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L&T Switchgear 100A Isolator 2 Pole DP BF210000

609 inc. GST
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L&T Switchgear 100A Isolator 4 Pole FP BF410000

991 inc. GST
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L&T Switchgear 40A Isolator 2 Pole DP BF204000

353 inc. GST
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L&T Switchgear 40A Isolator 4 Pole FP BF404000

811 inc. GST
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L&T Switchgear 63A Isolator 2 Pole DP BF206300

454 inc. GST
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L&T Switchgear 63A Isolator 4 Pole FP BF406300

823 inc. GST
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L&T Switchgear 80A Isolator 2 Pole DP BF208000

580 inc. GST
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L&T Switchgear 80A Isolator 4 Pole FP BF408000

937 inc. GST
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Legrand Isolators DX3 100A 2 Pole DP 240 V AC applications 4065 04

638 inc. GST
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Legrand Isolators DX3 100A 4 Pole FP 415 V AC applications 4065 22

1,060 inc. GST
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Legrand Isolators DX3 125A 2 Pole DP 240 V AC applications 4065 05

725 inc. GST
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Legrand Isolators DX3 125A 4 Pole FP 415 V AC applications 4065 23

1,168 inc. GST
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Legrand Isolators DX3 40A 2 Pole DP 240 V AC applications 4065 01

351 inc. GST
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Legrand Isolators DX3 40A 4 Pole FP 415 V AC applications 4065 19

779 inc. GST
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Legrand Isolators DX3 63A 2 Pole DP 240 V AC applications 4065 02

464 inc. GST
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Legrand Isolators DX3 63A 4 Pole FP 415 V AC applications 4065 20

852 inc. GST
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Schneider Electric Acti 9 Isolator 100A 2 Pole DP xSW A9S2P100

943 inc. GST
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Schneider Electric Acti 9 Isolator 100A 4 Pole FP xSW A9S4P100

1,485 inc. GST
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Schneider Electric Acti 9 Isolator 125A 2 Pole DP xSW A9S2P125

974 inc. GST
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Schneider Electric Acti 9 Isolator 125A 4 Pole FP xSW A9S4P125

1,604 inc. GST
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Schneider Electric Acti 9 Isolator 40A 2 Pole DP xSW A9S2P040

409 inc. GST
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Schneider Electric Acti 9 Isolator 40A 4 Pole FP xSW A9S4P040

911 inc. GST
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Schneider Electric Acti 9 Isolator 63A 2 Pole DP xSW A9S2P063

542 inc. GST
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Schneider Electric Acti 9 Isolator 63A 4 Pole FP xSW A9S4P063

996 inc. GST
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Schneider Electric Acti 9 Isolator 80A 2 Pole DP xSW A9S2P080

650 inc. GST
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Schneider Electric Acti 9 Isolator 80A 4 Pole FP xSW A9S4P080

1,319 inc. GST
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Siemens Betagard Isolator 2 Pole DP 100A 5TL12910

878 inc. GST
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Siemens Betagard Isolator 2 Pole DP 125A 5TL12920

911 inc. GST
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Siemens Betagard Isolator 2 Pole DP 32A 5TL12320

389 inc. GST
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Siemens Betagard Isolator 2 Pole DP 40A 5TL12400

399 inc. GST
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Siemens Betagard Isolator 2 Pole DP 63A 5TL12630

526 inc. GST
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Siemens Betagard Isolator 2 Pole DP 80A 5TL12800

690 inc. GST
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Siemens Betagard Isolator 3 Pole TP 100A 5TL13910

1,059 inc. GST
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Siemens Betagard Isolator 3 Pole TP 125A 5TL13920

1,146 inc. GST
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Siemens Betagard Isolator 3 Pole TP 32A 5TL13320

643 inc. GST
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Siemens Betagard Isolator 3 Pole TP 40A 5TL13400

747 inc. GST
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Why buy Isolators?

Difference between MCB’s and Isolators

Isolators are very similar to Miniature Circuit Breakers and can be easily confused. The basic difference between the two devices is this:

  1. MCBs an automated switch that provides protection from overloads and short circuits.
  2. Isolators are manually-operated switches which are used to de-energize a part of a circuit for service or maintenance.

This is the basic premise of their purpose. MCBs are on-load devices whereas Isolators are off-loaded devices, with very low breaking capacity, intended to be opened only after the current has been interrupted by some other control device. Isolators are usually used in power substations and high voltage devices such as transformers, etc. Isolators restrain DC signals and make way for AC signals to pass. They are advised not to be opened in on-load conditions. They are usually used in circuit breakers (at both the ends) so that the circuit breaker can be inspected upon for maintenance.

 Diagram showing the placement of Isolatorson a Circuit Breaker(CB)

Types of Isolators:

Based on their application:

  • Double Break TypeThis type of isolator consists of three loads of post insulators. The middle insulator holds a tubular contact that can be turned straightly by a spin. The rotation of the middle insulator can be done by a lever mechanism at the bottom of that insulator; also it is related to manual operation (operating handle) of the isolator via a mechanical knot rod.
  • Single Break Type-In this type of isolator, the arm contact is separated into two elements. The first arm contact holds male contact; the second arm contact holds female contact. The arm contact shifts because of the rotation of the insulator on which the arm contacts are fixed.

The post insulators rotations stay in reverse to each other which allows it to shut the isolator by shutting the arm contact. Insulators counter-rotation stays to open the arm contact, as well as an isolator, rotate into an off condition. Generally, the motor-operated isolator is used as an emergency, a manually operated isolator is also offered.

  • Pantograph Type The pantograph type isolator permits the current switchgear installation, and it requires the least space. These insulators include both post insulators and operating insulators.
  • MCB Isolator These are used to provide protection in domestic scale wiring and low power commercial establishments. Hence these are ideal for use at homes, small offices, or residential complexes. Just like an MCB, MCB isolators also come in single pole, double pole, triple pole, and four pole configurations.

According to the location in the power system, there are three types:

Bus Side

It connects by the major bus

Line Side

Stays connected by a feeder in the line

Transfer Bus Side

Connects to the transfer bus

Depending on line voltage,

Low Voltage

These are designed to endure up to 11KV.

Medium Voltage

These can withstand between 11KV to 66KV.

High Voltage

These are used in circuits where 66KV to 330KV is used.

Operation of Isolator:-

The operation of an electrical isolator can be done by the following two operations, namely opening and closing.

Opening Operation of Electrical Isolator

Open the major circuit breaker.

Open the Isolators on both ends of the circuit breaker.

Close the earth switch.

Closing Operation of Electrical Isolator

Open the earth switch

Shut the Isolators

Close the circuit breaker

Comparison between Isolators and Circuit Breakers:

Isolators

Circuit Breakers

It’s meant only for interrupting the power during maintenance or repair.

Circuit breakers are meant for protecting a circuit or equipment from short circuit and overload while they are in operation.

 Can be operated only during offload.

They can be operated under on-load and offload situations.

The breaking capacity of isolators is very less.

The breaking capacity of circuit breakers is high.

Isolators can shut off a part of the circuit in case of a fault. The remainder of the circuit receives current without interruption.

Circuit Breakers like ACB and MCB, if tripped turn off the flow of current in the whole circuit.

An isolator does not require the presence of Relay to be operational.

Circuit breakers cannot function without Relay.

Has to be operated manually.

Can be operated manually or automatically.

Application of Isolators:

The applications of the isolator are as follows

  • In high voltage devices like transformers and high voltage circuit breakers.

  • These are protected with a security mechanism to prevent careless use.

  • When a fault occurs in a substation, then the isolator cuts out a portion of a substation.

  • They are used to de-energize the circuit/ part of a circuit, for maintenance and safety.

Isolators in Microwaves-

Isolators are used in microwave ovens as well. You did not know, did you? Well, it is true. Microwave ovens use a different kind of electrical isolators; these isolators are two-port devices which allow the transmission of microwave power in a singular direction. It employs vertical and horizontal polarization and uses it to prevent the energy signals from being sent from the input side to the output side to be reflected backward.

These isolators are generally made up of magnetic substances or ferrite materials. While choosing a microwave isolator, make sure that it is of such quality that it makes the least amount of noise when used in the system; this is called insertion loss.

Significance of Isolators:-

So far we have been discussing isolators and their different types and functions. Now we must focus on why they are absolutely necessary for the safety of both electrical equipment and the people operating these equipment. Firstly, isolators are a safety device. It ensures that the circuit has been de-energized so that it can be safely inspected and maintained. Many people may argue that an isolator and an MCB serve the same purpose. Apparently, that statement may sound true but the purpose served by MCBs and isolators is very different. MCBs under normal conditions can be used to cut the power sources to the entire circuit. However under circumstances, such as a short circuit or power overload, the MCB may trip to sever the flow of current into the circuit and save the appliances but it might still be dangerous to touch the MCB because it may carry a huge amount of static charge. This is where isolators save the day. When the isolator is closed it grounds any remaining charge in the circuit and makes it safe to operate and check for further damages.

Major manufacturers:

Major Manufacturers of MCB Isolators are Siemens, Schneider Electric, Legrand, and L&T.