Toshiba GRL100-701B Instruction Manual page 103

Positive phase sequence current I
current I at fault location in a single-phase series fault are given by:
0F
I + I + I =0
1F 2F 0F
− Z
Z I I = 0
2F 2F 0F 0F
− E − Z
E = Z I
1A 1B 1F 1F
where,
E , E : power source voltage
1A 1B
Z : positive sequence impedance
1
Z : negative sequence impedance
2
Z : zero sequence impedance
0
From the equations (1), (2) and (3), the following equations are derived.
Z + Z
2 0
I =
1F
Z Z + Z Z + Z
1 2 1 0
−Z
0
I =
2F Z Z + Z Z + Z
1 2 1 0
−Z
2
I =
0F
Z Z + Z Z + Z
1 2 1 0
The magnitude of the fault current depends on the overall system impedance, difference in phase
angle and magnitude between the power source voltages behind both ends.
Broken conductor protection element BCD detects series faults by measuring the ratio of
negative to positive phase sequence currents (I
sequence impedance of the system:
I |I | Z
2F 2F 0
= | =
I |I Z + Z
1F 1F 2 0
The ratio is higher than 0.5 in a system when the zero sequence impedance is larger than the
negative sequence impedance. It will approach 1.0 in a high-impedance earthed or a one-end
earthed system.
The characteristic of BCD element is shown in Figure 2.10.2 to obtain the stable operation.
I
2
0.01×In
0
0.04×In
Figure 2.10.2
, negative phase sequence current I
1F
(1)
(2)
I (3)
2F 2F
− E
(E )
1A 1B
Z
2 0
− E
(E )
Z 1A 1B
2 0
− E
(E )
1A 1B
Z
2 0
/ I
2F 1F
I
1
BCD Element Characteristic
 102 
and zero phase sequence
2F
). This ratio is given with negative and zero
| ≥ BCD
|I |/|I
2 1
setting
| ≥ 0.04×In
|I
1
| ≥ 0.01×In
|I
2
In: rated current
6 F 2 S 0 8 5 0
&
BCD