AC servo motors are devices that convert electrical energy into mechanical energy for purposes of motion control. They utilize alternating current and a closed-loop feedback system. Overall, servo motors can provide a lot of power in a smaller package and can deliver a comparable output to motors of larger size.



AC servo rotors operate with reduced inertia. This is important to its fast response time. These motors feature two-phase windings that are positioned at a 90-degree separation. The frequency of the applied voltage and the number of magnetic poles will determine the motor’s operational speed.



These motors are often categorized by size and pole quantity. They can be made with miniature squirrel cage rotors, which operate at various frequencies. These frequencies can be determined through various types of customizations provided by an AC servo motor manufacturer.



A capable industrial AC rotor manufacturer will typically provide stators and AC rotors made to unique performance and equipment specifications. As with motors, industrial AC servo rotors can be customized in various ways, including the cast rotor material, which is frequently made of aluminum or copper.



One of the primary functions of servo motors is in providing precise control over angular or linear position, and acceleration. They are often employed in settings that require dexterous positioning and feedback along with lower power requirements.



The performance and longevity of servo electric motors can be improved with the addition of components like high-performance, high-temperature wiring and insulation. These motors can be used in many critical settings, including aerospace and military equipment as well as a number of industrial electronics and commercial appliances.

What Are Servo Motors Used For?

Servo motors are used in automated or electronic position control applications. When a device or piece of equipment requires precision control, servo motors are often employed to achieve such a performance. Servo motors are used in elevators, electronic arms, robotics, automated grippers, and similar technology.

Are Servo Motors AC Or DC?



Both AC and DC motors can be used servo motors, but to function reliably in a servo capacity, a motor should allow for excellent control and dynamic performance. The motor must also be able to operate in a closed-loop control system. Certain types of DC motors, specifically brushless DC motors can be used in servo systems. Synchronous AC motors are an optimal choice as servo motors. Asynchronous AC motors can sometimes be used in a similar capacity as servo devices, but they require variable frequency drives for speed control and don’t operate in a closed-loop feedback system.

Can Servo Motors Rotate 360 Degrees?

Most servo motors can turn roughly 180 degrees. Continuous servo motors can rotate a full 360 degrees. The degree of rotation of a servo motor is determined by the endpoints established through the length of its pulse.

What Are The Types Of Servo Motors?

Servo motors are typically categorized into three basic types. A common option is the positional rotational servo motor, which provides a half-circle rotation and includes physical stops incorporated into the gear mechanism. Continuous rotational servo motors are similar except they do not include such stops and can turn in both directions for a 360-degree rotation, continuously. Linear servo motors use gears to allow for an output change that enables the motor to turn back-and-forth.

Are Servo Motors The Same As Stepper Motors?

Servo motors are not the same as stepper motors and have a few key differences between them. Stepper motors are made with more poles and can produce greater torque at lower speeds. Servo motors can operate faster than steeper motors and are typically more complex in their construction and operation. They will also provide a more dynamic response, making them more suitable for precision motion control. Servo motors and stepper motors are also controlled in different ways.