A Nema 23 hybrid closed-loop stepper motor is a type of stepper motor that uses a hybrid design and a closed-loop controller to achieve high precision and accuracy. The Nema 23 hybrid closed-loop stepper motor design combines the advantages of both permanent magnet and wound-rotor stepper motors, while the closed-loop controller provides feedback to the motor, ensuring that it rotates exactly as commanded.
Here are some additional details about the Nema 23 hybrid closed-loop stepper motor:
Step angle: The step angle is the angle that the motor shaft rotates when one step of current is applied. The step angle of a Nema 23 hybrid closed-loop stepper motor is typically 1.8 degrees.
Holding torque: The holding torque is the maximum torque that the motor can produce while holding its position. The holding torque of our Nema 23 hybrid closed-loop stepper motor is typically 1nm or 2nm or 2.2nm.
Rated current: The rated current is the current that the motor is designed to operate at. The rated current of a Nema 23 hybrid closed-loop stepper motor is typically 4 A.
Voltage: The voltage that the motor operates at is typically 24 V.
Here are some of the benefits of using a Nema 23 hybrid closed-loop stepper motor:
High precision: The closed-loop controller ensures that the motor rotates exactly as commanded, providing high precision and accuracy.
High torque: The motor produces high torque, making it ideal for applications that require a lot of force.
Low speed: The motor can operate at low speeds, making it ideal for applications that require precise positioning.
|Step Angle Accuracy||±5%|
|Insulation Resistance||100MΩMin 500VDC|
|Dielectric Strength||500V AC 1minute|
|Allowable Radial Load||0.02mm Max.(450g load)|
|Allowable Thrust Load||0.08mm Max.(450g load)|
|Model||ShaftΦ(mm)||Shaft Type(mm)||Shaft L(mm)|
*Note:We can manufacture products according to customer's requirements.