BE1-951
Application
8-55
automatic reclosing is used, the “WAIT” input is removed and the reclosing element (79) closes the breaker
after a predetermined time delay. If manual reclosing is used, the “DTL/BLK” input is removed and the
breaker is ready to close SCADA or local close.
As with the Bus Level Application, an optional “auto target reset circuit”, can be initiated, automatically
resetting the 951 targets and Trip LED and eliminating the need for further operator input. A one-shot, non-
retriggerable timer (62), initiated by VO10, REST_PER is used to automatically reset the 951 targets and
Trip LED via “logic” input to the
Target Reset Logic, see Figure 6-4, Section 6. Fault and Event records
detailing the operation are available from the relay.
951 Logic Equations and Settings, Under Frequency Load Shedding
Bus UF Load Shed
The following is an example of how to apply UF Load Shed logic at the Bus level. The logic can be applied
in any number of ways including stand alone, to other preprogrammed schemes, or completely customized
by the user. Using BESTCOMS to modify and add to the logic is not only quick and easy, but minimizes
Input/Output “name” and “state” label changes. In this example, start with a renamed version of the
BESTCOMS BUS logic scheme, Section 8,
Applications modified as follows:
SL-101=0
SL-V01=VO11*SG0
SN-IN1=UF-RESTORE,CLOSE,OPEN
Add the following UF logic to the modified BUS Logic Scheme:
SL-62=2, /IN1,0 (optional target reset)
SL-081=1,O
SL-181=1,O
SL-281=1,VO7
SL-381=1,VO7
SL-VO2=VO6
SL-VO4=VO10
SL-VO6=81T*181T
SL-VO7=VO6+/IN1
SL-VO10=281T*381T
Add +81T+181T to BUS SG-TRIG
Replace the ,0 with ,62 at the end of BUS SG-TARG
The resulting BUS-UF setting logic is as follows:
SL-50TP=1,IN2; SL-50TN=1,IN2; SL-50TQ=1,IN2
SL-150TP=0,0; SL-150TN=0,0; SL-150TQ=0,0
SL-51P=1,0
SL-51N=1,0
SL-51Q=1,0
SL-151N=0,0
SL-27P=0,0
SL-59P=0,0; SL-59X=0,0
SL-47=0,0
SL-62=2,/IN1,0
SL-162=0,0,0
SL-79=0,0,0,0,0
SL-81=1,0
SL-181=1,0
SL-281=1,VO7
SL-381=1,VO7
SL-481=0,0
Содержание BE1-951
Страница 157: ...BESTlogic Programmable Logic BE1 951 7 2 Figure 7 1 BESTlogic Function Blocks Courtesy of NationalSwitchgear com...
Страница 238: ...BE1 951 Human Machine Interface 10 5 Figure 10 5 Metering Menu Branch Structure Courtesy of NationalSwitchgear com...
Страница 239: ...10 6 Human Machine Interface BE1 951 Figure 10 6 Reports Menu Branch Structure Courtesy of NationalSwitchgear com...
Страница 270: ...12 2 Installation BE1 951 Figure 12 1 BE1 951 S1 Case Dimensions Courtesy of NationalSwitchgear com...
Страница 274: ...12 6 Installation BE1 951 Figure 12 5 BE1 951 H1 Case Dimensions Courtesy of NationalSwitchgear com...
Страница 283: ...BE1 951 Installation 12 15 Figure 12 16 Typical AC Connections Courtesy of NationalSwitchgear com...
Страница 394: ...A 18 Appendix BE1 951 Figure A 14 Time Characteristic Curve B Very Inverse 99 1376 Courtesy of NationalSwitchgear com...
Страница 396: ...A 20 Appendix BE1 951 Figure A 16 Time Characteristic Curve G Long Inverse 99 1622 Courtesy of NationalSwitchgear com...
Страница 397: ...BE1 951 Appendix A 21 Figure A 17 46 Time Characteristic Curve Courtesy of NationalSwitchgear com...