tTRCrv3 13.500Parameter CR for customer programmable curve for step 3 tCRCrv3 1.0

.REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ Currentprotection \ ResidualOverCurr4Step(PTOC,51N/67N) \ EF4PTOC: 1 \ Step 4 \ SettingGroup1Description Name ValueDirectional mode of step 4 (off, nodir, forward, reverse) DirMode4 Non-directionalTime delay curve type for step 4 Characterist4 ANSI Def. TimeOperate residual current level for step 4 in % of IBase IN4> 17 %IBIndependent (definitive) time delay of step 4 t4 1.200 sTime multiplier for the dependent time delay for step 4 k4 0.05Multiplier for scaling the current setting value for step 4 IN4Mult 2.0Minimum operate time in inverse curves step 4 t4Min 0.000 sReset curve type for step 4 ResetTypeCrv4 InstantaneousReset curve type for step 4 tReset4 0.020 sEnable block of step 4 from harmonic restrain HarmRestrain4 OnParameter P for customer programmable curve for step 4 tPCrv4 1.000Parameter A for customer programmable curve step 4 tACrv4 13.500Parameter B for customer programmable curve for step 4 tBCrv4 0.00Parameter C for customer programmable curve step 4 tCCrv4 1.0Parameter PR for customer programmable curve step 4 tPRCrv4 0.500Parameter TR for customer programmable curve step 4 tTRCrv4 13.500Parameter CR for customer programmable curve step 4 tCRCrv4 1.0

.REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ Monitoring \FaultLocator(RFLO) \ LMBRFLO: 1Description Name ValueRecorder input number recording phase current, IL1 DrepChNoIL1 1 ChRecorder input number recording phase current, IL2 DrepChNoIL2 2 ChRecorder input number recording phase current, IL3 DrepChNoIL3 3 ChRecorder input number recording residual current, IN DrepChNoIN 4 ChRecorder input number recording 3I0 on parallel line DrepChNoIP 9 ChRecorder input number recording phase voltage, UL1 DrepChNoUL1 5 ChRecorder input number recording phase voltage, UL2 DrepChNoUL2 6 ChRecorder input number recording phase voltage, UL3 DrepChNoUL3 7 Ch

.REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ Monitoring \FaultLocator(RFLO) \ LMBRFLO: 1 \ Setting Group1Description Name ValueSource resistance A (near end) R1A 2.50 ohm/pSource reactance A (near end) X1A 28.56 ohm/pSource resistance B (far end) R1B 2.81 ohm/pSource reactance B (far end) X1B 32.16 ohm/pPositive sequence line resistance R1L 3.34 ohm/pPositive sequence line reactance X1L 83.80 ohm/pZero sequence line resistance R0L 70.32 ohm/pZero sequence line reactance X0L 274.25 ohm/pZero sequence mutual resistance R0M 0.00 ohm/pZero sequence mutual reactance X0M 0.00 ohm/pLength of line LineLength 293.00 km

.REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ ImpedanceProtection \ DistanceZones(PDIS,21) \ ZMQPDIS: 1 \ Setting Group1Description Name ValueOperation Off / On Operation On

Base current, i.e. rated current IBase 3000 ABase voltage, i.e. rated voltage UBase 765.00 kVOperation mode of directionality NonDir / Forw / Rev OperationDir ForwardPositive sequence reactance reach X1 67.04 Ohm/pPositive seq. resistance for zone characteristic angle R1 2.67 Ohm/pZero sequence reactance reach X0 219.40 Ohm/pZero seq. resistance for zone characteristic angle R0 56.26 Ohm/pFault resistance reach in ohm/loop, Ph-Ph RFPP 30.00 Ohm/lFault resistance reach in ohm/loop, Ph-E RFPE 50.00 Ohm/lOperation mode Off / On of Phase-Phase loops OperationPP OnOperation mode Off / On of Zone timer, Ph-Ph Timer tPP OnTime delay of trip, Ph-Ph tPP 0.000 sOperation mode Off / On of Phase-Earth loops OperationPE OnOperation mode Off / On of Zone timer, Ph-E Timer tPE OnTime delay of trip, Ph-E tPE 0.000 sMinimum operate delta current for Phase-Phase loops IMinOpPP 10 %IBMinimum operate phase current for Phase-Earth loops IMinOpPE 10 %IBMinimum operate residual current for Phase-Earth loops IMinOpIN 5 %IB

.REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ ImpedanceProtection \ DistanceZones(PDIS,21) \ ZMQAPDIS: 2 \ Setting Group1Description Name ValueOperation Off / On Operation OnBase current, i.e. rated current IBase 3000 ABase voltage, i.e. rated voltage UBase 765.00 kVOperation mode of directionality NonDir / Forw / Rev OperationDir ForwardPositive sequence reactance reach X1 100.56 Ohm/pPositive seq. resistance for zone characteristic angle R1 4.01 Ohm/pZero sequence reactance reach X0 329.10 Ohm/pZero seq. resistance for zone characteristic angle R0 84.38 Ohm/pFault resistance reach in ohm/loop, Ph-Ph RFPP 60.00 Ohm/lFault resistance reach in ohm/loop, Ph-E RFPE 75.00 Ohm/lOperation mode Off / On of Phase-Phase loops OperationPP OnOperation mode Off / On of Zone timer, Ph-Ph Timer tPP OnTime delay of trip, Ph-Ph tPP 0.350 sOperation mode Off / On of Phase-Earth loops OperationPE OnOperation mode Off / On of Zone timer, Ph-E Timer tPE OnTime delay of trip, Ph-E tPE 0.350 sMinimum operate delta current for Phase-Phase loops IMinOpPP 10 %IBMinimum operate phase current for Phase-Earth loops IMinOpPE 10 %IB

.REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ ImpedanceProtection \ DistanceZones(PDIS,21) \ ZMQAPDIS: 3 \ Setting Group1Description Name ValueOperation Off / On Operation OnBase current, i.e. rated current IBase 3000 ABase voltage, i.e. rated voltage UBase 765.00 kVOperation mode of directionality NonDir / Forw / Rev OperationDir ForwardPositive sequence reactance reach X1 192.64 Ohm/pPositive seq. resistance for zone characteristic angle R1 7.68 Ohm/pZero sequence reactance reach X0 630.45 Ohm/pZero seq. resistance for zone characteristic angle R0 161.45 Ohm/pFault resistance reach in ohm/loop, Ph-Ph RFPP 75.00 Ohm/lFault resistance reach in ohm/loop, Ph-E RFPE 125.00 Ohm/lOperation mode Off / On of Phase-Phase loops OperationPP OnOperation mode Off / On of Zone timer, Ph-Ph Timer tPP OnTime delay of trip, Ph-Ph tPP 1.500 sOperation mode Off / On of Phase-Earth loops OperationPE OnOperation mode Off / On of Zone timer, Ph-E Timer tPE OnTime delay of trip, Ph-E tPE 1.500 sMinimum operate delta current for Phase-Phase loops IMinOpPP 10 %IBMinimum operate phase current for Phase-Earth loops IMinOpPE 10 %IB

.

REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ ImpedanceProtection \ DistanceZones(PDIS,21) \ ZMQAPDIS: 4 \ Setting Group1Description Name ValueOperation Off / On Operation OffBase current, i.e. rated current IBase 3000 ABase voltage, i.e. rated voltage UBase 400.00 kVOperation mode of directionality NonDir / Forw / Rev OperationDir ForwardPositive sequence reactance reach X1 40.00 Ohm/pPositive seq. resistance for zone characteristic angle R1 5.00 Ohm/pZero sequence reactance reach X0 120.00 Ohm/pZero seq. resistance for zone characteristic angle R0 15.00 Ohm/pFault resistance reach in ohm/loop, Ph-Ph RFPP 30.00 Ohm/lFault resistance reach in ohm/loop, Ph-E RFPE 100.00 Ohm/lOperation mode Off / On of Phase-Phase loops OperationPP OnOperation mode Off / On of Zone timer, Ph-Ph Timer tPP OnTime delay of trip, Ph-Ph tPP 0.000 sOperation mode Off / On of Phase-Earth loops OperationPE OnOperation mode Off / On of Zone timer, Ph-E Timer tPE OnTime delay of trip, Ph-E tPE 0.000 sMinimum operate delta current for Phase-Phase loops IMinOpPP 20 %IBMinimum operate phase current for Phase-Earth loops IMinOpPE 20 %IB

.REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ ImpedanceProtection \ DistanceZones(PDIS,21) \ ZMQAPDIS: 5 \ Setting Group1Description Name ValueOperation Off / On Operation OnBase current, i.e. rated current IBase 3000 ABase voltage, i.e. rated voltage UBase 765.00 kVOperation mode of directionality NonDir / Forw / Rev OperationDir ReversePositive sequence reactance reach X1 8.38 Ohm/pPositive seq. resistance for zone characteristic angle R1 0.33 Ohm/pZero sequence reactance reach X0 27.42 Ohm/pZero seq. resistance for zone characteristic angle R0 7.03 Ohm/pFault resistance reach in ohm/loop, Ph-Ph RFPP 60.00 Ohm/lFault resistance reach in ohm/loop, Ph-E RFPE 75.00 Ohm/lOperation mode Off / On of Phase-Phase loops OperationPP OnOperation mode Off / On of Zone timer, Ph-Ph Timer tPP OnTime delay of trip, Ph-Ph tPP 0.500 sOperation mode Off / On of Phase-Earth loops OperationPE OnOperation mode Off / On of Zone timer, Ph-E Timer tPE OnTime delay of trip, Ph-E tPE 0.500 sMinimum operate delta current for Phase-Phase loops IMinOpPP 10 %IBMinimum operate phase current for Phase-Earth loops IMinOpPE 10 %IB

.REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ ImpedanceProtection \ PhaseSelection(PDIS,21) \ FDPSPDIS: 1 \ Setting Group1Description Name ValueBase current, i.e. rated current IBase 3000 ABase voltage, i.e. rated voltage UBase 765.00 kV3I0 limit for blocking phase-to-phase measuring loops INBlockPP 40 %IPh3I0 limit for releasing phase-to-earth measuring loops INReleasePE 20 %IPhForward resistive reach within the load impedance area RLdFw 51.87 ohm/pReverse resistive reach within the load impedance area RLdRv 51.87 ohm/pLoad angle determining the load impedance area ArgLd 30 DegPositive sequence reactance reach X1 150.84 Ohm/pZero sequence reactance reach X0 493.65 Ohm/pFault resistance reach, Ph-Ph, forward RFFwPP 75.00 Ohm/lFault resistance reach, Ph-Ph, reverse RFRvPP 75.00 Ohm/lFault resistance reach, Ph-E, forward RFFwPE 93.75 Ohm/lFault resistance reach, Ph-E, reverse RFRvPE 93.75 Ohm/lOperation mode Off / On of Zone timer, Ph-Ph TimerPP OffTime delay to trip, Ph-Ph tPP 3.000 sOperation mode Off / On of Zone timer, Ph-E TimerPE OffTime delay to trip, Ph-E tPE 3.000 s

Minimum operate delta current for Phase-Phase loops IMinOpPP 10 %IBMinimum operate phase current for Phase-Earth loops IMinOpPE 10 %IB

.REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ ImpedanceProtection \ DirectionalImpedance(RDIR) \ ZDRDIR: 1 \ Setting Group1Description Name ValueAngle to blinder in second quadrant for forward direction ArgNegRes 130 DegAngle to blinder in fourth quadrant for forward direction ArgDir 15 DegMinimum operate current in % of IBase IMinOp 10 %IBBase Current IBase 3000 ABase Voltage UBase 765.00 kV

.REL670 V1.1 IEC \ Relay Parameter Section \ Application Configuration \ ImpedanceProtection \ AutomaticSOTF(PSOF) \ ZCVPSOF: 1 \ Setting Group1Description Name ValueOperation Off / On Operation OffBase current (A) IBase 3000 ABase voltage L-L (kV) UBase 400.00 kVMode of operation of SOTF Function Mode UILevelAutomatic switchonto fault initialization AutoInit OffCurrent level for detection of dead line in % of IBase IPh< 20 %IBVoltage level for detection of dead line in % of UBase UPh< 70 %UBTime delay for UI detection (s) tDuration 0.020 sDrop off delay time of switch onto fault function tSOTF 1.000 sDelay time for activation of dead line detection tDLD 0.200 s

.REL670 V1.1 IEC \ Additional Information \ General Information \ General - GeneralInformationDescription Name ValueManufacturer Manufacturer ABBDevice Model Device Model REL670 V1.1 IECSerial Number Serial Number REL670Device Address Device Address 1Device type Device Type Distance ProtectionManufacturer HW code Hardware Version REL670 V1.1Substation Substation PGCIL INDORESubstation Address Substation Address HatunniyaFeeder Feeder INDORE_BHOPALFeeder Address Feeder Address feeder addressBay Bay 710Bay Address Bay Address bay addressProtected object name Protected Object INDORE_BHOPALAdditional information Additional Info Important Information

.REL670 V1.1 IEC \ Additional Information \ Hardware Configuration \ Analog modulesDescription Name ValueWitch analog module is used by main protection functions? Analog module used for

Underimpedance and Currentprotection

TRM_6I_6U

Current measurement Chanlesused for TRM_6I_6U orTRM_7I_5U

Chanels 1-3

Voltage measurement Chanlesused for TRM_6I_6U

Chanels 7-9

.REL670 V1.1 IEC \ Additional Information \ Relay Configuration (ACT/CAP531) \Overcurrent \ PTOC 51/67

Description Name ValueENMULT TTR1 I1MULT TOC1 NoENMULT TTR1 I2MULT TOC1 NoENMULT TTR1 I3MULT TOC1 NoENMULT TTR1 I4MULT TOC1 NoENMULT TTR1 I1MULT TOC2 NoENMULT TTR1 I2MULT TOC2 NoENMULT TTR1 I3MULT TOC2 NoENMULT TTR1 I4MULT TOC2 NoENMULT TTR1 I1MULT TOC3 NoENMULT TTR1 I2MULT TOC3 NoENMULT TTR1 I3MULT TOC3 NoENMULT TTR1 I4MULT TOC3 No

.REL670 V1.1 IEC \ Additional Information \ Relay Configuration (ACT/CAP531) \Overcurrent \ PTOC 51N/67NDescription Name ValueENMULT TTR1 IN1MULT TEF1 NoENMULT TTR1 IN2MULT TEF1 NoENMULT TTR1 IN3MULT TEF1 NoENMULT TTR1 IN4MULT TEF1 NoENMULT TTR1 IN1MULT TEF2 NoENMULT TTR1 IN2MULT TEF2 NoENMULT TTR1 IN3MULT TEF2 NoENMULT TTR1 IN4MULT TEF2 NoENMULT TTR1 IN1MULT TEF3 NoENMULT TTR1 IN2MULT TEF3 NoENMULT TTR1 IN3MULT TEF3 NoENMULT TTR1 IN4MULT TEF3 No

.REL670 V1.1 IEC \ Additional Information \ Relay Configuration (ACT/CAP531) \Overcurrent \ PIOC 50Description Name ValueENMULT TTR1 StValMULT IOC1 No

.REL670 V1.1 IEC \ Additional Information \ Relay Configuration (ACT/CAP531) \Overcurrent \ PIOC 50NDescription Name ValueENMULT TTR1 StValMULT IOC1 No

.REL670 V1.1 IEC \ Additional Information \ Relay Configuration (ACT/CAP531) \ Distance \Distance ZonesDescription Name Value

STCND Z1 STCNDZSTCND Z2 STCNDZSTCND Z3 STCNDISTCND Z4 STCNDISTCND Z5 STCNDZ

.REL670 V1.1 IEC \ Additional Information \ Circuit Breaker InformationDescription Name Value52ab Percentage 52ab Percentage 20.00 %CB Trip Time CB Trip Time 50.00 msCB Close Time CB Close Time 100.00 mst-Tolerance abs Abs. t-Tolerance 0.00 mst-Tolerance rel Rel. t-Tolerance 5.00 %

Test Object - Other RIO Functions.CB ConfigurationDescription Name ValueCB trip time CB trip time 50.00 msCB close time CB close time 100.00 msTimes for 52a, 52b in percent of CB time 52a, 52b % of CB 20.00 %

Test Object - Distance Settings. . . .System parameters:

Line length: 83.87 Line angle: 87.72 PT connection: at line CT starpoint: Dir. lineImpedance correction1A/I nom:

noImpedances in primaryvalues:

yes

. . . .Tolerances:

Tol. T rel.: 2.000 %Tol. T abs. +: 15.00 ms Tol. T abs. -: 15.00 msTol. Z rel.: 2.000 % Tol. Z abs.: 50.00 m

. . . .Grounding factor:

kL mag.: 0.000000 kL angle: 0.000000Separate arc resistance:no

Zone Settings:Label Type Fault loop Trip time Tol.T rel Tol.T abs+ Tol.T abs- Tol.Z rel. Tol.Z absZ1LL Tripping L-L 24.00 ms 2.000 % 15.00 ms 15.00 ms 2.000 % 1.387 Z2LL Tripping L-L 374.0 ms 2.000 % 15.00 ms 15.00 ms 2.000 % 2.123 Z3LL Tripping L-L 1.524 s 2.000 % 15.00 ms 15.00 ms 2.000 % 3.957 Z5LL Tripping L-L 524.0 ms 2.000 % 15.00 ms 15.00 ms 2.000 % 629.3 mZ1LN Tripping L-E 24.00 ms 2.000 % 15.00 ms 15.00 ms 2.000 % 2.747 Z2LN Tripping L-E 374.0 ms 2.000 % 15.00 ms 15.00 ms 2.000 % 4.120 Z3LN Tripping L-E 1.524 s 2.000 % 15.00 ms 15.00 ms 2.000 % 7.706 Z5LN Tripping L-E 524.0 ms 2.000 % 15.00 ms 15.00 ms 2.000 % 1.579 PHSLL Starting L1-L2 no trip 2.000 % 15.00 ms 15.00 ms 2.000 % 3.913 PHSLL Starting L2-L3 no trip 2.000 % 15.00 ms 15.00 ms 2.000 % 3.913 PHSLL Starting L3-L1 no trip 2.000 % 15.00 ms 15.00 ms 2.000 % 3.913 PHSLLL Starting L1-L2-L3 no trip 2.000 % 15.00 ms 15.00 ms 2.000 % 4.565 PHSLN Starting L-E no trip 2.000 % 15.00 ms 15.00 ms 2.000 % 7.244 Loadencroachment forwardLN

non trip. L-E n/a n/a n/a n/a 2.000 % 1.037

Loadencroachment reverseLN

non trip. L-E n/a n/a n/a n/a 2.000 % 1.037

Loadencroachment forwardLL

non trip. L1-L2 n/a n/a n/a n/a 2.000 % 898.4 m

Loadencroachment reverseLL

non trip. L1-L2 n/a n/a n/a n/a 2.000 % 898.4 m

Load non trip. L2-L3 n/a n/a n/a n/a 2.000 % 898.4 m

encroachment forwardLLLoadencroachment reverseLL

non trip. L2-L3 n/a n/a n/a n/a 2.000 % 898.4 m

Loadencroachment forwardLL

non trip. L3-L1 n/a n/a n/a n/a 2.000 % 898.4 m

Loadencroachment reverseLL

non trip. L3-L1 n/a n/a n/a n/a 2.000 % 898.4 m

Loadencroachment forwardLLL

non trip. L1-L2-L3 n/a n/a n/a n/a 2.000 % 1.037

Loadencroachment reverseLLL

non trip. L1-L2-L3 n/a n/a n/a n/a 2.000 % 1.037

R/O-300 -200 -100 0 100 200 300

X/O

-200

-100

0

100

200

300

Linked XRIO ReferencesReference Name Unit Value XRIO PathRIO.DEVICE.NOMINALVALUES.INOM In 1.00 A RIO/Device/Nominal Values/InRIO.DEVICE.NOMINALVALUES.VNOM

V_nom 110.00 V RIO/Device/Nominal Values/V nom

Comment. .Test Module

Name: OMICRON Advanced Distance Version: 2.41 SR 1Test Start: 25-May-2015 20:06:40 Test End: 25-May-2015 20:13:44User Name: Manager:Company:

Test Settings.Test model:

Test model: constant test current ITest 2.000 AAllow reduction ofITest/VTest:

yes kS = kL: noZS mag.: 0.000 ZS angle: 0.00 kS mag.: 1.000 kS angle: 0.00

.Fault Inception:

Mode: randomDC-offset: no

.Times:

Prefault: 1.000 s Max. fault: 6.000 sPostfault: 500.0 ms Time reference: fault inception

.Other:

Extended zones: not active Switch off at zero crossing: yesLoad current enabled: no Load current:: n/a

.Search Settings:

Search res. rel.: 1.000 % Search res. abs.: 1.021 Ignore nominalcharacteristics:

noSearch interval: 4.083

.Auxiliary Binary Outputs:Name Fault inception

Delay timeSlope Trip Delay time Slope

Ext. zones active n/a Open n/a Open

Test ResultsShot Test: Fault Type L1-L2| Z | Phi % % of t nom t act. Dev. ITest Result2.758 78.13 n/a 24.00 ms 26.30 ms 9.583 % 2.000 A Passed7.259 85.52 n/a 24.00 ms 25.70 ms 7.083 % 2.000 A Passed12.65 86.14 n/a 24.00 ms 30.60 ms 27.5 % 2.000 A Passed18.60 87.38 n/a 24.00 ms 27.00 ms 12.5 % 2.000 A Passed24.56 87.35 n/a 24.00 ms 29.60 ms 23.33 % 2.000 A Passed27.11 87.60 n/a 24.00 ms 34.20 ms 42.5 % 2.000 A Passed4.989 14.88 n/a 24.00 ms 28.10 ms 17.08 % 2.000 A Passed8.226 1.02 n/a 374.0 ms 377.1 ms 0.8289 % 2.000 A Passed11.39 -4.98 n/a 374.0 ms 379.5 ms 1.471 % 2.000 A Passed13.81 -5.00 n/a 1.524 s 1.530 s 0.3609 % 2.000 A Passed13.81 -5.00 n/a 1.524 s 1.530 s 0.3871 % 2.000 A Passed8.045 56.88 n/a 24.00 ms 26.10 ms 8.75 % 2.000 A Passed14.24 70.21 n/a 24.00 ms 27.70 ms 15.42 % 2.000 A Passed21.77 75.29 n/a 24.00 ms 27.40 ms 14.17 % 2.000 A Passed

27.72 78.49 n/a 24.00 ms 25.10 ms 4.583 % 2.000 A Passed6.100 113.28 n/a 24.00 ms 25.20 ms 5 % 2.000 A Passed10.28 118.86 n/a 24.00 ms 30.50 ms 27.08 % 2.000 A Passed15.94 108.67 n/a 24.00 ms 28.40 ms 18.33 % 2.000 A Passed22.08 103.37 n/a 24.00 ms 26.70 ms 11.25 % 2.000 A Passed27.72 100.02 n/a 24.00 ms 33.10 ms 37.92 % 2.000 A Passed24.44 95.66 n/a 24.00 ms 33.60 ms 40 % 2.000 A Passed13.31 99.81 n/a 24.00 ms 27.50 ms 14.58 % 2.000 A Passed12.58 37.91 n/a 374.0 ms 376.7 ms 0.7219 % 2.000 A Passed22.78 58.89 n/a 374.0 ms 376.0 ms 0.5348 % 2.000 A Passed28.50 71.43 n/a 374.0 ms 377.7 ms 0.9893 % 2.000 A Passed18.99 119.53 n/a 374.0 ms 381.7 ms 2.059 % 2.000 A Passed29.04 113.00 n/a 374.0 ms 377.9 ms 1.043 % 2.000 A Passed32.21 94.29 n/a 374.0 ms 379.5 ms 1.471 % 2.000 A Passed34.22 87.15 n/a 374.0 ms 381.1 ms 1.898 % 1.929 A Passed40.73 88.00 n/a 374.0 ms 386.1 ms 3.235 % 1.621 A Passed46.41 87.90 n/a 1.524 s 1.528 s 0.2559 % 1.422 A Passed53.19 88.78 n/a 1.524 s 1.527 s 0.1903 % 1.241 A Passed61.72 88.16 n/a 1.524 s 1.527 s 0.1706 % 1.069 A Passed38.46 75.91 n/a 374.0 ms 384.4 ms 2.781 % 1.716 A Passed38.47 102.34 n/a 374.0 ms 378.5 ms 1.203 % 1.716 A Passed49.55 102.56 n/a 1.524 s 1.527 s 0.2231 % 1.332 A Passed57.15 95.70 n/a 1.524 s 1.529 s 0.3018 % 1.155 A Passed60.55 101.07 n/a 1.524 s 1.529 s 0.2953 % 1.090 A Passed52.09 81.23 n/a 1.524 s 1.522 s -0.1115 % 1.267 A Passed61.33 77.99 n/a 1.524 s 1.524 s -0.01969 % 1.076 A Passed3.107 -136.91 n/a 524.0 ms 532.5 ms 1.622 % 2.000 A Passed7.440 -172.37 n/a 524.0 ms 529.2 ms 0.9924 % 2.000 A Passed10.54 174.57 n/a 524.0 ms 532.1 ms 1.546 % 2.000 A Passed

R/O-150 -100 -50 0 50 100

X/O

-125

-100

-75

-50

-25

0

25

50

75

100

125

150

Shot Test: Fault Type L2-L3

| Z | Phi % % of t nom t act. Dev. ITest Result2.758 78.13 n/a 24.00 ms 27.10 ms 12.92 % 2.000 A Passed7.259 85.52 n/a 24.00 ms 26.10 ms 8.75 % 2.000 A Passed12.65 86.14 n/a 24.00 ms 27.10 ms 12.92 % 2.000 A Passed18.60 87.38 n/a 24.00 ms 28.40 ms 18.33 % 2.000 A Passed24.56 87.35 n/a 24.00 ms 25.30 ms 5.417 % 2.000 A Passed27.11 87.60 n/a 24.00 ms 31.70 ms 32.08 % 2.000 A Passed4.989 14.88 n/a 24.00 ms 24.20 ms 0.8333 % 2.000 A Passed8.226 1.02 n/a 374.0 ms 378.9 ms 1.31 % 2.000 A Passed11.39 -4.98 n/a 374.0 ms 382.0 ms 2.139 % 2.000 A Passed13.81 -5.00 n/a 1.524 s 1.530 s 0.3675 % 2.000 A Passed8.045 56.88 n/a 24.00 ms 24.20 ms 0.8333 % 2.000 A Passed14.24 70.21 n/a 24.00 ms 27.70 ms 15.42 % 2.000 A Passed21.77 75.29 n/a 24.00 ms 25.20 ms 5 % 2.000 A Passed27.72 78.49 n/a 24.00 ms 32.70 ms 36.25 % 2.000 A Passed6.100 113.28 n/a 24.00 ms 26.60 ms 10.83 % 2.000 A Passed10.28 118.86 n/a 24.00 ms 27.80 ms 15.83 % 2.000 A Passed15.94 108.67 n/a 24.00 ms 28.40 ms 18.33 % 2.000 A Passed22.08 103.37 n/a 24.00 ms 29.90 ms 24.58 % 2.000 A Passed27.72 100.02 n/a 24.00 ms 29.70 ms 23.75 % 2.000 A Passed24.44 95.66 n/a 24.00 ms 28.00 ms 16.67 % 2.000 A Passed13.31 99.81 n/a 24.00 ms 26.60 ms 10.83 % 2.000 A Passed12.58 37.91 n/a 374.0 ms 376.4 ms 0.6417 % 2.000 A Passed22.78 58.89 n/a 374.0 ms 376.2 ms 0.5882 % 2.000 A Passed28.50 71.43 n/a 374.0 ms 379.2 ms 1.39 % 2.000 A Passed18.99 119.53 n/a 374.0 ms 382.7 ms 2.326 % 2.000 A Passed29.04 113.00 n/a 374.0 ms 380.5 ms 1.738 % 2.000 A Passed32.21 94.29 n/a 374.0 ms 374.5 ms 0.1337 % 2.000 A Passed34.22 87.15 n/a 374.0 ms 378.3 ms 1.15 % 1.929 A Passed40.73 88.00 n/a 374.0 ms 382.3 ms 2.219 % 1.621 A Passed46.41 87.90 n/a 1.524 s 1.523 s -0.07874 % 1.422 A Passed53.19 88.78 n/a 1.524 s 1.524 s 0.006562 % 1.241 A Passed61.72 88.16 n/a 1.524 s 1.526 s 0.1312 % 1.069 A Passed38.46 75.91 n/a 374.0 ms 382.5 ms 2.273 % 1.716 A Passed38.47 102.34 n/a 374.0 ms 379.4 ms 1.444 % 1.716 A Passed49.55 102.56 n/a 1.524 s 1.526 s 0.1378 % 1.332 A Passed57.15 95.70 n/a 1.524 s 1.523 s -0.07218 % 1.155 A Passed60.55 101.07 n/a 1.524 s 1.533 s 0.5577 % 1.090 A Passed52.09 81.23 n/a 1.524 s 1.523 s -0.05249 % 1.267 A Passed61.33 77.99 n/a 1.524 s 1.525 s 0.05249 % 1.076 A Passed3.107 -136.91 n/a 524.0 ms 529.4 ms 1.031 % 2.000 A Passed7.440 -172.37 n/a 524.0 ms 532.1 ms 1.546 % 2.000 A Passed10.54 174.57 n/a 524.0 ms 533.2 ms 1.756 % 2.000 A Passed

R/O-150 -100 -50 0 50 100

X/O

-125

-100

-75

-50

-25

0

25

50

75

100

125

150

Shot Test: Fault Type L3-L1| Z | Phi % % of t nom t act. Dev. ITest Result2.758 78.13 n/a 24.00 ms 28.90 ms 20.42 % 2.000 A Passed7.259 85.52 n/a 24.00 ms 30.00 ms 25 % 2.000 A Passed12.65 86.14 n/a 24.00 ms 30.50 ms 27.08 % 2.000 A Passed18.60 87.38 n/a 24.00 ms 26.70 ms 11.25 % 2.000 A Passed24.56 87.35 n/a 24.00 ms 27.20 ms 13.33 % 2.000 A Passed27.11 87.60 n/a 24.00 ms 29.30 ms 22.08 % 2.000 A Passed4.989 14.88 n/a 24.00 ms 31.10 ms 29.58 % 2.000 A Passed8.226 1.02 n/a 374.0 ms 376.7 ms 0.7219 % 2.000 A Passed11.39 -4.98 n/a 374.0 ms 382.3 ms 2.219 % 2.000 A Passed13.81 -5.00 n/a 1.524 s 1.532 s 0.5249 % 2.000 A Passed8.045 56.88 n/a 24.00 ms 27.30 ms 13.75 % 2.000 A Passed14.24 70.21 n/a 24.00 ms 26.10 ms 8.75 % 2.000 A Passed21.77 75.29 n/a 24.00 ms 25.60 ms 6.667 % 2.000 A Passed27.72 78.49 n/a 24.00 ms 33.60 ms 40 % 2.000 A Passed6.100 113.28 n/a 24.00 ms 25.90 ms 7.917 % 2.000 A Passed10.28 118.86 n/a 24.00 ms 24.60 ms 2.5 % 2.000 A Passed15.94 108.67 n/a 24.00 ms 27.70 ms 15.42 % 2.000 A Passed22.08 103.37 n/a 24.00 ms 29.50 ms 22.92 % 2.000 A Passed27.72 100.02 n/a 24.00 ms 33.80 ms 40.83 % 2.000 A Passed24.44 95.66 n/a 24.00 ms 30.50 ms 27.08 % 2.000 A Passed13.31 99.81 n/a 24.00 ms 31.30 ms 30.42 % 2.000 A Passed12.58 37.91 n/a 374.0 ms 376.5 ms 0.6684 % 2.000 A Passed22.78 58.89 n/a 374.0 ms 375.3 ms 0.3476 % 2.000 A Passed28.50 71.43 n/a 374.0 ms 377.7 ms 0.9893 % 2.000 A Passed18.99 119.53 n/a 374.0 ms 383.4 ms 2.513 % 2.000 A Passed29.04 113.00 n/a 374.0 ms 380.7 ms 1.791 % 2.000 A Passed32.21 94.29 n/a 374.0 ms 378.2 ms 1.123 % 2.000 A Passed34.22 87.15 n/a 374.0 ms 377.1 ms 0.8289 % 1.929 A Passed

40.73 88.00 n/a 374.0 ms 381.3 ms 1.952 % 1.621 A Passed46.41 87.90 n/a 1.524 s 1.522 s -0.164 % 1.422 A Passed53.19 88.78 n/a 1.524 s 1.527 s 0.2165 % 1.241 A Passed61.72 88.16 n/a 1.524 s 1.524 s -0.01312 % 1.069 A Passed38.46 75.91 n/a 374.0 ms 379.4 ms 1.444 % 1.716 A Passed38.47 102.34 n/a 374.0 ms 379.4 ms 1.444 % 1.716 A Passed49.55 102.56 n/a 1.524 s 1.530 s 0.3609 % 1.332 A Passed57.15 95.70 n/a 1.524 s 1.526 s 0.105 % 1.155 A Passed60.55 101.07 n/a 1.524 s 1.529 s 0.3412 % 1.090 A Passed52.09 81.23 n/a 1.524 s 1.525 s 0.05906 % 1.267 A Passed61.33 77.99 n/a 1.524 s 1.527 s 0.1706 % 1.076 A Passed3.107 -136.91 n/a 524.0 ms 531.9 ms 1.508 % 2.000 A Passed7.440 -172.37 n/a 524.0 ms 532.2 ms 1.565 % 2.000 A Passed10.54 174.57 n/a 524.0 ms 528.8 ms 0.916 % 2.000 A Passed

R/O-150 -100 -50 0 50 100

X/O

-125

-100

-75

-50

-25

0

25

50

75

100

125

150

Shot Test: Fault Type L1-L2-L3| Z | Phi % % of t nom t act. Dev. ITest Result2.758 78.13 n/a 24.00 ms 21.60 ms -10 % 2.000 A Passed7.259 85.52 n/a 24.00 ms 23.90 ms -0.4167 % 2.000 A Passed12.65 86.14 n/a 24.00 ms 22.80 ms -5 % 2.000 A Passed18.60 87.38 n/a 24.00 ms 23.60 ms -1.667 % 2.000 A Passed24.56 87.35 n/a 24.00 ms 26.00 ms 8.333 % 2.000 A Passed27.11 87.60 n/a 24.00 ms 28.80 ms 20 % 2.000 A Passed4.989 14.88 n/a 24.00 ms 28.40 ms 18.33 % 2.000 A Passed8.226 1.02 n/a 374.0 ms 376.8 ms 0.7487 % 2.000 A Passed11.39 -4.98 n/a 374.0 ms 378.0 ms 1.07 % 2.000 A Passed13.81 -5.00 n/a 1.524 s 1.528 s 0.2756 % 2.000 A Passed8.045 56.88 n/a 24.00 ms 22.30 ms -7.083 % 2.000 A Passed14.24 70.21 n/a 24.00 ms 21.80 ms -9.167 % 2.000 A Passed21.77 75.29 n/a 24.00 ms 22.60 ms -5.833 % 2.000 A Passed27.72 78.49 n/a 24.00 ms 25.80 ms 7.5 % 2.000 A Passed

6.100 113.28 n/a 24.00 ms 24.60 ms 2.5 % 2.000 A Passed10.28 118.86 n/a 24.00 ms 24.70 ms 2.917 % 2.000 A Passed15.94 108.67 n/a 24.00 ms 24.80 ms 3.333 % 2.000 A Passed22.08 103.37 n/a 24.00 ms 25.90 ms 7.917 % 2.000 A Passed27.72 100.02 n/a 24.00 ms 27.20 ms 13.33 % 2.000 A Passed24.44 95.66 n/a 24.00 ms 26.10 ms 8.75 % 2.000 A Passed13.31 99.81 n/a 24.00 ms 23.40 ms -2.5 % 2.000 A Passed12.58 37.91 n/a 374.0 ms 378.0 ms 1.07 % 2.000 A Passed22.78 58.89 n/a 374.0 ms 375.8 ms 0.4813 % 2.000 A Passed28.50 71.43 n/a 374.0 ms 373.5 ms -0.1337 % 2.000 A Passed18.99 119.53 n/a 374.0 ms 374.7 ms 0.1872 % 2.000 A Passed29.04 113.00 n/a 374.0 ms 377.3 ms 0.8824 % 2.000 A Passed32.21 94.29 n/a 374.0 ms 374.8 ms 0.2139 % 2.000 A Passed34.22 87.15 n/a 374.0 ms 373.2 ms -0.2139 % 2.000 A Passed40.73 88.00 n/a 374.0 ms 373.8 ms -0.05348 % 1.871 A Passed46.41 87.90 n/a 1.524 s 1.524 s -0.01969 % 1.642 A Passed53.19 88.78 n/a 1.524 s 1.524 s 0.02625 % 1.433 A Passed61.72 88.16 n/a 1.524 s 1.524 s -0.01312 % 1.235 A Passed38.46 75.91 n/a 374.0 ms 372.4 ms -0.4278 % 1.982 A Passed38.47 102.34 n/a 374.0 ms 380.2 ms 1.658 % 1.981 A Passed49.55 102.56 n/a 1.524 s 1.526 s 0.1378 % 1.538 A Passed57.15 95.70 n/a 1.524 s 1.527 s 0.1772 % 1.333 A Passed60.55 101.07 n/a 1.524 s 1.526 s 0.105 % 1.259 A Passed52.09 81.23 n/a 1.524 s 1.522 s -0.164 % 1.463 A Passed61.33 77.99 n/a 1.524 s 1.523 s -0.09186 % 1.243 A Passed3.107 -136.91 n/a 524.0 ms 534.3 ms 1.966 % 2.000 A Passed7.440 -172.37 n/a 524.0 ms 530.1 ms 1.164 % 2.000 A Passed10.54 174.57 n/a 524.0 ms 531.8 ms 1.489 % 2.000 A Passed

R/O-150 -100 -50 0 50 100

X/O

-125

-100

-75

-50

-25

0

25

50

75

100

125

150

Shot Details:.

Parameters:Fault Type: L1-L2-L3| Z |: 10.54 Phi: 174.57 R: -10.49 X: 997.5 m%: n/a % of:ITest 2.000 A

.Results:

t act.: 531.8 ms Assessment: Passedt nom: 524.0 ms Dev.: 1.489 %t min: 509.0 ms t max: 539.0 ms

. .Fault Quantities (natural): Fault Quantities (symmetrical):

VL1: 21.08 V 0.00 V0: 0.000 V n/aVL2: 21.08 V -120.00 V1: 21.08 V 0.00 VL3: 21.08 V 120.00 V2: 0.000 V n/aIL1: 2.000 A -174.57 I0: 0.000 A n/aIL2: 2.000 A -294.57 I1: 2.000 A -174.57 IL3: 2.000 A -54.57 I2: 0.000 A n/aVFault: 21.08 V 0.00 IFault: 2.000 A -174.57

Fault

VL1 VL2 VL3

t/s0.001 0.002 0.003 0.004 0.005 0.006 0.007 0.008 0.009

V/V

-80-60-40-20020406080

IL1 IL2 IL3

t/s0.001 0.002 0.003 0.004 0.005 0.006 0.007 0.008 0.009

I/A

-3.0

-2.0

-1.0

0.0

1.0

2.0

t/s0.001 0.002 0.003 0.004 0.005 0.006 0.007 0.008 0.009StartTrip

t/s0.001 0.002 0.003 0.004 0.005 0.006 0.007 0.008 0.009Ext. zones active

.Cursor Data

Time Signal ValueCursor 1 0.00 s n/aCursor 2 0.00 s n/aC2 - C1 n/a n/a..Test State:

Test passed