We’ve all heard linear motors, like those propelling Maglev trains, described as “unrolled” versions of regular electric motors. The analogy is apt and helps to understand how a linear motor works, ...

Stepper motors produce accurate, computer-controlled motion for applications such as robotic arms and paper-feed mechanisms for printers. They require current pulses delivered through a special ...

For his entry into the 2019 Hackaday Prize, [Tobius Daichi] is working on adding some motion control capabilities to everyone’s favorite Linux SBC. His 3+Pi board attaches to the Raspberry Pi’s GPIO ...

The amount of noise in a motor depends on the type of motor, environmental conditions, and the specific application. Permanent magnet and hybrid stepper motors are generally quieter, as they have a ...

This file type includes high-resolution graphics and schematics when applicable. Millions of small electrical devices with built-in motor-driven mechanisms, used daily around the world, rely on ...

Here is how to implement a stepper motor to sense position and actively correct any error that might accrue during actuation.

The Five-Axis Integrated Stepper Module (FAISM) controls up to five stepper motors and includes a stepper translator so output connects directly to the motor. Five channels of SSI encoder feedback are ...

The PCI-8154 debuts as a cost-effective, four-axis pulse-train motion-control card for managing stepper, servo, and linear motors. Delivering pulse rates up to 6.55 MHz, the card features a ...