Field-Oriented Control (FOC) is changing how brushless DC (BLDC) motors operate in drones, robotics, and automation. By mathematically controlling torque and magnetic flux alignment, FOC enhances ...

The DC motor is widely used in the field of servo automation and robotics. The operating principle of an electric motor is based on the interaction of two magnetic fields that attract and repel each ...

High-performance motors need a control mechanism that ensures enhanced smoothness, reliability, and efficiency. One of the most apt examples of such an application is the motor used in ...

Toshiba's latest product from Smart Motor Control Driver SmartMCD™ series delivers integrated solution for automotive brushed ...

While current control and PWM switching play the most direct role in driving brushless DC motors, the motion profile and ...

NXP’s latest motor-control microcontrollers usher in a new level of performance for automotive/industrial BLDC, PMSM, and other electric motors. A new family of motor-control MCUs from NXP ...

Toshiba has begun engineering sample shipments of the AEC-Q100 compliant TB9M030FG, a new addition to the SmartMCD series that integrates an MCU and motor driver. The product is suitable for low-speed ...

Early incarnations of the electric motor first appeared in the 1740s through the work of Scottish Benedictine monk and scientist, Andrew Gordon. Other scientists such as Michael Faraday and Joseph ...