Mounting the trip unit on the breaker – GE Industrial Solutions ProTrip Conversion Kits DB-75, DBL-75, DB-100, DBL-100 User Manual

SECTION 6. TESTING AND TROUBLE-
SHOOTING

WARNING: Do not change taps on the current sensors
or adjust the trip unit settings while the breaker is
carrying current. Failure to adhere to these instructions
will void all warranties.

Testing

Before installing a converted breaker back into service,
perform the following steps:

1. Verify that the trip unit is securely installed by

performing a continuity test on the CT wiring and the
trip unit.

a. Disconnect the black CT wires at each phase

sensor.

b. Check for continuity with a continuity tester or

VOM from the white lead of the phase A CT to the
white lead of the phase B CT.

c. Repeat this continuity test for the white leads of

the phase A and phase C CTs.

d. Measure the resistance across each phase

sensor and compare the values measured to the
values listed in Table 1.

e. Reconnect the black CT leads to all of the phase

sensors. Ensure that this is done before
continuing with performance testing of the
breaker.

CAUTION: In addition to the continuity test described in
Step 1 and before performance testing of the converted
breaker, each phase of the breaker should be primary
injected with a current level of about 10%, but no more
than 20%, of the CT rating.

WARNING: If the converted breaker is energized or
tested by primary injection with a sufficiently high test
current with a loose or open circuit between the CTs
and the trip unit, damage will occur to the trip unit, wire
harness, 50-pin trip unit connector, and CTs. Failure to
adhere to these instructions will void all warranties.

2. Check the insulation on the primary circuit with a

1,000-volt Megger.

3. Measure the resistance across the line and load

terminals for each phase using a micro-ohmmeter or
millivolt tester. If the resistance differs considerably
from phase to phase, the electrical connections may
not be properly tightened or it could also indicate
improper contact wipe.

4. To verify that the breaker has been properly retro-

fitted, perform a primary injection test on each phase.
This test will check the CTs, bus, wiring harness, flux
shifter, and trip unit as a complete system.

a. A high-current, low-voltage power supply should

be connected across each line and load terminal
to simulate an overcurrent fault.

b. Set the long-time trip at 0.5 to minimize the

breaker stress.

c. When ground fault is installed, the test can be

performed by wiring two adjacent poles in series
or by using the GE Digital Test Kit, cat. no.
TVRMS2. This will prevent the breaker from
tripping because of an unbalanced current flow.

CAUTION: Do not attempt to use GE Test Kit cat. no.
TVTS1 or TVRMS on this trip unit.

Trouble-Shooting

When malfunctioning is suspected, first examine the
breaker and its power system for abnormal conditions
such as the following:

• The breaker is not tripping in response to over-

current conditions or incipient ground faults.

• The breaker is remaining in a trip-free state because

of mechanical interference along its trip shaft.

• The shunt trip (if present) is activating improperly.

Nuisance Tripping on Ground Fault-Equipped
Breakers

When nuisance tripping occurs on breakers equipped
with ground fault trip, a probable cause is the existence
of a false ground signal. Each phase sensor is connected
to summing circuitry in the trip unit. Under no-fault
conditions on three-wire load circuits, the currents add to
zero and no ground signal is developed. This current
sum is zero only if all three sensors have the same
electrical characteristics. If one sensor differs from the
others (such as by a different rating or wrong tap setting),
the circuitry can produce an output sufficient to trip the
breaker. Similarly, a discontinuity between any sensor
and the trip unit can cause a false trip signal.

The sensors and their connections should be closely
examined if nuisance tripping is encountered on any
breaker whose ProTrip trip unit has previously
demonstrated satisfactory performance. After dis-
connecting the breaker from all power sources, perform
the following procedure:

1. Check that all phase sensors are the same type

(current range).

2. Verify that the tap settings on all three phase sensors

are identical.

3. Verify that the wiring harness connections to the

sensors have the proper polarity (white lead to
common, black lead to tap), as shown in the cabling
diagram in Figure 15.

4. On ground fault breakers serving four-wire loads,

check that the neutral sensor is properly connected,

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