DC Motors

The Future of DC Motor Driving with Smart IC Technology

Introduction The world of technology is constantly evolving – and with it – so are the methods and techniques used in various industries. In the realm of electrical engineering and automation, one area that has seen significant advancements is the

DC Converter for Low Power Applications

DC Converter for Low Power Applications

Introduction The incredible roles of a DC converter in low power applications cannot be overstated in the electronics landscape, where efficiency and performance are paramount. These advanced devices can significantly manage and optimise regulated power flow in modern gadgets and

arduino

How to Drive DC Motor with L298N Driver and Arduino

DC motors are electric machines that convert one form of energy (electrical) into another energy form (mechanical) using DC power. These motors provide high torque and speed control and are preferred choices in a variety of applications, such as robotics,

dc motors

Dc Motors: Brushed And Brushless Motors and their Advantages

DC Motors DC motors convert DC electrical power to motion. The use of electrical current generated by electrical currents to power the movement of the rotor fixed within the output shaft. The output torque and speed are determined by both

MCP8024 BLDC Motor

Application of MCP8024 BLDC Motor Driver Evaluation Board

Introduction The MCP8024 BLDC Motor Driver Evaluation Board is used to show the drive capabilities of the MCP8024. The board incorporates the MCP8024 3-Phase BLDC motor gate driver and dsPIC33FJMC204 PIM to actualize a 6-step trapezoidal BLDC motor control. This

BLDC Motor chip

MCP8024 BLDC Motor Driver Evaluation Board

The BLDC Motor Driver Evaluation Board of the MCP8024 TQFP is used to demonstrate the MCP8024 drive capabilities. A total stand-alone engine operator for brushless DC motors (BLDC) is the MCP8024 TQFP BLDC Motor Driver Evaluation Board. The board is

arduino motor

Control Brushless DC Motor Using Arduino

Control Brushless DC Motor Controlling the speed of a Brushless DC Motor(BLDC) without a transmitter is alternatively done using the Arduino micro controller. This involves the use of PWM signal from Arduino to control the speed of Brushless motor with

brushless motors

Brushless DC Motor: How Does It Works?

Brushless DC (BLDC) Motors Brushless DC motors have gained rapid adoption in high-end appliances, drones, and electric vehicles. They have largely replaced their brushed counterparts. Their dominance over their brushed counterparts stems from the fact that they do not have

electric motor

Electric Motor: Understanding Types and their Uses

Electric Motors Electric motors are electro-mechanical machines that convert electrical energy to mechanical energy.  They actually produce rotational force. A motor’s operation relies on the interaction between the magnetic and electric field. Motors can be distinctly divided into two types,

BLDC Motors

Understanding Magnetic Angle Sensor for Brushless DC Motors

Brushless DC Motors Brushless DC (BLDC) motors are that employ electronic commutation of the windings as opposed to mechanical commutation. As such, BLDC motors rely on some method of determining the angular position of the rotor to provide information for