5-88
C70 Capacitor Bank Protection and Control System
GE Multilin
5.5 FLEXLOGIC™
5 SETTINGS
5
ELEMENT:
Digital counters
Counter 1 HI
Counter 1 EQL
Counter 1 LO
Digital counter 1 output is ‘more than’ comparison value
Digital counter 1 output is ‘equal to’ comparison value
Digital counter 1 output is ‘less than’ comparison value
Counter 2 to Counter 8
Same set of operands as shown for Counter 1
ELEMENT:
Phase current
unbalance
CUR BAL 1 STG1A PKP
CUR BAL 1 STG1B PKP
CUR BAL 1 STG1C PKP
CUR BAL 1 STG2A PKP
CUR BAL 1 STG2B PKP
CUR BAL 1 STG2C PKP
CUR BAL 1 STG3A PKP
CUR BAL 1 STG3B PKP
CUR BAL 1 STG3C PKP
CUR BAL 1 STG4A PKP
CUR BAL 1 STG4B PKP
CUR BAL 1 STG4C PKP
CUR BAL 1 PKP A
CUR BAL 1 PKP B
CUR BAL 1 PKP C
CUR BAL 1 PKP
CUR BAL 1 DPO
CUR BAL 1 STG1A OP
CUR BAL 1 STG1B OP
CUR BAL 1 STG1C OP
CUR BAL 1 STG2A OP
CUR BAL 1 STG2B OP
CUR BAL 1 STG2C OP
CUR BAL 1 STG3A OP
CUR BAL 1 STG3B OP
CUR BAL 1 STG3C OP
CUR BAL 1 STG4A OP
CUR BAL 1 STG4B OP
CUR BAL 1 STG4C OP
CUR BAL 1 OP A
CUR BAL 1 OP B
CUR BAL 1 OP C
CUR BAL 1 OP
Phase current unbalance element 1 picked up in phase A of stage 1
Phase current unbalance element 1 picked up in phase B of stage 1
Phase current unbalance element 1 picked up in phase C of stage 1
Phase current unbalance element 1 picked up in phase A of stage 2
Phase current unbalance element 1 picked up in phase B of stage 2
Phase current unbalance element 1 picked up in phase C of stage 2
Phase current unbalance element 1 picked up in phase A of stage 3
Phase current unbalance element 1 picked up in phase B of stage 3
Phase current unbalance element 1 picked up in phase C of stage 3
Phase current unbalance element 1 picked up in phase A of stage 4
Phase current unbalance element 1 picked up in phase B of stage 4
Phase current unbalance element 1 picked up in phase C of stage 4
Phase current unbalance element 1 picked up in phase A
Phase current unbalance element 1 picked up in phase B
Phase current unbalance element 1 picked up in phase C
Phase current unbalance element 1 picked up.
Phase current unbalance element 1 dropped out
Phase current unbalance element 1 operated in phase A of stage 1
Phase current unbalance element 1 operated in phase B of stage 1
Phase current unbalance element 1 operated in phase C of stage 1
Phase current unbalance element 1 operated in phase A of stage 2
Phase current unbalance element 1 operated in phase B of stage 2
Phase current unbalance element 1 operated in phase C of stage 2
Phase current unbalance element 1 operated in phase A of stage 3
Phase current unbalance element 1 operated in phase B of stage 3
Phase current unbalance element 1 operated in phase C of stage 3
Phase current unbalance element 1 operated in phase A of stage 4
Phase current unbalance element 1 operated in phase B of stage 4
Phase current unbalance element 1 operated in phase C of stage 4
Phase current unbalance element 1 operated in phase A
Phase current unbalance element 1 operated in phase B
Phase current unbalance element 1 operated in phase C
Phase current unbalance element 1 operated
CUR BAL 2 to CUR BAL 3
Same set of operands as shown for CUR BAL 1
ELEMENT:
Time of day timer
day
DAY SUNDAY
DAY MONDAY
DAY TUESDAY
DAY WEDNESDAY
DAY THURSDAY
DAY FRIDAY
DAY SATURDAY
Current day is Sunday
Current day is Monday
Current day is Tuesday
Current day is Wednesday
Current day is Thursday
Current day is Friday
Current day is Saturday
ELEMENT:
Digital elements
Dig Element 1 PKP
Dig Element 1 OP
Dig Element 1 DPO
Digital Element 1 is picked up
Digital Element 1 is operated
Digital Element 1 is dropped out
Dig Element 2 to Dig Element 48
Same set of operands as shown for Dig Element 1
ELEMENT:
FlexElements™
FxE 1 PKP
FxE 1 OP
FxE 1 DPO
FlexElement™ 1 has picked up
FlexElement™ 1 has operated
FlexElement™ 1 has dropped out
FxE 2 to FxE 16
Same set of operands as shown for FxE 1
ELEMENT:
Ground
instantaneous
overcurrent
GROUND IOC1 PKP
GROUND IOC1 OP
GROUND IOC1 DPO
Ground instantaneous overcurrent 1 has picked up
Ground instantaneous overcurrent 1 has operated
Ground instantaneous overcurrent 1 has dropped out
GROUND IOC2 to IOC12
Same set of operands as shown for GROUND IOC 1
ELEMENT:
Ground time
overcurrent
GROUND TOC1 PKP
GROUND TOC1 OP
GROUND TOC1 DPO
Ground time overcurrent 1 has picked up
Ground time overcurrent 1 has operated
Ground time overcurrent 1 has dropped out
GROUND TOC2 to TOC6
Same set of operands as shown for GROUND TOC1
ELEMENT
Non-volatile latches
LATCH 1 ON
LATCH 1 OFF
Non-volatile latch 1 is ON (Logic = 1)
Non-volatile latch 1 is OFF (Logic = 0)
LATCH 2 to LATCH 16
Same set of operands as shown for LATCH 1
Table 5–8: C70 FLEXLOGIC™ OPERANDS (Sheet 3 of 8)
OPERAND TYPE
OPERAND SYNTAX
OPERAND DESCRIPTION
Содержание UR Series C70
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Страница 10: ...x C70 Capacitor Bank Protection and Control System GE Multilin TABLE OF CONTENTS ...
Страница 30: ...1 20 C70 Capacitor Bank Protection and Control System GE Multilin 1 5 USING THE RELAY 1 GETTING STARTED 1 ...
Страница 124: ...4 30 C70 Capacitor Bank Protection and Control System GE Multilin 4 3 FACEPLATE INTERFACE 4 HUMAN INTERFACES 4 ...
Страница 344: ...5 220 C70 Capacitor Bank Protection and Control System GE Multilin 5 10 TESTING 5 SETTINGS 5 ...
Страница 396: ...8 18 C70 Capacitor Bank Protection and Control System GE Multilin 8 3 ENERVISTA SECURITY MANAGEMENT SYSTEM 8 SECURITY 8 ...
Страница 414: ...9 18 C70 Capacitor Bank Protection and Control System GE Multilin 9 1 OVERVIEW 9 THEORY OF OPERATION 9 ...
Страница 436: ...10 22 C70 Capacitor Bank Protection and Control System GE Multilin 10 4 SETTING EXAMPLE 10 APPLICATION OF SETTINGS 10 ...
Страница 547: ...GE Multilin C70 Capacitor Bank Protection and Control System B 79 APPENDIX B B 4 MEMORY MAPPING B ...
Страница 548: ...B 80 C70 Capacitor Bank Protection and Control System GE Multilin B 4 MEMORY MAPPING APPENDIXB B ...
Страница 586: ...D 10 C70 Capacitor Bank Protection and Control System GE Multilin D 1 OVERVIEW APPENDIXD D ...
Страница 598: ...E 12 C70 Capacitor Bank Protection and Control System GE Multilin E 2 DNP POINT LISTS APPENDIXE E ...