•
If there is a risk of intermittent faults. If the current relay, close to the faults, picks
up and resets there is a risk of unselective trip from other protections in the system.
•
Delayed resetting could give accelerated fault clearance in case of automatic
reclosing to a permanent fault.
•
Overcurrent protection functions are sometimes used as release criterion for other
protection functions. It can often be valuable to have a reset delay to assure the
release function.
19.2
Operation principle
19.2.1
Mode of operation
The function can operate in a definite time-lag mode or in a current definite inverse
time mode. For the inverse time characteristic both ANSI and IEC based standard
curves are available.
If current in any phase exceeds the set pickup current value , a timer, according to the
selected operating mode, is started. The component always uses the maximum of the
three phase current values as the current level used in timing calculations.
In case of definite time-lag mode the timer will run constantly until the time is reached
or until the current drops below the reset value (pickup value minus the hysteresis) and
the reset time has elapsed.
The general expression for inverse time curves is according to equation
[ ]
=
×
-
+
æ
ö
ç
÷
ç
÷
ç
÷
æ
ö
ç
÷
ç
÷
ç
÷
è
ø
è
ø
P
A
t
td
i
C
Pickupn
s
B
EQUATION1640 V1 EN
(Equation 72)
where:
p, A, B, C
are constants defined for each curve type,
Pickupn
is the set pickup current for step n,
td
is set time multiplier for step n and
i
is the measured current.
Section 19
1MRK 505 277-UUS C
Time inverse characteristics
462
Technical Manual
Summary of Contents for REB650
Page 1: ...Relion 650 series Busbar protection REB650 ANSI Technical Manual ...
Page 2: ......
Page 34: ...28 ...
Page 52: ...46 ...
Page 128: ...122 ...
Page 150: ...144 ...
Page 192: ...186 ...
Page 222: ...216 ...
Page 360: ...354 ...
Page 378: ...372 ...
Page 437: ...IEC12000585 V1 EN 1MRK 505 277 UUS C Section 16 IED physical connections 431 Technical Manual ...
Page 438: ...IEC12000586 V1 EN Section 16 1MRK 505 277 UUS C IED physical connections 432 Technical Manual ...
Page 439: ...IEC12000587 V1 EN 1MRK 505 277 UUS C Section 16 IED physical connections 433 Technical Manual ...
Page 440: ...IEC12000588 V1 EN Section 16 1MRK 505 277 UUS C IED physical connections 434 Technical Manual ...
Page 441: ...IEC12000589 V1 EN 1MRK 505 277 UUS C Section 16 IED physical connections 435 Technical Manual ...
Page 442: ...IEC12000590 V1 EN Section 16 1MRK 505 277 UUS C IED physical connections 436 Technical Manual ...
Page 443: ...IEC12000591 V1 EN 1MRK 505 277 UUS C Section 16 IED physical connections 437 Technical Manual ...
Page 444: ...IEC12000592 V1 EN Section 16 1MRK 505 277 UUS C IED physical connections 438 Technical Manual ...
Page 454: ...448 ...
Page 503: ...497 ...