Not every application will benefit from a stepper motor, but in the right environment stepper motors can be ideal. First, stepper motors have full torque at standstill, and the rotation angle of the motor is proportional to the input pulse. Essentially, stepper motors offer excellent speed control, precise positioning, and repeatability of movement.
Additionally, stepper motors hybrid are highly reliable since there are no contact brushes in the motor. This minimizes mechanical failure and maximizes the operation lifespan of the motor. These motors can be used in a wide range of environments, as many different rotational speeds can be achieved because the speed is proportional to the frequency of pulse inputs.
Applications of Stepper Motors
Stepper motors are diverse in their uses, but some of the most common include:
3D printing equipment
Medical imaging machinery
CNC milling machines
While these applications are the most common, they’re a fraction of what stepper motors can be used for. Generally speaking, any application that requires highly accurate positioning, speed control, and low speed torque can benefit from the use of stepper motors.
While servo motors have their place in industry as well as numerous advantages of their own, stepper motors are an ideal solution in many applications.
Stepper motors such as (14hs10-0404s, 17hs19-1684s-pg5)are a robust motion control technology and can be found inside of many common machines and equipment.
Brush DC Motor VS Brushless DC Motor