This article is for those who are interested in learning about the fundamentals of DC motor control in electronic systems. The most prevalent form of the motor is a direct current (DC). There is ...

In this article, we are going to control the speed and direction of dc motor using L293D IC and Arduino.

Learn how to control the speed of a DC motor using Arduino and a MOSFET. This guide covers component selection, circuit setup, coding, and practical demonstrations for building an efficient motor ...

This project, developed using the Tinkercad simulator, implements a motor control system with the following components: Arduino Uno, breadboard, LCD display, two DC motors, a 9-volt battery (powering ...

This sensor device is built to measure the amount of current being used, especially in power supplies as the design is based on Arduino. The main component used is the ACS712 sensor from Allegro ...

This project presents an Arduino based speed monitoring system where the RPM (revolutions per minute) of a DC motor is continuously displayed on a smartphone using Bluetooth communication.

Learn how to design a basic motor control circuit for a DC or AC motor, using common components and principles. Also, learn how to protect, monitor, and wire your circuit.

The full write-up is in the included PDF file, and describes the set-up of an Arduino Nano sitting between throttle and controller, and taking feedback from a current sensor.

The monitor's wide 2.7 to 20-V supply range makes it practical for a broad range of applications power supply, DC motor and solenoid control, battery management, over-current monitor, power management ...

By controlling the motor, we mean controlling its speed and direction of rotation. We can control the motor using the Arduino and the L298N driver. Before we learn how to control a DC motor with the ...