![background image](http://html1.mh-extra.com/html/abb/relion-670-series/relion-670-series_applications-manual_3052129142.webp)
Setting
IED 1
IED 2
Remarks
IminNegSeq
0.04 ·
IBase
0.04 ·
IBase
Minimum value of
negative-sequence
current, as multiple of
IBase
NegSeqROA
60.0 deg
60.0 deg
Internal/external fault
discriminator operate
angle (ROA), in
degrees (Default)
AddDelay
Off
Off
Additional delay Off
(Default)
ImaxAddDelay
1.00 ·
IBase
1.00 ·
IBase
Not applicable in this
case (Default)
CurveType
15
15
Not applicable in this
case (Default)
DefDelay
0.100 s
0.100 s
Not applicable in this
case (Default)
IDMTtMin
0.010 s
0.010 s
Not applicable in this
case (Default)
TD
0.00
0.00
Not applicable in this
case (Default)
p
0.02
0.02
Not applicable in this
case (Default)
a
0.14
0.14
Not applicable in this
case (Default)
b
1.00
1.00
Not applicable in this
case (Default)
c
1.00
1.00
Not applicable in this
case (Default)
Remarks:
1
The parameter
IBase (set in the Global base values function (GBASVAL).) is the reference
current of Line differential protection given in primary Amperes. CT1 in terminal 1 (at end
1) has ratio 600/1 and, based on that, we chose
IBase to 600 A in this case.
2
In this case, only one physical power transformer is included in the protected circuit.
However, in order to handle the situation with two CTs on the low-voltage side of the
transformer, one more fictitious power transformer is introduced. Thus, transformer A
can be thought of as being installed at the current terminal (end) 2, and transformer B,
which is identical to A, can be thought of as being installed at the current terminal (end)
3. The currents, measured at current terminals (current sources) 2 and 3, are internally
separately referred by the multi-terminal differential algorithm to the high-voltage side of
the transformer, using one and the same transformation rule. This rule is defined by the
power transformer transformation ratio and its type, which is Yd1 in this example. If an
in-line power transformer is included in the protected zone, then the protected power
lines are usually on the high-voltage side of the in-line power transformer. The differential
algorithm always transforms the low-voltage side currents to the high-voltage side.
3
Earth faults on the Y-side of the transformer will cause a zero sequence current that will
flow in the Y-winding of the power transformer. This zero sequence current will not
appear outside the transformer on the d-side, and will consequently not be measured by
CT 2 and CT 3. Thus, in case a Y-side earth fault is external to the protected zone, the zero
sequence current that passes the neutral point of the transformer will appear as false
differential current. This could cause an unwanted trip if the zero sequence currents are
not subtracted from all three fundamental frequency differential currents.
4
Energizing the circuit means that the power transformer will be energized at the same
time. This is assumed to be made always from the high-voltage side, and the harmonic
restraint will detect the inrush current and prevent a trip. Setting
IdMinHigh = 2.00 · IBase
is motivated in this case as the transformer is large.
Table continues on next page
Section 6
1MRK 505 343-UEN B
Differential protection
136
Application manual
Summary of Contents for Relion 670 series
Page 1: ...RELION 670 SERIES Line differential protection RED670 Version 2 1 IEC Application manual...
Page 2: ......
Page 40: ...34...
Page 64: ...58...
Page 150: ...144...
Page 406: ...400...
Page 472: ...466...
Page 494: ...488...
Page 512: ...506...
Page 524: ...518...
Page 604: ...598...
Page 686: ...680...
Page 718: ...712...
Page 722: ...716...
Page 758: ...752...
Page 759: ...753...