Identification - ABB REC670 Applications Manual

1MRK 511 401-UEN A
8.6.1
8.6.2
Bay control REC670 2.2 IEC
Application manual

Identification

Function description
Sensitive directional residual over
current and power protection
Application
In networks with high impedance earthing, the phase-to-earth fault current is
significantly smaller than the short circuit currents. Another difficulty for earth
fault protection is that the magnitude of the phase-to-earth fault current is almost
independent of the fault location in the network.
Directional residual current can be used to detect and give selective trip of phase-
to-earth faults in high impedance earthed networks. The protection uses the
residual current component 3I
current and the residual voltage (-3U
Alternatively, the function can be set to strict 3I
Directional residual power can also be used to detect and give selective trip of
phase-to-earth faults in high impedance earthed networks. The protection uses the
residual power component 3I
residual current and the reference residual voltage, compensated with a
characteristic angle.
A normal non-directional residual current function can also be used with definite or
inverse time delay.
A backup neutral point voltage function is also available for non-directional
residual overvoltage protection.
In an isolated network, that is, the network is only coupled to earth via the
capacitances between the phase conductors and earth, the residual current always
has -90º phase shift compared to the residual voltage (3U
angle is chosen to -90º in such a network.
In resistance earthed networks or in Petersen coil earthed, with a parallel resistor,
the active residual current component (in phase with the residual voltage) should be
used for the earth fault detection. In such networks, the characteristic angle is
chosen to 0º.
As the amplitude of the residual current is independent of the fault location, the
selectivity of the earth fault protection is achieved by time selectivity.
When should the sensitive directional residual overcurrent protection be used and
when should the sensitive directional residual power protection be used? Consider
the following:
IEC 61850 IEC 60617
identification identification
SDEPSDE -
· cos φ, where φ is the angle between the residual
0
), compensated with a characteristic angle.
0
level with a check of angle φ.
0
· 3U · cos φ, where φ is the angle between the
0 0
Section 8
Current protection
SEMOD172025-2 v4
ANSI/IEEE C37.2
device number
67N
SEMOD171959-4 v12
). The characteristic
0
181