|Place of Origin:
|Minimum Order Quantity:
|7-25 work days
|T/T, Western Union, L/C
|250000pcs /per month
|NEMA17 Encoder Stepping Motor
|CE, ISO, ROHS
Nema 24 Encoder Stepper Motor,
60mm Encoder Stepper Motor,
60mm bi polar stepper motor
60mm Encoder Stepping Motor Standard Type NEMA24 1.8 step motor for Office Automation
Product description of Encoder stepping motor
1. Mechanical size 100% meet the requirements, to ensure that there is no greater error in the use proces
2. Accurate Speed Control
The rotational speed of the stepping motor can be precisely controlled ,By controlling the frequency of the electric pulse.
3. Strictly control the production of parts to improve the quality of parts
4.The material is selected from well-known manufacturers at home and abroad. The advantages are light weight, good heat dissipation performance, good thermal conductivity, die-casting, good plasticity, higher elongation than iron, low noise, good motion stability, the disadvantages are high price, low hardness
5. Online testing of technical parameters to ensure the consistency of data product parameters
Speed/Torque Characteristics(Reference Value)
Working principle of stepper motor
To make the motor shaft turn, first one electromagnet is given power, which makes the gear’s teeth magnetically attracted to the electromagnet’s teeth. The point when the gear’s teeth are thus aligned to the first electromagnet, they are slightly offset from the next electromagnet. So when the next electromagnet is turned ON and the first is turned OFF, the gear rotates slightly to align with the next one and from there the process is repeated. Each of those slight rotations is called a step, with an integer number of steps making a full rotation. In that way, the motor can be turned by a precise. Stepper motor doesn’t rotate continuously, they rotate in steps. There are 4 coils with a 90o angle between each other fixed on the stator. The stepper motor connections are determined by the way the coils are interconnected. In a stepper motor, the coils are not connected. The motor has a 90o rotation step with the coils being energized in a cyclic order, determining the shaft rotation direction. The working of this motor is shown by operating the switch. The coils are activated in series in 1-sec intervals. The shaft rotates 90o each time the next coil is activated. Its low-speed torque will vary directly with current.
Stepper motors operate differently from DC brush motors, which rotate when voltage is applied to their terminals. Stepper motors, on the other hand, effectively have multiple toothed electromagnets arranged around a central gear-shaped piece of iron. The electromagnets are energized by an external control circuit, for example, a microcontroller.