5-16
G650 Generator Protection & Control System
GEK-113285A
5.2 PRODUCT SETUP
5 SETTINGS
5
Illustrated bellow is the curve with a 90% characteristic time of 15 minutes. A setting establishes the time to reach 90% of a
steady-state value, just as the response time of an analog instrument. A steady-state valve applied for twice the response
time will indicate 99% of the value.
b) CALCULATION METHOD 2: ROLLING DEMAND.
This method calculates the linear average of the quantity over the set demand time interval. The calculation is made every
second. The value is updated every minute and indicates the demand over the time interval just preceding the time of
update.
c) CALCULATION METHOD 3: BLOCK INTERVAL
The Block Interval operation mode depends on the “Trigger Enabled” setting.
CALCULATION METHOD 3a: BLOCK INTERVAL – With trigger setting DISABLED.
This method consists on integrating the measurements during the time period specified in the DEMAND INTERVAL
setting. The calculation will be made every second and the demand value will be the average of all values produced
during the time interval. The time interval is chosen in the DEMAND INTERVAL setting. The interval demand value will
be shown once this time has expired.
If, for example, the setting indicates 15 minutes for integration, the demand value update will be made every 15
minutes (although the calculation is made every second). This method calculates a linear average of the magnitude.
CALCULATION METHOD 3b: BLOCK INTERVAL – With trigger setting ENABLED.
The demand value is given by integration of the measurement during the time between two consecutive pulses in the
input assigned. The input is assigned to DEMAND TRIGGER in Relay Configuration. The integration is made every
second with each new measure.
In case the interval between two consecutive pulses exceeds 60 minutes, the relay will calculate the demand after 60
minutes from the last pulse, this measure will be updated in the status and a new demand count will start. This method
calculates a linear average of the magnitude.
Содержание Multilin G650
Страница 9: ...8 G650 Generator Protection Control System GEK 113285A TABLE OF CONTENTS ...
Страница 29: ...1 20 G650 Generator Protection Control System GEK 113285A 1 4 650 HARDWARE 1 GETTING STARTED 1 ...
Страница 293: ...5 150 G650 Generator Protection Control System GEK 113285A 5 9 LOGIC CONFIGURATION PLC EDITOR 5 SETTINGS 5 ...
Страница 391: ...11 6 G650 Generator Protection Control System GEK 113285A 11 4 RELAY CONFIGURATION 11 FREQUENTLY ASKED QUESTIONS 11 ...
Страница 426: ...GEK 113285A G650 Generator Protection Control System A 31 APPENDIX A A 1 LOGIC OPERANDS A ...
Страница 427: ...A 32 G650 Generator Protection Control System GEK 113285A A 1 LOGIC OPERANDS APPENDIXA A ...
Страница 587: ...C 22 G650 Generator Protection Control System GEK 113285A C 8 ANALOG INPUTS APPENDIXC C ...
Страница 595: ...D 8 G650 Generator Protection Control System GEK 113285A D 5 IEC 60870 5 104 POINT LIST APPENDIXD D ...
Страница 606: ...GEK 113285A G650 Generator Protection Control System E 11 APPENDIX E E 1 FACTORY DEFAULT LOGIC E ...
Страница 607: ...E 12 G650 Generator Protection Control System GEK 113285A E 1 FACTORY DEFAULT LOGIC APPENDIXE E ...
Страница 639: ...G 2 G650 Generator Protection Control System GEK 113285A G 1 GE MULTILIN WARRANTY APPENDIXG G ...