GEK-106310AB
F650 Digital Bay Controller
5-95
5 SETTINGS
5.5 CONTROL ELEMENTS
5
Table 5–79: SYNCHRONISM CONDITIONS
Table 5–79: shows the different synchrocheck and closing logic situations, that can be produced depending on the line and
busbar voltage levels.
Live Line – Live Bus (Synchronism check):
Only in case number (2), with live line and live bus, the element will start
evaluating the line and busbar voltage comparison with respect to the setting
Δ
V
set
established by setting (Max Volt Difference). In this case, if the voltage difference is
lower than
Δ
V
set
, the synchronism check element (25) will verify the angle difference
Δϕ
adjusted by setting (Max Angle Difference).
Dead Line – Dead Bus (DL - DB):
Case number (3) will not allow the synchronism function, but it will allow DL-DB
operation logic, if this logic is enabled by setting (DL-DB Function).
Dead Line – Live Bus (DL - LB):
Case number (6) will not allow the synchronism function, but it will allow DL-LB
Operation logic, if this logic is enabled by setting (DL-LB Function)
Live Line – Dead Bus (LL - DB):
Case number (7) will not allow the synchronism function, but it will allow LL-DB
operation logic, if this logic is enabled by setting (LL-DB Function)
Case numbers (1), (4) and (5) are not considered neither for synchronism check purposes, nor for closing logic.
SYNCHRONISM SITUATION SYNCHRONISM
CHECK
CLOSING LOGIC
LINE VOLTAGE
LEVELS
BUSBAR VOLTAGE
LEVELS
(1) V
L
< (V
1
& V
2
)< V
H
Not permitted
Not permitted
V1 > dead line level
V1 < live line level
V2 > dead bus level
V2 < live bus level
(2) (V
1
& V
2
) > V
H
Permitted
Live Line – Live Bus
V1 > live line level
V2 > live bus level
(3) (V
1
& V
2
) <
V
L
Not permitted
Dead Line – Dead Bus
V1 < dead line level
V2 < dead bus level
(4) (V
1
< V
L
) & (V
L
< V
2
< V
H
)
Not permitted
Not permitted
V1 < dead line level
V2 > dead bus level
V2 < live bus level
(5) (V
2
<
V
L
) & (V
L
< V
1
< V
H
) Not permitted
Not permitted
V1 > dead line level
V1 < live line level
V2 < dead bus level
(6) (V
1
<
V
L
) & (V
2
> V
H
)
Not permitted
Dead Line – Live Bus
V1 < dead line level
V2 > live bus level
(7) (V
2
<
V
L
) & (V
1
> V
H
)
Not permitted
Live Line – Dead Bus
V1 > live line level
V2 < dead bus level
Содержание Multilin F650
Страница 9: ...8 F650 Digital Bay Controller GEK 106310AB TABLE OF CONTENTS ...
Страница 147: ...4 74 F650 Digital Bay Controller GEK 106310AB 4 3 WEB SERVER 4 HUMAN INTERFACES SETTINGS ACTUAL VALUES 4 ...
Страница 323: ...5 176 F650 Digital Bay Controller GEK 106310AB 5 13 IEC 60870 5 103 PROTOCOL CONFIGURATION 5 SETTINGS 5 ...
Страница 443: ...7 74 F650 Digital Bay Controller GEK 106310AB 7 3 IEC 61850 CONFIGURATOR 7 IEC 61850 PROTOCOL 7 Figure 7 21 ...
Страница 457: ...7 88 F650 Digital Bay Controller GEK 106310AB 7 3 IEC 61850 CONFIGURATOR 7 IEC 61850 PROTOCOL 7 ...
Страница 513: ...10 28 F650 Digital Bay Controller GEK 106310AB 10 18 THERMAL IMAGE ELEMENT 49 10 COMMISSIONING 10 ...
Страница 529: ...12 6 F650 Digital Bay Controller GEK 106310AB 12 4 RELAY CONFIGURATION 12 FREQUENTLY ASKED QUESTIONS 12 ...
Страница 569: ...A 36 F650 Digital Bay Controller GEK 106310AB A 1 LOGIC OPERANDS APPENDIX A A ...
Страница 735: ...C 24 F650 Digital Bay Controller GEK 106310AB C 8 ANALOG INPUTS APPENDIX C C ...
Страница 743: ...D 8 F650 Digital Bay Controller GEK 106310AB D 5 IEC 60870 5 104 POINT LIST APPENDIX D D ...
Страница 755: ...F 10 F650 Digital Bay Controller GEK 106310AB F 1 IEC 60870 5 103 PROTOCOL APPENDIX F F ...
Страница 766: ...GEK 106310AB F650 Digital Bay Controller G 11 APPENDIX G G 1 FACTORY DEFAULT LOGIC G ...
Страница 767: ...G 12 F650 Digital Bay Controller GEK 106310AB G 1 FACTORY DEFAULT LOGIC APPENDIX G G ...
Страница 801: ...I 2 F650 Digital Bay Controller GEK 106310AB I 1 GE MULTILIN WARRANTY APPENDIX I I ...