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ABB Power T&D Company Inc.

Relay Division
Coral Springs, FL 33065

Instruction Leaflet

All possible contingencies which may arise during installation, operation or maintenance, and all details and
variations of this equipment do not purport to be covered by these instructions. If further information is desired
by purchaser regarding this particular installation, operation or maintenance of this equipment, the local ABB
Power T&D Company Inc. representative should be contacted.

Effective:

May 1997

( | ) Denotes Change Since Previous Issu

e

Printed in U.S.A

.

Before putting protection relays into service,

remove all blocking which may have been

inserted for the purpose of securing the parts

during shipment. Make sure that all moving

parts operate freely. Inspect the contacts to

see that they are clean and can close prop-

erly. Operate the relay to check the settings

and electrical connections.

1.

APPLICATION

The COQ is used to prevent a synchronous machine
from being damaged due to negative sequence fault
currents. Two varieties are available, as shown in
Figures 2 and 3, depending upon whether the neutral
can be formed at the COQ or whether the neutral
must be formed elsewhere. (See external schematic,
Figures 8 and 9.)

2.

CONSTRUCTION AND OPERATION

The COQ consists of an induction disc overcurrent
unit, a negative sequence filter, and an indicating
contactor switch (ICS).

2.1.

Overcurrent Unit

This is an induction-disc type unit operated by nega-
tive sequence quantities supplied to an electromag-
net in the rear of the relay. A voltage is induced in the
secondary coil of this electromagnet by transformer
action of the main coil. Both coils are located on the
center leg of the electromagnet. Current flow is from
the secondary coil to coils on the outer legs of the

!

CAUTION

Supersedes I.L. 41-161H Dated July 1984

Type COQ

Negative Sequence Generator Relay

(50/60 Hertz)

electromagnet. The reaction between the outer leg
coil fluxes and the main coil flux creates an operating
torque on a spiral shaped aluminum disc mounted on
a vertical shaft.

2.2.

Indicating Contactor Switch Unit (ICS)

The dc indicating contactor switch is a small clapper
type device. A magnetic armature, to which leaf-
spring mounted contacts are attached, is attracted to
the magnetic core upon energization of the switch.
When the switch closes, the moving contacts bridge
two stationary contacts, completing the trip circuit.
Also during this operation two fingers on the arma-
ture deflect a spring located on the front of the
switch, which allows the operation indicator target to
drop. The target is reset from the outside of the case
by a push rod located at the bottom of the cover.

The front spring, in addition to holding the target, pro-
vides restraint for the armature and thus controls the
pickup value of the switch.

3.

CHARACTERISTICS

3.1.

Overcurrent Unit

The COQ negative sequence relay is available with
the following negative sequence current taps:

3

3.25

3.5

3.8

4.2

4.6

5.0

These tap values represent the current transformer
secondary amperes which correspond to one per unit
generator current. At these values of negative
sequence current, the moving contact will leave the
time dial stop and reach the stationary contacts in a
time as determined by the time dial setting and is as
shown by Figure 7. For example, with a time dial

I.L. 41-161J

Summary of Contents for COQ

Page 1: ...y coil of this electromagnet by transformer action of the main coil Both coils are located on the center leg of the electromagnet Current flow is from the secondary coil to coils on the outer legs of the CAUTION Supersedes I L 41 161H Dated July 1984 Type COQ Negative Sequence Generator Relay 50 60 Hertz electromagnet The reaction between the outer leg coil fluxes and the main coil flux creates an...

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Page 3: ... 3 is used with a machine full load current of 4 Typical time current curves of the relay are shown in Figure 7 Minimum pickup is approximately 0 6 of the tap value current See Table 1 for burdens and termi nal ratings 3 2 Trip Circuit The main contacts will safely close 30 amperes at 250 volts dc and the seal in contacts of the indicating contactor switch will safely carry this current long enoug...

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Page 5: ...ly approximately 5 amperes 3 phase positive sequences current on 3 amp tap and see that relay does not operate Set relay at 11 time dial and jumper terminals 2 6 and 8 Set tap 3 and apply 26 0 amperes through ter minals 3 and 7 See Figure 10 IA 26 0 and IB 26 180 amperes Therefore negative sequence 15 amps Time of operation with relay in the case should be 3 2 seconds 8 Repeat test with relay on 5...

Page 6: ... time dial until stationary contact is deflected against the backstop Adjust if necessary so that 0 mark on time dial coincides with index Then with time dial at 0 wind up spring until about 5 1 2 con volutions show From this preliminary setting and using 3 tap and time dial setting of 11 adjust the permanent magnet until the relay operates in 8 2 seconds with 15 6 amperes single phase or 3 per un...

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