A synchronous motor is a type of AC (alternating current) electric motor that operates in synchrony with the frequency of the AC power supply. It's called "synchronous" because its rotation speed is directly synchronized with the frequency of the AC voltage applied to it. This is in contrast to asynchronous or induction motors, where the rotor speed does not match the synchronous speed exactly and they slip behind it, resulting in a difference known as slip.
Synchronization of a synchronous motor with the AC frequency is achieved through the design of the motor and the control of its field winding. Here's how it works:
Stator: Like other AC motors, a synchronous motor has a stator, which is the stationary part of the motor that contains the coils or windings that generate the rotating magnetic field when AC voltage is applied. The stator's magnetic field induces a current in the rotor, which in turn creates a magnetic field in the rotor.
Rotor: The rotor of a synchronous motor contains field windings or permanent magnets. These field windings are electromagnets that generate a magnetic field. The rotor's magnetic field interacts with the stator's rotating magnetic field, causing the rotor to turn.
Frequency Synchronization: In order to synchronize the motor with the AC frequency, the field winding of the rotor must be controlled. The field winding's current is adjusted to match the frequency of the AC voltage supply. When the current in the rotor's field winding matches the frequency of the AC power supply, the motor rotates at synchronous speed, which is directly proportional to the frequency of the AC voltage.
No Slip: Unlike induction motors, which have a slip and can operate at speeds slightly lower than synchronous speed, synchronous motors operate at a speed that is exactly synchronous with the AC frequency. This makes them suitable for applications where precise speed control is required, such as in some industrial processes, power generation, and applications that require constant speed regardless of the load.
Synchronous motors are commonly used in applications like power generation in power plants, controlling the speed of clocks and timing devices, and in industries where maintaining a constant speed is critical, such as in textile mills or paper manufacturing. However, they require more complex control systems to ensure synchronization with the AC frequency, and they may be more expensive to manufacture and maintain compared to induction motors.