Selecting a 48V BLDC motor controller can be more difficult than it seems, particularly if you’re converting an e-bike on a ...

Brushless DC (BLDC) motors are widely used for many industrial applications because of their high efficiency, high torque and low volume. The aim of this research is to develop a complete model of the ...

This system integrates a PID algorithm with predictive and preventive fault detection, implemented on an Arduino microcontroller and simulated using Proteus. Before exploring the implementation, it ...

I was nursing a lukewarm vending machine coffee recently when I overheard two fresh-faced engineers complaining about the PID tuning process and coming up with ways to tear down centuries of control ...

These galvanically isolated modulators enable robotics engineers to achieve precise motor control and system protection in smaller, more sophisticated designs. TI’s new line of isolated ...

This paper presents three different robust controller techniques for high performance brushless DC (BLDC) motor. The purpose is to test the ability of each control technique to force the rotor to ...

Abstract This paper describes the development and implementation of a control system for a direct current (DC) motor using the Arduino Uno microcontroller, based on the speed and direction control of ...

Powering next-gen motorized appliances is made easier with a 44-V Arm-based controller that integrates a multimode power manager, configurable analog front end, and application ...

Explore the differences between trapezoidal, sinusoidal, and field-oriented control to optimize BLDC motor designs for various applications.

This project focuses on PID-position-control experiments with Arduino. The HTML/JavaScript-based GUI enables easy optimization of the parameters. Since there are many articles on the internet about ...

This article explains proportional integral derivative (PID) control, including the math behind it, with the use case of a linear servo motor.