3 mechanism – GE Industrial Solutions GERAPID 2508, 4008, 5008, 6008 WITH ARC CHUTE 1X2 User Manual

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Design and specifications are subject to change without notice

S47183De rev.02 2011-03-14

3.2.3 Mechanism

 The Gerapid is equipped with a modular designed

mechanism, which is wear-resistant and nearly maintenance-

free. This mechanism ensures an extended electrical and
mechanical endurance of the breaker as well as a high level
of safety under all operation conditions.

 Breaker can operate 20 000 cycles without maintenance

when opened by the shunt trip or zero voltage release coils,
and 1 000 operations by means of impulse coil or OCT
releases.

 This mechanism is mechanically latched in the CLOSED

position. A mechanically latched mechanism offers

advantage compared to often used electro magnet holding
system. No auxiliary control power source is required to keep
breaker closed.

 The mechanism is provided with two tripping latches [Fig. 6].

One latch, called “slow latch”, is used for opening under
normal conditions, like actuation of shunt trip or zero-voltage
release. The second one, “quick latch”, de-clutches the main
contact arm from the mechanism and opens the contacts
with an extremely short delay. This is used when interrupting
short-circuit or overloads. All safety releases operate onto

“quick latch”.

 Different main springs are used in mechanisms for different

breaker frames. Therefore mechanisms cannot be exchanged
between breakers of different frame.

Fig. 6 Latching and tripping system

3.2.4 Overcurrent release OCT

 The OCT release is a magnet with two magnetic circuits,

optimizing the twin magnetic field principle [Fig. 7]. This
technology ensures equally fast tripping in both current

directions. This system does not require an auxiliary control
voltage to operate. It is a direct acting and instantaneous
tripping device.

 The OCT consists of the holding circuit [6], the movable

armature [3] and the tripping circuit [7]. The holding and the
tripping magnetic circuits are both excited by load current [1].
Until the static overload release’s response threshold has

been reached, the armature [3] is held in position by the
holding flux (H) [2] and the counter spring’s force [4]. Once
the load current exceeds the set static response threshold,
the attraction flux (A) [2] takes over and rapidly pulls down

 the flexible armature [3]. During this operation, the armature

hits the seesaw, which releases the quick latch in the
mechanism. The latch and contacts are opened immediately.

 The OCT is available in either a fixed setting or adjustable over

specific ranges. On the adjustable OCT, the response
threshold can be easily adjusted by turning the adjustment
nut with a SW6 hexagon wrench. The available ranges are
described in the table below. Other ranges might be possible
on request.

Fig. 7 OCT device.

Default tripping bands for the OCT release

1)

.

1) Customer specific bands on request.

Code OCT

bands

2508 4008 5008 6008

A

1.5 kA – 2.5 kA

B

1.5 kA – 3 kA

C

1.5 kA – 4 kA

D

1.5 kA – 5 kA

E

2 kA – 6 kA

F

2 kA – 7 kA

G

2 kA – 8 kA

H

2,5 kA - 5,5 kA

J

3 kA – 7 kA

K

3 kA – 8 kA

L

3 kA – 9 kA

M

3 kA – 12 kA

N

5 kA – 10 kA

P

6 kA – 14 kA

Q

7 kA – 15 kA

S

8 kA – 18 kA

T

10 kA – 16 kA

U

12 kA – 24 kA

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