8-56
Application
BE1-951
SL-581=0,0
SL-BF=0,0,0
SL-GROUP=2,IN3,0,0,0,0
SL-43=0
SL-143=0
SL-243=0
SL-343=2
SL-101=0
SL-VOA=0
SL-VO1=VO11*SG0
SL-VO2=VO6
SL-VO3=VO8*/VO15*SG0
SL-VO4=VO10
SL-VO5=VO11*SG1
SL-VO6=81T*181T
SL-VO7=VO6+/IN1
SL-VO8=51PT+51NT+51QT
SL-VO9=50TPT+50TNT+50TQT
SL-VO10=281T*381T
SL-VO11=50TPT+50TNT+50TQT+51PT+51NT+51QT
SL-VO12=51PPU+51NPU+51QPU
SL-VO13=SG1
SL-VO14=0
SL-VO15=343+/IN4
Circuit UF Load Shed
The following is an example of how to apply UF Load Shed logic at the circuit or feeder 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 0C-W-79 logic scheme, Section 8,
Applications modified as follows:
SN-IN1=L_OR_S_RES,CLOSE,OPEN (Local or SCADA Restore)
Add the following Circuit UF logic to the modified OC-W-79 Logic Scheme:
SL-62=2,VO10,0 (optional target reset)
SL-79=1,VO8,/IN1,VO14,0
SL-081=1,O
SL-181=1,O
SL-281=1,VO14
SL-381=1,VO14
SL-VO1=VO13
SL-VO2=79C
SL-VO3=/VO13
SL-VO6=81T*181T
SL-VO7=281T*381T
SL-VO8=VO6
SL-VO10=/VO6*IN1*IN3*VO7
SL-VO13=VO6+VO14
SL-VO14=/VO10*VO13
Add +81T+181T to BUS SG-TRIG
Replace the ,0 with ,62 at the end of BUS SG-TARG
The resulting OC-UF-79 setting logic is as follows:
SL-50TP=1,79SCB; SL-50TN=1,79SCB+/IN4; SL-50TQ=1,79SCB+/IN4