The centrifugal switch in a single-phase induction motor serves the purpose of providing an automatic mechanism to control the starting and running of the motor. Single-phase induction motors often have difficulty starting on their own due to the absence of a rotating magnetic field during startup, which is typically present in three-phase motors. To overcome this challenge, various methods are employed, and one of them involves using a centrifugal switch.
The centrifugal switch is typically installed on the motor's shaft and is connected to the starting winding of the motor. Its primary function is to disconnect the starting winding from the circuit once the motor reaches a certain speed or a specified point in its rotation. Here's how it works:
Starting Phase: When the motor is initially switched on, both the main winding and the starting winding are energized. The starting winding creates a phase shift in the current flowing through it, which helps to create a rotating magnetic field, albeit a weaker one compared to the main winding. This rotating magnetic field initiates the motor's rotation.
Centrifugal Force Activation: As the motor begins to spin, the centrifugal switch, which is attached to the motor shaft, is also rotating. Due to the centrifugal force generated by the spinning motion, the switch's contacts start to move outward.
Switching Action: Once the motor reaches a certain speed (usually close to its rated speed), the centrifugal force causes the contacts of the switch to open. This action disconnects the starting winding from the circuit. This is important because the starting winding is designed to have a higher impedance, which helps with motor starting but would hinder the motor's efficiency during continuous running.
Running Phase: After the centrifugal switch disconnects the starting winding, the motor continues to run using only the main winding. The main winding creates a stronger magnetic field that provides the necessary torque to maintain the motor's rotation and support its load.
By disconnecting the starting winding, the centrifugal switch helps the motor overcome the initial phase where it needs additional assistance to start turning. Once the motor reaches a certain speed, the switch ensures that the starting winding doesn't remain connected during normal operation, preventing inefficiencies and potential overheating that could occur if both windings were active continuously.
In summary, the centrifugal switch in a single-phase induction motor plays a crucial role in enabling the motor to start and run efficiently by automatically disconnecting the starting winding once the motor reaches a sufficient speed.