CHAPTER 5: SETTINGS
The following settings are entered:
DCMA OUTPUT H2 SOURCE
: "4 to 20 mA"
DCMA OUTPUT H2 RANGE
DCMA OUTPUT H2 MIN VAL
DCMA OUTPUT H2 MAX VAL
The worst-case error for this application can be calculated by superimposing the following two sources of error:
•
±0.5% of the full scale for the analog output module, or
•
±0.25% of reading or ±0.1% of rated (whichever is greater) for currents between 0.1 and 2.0 of nominal
For example, at the reading of 4.2 kA, the worst-case error is max(0.0025 × 4.2 kA, 0.001 × 5 kA) + 0.504 kA = 0.515 kA.
Example: Voltage monitoring
A positive-sequence voltage on a 400 kV system measured via source 2 is to be monitored by the DCmA H3 output with a
range of 0 to 1 mA. The VT secondary setting is 66.4 V, the VT ratio setting is 6024, and the VT connection setting is "Delta."
The voltage is to be monitored in the range from 70% to 110% of nominal.
The minimum and maximum positive-sequence voltages to be monitored are:
V
=
min
The base unit for voltage (see the FlexElements section in this chapter for additional details) is:
The minimum and maximum voltage values to be monitored (in pu) are:
minimum voltage
The following settings are entered:
DCMA OUTPUT H3 SOURCE
: "0 to 1 mA"
DCMA OUTPUT H3 RANGE
DCMA OUTPUT H3 MIN VAL
DCMA OUTPUT H3 MAX VAL
The limit settings differ from the expected 0.7 pu and 1.1 pu because the relay calculates the positive-sequence quantities
scaled to the phase-to-ground voltages, even if the VTs are connected in "Delta" (see the Metering Conventions section in
chapter 6), while at the same time the VT nominal voltage is 1 pu for the settings. Consequently the settings required in this
example differ from naturally expected by the factor of
The worst-case error for this application could be calculated by superimposing the following two sources of error:
•
±0.5% of the full scale for the analog output module, or
•
±0.5% of reading
For example, under nominal conditions, the positive-sequence reads 230.94 kV and the worst-case error is
0.005 × 230.94 kV + 1.27 kV = 2.42 kV.
5.11 Testing
5.11.1 Test mode function
SETTINGS TESTING TEST MODE FUNCTION
TESTING
D30 LINE DISTANCE PROTECTION SYSTEM – INSTRUCTION MANUAL
: "SRC 1 Ia RMS"
: "0.000 pu"
: "1.260 pu"
400 kV
--------------- -
0.7
×
=
161.66 kV,
3
×
V
=
0.0664 kV 6024
BASE
161.66 kV
=
---------------------- -
=
0.404 pu,
400 kV
: "SRC 2 V_1 mag"
: "0.404 pu"
: "0.635 pu"
3
TEST MODE
FUNCTION: Disabled
±
0.005
×
(
20 4
) 6.3 kA
×
=
–
400 kV
--------------- -
V
=
1.1
×
=
254.03 kV
max
3
=
400 kV
254.03 kV
maximum voltage
=
---------------------- -
400 kV
.
±
×
(
)
×
0.005
1 0
254.03 kV
–
Range: Disabled, Isolated, Forcible
TESTING
±
0.504 kA
Eq. 5-35
Eq. 5-36
=
0.635 pu
Eq. 5-37
±
=
1.27 kV
5-271
5