GE Multilin F60 Feeder Protection System 5-151
5 SETTINGS 5.5 FLEXLOGIC
5
ELEMENT:
Negative-sequence
overvoltage
NEG SEQ OV1 PKP
NEG SEQ OV1 DPO
NEG SEQ OV1 OP
Negative-sequence overvoltage element has picked up
Negative-sequence overvoltage element has dropped out
Negative-sequence overvoltage element has operated
NEG SEQ OV2 to 3 Same set of operands as shown for NEG SEQ OV1
ELEMENT:
Negative-sequence
time overcurrent
NEG SEQ TOC1 PKP
NEG SEQ TOC1 OP
NEG SEQ TOC1 DPO
Negative-sequence time overcurrent 1 has picked up
Negative-sequence time overcurrent 1 has operated
Negative-sequence time overcurrent 1 has dropped out
NEG SEQ TOC2 Same set of operands as shown for NEG SEQ TOC1
ELEMENT:
Neutral
instantaneous
overcurrent
NEUTRAL IOC1 PKP
NEUTRAL IOC1 OP
NEUTRAL IOC1 DPO
Neutral instantaneous overcurrent 1 has picked up
Neutral instantaneous overcurrent 1 has operated
Neutral instantaneous overcurrent 1 has dropped out
NEUTRAL IOC2 to 8 Same set of operands as shown for NEUTRAL IOC1
ELEMENT:
Neutral overvoltage
NEUTRAL OV1 PKP
NEUTRAL OV1 DPO
NEUTRAL OV1 OP
Neutral overvoltage element 1 has picked up
Neutral overvoltage element 1 has dropped out
Neutral overvoltage element 1 has operated
NEUTRAL OV2 to 3 Same set of operands as shown for NEUTRAL OV1
ELEMENT:
Neutral time
overcurrent
NEUTRAL TOC1 PKP
NEUTRAL TOC1 OP
NEUTRAL TOC1 DPO
Neutral time overcurrent 1 has picked up
Neutral time overcurrent 1 has operated
Neutral time overcurrent 1 has dropped out
NEUTRAL TOC2 to 4 Same set of operands as shown for NEUTRAL TOC1
ELEMENT:
Neutral directional
overcurrent
NTRL DIR OC1 FWD
NTRL DIR OC1 REV
Neutral directional overcurrent 1 forward has operated
Neutral directional overcurrent 1 reverse has operated
NTRL DIR OC2 Same set of operands as shown for NTRL DIR OC1
ELEMENT:
Overfrequency
OVERFREQ 1 PKP
OVERFREQ 1 OP
OVERFREQ 1 DPO
Overfrequency 1 has picked up
Overfrequency 1 has operated
Overfrequency 1 has dropped out
OVERFREQ 2 to 4 Same set of operands as shown for OVERFREQ 1
ELEMENT:
Synchrophasor
phasor data
concentrator
PDC NETWORK CNTRL 1
PDC NETWORK CNTRL 2
↓
PDC NETWORK CNTRL 16
Phasor data concentrator asserts control bit 1 as received via the network
Phasor data concentrator asserts control bit 2 as received via the network
↓
Phasor data concentrator asserts control bit 16 as received via the network
ELEMENT:
Phase directional
overcurrent
PH DIR1 BLK A
PH DIR1 BLK B
PH DIR1 BLK C
PH DIR1 BLK
Phase A directional 1 block
Phase B directional 1 block
Phase C directional 1 block
Phase directional 1 block
PH DIR2 Same set of operands as shown for PH DIR1
ELEMENT:
Phase
instantaneous
overcurrent
PHASE IOC1 PKP
PHASE IOC1 OP
PHASE IOC1 DPO
PHASE IOC1 PKP A
PHASE IOC1 PKP B
PHASE IOC1 PKP C
PHASE IOC1 OP A
PHASE IOC1 OP B
PHASE IOC1 OP C
PHASE IOC1 DPO A
PHASE IOC1 DPO B
PHASE IOC1 DPO C
At least one phase of phase instantaneous overcurrent 1 has picked up
At least one phase of phase instantaneous overcurrent 1 has operated
All phases of phase instantaneous overcurrent 1 have dropped out
Phase A of phase instantaneous overcurrent 1 has picked up
Phase B of phase instantaneous overcurrent 1 has picked up
Phase C of phase instantaneous overcurrent 1 has picked up
Phase A of phase instantaneous overcurrent 1 has operated
Phase B of phase instantaneous overcurrent 1 has operated
Phase C of phase instantaneous overcurrent 1 has operated
Phase A of phase instantaneous overcurrent 1 has dropped out
Phase B of phase instantaneous overcurrent 1 has dropped out
Phase C of phase instantaneous overcurrent 1 has dropped out
PHASE IOC2 to 8 Same set of operands as shown for PHASE IOC1
ELEMENT:
Phase overvoltage
PHASE OV1 PKP
PHASE OV1 OP
PHASE OV1 DPO
PHASE OV1 PKP A
PHASE OV1 PKP B
PHASE OV1 PKP C
PHASE OV1 OP A
PHASE OV1 OP B
PHASE OV1 OP C
PHASE OV1 DPO A
PHASE OV1 DPO B
PHASE OV1 DPO C
At least one phase of overvoltage 1 has picked up
At least one phase of overvoltage 1 has operated
All phases of overvoltage 1 have dropped out
Phase A of overvoltage 1 has picked up
Phase B of overvoltage 1 has picked up
Phase C of overvoltage 1 has picked up
Phase A of overvoltage 1 has operated
Phase B of overvoltage 1 has operated
Phase C of overvoltage 1 has operated
Phase A of overvoltage 1 has dropped out
Phase B of overvoltage 1 has dropped out
Phase C of overvoltage 1 has dropped out
PHASE OV2 to 3 Same set of operands as shown for PHASE OV1
Table 5–18: F60 FLEXLOGIC OPERANDS (Sheet 4 of 8)
OPERAND TYPE OPERAND SYNTAX OPERAND DESCRIPTION
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