Overexcitation (24) test, Functional test procedure – Basler Electric BE1-11g User Manual
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Overexcitation (24) Test
Functional testing is a way to assess this protection system’s suitability for your application. Functional
testing goes beyond the more basic tests found in acceptance testing, but lacks the detailed function
testing that is part of the commissioning process.
Test each of the following functions to verify that this BE1-11g measures accurately, is within specified
tolerances, and operates correctly. These tests are also suitable for assisting in systematic
troubleshooting in the event that an operation is questioned. Revisiting the test of a specific function can
help verify whether the BE1-11g is operating within specified tolerances. For further assistance, contact
Basler Electric, Technical Sales Support.
Refer to the
chapter for terminal locations and connections.
Reset all targets prior to each test by navigating to the Metering > Status > Targets screen and pressing
the front-panel Reset key. Enter the appropriate username and password if prompted. Clear all logic prior
to each test by using the Settings Explorer in BESTCOMSPlus
® to open the BESTlogic™Plus
Programmable Logic screen and click the Clear button located on the toolbar. After new BESTlogicPlus
settings are made, click the Save button located on the toolbar to compile BESTlogicPlus. Upload
BESTlogicPlus settings by selecting Upload Logic to Device from the Communication pull-down menu.
Operational settings can be sent by selecting Upload Settings to Device from the Communication pull-
down menu or by clicking the Send Settings button on the toolbar.
The actual operating time of an output contact is equal to the recognition time plus the time delay setting
(accuracy) plus 6 milliseconds. Output contact operating time depends upon the type of test set used and
its operating characteristics.
A Functional Test Report is included at the end of this chapter. It should be used to record the results and
verify pickup and timing accuracy.
Refer to the
Overexcitation (24) Protection
chapter for more information on this function.
Functional Test Procedure
Alarm, Inverse Time Pickup, and Definite Time Pickup Verification
The BE1-11g detects overexcitation conditions with a volts/hertz element that consist of one alarm setting,
one inverse time characteristic with selectable exponents (3 sets of time curves as shown in the
chapter) and two definite time characteristics. Note that V/Hz nominal is calculated
V/Hz
Nom
= √
3 × V
Nom
Hz
Nom
= √
3 × 69.3
60
= 2.001
Equation 26. V/Hz Nominal Calculation
That is, at nominal voltage and frequency (60 Hz system) 1 pu V/Hz = 2.001.
Step 1: Use BESTCOMSPlus to send the operational settings in Table 125 to the BE1-11g. Reset all
targets.
Table 125. Operational Settings
Setting
Value
BESTCOMSPlus Screen
Description
Phase VT Ratio
1
System Parameters, Sensing
Transformers
Sets phase VT ratio to 1
Phase VT
Connection
4W-Y
System Parameters, Sensing
Transformers
Sets phase VT connection
to 4W-Y
Nominal Phase
Voltage
69.3 V
System Parameters, Power
System
Sets nominal phase
voltage to 69.3 V
BE1-11g
Overexcitation (24) Test