BE1-951
Reporting and Alarm Functions
6-25
Relay Address. This line reports the communications port address that the report was requested from. The
relay address number is assigned using the SG-COM command, described in Section 11,
ASCII Command
Interface.
Fault Number. This line reports the sequential number (from 1 to 255) assigned to the report by the BE1-951.
Fault Trigger. This line reports the logic variables in the pickup or logic trigger expressions that became
TRUE to trigger the recording of the event.
Event Type. This line reports the type of event that occurred. There are five fault event categories.
&
Trip: A fault was detected as defined by the pickup expression and the relay tripped to clear the
fault.
&
Pickup: A fault was detected as defined by the pickup expression but the relay never tripped
indicating that the fault was cleared by another device.
&
Logic: A fault report was recorded by the logic trigger expression but no fault was detected as
defined by the pickup expression.
&
Breaker Failure: A fault was detected as defined by the pickup expression and the breaker failure
trip became TRUE before the fault was cleared.
&
RF=TRIG: A fault report was recorded by the ASCII command interface.
Active Group. This line reports what setting group was active at the time that the fault occurred.
Targets. This line reports the targets that were logged to the fault report between the time that the trip
expression became TRUE until the end of the fault. Refer to Figure 6-1 and Table 6-7, call-out B.
Recloser State. This line reports the state of the recloser shot counter prior to the fault that triggered the
report.
Fault Clearing Time. This line reports the time from when the relay detected the fault until the relay detected
that the fault had cleared. Refer to Figure 6-1 and Table 6-7, call-out C.
If the fault report was triggered by the RF-TRIG command, the recording of the report was terminated after
60 seconds and this line is reported as N/A.
If the pickup or logic expressions stay TRUE for more than 60 seconds, an alarm bit in the programmable
alarm function is set and this line is reported as N/A. In this situation, the fault reporting functions (including
targets) won’t operate again until the pickup and logic trigger expressions return to a FALSE state to enable
another trigger.
Breaker Operate Time. This line reports the breaker trip time from the breaker monitoring and alarm function.
This is the time measured from when the breaker is tripped until the fast-dropout current detector function
detects that the arc has been extinguished. Refer to Figure 6-1 and Table 6-7, call-out D.
Oscillographic Reports. This line reports the number of oscillographic records that are stored in memory for
this fault report. Refer to Figure 6-1 and Table 6-7, call-out E. Recording of oscillographic records is
described in the Oscillographic Records subsection.
Distance to Fault . This line reports the distance to the fault on the line. Units are the same as the units
used to determine line length in SG-Line settings. Refer to Figure 6-1 and Table 6-7, call-out F.
IA, IB, IC, IG, IQ. These lines report the current magnitudes and angles measured for the power system
cycle immediately following the trip. If the fault is cleared prior to the relay tripping, the recorded fault
currents are for the power system cycle two cycles prior to the end of the fault.
VA, VB, VC, VX. These lines report the voltage magnitudes and angles measured for the power system
cycle immediately following the trip. If the fault is cleared prior to the relay tripping, the recorded fault
voltages are for the power system cycle two cycles prior to the end of the fault.
Retrieving Fault Report Information from the Relay
Fault Summary Directory Report. The fault reporting function provides a directory of fault summary reports
that lists the number assigned to the fault summary report along with the date and time of the fault, the event
type, and the total number of oscillography records stored in memory for that event. The event number is
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...