Wittenstein Cyber Linear Servo Motors

The Cyber Linear Servo Motor works as part of a closed loop system providing force and velocity as commanded by a servo controller utilizing feedback to close the loop. Linear servo motors are similar to rotation servo motors. They have the same rotational capacity, but the servo also has added gears that allow it to move in a linear pattern (forward and backward). A cyber linear servo motor is known for its high positioning accuracy, repeatability, and smooth motion.

The Linear servo motor can be used in a variety of applications, such as:

High-speed pick-and-place machines
High-accuracy pick-and-place or dispensing applications
Scanners that need smooth and precise movements
Long-life and low-maintenance expectations
Applications that require low power and high efficiency

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A linear servo motor is an electric motor that produces linear motion along a straight line or axis. These motors are typically used in applications that require precise, accurate, and repeatable positioning, such as in robotics and automation systems. Unlike rotary servo motors, which use rotational motion to move a load, linear servo motors use linear motion to move a load along a straight line.

Linear servo motors are constructed using a combination of a moving magnet, stator windings, and a feedback system. The stator windings are connected to the moving magnet, suspended in a linear housing, and aligned with the stator windings. An electromagnetic field is created when a current is passed through the coil. The magnetic field interacts with the stator’s magnetic field, causing a force to be exerted on the rotor. The force moves the rotor in a linear direction. The feedback system ensures that the motor remains within the desired position range.

Advantages:

Versatility: Linear servo motors can be used in various applications, including automation and robotics.
High speed: Linear servo motors can reach speeds from 3,000 and up to 5,000 RPM.
Compact size: Linear servo motors are significantly smaller than other types of servo motors, making them ideal for tight spaces.
High precision and accuracy: Linear servo motors can provide very high levels of accuracy and positioning repeatability.

Disadvantages:

Limited power: Linear servo motors are limited in terms of the amount of power they can produce.
Low torque: Linear servo motors produce relatively low levels of torque.
Expensive: Linear servo motors can be expensive to purchase, install and maintain.

In conclusion, linear servo motors can be an excellent choice for applications that require precise and repeatable motion. However, they are more expensive and complex than other motors and require careful consideration before being used for a particular application.