The HN Series hybrid stepper motors feature low detent torque to holding torque ratios, which promotes both smooth operation and the fine positioning capability necessary for micro-step operation.

The primary feature of stepper motors is listed right within their name: their ability to ‘step’ forwards and backwards, something which they (ideally) can do perfectly in sync with the input provided ...

The growing availability of customizable options for motors allows engineers to tailor motors to specific application needs, while modular designs simplify integration and reduce development time.

The MAE HN Series hybrid stepper motors feature low detent-torque-to-holding-torque ratios, enabling the smooth operation and fine positioning capabilities required for microstep operation. The motors ...

The HoneyComb Series linear stepper x-y positioning base features a novel honeycomb-structured composite material to reduce the cost of applying advanced linear motor technology. The base’s moving ...

All of the motors measure 21mm from front to back, plus 8mm of shaft protrusion. In each case there is a standard and a higher holding-torque variant, for example: the 42mm 200mNm HS17HX7L4100 and its ...

Rotary motor motion is usually converted to linear through rack and pinion sets, belts and pulleys, and other mechanical linkages. These are effective Rotary motor motion is usually converted to ...

Stepper and servo motors have different attributes when considered for motion applications. Torque curves play an important role in selecting the proper size and type of motor for an application.

For tasks requiring sub-micrometer precision — such as alignment, adjustment, or fine positioning — PI’s M-235, L-220, and M-230 series linear actuators deliver reliable, high-performance motion.

Not missing a beat: Here we take a look at why open-loop steppers lose steps, as well as some solutions to the problem. As in the below) half-stepping produces eight steps per electrical rotation — ...