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1MRK 506 355-UEN A
10.9.2.3
Line distance protection REL670 2.1 IEC
Commissioning manual
Testing functionality by secondary injection
×
=
+
×
2
3
I
I
a
I
2
L
1
L
IECEQUATION00021 V1 EN
Where:
,
I
I and I
L
1
L
2
L
3
IECEQUATION00020 V1 EN
p ×
2
j
= ×
= -
a
1
e
0, 5
3
IECEQUATION00022 V2 EN
7.
Compare the result with the set value of the negative-sequence operating
current. Consider that the set value 3I2< is in percentage of the base current
IBase.
Measuring the operate value for the zero-sequence function
Measure the operate value for the zero-sequence function, if included in the IED.
1.
Simulate normal operating conditions with the three-phase currents in phase
with their corresponding phase voltages and with all of them equal to their rated
values.
2.
Slowly decrease the measured voltage in one phase until the BLKU signal
appears.
3.
Record the measured voltage and calculate the corresponding zero-sequence
voltage according to the equation (observe that the voltages in the equation are
phasors):
×
3 U
=
U
+
U
0
L1
L2
IEC00000276 V1 EN
Where:
U
, U
and U
L1
L2
L3
IEC00000275 V1 EN
4.
Compare the result with the set value of the zero-sequence operating voltage
(consider that the set value 3U0> is in percentage of the base voltage.)
5.
Repeat steps
1
and 2. Then slowly increase the measured current in one phase
until the BLKU signal disappears.
6.
Record the measured current and calculate the corresponding zero-sequence
current according to the equation (observe that the currents in the equation are
phasors):
×
+
+
3
I
=
I
I
0
L1
L2
IECEQUATION00019 V1 EN
+ ×
a I
2
L
3
are the measured phase currents
3
+
.
j
2
+
U
L3
I
L3
Section 10
(Equation 103)
(Equation 106)
are the measured phase voltages
(Equation 108)
191
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