1—electrical operation, 2—high-potential test, 1 primary circuit – GE Industrial Solutions Power-Vac ML-20 Mechanism User Manual

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SECTION 9—Electrical Checks

Electrical checking consists of electrical breaker operation

primary and secondary wiring high-potential testing (if
required), primary circuit resistance (if required). Interrupter

high-potential testing, and insulation resistance to ground.

9.1—Electrical Operation

To check the electrical operation, attach a secondary test
coupler to the circuit breaker connector. Check the control

voltage on the nameplate and close and open the breaker

several times.

CAUTION: REPEATED OPERATIONS AT A RATE EXCEED-

ING TWO PER MINUTE MAY CAUSE CHARGING MOTOR
OVERHEATING AND FAILURE.

9.2—High-Potential Test

If high potential tests to check the integrity of the primary
insulation is required, the AC high potential test described

below is strongly recommended. DC high potential testing is

not recommended. The following procedure must be adhered

to.

CAUTION: IF DC HIGH POTENTIAL TESTING IS REQUIRED,
THE DC HIGH POTENTIAL MACHINE MUST NOT PRODUCE
PEAK VOLTAGES EXCEEDING 50 KV.

NOTE: Always recheck with an AC tester if initial results are

questionable.

9.2.1 Primary Circuit

The breaker should be hipotted in the closed breaker mode.

An AC hipot machine capable of producing the test voltages
shown below may be used to hipot the breaker phase to

phase and phase to ground.

BREAKER VOLTAGE

AC TEST VOLTAGE

27.0 kV

45 kV

The machine should be connected with its output potential at

zero and the voltage increased at 500 volts per second to the

test voltage and that voltage maintained for 60 seconds. The
voltage should then be returned to zero and the test leads

removed and the breaker discharged to ground. Do not

exceed the test voltage indicated.

If the test should experience a failure, STOP

STOP

STOP

STOP, turn off the test

set and discharge the test sample. 1. Check the test setup

and leads for connection errors. 2. Wipe down the breaker to

remove any moisture, dust and contamination. 3. Retest the

breaker at the proper test voltage.

9.2.2 Secondary Circuit

Prior to hipotting the breaker secondary circuit, disconnect

the motor leads and thread a wire connecting all secondary

disconnect pins except #24, the ground pin. Connect the hipot

machine from this wire to ground. Increase the voltage to

1125 volts (rms) 60 Hz and maintain for 60 seconds. Reduce
the voltage to zero and remove the hipot machine from the

circuit. Remove the wire connecting the secondary disconnect

pins and reconnect the motor leads.

9.3—Primary Circuit Resistance

A resistance check of the primary circuit may be made

with the breaker closed. Use a low resistance measuring

instrument rated 100 amperes which measures in microhms.

The 100 ampere reading should be 25 or less microhms for a

600/1200 or 2000 amp. Breaker, when connected across the

upper and lower primary bars on the breaker side of the
disconnect fingers. Do not connect directly to the disconnect

fingers as errors may occur due to finger spring pressure

9.4—Vacuum Interrupter Integrity Test

NOTE: Use of a DC hipot is not recommended, but can be
used for quick field checks only. Always recheck with an AC

tester if initial results are questionable. Prior to performing any

vacuum interrupter integrity test, the outside (external

surface) of the vacuum interrupters should be wiped clean of
any contaminates with a non-linting cloth or industrial type

wiper. This is critical: the entire external surface is to be
completely free of all dirt, debris, dust, oil, etc.

CAUTION: X-RADIATION WILL BE PRODUCED IF AN
ABNORMALLY HIGH VOLTAGE IS APPLIED ACROSS A PAIR

OF ELECTRODES IN A VACUUM. X-RADIATION WILL
INCREASE AS VOLTAGE INCREASES AND/OR AS CONTACT

SEPARATION DECREASES. ONLY TEST A CORRECTLY-

ADJUSTED CIRCUIT BREAKER.

DURING A HIGH POTENTIAL OR A VACUUM INTEGRITY

TEST, ANY X-RADIATION WHICH MAY BE PRODUCED WILL

NOT BE HAZARDOUS AT A DISTANCE SAFE FOR HIGH

POTENTIAL TESTING, IF THE TEST IS CONDUCTED AT THE

RECOMMENDED VOLTAGE AND WITH THE NORMAL OPEN
CIRCUIT BREAKER GAP.

DO NOT APPLY VOLTAGE THAT IS HIGHER THAN THE

RECOMMENDED VALUE. DO NOT USE CONTACT SEPA-

RATION THAT IS LESS THAN THE RECOMMENDED OPEN-
POSITION BREAKER CONTACT GAP.

The vacuum integrity test is performed using an AC hi-

potential tester. A vacuum integrity test of the interrupter is

required to insure that no loss of vacuum has occurred. This
test of the vacuum interrupter will determine its internal

dielectric condition and vacuum integrity. With the breaker

open, individually check each interrupter by connecting the hi-

pot machine “Hot” lead to the upper primary bus bar and the

ground lead to the lower bus bar. If the machine has a center
point ground, the connections can be made either way. Apply

36 kV (rms) 60 Hz at 500 vps and hold for 10 seconds. If no

breakdown occurs, the interrupter is in acceptable condition.

After the high potential voltage is removed, discharge any

electrical charge that may be present through the internal