The centrifugal switch is a crucial component in a split-phase induction motor, which is a type of single-phase AC motor commonly used for various applications such as household appliances, power tools, and small machinery. Its role is to provide a means of starting and stopping the auxiliary winding (also known as the start winding) in the motor.
In a split-phase induction motor, there are two windings: the main winding and the auxiliary (start) winding. These windings are spatially displaced from each other within the motor's stator. The main winding produces the majority of the motor's torque, while the auxiliary winding is responsible for providing an initial phase shift to generate the necessary starting torque.
Here's how the centrifugal switch functions in this setup:
Starting Phase:
When the motor is initially turned on, both windings are energized. The auxiliary winding provides the initial phase shift required to create a rotating magnetic field, which starts the motor's rotation. However, if the auxiliary winding remains energized during normal operation, it could lead to decreased efficiency and increased heat generation.
Running Phase:
As the motor gains speed and reaches a certain rotational speed, the centrifugal switch, which is typically mounted on the motor shaft, is actuated by centrifugal force. The centrifugal switch is designed to open, interrupting the electrical connection to the auxiliary winding. This effectively disconnects the start winding from the circuit.
Role of Centrifugal Switch:
By disconnecting the auxiliary winding, the centrifugal switch ensures that the motor runs primarily using the more efficient main winding. The auxiliary winding is only active during the starting phase when the motor needs the extra torque to overcome inertia and initiate rotation. Once the motor reaches a sufficient speed, the switch opens, preventing the auxiliary winding from drawing unnecessary current and reducing the chance of overheating.
Stopping Phase:
When the motor is turned off, the centrifugal switch remains closed as the motor slows down. This allows the auxiliary winding to remain connected for a brief period, aiding in deceleration. Once the motor slows down to a certain point, the switch closes, reconnecting the auxiliary winding. This is done to ensure that the motor can restart reliably the next time it is powered on.
In summary, the centrifugal switch in a split-phase induction motor serves the crucial purpose of disconnecting the auxiliary winding after the motor reaches a certain speed, improving efficiency and preventing overheating during normal operation.