Electronic Design

How to Control Brushless Motors (Part 3): Commutation

How brushless DC motors use electronic commutation to maximize efficiency and ensure smooth and stable motion. Compare trapezoidal, sinusoidal, and sensorless commutation techniques, including key ...
Electronic Design

How to Control Brushless Motors (Part 2): Position-Control Loops

The importance of motor trajectory profiles and how they’re used in brushless DC (BLDC) motor control to minimize vibration and smooth out other performance issues. Why the PID loop is the most widely ...
Nature

Optimized System Identification (SI) of Brushless DC (BLDC) motor using Data-Driven Modeling Methods

Accurate modeling, also known as System Identification (SI), is vital for enhancing performance, control, and efficiency across numerous applications. Researchers have focused on Brushless DC (BLDC) ...
Nature

Design of sliding mode model predictive dual-loop control through self-learning strategy to mitigate the torque ripple in BLDC motor for electric vehicles

This study investigates a novel dual-loop control strategy that combines sliding mode and model predictive controllers to reduce torque ripple in high-performance Brushless Direct Current (BLDC) ...