GROUPED ELEMENTS
To increase security for three phase faults very close to the VTs used to measure the polarizing voltage, a voltage memory
feature is incorporated. This feature stores the polarizing voltage the moment before the voltage collapses, and uses it to
determine direction. The voltage memory remains valid for one second after the voltage has collapsed.
The main component of the phase directional element is the phase angle comparator with two inputs: the operating signal
(phase current) and the polarizing signal (the line voltage, shifted in the leading direction by the characteristic angle, ECA).
The table shows the operating and polarizing signals used for phase directional control.
Table 5-32: Operating and polarizing signals
Phase
Operating signal
A
angle of IA
B
angle of IB
C
angle of IC
Mode of operation
When the function is "Disabled" or the operating current is below 5% × CT nominal, the element output is logic "0"
•
•
When the function is "Enabled," the operating current is above 5% × CT nominal, and the polarizing voltage is above
the
PRODUCT SETUP DISPLAY PROPERTIES VOLTAGE CUT-OFF LEVEL
phase angle between the operating and polarizing signals:
–
The element output is logic "0" when the operating current is within polarizing voltage ±90°
–
For all other angles, the element output is logic "1"
•
Once the voltage memory has expired, the phase overcurrent elements under directional control can be set to block or
5
trip on overcurrent as follows:
–
When
BLOCK WHEN V MEM EXP
overcurrent element under directional control when voltage memory expires
–
When
BLOCK WHEN V MEM EXP
under directional control when voltage memory expires
In all cases, directional blocking is permitted to resume when the polarizing voltage becomes greater than the polarizing
voltage threshold.
Settings
PHASE DIR 1 FUNCTION
PHASE DIR 1 SIGNAL SOURCE
operating current for the phase directional element is the phase current for the selected current source. The polarizing
voltage is the line voltage from the phase VTs, based on the 90° or quadrature connection and shifted in the leading
direction by the element characteristic angle (ECA).
PHASE DIR 1 BLOCK
overcurrent element.
— This setting specifies the element characteristic angle, that is, the angle by which the polarizing voltage
PHASE DIR 1 ECA
is shifted in the leading direction to achieve dependable operation. In the design of the UR-series elements, a block is
applied to an element by asserting logic 1 at the blocking input. Program the phase directional overcurrent element using
this setting so that the output is logic 1 for current in the non-tripping direction.
PHASE DIR 1 POL V THRESHOLD
measurement is reliable. The setting is based on VT accuracy.
PHASE DIR 1 BLOCK WHEN V MEM EXP
memory. When set to "Yes," the directional element blocks the operation of any phase overcurrent element under
directional control, when voltage memory expires. When set to "No," the directional element allows tripping of phase
overcurrent elements under directional control.
5-230
Polarizing signal V
ABC phase sequence
angle of VBC × (1∠ECA)
angle of VCA × (1∠ECA)
angle of VAB × (1∠ECA)
is set to "Yes," the directional element blocks the operation of any phase
is set to "No," the directional element allows tripping of phase overcurrent elements
— This setting enables and disables the phase directional overcurrent protection element.
— This setting is used to select the source for the operating and polarizing signals. The
— Assertion of the operand assigned to this setting blocks operation of the phase directional
— This setting is used to establish the minimum level of voltage for which the phase angle
— This setting is used to select the required operation upon expiration of voltage
pol
ACB phase sequence
angle of VCB × (1∠ECA)
angle of VAC × (1∠ECA)
angle of VBA × (1∠ECA)
value, the element output is dependent on the
D30 LINE DISTANCE PROTECTION SYSTEM – INSTRUCTION MANUAL
CHAPTER 5: SETTINGS