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How to choose the right BLDC planetary gear motor for robots and automation

If you've worked on a mobile robot, an AGV, or any kind of automated machine, you've probably run into at least one of these: The motor can't hold speed on an incline. The system starts sluggishly and ...
Electronic Design

How to Control Brushless Motors (Part 1)

The design of different three-phase brushless DC motors and how they generate torque. How magnetics, construction, and other factors impact torque, speed, and smoothness in BLDC motors. General ...
Nature

Adaptive speed control of BLDC motors for enhanced electric vehicle performance using fuzzy logic

This study investigates the use of a closed-loop speed control approach based on fuzzy logic for brushless DC (BLDC) motors in Electric Vehicle (EV) applications. The primary objective is to overcome ...
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 ...
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) ...