GE D30 Instruction Manual page 235
Line distance
Hide thumbs
Also See for D30:
- Instruction manual (686 pages) ,
- Communications manual (532 pages) ,
- Instruction manual (646 pages)
Table of Contents
Advertisement
5 SETTINGS
The positive-sequence restraint must be considered when testing for pick-up accuracy and response time (multiple of
pickup). The operating quantity depends on the way the test currents are injected into the relay:
•
single-phase injection: I
op
•
three-phase pure zero- or negative-sequence injection, respectively: I
•
the directional unit uses the negative-sequence current and voltage for fault direction discrimination
The following table defines the negative-sequence directional overcurrent element.
OVERCURRENT UNIT
MODE
Negative-sequence
Zero-sequence
The negative-sequence voltage must be higher than the
value to be validated for use as a polarizing signal. If the polarizing signal is not validated neither forward nor
OFF LEVEL
reverse indication is given. The following figure explains the usage of the voltage polarized directional unit of the element.
The figure below shows the phase angle comparator characteristics for a Phase A to ground fault, with settings of:
ECA
= 75° (Element characteristic angle = centerline of operating characteristic)
FWD LA
= 80° (Forward limit angle = ± the angular limit with the ECA for operation)
REV LA
= 80° (Reverse limit angle = ± the angular limit with the ECA for operation)
The element incorporates a current reversal logic: if the reverse direction is indicated for at least 1.25 of a power system
cycle, the prospective forward indication will be delayed by 1.5 of a power system cycle. The element is designed to emu-
late an electromechanical directional device. Larger operating and polarizing signals will result in faster directional discrimi-
nation bringing more security to the element operation.
REV Operating
Region
The forward-looking function is designed to be more secure as compared to the reverse-looking function, and therefore,
should be used for the tripping direction. The reverse-looking function is designed to be faster as compared to the forward-
looking function and should be used for the blocking direction. This allows for better protection coordination. The above
bias should be taken into account when using the negative-sequence directional overcurrent element to directionalize other
protection elements.
GE Multilin
= 1/3 × (1 – K) × I
injected
OPERATING CURRENT
I
= |I_2| – K × I_1|
op
I
= |I_0| – K × |I_1|
op
–V_2 line
REV
FWD
LA
LA
LA
–I_2 line
–ECA line
LA
VCG
V_2 line
Figure 5–76: NEG SEQ DIRECTIONAL CHARACTERISTICS
D30 Line Distance Relay
= I
.
op
injected
DIRECTIONAL UNIT
DIRECTION
COMPARED PHASORS
Forward
–V_2 + Z_offset × I_2
–V_2 + Z_offset × I_2
Reverse
–V_2 + Z_offset × I_2
Forward
–V_2 + Z_offset × I_2
Reverse
PRODUCT SETUP
DISPLAY PROPERTIES
VAG (reference)
LA
ECA line
ECA
I_2 line
LA
FWD Operating
VBG
REV
FWD
LA
LA
5.5 GROUPED ELEMENTS
I_2 × 1∠ECA
–(I_2 × 1∠ECA)
I_2 × 1∠ECA
–(I_2 × 1∠ECA)
VOLTAGE CUT-
Region
827806A2.CDR
5-137
5
Advertisement
Table of Contents
