Current Reversal And Weak-End Infeed Logic For Residual Overcurrent Protection Ecrwpsch; Identification; Application; Fault Current Reversal Logic - ABB RED650 Applications Manual

1MRK 505 393-UEN B
13.5
13.5.1
13.5.2
13.5.2.1
Line differential protection RED650 2.2 IEC
Application manual
tCoord: Delay time for trip from ECPSCH function. For Permissive under/
overreaching schemes, this timer shall be set to at least 20 ms plus maximum reset
time of the communication channel as a security margin. For Blocking scheme, the
setting should be > maximum signal transmission time +10 ms.
Unblock: Select Off if unblocking scheme with no alarm for loss of guard is used.
Set to Restart if unblocking scheme with alarm for loss of guard is used.
tSendMin: Time duration, the carrier send signal is prolonged.
tSecurity: The absence of CRG signal for a time duration of tSecurity is considered
as CR signal.
Current reversal and weak-end infeed logic for
residual overcurrent protection ECRWPSCH

Identification

Function description
Current reversal and weak-end infeed
logic for residual overcurrent protection

Application

Fault current reversal logic

Figure 124 and figure 125
fault current reversal.
Assume that fault is near the B1 breaker. B1 Relay sees the fault in Zone1 and A1
relay identifies the fault in Zone2.
Note that the fault current is reversed in line L2 after the breaker B1 opening.
It can cause an unselective trip on line L2 if the current reversal logic does not
block the permissive overreaching scheme in the IED at B2.
Scheme communication
IEC 61850
identification
ECRWPSCH
show a typical system condition, which can result in a
Section 13
IEC 60617 ANSI/IEEE C37.2
identification device number
- 85
IP14365-1 v4
M14883-1 v2
IP15041-1 v1
M15285-3 v7
291