Servo Motor Application:
Servo motors are used in a wide variety of applications where precise motion control is required. Some of the most common applications include:
Robotics: Servo motors are used in robotics to control the movement of robotic arms, legs, and other parts.
Machine tools: Servo motors are used in machine tools to control the movement of cutting tools.
Printing presses: Servo motors are used in printing presses to control the movement of the print head.
Conveyor belts: Servo motors are used in conveyor belts to control the speed and direction of the belt.
Amusement rides: Servo motors are used in amusement rides to control the movement of the ride.
Automotive: Servo motors are used in automotive applications such as power steering, cruise control, and anti-lock brakes.
Aerospace: Servo motors are used in aerospace applications such as aircraft control surfaces and landing gear.
Other: Servo motors are also used in a variety of other applications, such as medical devices, CNC machines, and wind turbines.
Servo Motor Advantages:
- High precision: Through the closed-loop control system, the position, speed and torque of the motor can be precisely controlled, and the positioning accuracy can reach a very high level, generally accurate to 0.01mm or even higher.
- Fast response speed: With a small moment of inertia and rapid electromagnetic response characteristics, it can reach the set speed and position in a short time. It usually only takes a few milliseconds to tens of milliseconds to go from rest to the rated speed.
- Good stability: Under different working conditions, such as load changes and voltage fluctuations, it can still maintain stable operating performance, ensuring the reliability and consistency of the system.
- Wide speed regulation range: It can achieve smooth speed regulation within a very wide speed range. At low speeds, it can output a large torque, and at high speeds, it can maintain high operating accuracy. The speed regulation ratio can generally reach over 1:10,000.
- Strong overload capacity: It can withstand a large overload current in a short period of time, generally reaching 2 to 3 times the rated torque, or even higher, meeting some application scenarios that require a large instantaneous torque output.
Motor Specification
Motor Drawing
