Both software and hardware are parts of all motor control systems such as IGBTs, WBG semiconductors and MCUs. Industry 4.0 strongly relies on motor control for its development but energy consumption ...

Stepper motors are increasingly important for positioning tasks in automated systems due to their compact size, cost ...

As electrification reshapes the transportation industry, the use of smaller, denser, and more efficient electronic and electrical (E/E) assemblies is intensifying the need to manage heat stemming from ...

Pre-configured to identify normal, high-vibration, and unstable motor conditions STMicroelectronics (NYSE:STM)GENEVA, ...

With electrification rapidly moving from niche to necessity, the real test now is to develop EV technology that works as ...

The ability to control the motors’ speed and rotation is the design key of drones, making the electronic speed control (ESC) module an added value and a fundamental part of a drone. In this article, ...

How the challenges of electric-motor control design can be overcome using digital twins in all design and test phases. How automated testing within a continuous and integrated toolchain is able to ...

Motors are everywhere—from air conditioners and vacuum cleaners to power tools and industrial equipment. As globalisation and ...

Energy conversion efficiency has always played an important role in electronics design, and in the case of electric motors, the conversion takes place twice: first to create the electricity needed to ...

DC motor control systems and power converters are pivotal technologies in modern engineering, underpinning applications from electric vehicles and renewable energy systems to industrial automation.

A newly introduced 24-channel mixed-signal device integrates sensing, motor control and fault monitoring functions into a single package, helping engineers reduce system complexity in mission-critical ...