What is the Difference Between Isolator and Circuit Breaker?
🆚 Go to Comparative Table 🆚The main difference between an isolator and a circuit breaker lies in their purpose and functionality. Here are the key differences between the two:
- Purpose: An isolator is a disconnecting switch used in an electrical circuit to ensure that the circuit is completely isolated from the supply mains. Circuit breakers, on the other hand, are protective electrical devices that work as a switch, stopping the flow of electric current through the circuit whenever necessary.
- Application: Isolators are mainly used in industrial electrical systems, while circuit breakers are widely used in both industrial and domestic settings.
- Operating Conditions: An isolator is an off-load device, meaning it can only be operated when the current flowing is zero, i.e., when the power supply is off. Circuit breakers are on-load devices, designed to protect against overload by interrupting power from short circuits and overload faults.
- Arc Suppression: Isolators do not have an arc extinguishing system, while circuit breakers have an electromechanical switch, a relay, and an arc extinguishing system.
- Installation: Isolators are installed on both sides of the circuit breaker, while circuit breakers are installed in the circuit.
- Breaking Capacity: Isolators are not used to break load faults, while circuit breakers protect the circuit by interrupting power from short circuit and overload faults.
- Number of Poles: Isolators are designed to have a higher number of poles than circuit breakers.
Both isolators and circuit breakers are crucial components in electrical power systems, ensuring the safe operation of electrical equipment and protecting against faults and damage.
On this pageWhat is the Difference Between Isolator and Circuit Breaker? Comparative Table: Isolator vs Circuit Breaker
Comparative Table: Isolator vs Circuit Breaker
Here is a table comparing the differences between isolators and circuit breakers:
Property | Isolator | Circuit Breaker |
---|---|---|
Contacts | Main and moving arms | Main and arcing contacts |
Withstand Capacity | Low withstand capacity to currents | High withstand capacity |
Arc Quenching Medium | Atmospheric air | Various mediums, such as atmospheric air, SF6, and vacuum |
Installation | Installed on both sides of the circuit breaker | Installed in the circuit |
Application | Used in industrial electrical systems | Used in domestic, commercial, and industrial electrical systems |
Breaking Capacity | Not used to break load faults | Used to break load faults |
Function | Major function is to cut out a section of the electrical system that has faults | Acts like an Automatic Circuit Breaker (ACB), cutting off the entire system in case of a fault |
Construction | Simple mechanical switch | Composed of an electromechanical switch and a relay |
Circuit Symbol | Horizontal line indicates isolating capability | No specific symbol differentiation |
Isolators and circuit breakers are both electrical devices used in power distribution systems, but they serve different purposes and have distinct properties.
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