In single-phase induction motors, both run capacitors and start capacitors are used to provide additional phases to the motor, which is essential for its proper functioning. These capacitors are responsible for creating a rotating magnetic field that enables the motor to start and run smoothly. However, they serve different purposes during different stages of motor operation. Here's the difference between run capacitors and start capacitors:
Start Capacitor:
Purpose: The start capacitor is used specifically during the starting phase of the motor.
Function: When the motor is switched on, the start capacitor provides an initial phase shift to the motor's auxiliary winding, which helps create the necessary rotating magnetic field to start the motor's rotation.
Duration: The start capacitor remains in the circuit only during the starting process. Once the motor reaches a certain speed, a centrifugal switch or a relay disconnects the start capacitor from the circuit. This is because the start capacitor is not designed to handle continuous operation, and it may overheat if left connected during the running phase.
Run Capacitor:
Purpose: The run capacitor is used during the running or steady-state operation of the motor.
Function: It provides a continuous phase shift to the motor's auxiliary winding, which helps maintain the rotating magnetic field and improves the motor's efficiency and performance during steady operation.
Duration: The run capacitor remains connected to the circuit throughout the motor's operation. It is designed to handle continuous duty and does not overheat during prolonged use.
In summary, the start capacitor is employed to help the motor start by providing an initial phase shift, and it is disconnected once the motor reaches sufficient speed. On the other hand, the run capacitor remains connected during steady-state operation to maintain the rotating magnetic field and enhance the motor's efficiency. Both capacitors work together to enable single-phase induction motors to start and run smoothly.