Advantages and disadvantages of Vacuum Circuit Breaker

A circuit breaker is a switching device that can be operated manually or automatically for controlling and protecting the electrical power system. Vacuum Circuit Breakers use vacuum as the interrupting medium due to its high dielectric and diffusive properties. Read this new blog in Linquip to know more about this type of circuit breaker and Its applications.


What is Vacuum Circuit Breakers?

Vacuum circuit breakers are compactly designed for safe operation, high reliability, and easy maintenance, and find a use for various types of high voltage circuits. They interrupt an electric circuit to prevent unwarranted current, caused by a short-circuit, typically resulting from an overload.

There are mainly five types of circuit breakers, generally used as protective equipment of high voltage system:

  1. Oil Circuit breaker (OCB)

  2. Minimum Oil Circuit breaker (MOCB)

  3. Vacuum Circuit Breaker (VCB)

  4. SF6 Circuit Breaker

  5. Air Circuit Breaker (ACB)

Vacuum Circuit Breaker Operation

It is an electrically operated switch. There is no overcurrent devices built-in. The overcurrent protection and control comes from using the current transformer (CT) and protective relays that are mounted in the switchgear assembly. Power supplies from a control source, batteries, or control power transformer external to the breaker assembly.

When a fault occurs in the system, the contacts of the breaker are moved apart, and hence the arc is developed between them. When the current-carrying contacts are pulled apart, the temperature of their connecting parts is very high due to which ionization occurs. As a result of ionization, the contact space which is discharged from the contact material is filled with a vapor of positive ions.

The density of vapor depends on the current in the arcing. Due to the decreasing mode of current wave rate of release of vapor fall, and after the current zero, the medium regains its dielectric power provided vapor density around the contacts reduced. Hence, the arc does not restrike again because the metal vapor is quickly removed from the contact zone.

Advantages of Vacuum Circuit Breaker

Since the advent of vacuum circuit breakers in the early 1960s, the technical parameters of vacuum circuit breakers have been continuously improved, with excellent performance and outstanding performance. The advantages developed fast, and the application in high-voltage switch cabinets has become more and more extensive.

  • It has a small operating mechanism, small size, and lightweight.

  • The control power is small, and the action noise is low during switch operation.

  • The contact head classifies into a completely sealed structure, and its performance is not going to decline by the influence of moisture, dust, harmful gases, etc. Reliable work, stable on-off performance.

  • The ring will not age or need to be replaced. Within the service life, the contact part does not need to be repaired or inspected. Generally, it can be up to about 20 years without inspection. The maintenance workload is small, and the maintenance cost is low, only about 1/20 of the oil-less circuit breaker.

  • With multiple reclosing functions, it is suitable for the application requirements of the distribution network.

  • The contact gap is little, generally about 10mm, the closing power is low, the mechanism is simple, and the service life is long.

  • The arc extinguishing time is short, the arc voltage is low, the arc energy is small, the contact loss is small, and the number of breaking times is numerous.

  • The inertia of the movable guide rod is small and can be used frequently.

Disadvantages of Vacuum Circuit Breakers

  • The main disadvantage is that it is uneconomical at voltages exceeding 38 KVolt. The cost of the breaker becomes excessive at higher voltages. Besides, production in small quantities is uneconomical.

  •  The one-time investment price of the product is relatively high, which is mainly determined by the professional production of the vacuum interrupter and the requirements of institutional reliability. If you consider the operation and maintenance costs comprehensively, the price is not high.

  • When the inductive load or capacitive load is disconnected, it is easy to cause over-voltage due to current interception, justification, reignition, etc., and don’t forget to adopt corresponding over-voltage protection. 

  • Since the contact structure of vacuum circuit breakers adopts the butt connection type, and the operating mechanism uses a spring, it is easy to produce closing bounce and opening rebound. Closing bounce will not only end to high over voltages that affect the stable operation of the power grid but also cause contact burn-out or even welding when the capacitor bank generates inrush current and short-circuit closing. Opening bounce will reduce the distance between the contacts after the arc, leading to a breakdown, and the consequences are so significant.

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