Figure 56: Zero Sequence Network Showing Residual Currents - GE MiCOM P40 Agile Technical Manual

P14x
It can be seen that:
The voltage in the faulty phase reduces to almost 0V
●
The healthy phases raise their phase to earth voltages by a factor of Ö3
●
The triangle of voltages remains balanced
●
The charging currents lead the voltages by 90°
●
Using a core-balance current transformer (CBCT), the current imbalances on the healthy feeders can be measured.
They correspond to simple vector addition of I
by exactly 90º.
The magnitude of the residual current I
the faulted feeder, the residual current is equal to I
shown in the following figure:
I
L
3X
-V
L
0
V00640

Figure 56: Zero sequence network showing residual currents

In practical cases, however, resistance is present, resulting in the following phasor diagrams:
P14xEd1-TM-EN-1
and I
A1
is equal to three times the steady-state charging current per phase. On
R1
- I
L
I
I
OF
ROF
I
ROH
I
ROH
IH IH IH
3 2 1
X
CO
Chapter 6 - Current Protection Functions
, I and I , I and I
B1 A2 B2 A3 B3
- I (C). This is shown in the zero sequence network
H1 H2
Faulty feeder
Healthy feeders
, and they lag the residual voltage
I = Residual current on faulted feeder
ROF
I = Residual current on healthy feeder
ROH
I = I – I – I – I
OF L H1 H2 H3
I = I + I
ROF H3 OF
so:
I = I – I – I
ROF L H1 H2
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