Engines

 In this section; You can examine the servo motor products of Siemens, Rexroth, Bosch, Fanuc, Indramat, Sew Eurodrive and many more industry-leading brands. When selling used products, we try and test the product purchased in our existing testing mechanisms, and send test video recording if our customers want to. When ordering servo motors and other materials, the products we ship on the same day to get to your hands at the earliest time reach you in as little as 3 working days at the latest.

 Servo motors are closed circuit motor system. The servo engine includes a control card, DC or AC motor, shaft, gear, potentialaniometer, encoder and amplifier. Thanks to the parts within the servo motors, it has a certain angle, position and speed that a normal engine does not have. The engine is controlled by an analog or digital electrical signal that determines the movement area and boundary that represents the shaft's last command position. A coder type acts as a sensor that provides speed and location feedback. 

 This circuit is built into the engine housing, which is usually equipped with a gear system. Servo motors have 0-90, 0-180-0-270, 0-360 or unlimited rotating variants. The areas used are used in robots, household appliances, industrial areas and hobby studies. They have better performance and precision than frequency converters- based runs, because they do not offer position control and have low efficiency at low speeds. 

 A servo motor is a device that contains a coencer that converts mechanical movement (rotation of the shaft into digital pulses interpreted by a motion controller). It also includes a driver; and together, they create a circuit that manages the location, torque and speed. Its main features are torque and speed. Servo motors can be found on camera zooms, elevator doors or tools we may have at home. 

 Servo motors are considered essential in the design and production of robots. These are systems that require sensitive and controlled mechanical positioning. We can see them in areas such as industrial automation or a growing robotic surgical field.

 With the emergence of digital servo motors, great advances have been made in control and efficiency. The increase in performance is caused by control electronics that use a microcontroller to do all the work. This increases movement sensitivity and performance by allowing the actual engine to feed more control pulses. On the other hand, more potisiometer readings per second are done and more efficient and smaller drives are used to control more power with a much smaller circuit. If this is not enough, the microcontroller offers the chance to program certain parameters such as travel, central location, neutral zone, etc

 Servo motors allow us to create all kinds of controlled movements and is undoubtedly an important advance when developing new technologies. 

AC-DC Servo

Servo motors are divided into AC Servo and DC Servo. AC Servo Motors are generally used in industrial areas.

Dijital-Analog Servo

RC Servos are divided into two groups: Analog Servo and Digital Servo according to circuit usage structures. Analog servos operate at a lower frequency according to digital servos. That's why digital servos react faster and more clearly to commands, getting a better retention moment. Accelerations are smoother and more gradual. The disadvantages compared to analog servos consume more energy, so they consume battery life more quickly.