A Permanent Split Capacitor (PSC) motor is a type of single-phase electric motor that is commonly used in various applications, such as in fans, blowers, pumps, and some appliances. It is a type of induction motor, which means it operates on the principle of electromagnetic induction to produce rotational motion.
The distinguishing feature of a PSC motor is the presence of two windings: the main or running winding and the auxiliary or starting winding. These windings are physically placed 90 degrees apart from each other around the stator (the stationary part of the motor). The main winding is typically made of heavy-gauge wire and provides the motor's continuous torque during normal operation, while the auxiliary winding, made of a lighter gauge wire, is responsible for starting the motor.
Additionally, a capacitor is connected in series with the auxiliary winding. This capacitor serves to create a phase shift between the currents in the main and auxiliary windings, which produces a rotating magnetic field. The interaction of this rotating magnetic field with the magnetic field produced by the stator's winding allows the motor to start and continue running.
During startup, the auxiliary winding and the capacitor provide the initial torque to get the motor running. Once the motor reaches a certain speed, a centrifugal switch disconnects the capacitor from the circuit. The motor then operates with only the main winding, making it more efficient during continuous running.
Advantages of PSC motors include their simplicity, cost-effectiveness, and reliability. They do not require a centrifugal starting switch, which means fewer moving parts that could wear out. However, PSC motors typically have lower starting torque compared to other motor types like the Capacitor Start Capacitor Run (CSCR) motor or the Capacitor Start Induction Run (CSIR) motor. As a result, they may not be suitable for applications that require high starting torque, but they are well-suited for applications where constant speed is sufficient.