Appendix
B-20
3901 FCT BreakerFail Breaker Failure ON
OFF
ON Breaker Failure Protection is
3902 I> BF Breaker Failure 0.05..20.00 A 0.10 A Pick-up threshold I>
3903 1p-RETRIP (T1) Breaker Failure NO
YES
YES 1pole retrip with stage T1 (local trip)
3904 T1-1pole Breaker Failure 0.00..30.00 sec; ∞ 0.00 sec T1, Delay after 1pole start (local trip)
3905 T1-3pole Breaker Failure 0.00..30.00 sec; ∞ 0.00 sec T1, Delay after 3pole start (local trip)
3906 T2 Breaker Failure 0.00..30.00 sec; ∞ 0.15 sec T2, Delay of 2nd stage (busbar trip)
3907 T3-BkrDefective Breaker Failure 0.00..30.00 sec; ∞ 0.00 sec T3, Delay for start with defective bkr.
3908 Trip BkrDefect. Breaker Failure NO
trips with T1-trip-signal
trips with T2-trip-signal
trips with T1 and T2-trip-sig-
nal
NO Trip output selection with defective bkr
3909 Chk BRK CON-
TACT
Breaker Failure NO
YES
YES Check Breaker contacts
3921 End Flt. stage Breaker Failure ON
OFF
OFF End fault stage is
3922 T-EndFault Breaker Failure 0.00..30.00 sec; ∞ 2.00 sec Trip delay of end fault stage
3931 PoleDiscrepancy Breaker Failure ON
OFF
OFF Pole Discrepancy supervision
3932 T-PoleDiscrep. Breaker Failure 0.00..30.00 sec; ∞ 2.00 sec Trip delay with pole discrepancy
4001 FCT TripSuperv. Trip Circuit Supervi-
sion
ON
OFF
OFF TRIP Circuit Supervision is
4002 No. of BI Trip Circuit Supervi-
sion
1..2 2 Number of Binary Inputs per trip circuit
4003 Alarm Delay Trip Circuit Supervi-
sion
1..30 sec 2 sec Delay Time for alarm
4201 Ther. OVERLOAD Thermal Overload OFF
ON
Alarm Only
OFF Thermal overload protection
4202 K-FACTOR Thermal Overload 0.10..4.00 1.10 K-Factor
4203 TIME CONSTANT Thermal Overload 1.0..999.9 min 100.0 min Time constant
4204 Θ ALARM Thermal Overload 50..100 % 90 % Thermal Alarm Stage
4205 I ALARM Thermal Overload 0.10..4.00 A 1.00 A Current Overload Alarm setpoint
4206 CALC. METHOD Thermal Overload Theta Max
Average Theta
Theta from Imax
Theta Max Method of Acquiring Temperature
5001 20 mA (B1) = AnalogOutputs 10.0..1000.0 % 200.0 % 20 mA (B1) correspond to
5002 20 mA (B1) = AnalogOutputs 10..100000 A 20000 A 20 mA (B1) correspond to
5003 20 mA (B1) = AnalogOutputs 1.0..1000.0 km 50.0 km 20 mA (B1) correspond to
5004 20 mA (B1) = AnalogOutputs 1.0..1000.0 Miles 50.0 Miles 20 mA (B1) correspond to
5006 MIN VALUE (B1) AnalogOutputs 0.0..5.0 mA 4.0 mA Output value (B1) valid from
5007 NEG VALUE (B1) AnalogOutputs 19.00..22.50 mA 19.84 mA Output value (B1) for negative values
5008 OVERFLOW (B1) AnalogOutputs 19.00..22.50 mA 22.50 mA Output value (B1) for overflow
5009 Tmax OUTPUT(B1) AnalogOutputs 0.10..30.00 sec; ∞ 5.00 sec Maximum output time (B1)
5011 20 mA (B2) = AnalogOutputs 10.0..1000.0 % 200.0 % 20 mA (B2) correspond to
5012 20 mA (B2) = AnalogOutputs 10..100000 A 20000 A 20 mA (B2) correspond to
5013 20 mA (B2) = AnalogOutputs 1.0..1000.0 km 50.0 km 20 mA (B2) correspond to
5014 20 mA (B2) = AnalogOutputs 1.0..1000.0 Miles 50.0 Miles 20 mA (B2) correspond to
5016 MIN VALUE (B2) AnalogOutputs 0.0..5.0 mA 4.0 mA Output value (B2) valid from
Addr. Setting Title Function Setting Options Default Setting Comments
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