Distance - GE L60 Instructions Manual
Line phase comparison system
Hide thumbs
Also See for L60:
- Instruction manual (736 pages) ,
- Communications manual (532 pages) ,
- Communications manual (526 pages)
Table of Contents
Advertisement
CHAPTER 5: SETTINGS
5.6.5 Distance
5.6.5.1 Menu
SETTINGS GROUPED ELEMENTS SETTING GROUP 1(6) DISTANCE
DISTANCE
The following common settings are available for distance protection.
The
identifies the signal source for all distance functions. The mho distance functions use a dynamic
DISTANCE SOURCE
characteristic; the positive-sequence voltage—either memorized or actual—is used as a polarizing signal. The memory
voltage is also used by the built-in directional supervising functions applied for both the mho and quad characteristics.
The
setting specifies the length of time that a memorized positive-sequence voltage is used in the
MEMORY DURATION
distance calculations. After this interval expires, the relay checks the magnitude of the actual positive-sequence voltage. If
it is higher than 10% of the nominal, the actual voltage is used, and if lower the memory voltage continues to be used.
The memory is established when the positive-sequence voltage stays above 80% of its nominal value for five power
system cycles. For this reason, it is important to ensure that the nominal secondary voltage of the VT is entered correctly
under the
SETTINGS SYSTEM SETUP AC INPUTS VOLTAGE BANK
Set
long enough to ensure stability on close-in reverse three-phase faults. For this purpose, consider the
MEMORY DURATION
maximum fault clearing time (breaker fail time) in the substation. On the other hand, the
long as the power system can experience power swing conditions rotating the voltage and current phasors slowly while
the memory voltage is static, as frozen at the beginning of the fault. Keeping the memory in effect for too long can
eventually lead to incorrect operation of the distance functions.
The distance zones can be forced to become self-polarized through the
condition (any FlexLogic operand) can be configured to force self-polarization. When the selected operand is asserted
(logic 1), the distance functions become self-polarized regardless of other memory voltage logic conditions. When the
selected operand is de-asserted (logic 0), the distance functions follow other conditions of the memory voltage logic as
shown in the following logic diagram.
The distance zones can be forced to become memory-polarized through the
condition (any FlexLogic operand) can be configured to force memory polarization. When the selected operand is asserted
(logic 1), the distance functions become memory-polarized regardless of the positive-sequence voltage magnitude at this
time. When the selected operand is de-asserted (logic 0), the distance functions follow other conditions of the memory
voltage logic.
L60 LINE PHASE COMPARISON SYSTEM – INSTRUCTION MANUAL
DISTANCE
SOURCE: SRC 1
MEMORY
DURATION: 10 cycles
FORCE SELF-POLAR:
Off
FORCE MEM-POLAR:
Off
PHASE DISTANCE Z1
PHASE DISTANCE Z3
GROUND DISTANCE Z1
GROUND DISTANCE Z3
Range: SRC 1, SRC 2, SRC 3, SRC 4
Range: 5 to 25 cycles in steps of 1
Range: FlexLogic operand
Range: FlexLogic operand
See page 5-214
See page 5-224
menu.
MEMORY DURATION
setting. Any user-selected
FORCE SELF-POLAR
setting. Any user-selected
FORCE MEM-POLAR
GROUPED ELEMENTS
5
cannot be too
5-213
Advertisement
Table of Contents
