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RL/22March2009
1.1
TR-SS
RL-CB/2009
1.1 Circuit Breaker (CB)
1.2 INTRODUCTION
Circuit Breaker is one of the most important equipment in the power system. This
is because of the function of the equipment itself which is, the ability to close a
circuit or to break the circuit during maintenance work or when there is fault in
the system without getting damaged
1.3 DEFINITION
A Device capable of making and breaking an electric circuit under normal and
abnormal condition.
The function of a circuit breaker is just like a water tap; it stops and allows a
water flow through it.
1.4 Types of Circuit Breakers
Circuit breakers may be classified into 7 types such as the following:
• Bulk Oil circuit breakers
• Minimum Oil Circuit Breakers
• Vacuum Circuit Breakers
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• Gas Insulated Circuit Beakers
• Air Insulated Circuit Breakers
• Miniature Circuit Breakers
• Moulded Case Circuit Breakers
1.4.1 Bulk Oil Circuit Breakers
Bulk oil circuit breakers are already obsolete as they are very bulky and
expensive to maintain. It is also a high fire hazard. It is mainly used at
distribution voltage levels as the operating speed is rather slow.
In this breaker the main contacts are immersed in oil which has the dual
function of quenching the arc of the current as well as n insulating medium.
During contact opening to interrupt the current, the arc produced causes
dissociation of the oil into hydrogen and carbon. The hydrogen helps to extinguish
the arc while the carbon causes deterioration of insulation level of the oil. As
carbon is a conductor the oil has to be replaced after several fault clearances.
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1.4.2 Minimum Oil Circuit Breakers
Minimum Oil circuit breakers are generally similar in construction as the bulk
oil circuit breakers except that the latter contain les oil. Minimum oil c circuit
breakers are becoming less popular due to high fire risks but still widely used in
outdoor transmission substations. Their operating time is much faster than bulk
oil circuit breakers.
1.4.3 Vacuum Circuit Breakers
Vacuum circuit breakers are more popular at distribution voltage level. They
require minimum maintenance except to replace the vacuum bottle if a leak has
occurred. These types of breakers are getting more popular in recent years and
tend to replace the oil type. The reasons being they have no fire risk and have high
reliability with long maintenance free period.
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For these breakers the main contacts are housed within a vacuum in an
insulating cylinder of glass or ceramic having metal end plates supporting the
contacts. The vacuum device is usually referred to as a vacuum interrupter.
At 11kV normally only one vacuum interrupter per phase is used. But at 33kV
two interrupters may be used in series per phase. The closing mechanism for
VCBs is usually of the solenoid or spring-closing type. Contact wear is very low
because the arc takes place in vacuum.
1.4.4 Gas Insulated Circuit Beakers
The most commonly used circuit breakers nowadays are the gas circuit breakers
especially at transmission level. Gas circuit breakers normally using sulphur
hexafluoride (SF6) gas as the insulating medium require little maintenance and
have very fast operating time. Well design gas circuit breakers may last more
than 25 years without much maintenance.
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The interrupter unit and the contacts are housed in as Sf6 filled chamber. The
interrupter serves as a nozzle for the SF6 gas to pass through it at high speed
across the arc during contact opening and thus rapidly quenches the arc. SF6 gas
has a high recovery rate and minimal residue.
The closing and tripping mechanisms are similar to those of other breakers.
1.4.5 Air Insulated Circuit Breakers
Air insulated circuit breakers (ACBs) are normally used at distribution voltage
levels of 3.3kV and below especially in power stations as they are often modular
in design and may conveniently be arranged into multi-tier switchboards. They
also pose minimum fire hazard as there are no combustible materials used.
Cross Section view of a Gas Circuit Breaker
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The operating principle of this breaker is that the arc of the current is directed into
a chute where the arc resistance becomes higher and the arc rapidly diminished to
zero.
The forces directing the arc into the chutes of the ACBs are the electromagnetic
and thermal forces of the arc itself. In certain cases, to assist in the quenching of
low current arcs, an air cylinder is fitted to each pole to direct a puff of air across
the contact faces as the breaker opens. This helps to reduce erosion of the contact
surfaces.
Operating mechanisms for ACBs are similar to those used in OCBs.
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1.4.6 Miniature Circuit Breakers
MCBs are the smaller both in physical size and particularly the ratings compared
to MCCBs. Normally it us of a single pole design. It is small, manually closed and
electrically or manually opened. The MCBs have built-in bimetal strip to trip the
MCBs when excessive currents pass through them. The operation of the bimetal
corresponds to predetermined inverse-time/current characters tics. But for current
above 6 to 8 times rated current MCBs will trip instantaneously actuated by a
magnetic overcurrent trip elemnt. Neither part of the overall operation time of the
MCBs are adjustable.
1.4.7 Moulded Case Circuit Breakers
Generally MCCBs are similar to MCBs but have the following important
differences:
a. Current ratings are generally in excess of 100A up to 2.5 kA or higher.
Voltage ratings up to 1000 V a.c and 12000 d.c.
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b. The breakers are larger, in line with the level of ratings. MCCBs are
available as single pole, double pole, and triple pole or four pole units.
However, for multi-pole units they are moulded in one common housing.
Further, the switch for the neutral circuit is a separate device coupled to the
multi-pole MCCB.
c. The overall operating tie may be adjustable especially the larger ones.
d. Since they are of higher ratings MCCBs are normally positioned close to the
power source than the MCBs.
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1.5 Types of Site Electrical Test conducted on a Circuit Breaker
1.5.1 Timing Test
To measure the speed of breaker operation. Usually for opening and
closing operation.
1.5.2 Contact Resistance Test
To measure the resistance value of the main contact( fixed contact and
moving contact)
1.5.3 Dew Point Test for SF6 Gas on GCB
To measure the moisture contents of the SF6 gas.
1.5.4 Vacuum Test for VCB
To check that there is no leak on the Vacuum Insulation
*** This is just a draft lesson note, all your feedbacks on this note is very much welcome.
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