Basic Brushless DC Motor

Basic brushless DC Motor

However, if, at the appropriate time, current is shut off in winding “R”, and turned on in winding “S”, then the rotor continues to move. Again at the appropriate time, shut off “S” and turned on “T”. By continuation of this timing sequence, complete rotation occurs. What is occurring, is that the field set up by the stator is being switched, and the rotor tries to catch up to it.

In this example, the explanation was simplified by exciting only one winding at a time. In reality, the stator consists of a three phase Y–connected winding, and two or three windings are actually energized.. This makes efficient use of windings and development of higher motor torques.

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Basic Brushless Motor Basics

In its simplest form, a brushless dc motor consists of a permanent magnet, which rotates (the rotor), surrounded by three equally spaced windings, which are fixed (the stator). Current flow in each winding produces a magnetic field vector, which sums with the fields from the other windings. By controlling currents in the three windings, a magnetic field of arbitrary direction and magnitude can be produced by the stator. Torque is then produced by the attraction or repulsion between this net stator field and the magnetic field of the rotor.

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Basic Brushless DC Motors

Conventional dc motors are highly efficient and their characteristics make them suitable for use as servomotors. However, their only drawback is that they need a commutator and brushes which are subject to wear and require maintenance. When the functions of commutator and brushes were implemented by solid-state switches, maintenance-free motors were realised. These motors are now known as brushless dc motors. In this chapter, the basic structures, drive circuits, fundamental principles, steady state characteristics, and applications of brushless dc motors will be discussed.
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Brushed DC Motor control by using PIC Microcontroller

Low-Cost Bidirectional Brushed DC Motor Control

Using the PIC16F684

INTRODUCTION

This application note discusses how to use the

Enhanced, Capture, Compare, PWM (ECCP) on the

PIC16F684 Microcontroller for bidirectional, brushed DC (BDC) motor

control. Low-cost brushed DC motor control can be

used in applications such as intelligent toys, small

appliances and power tools. The PIC16F684 takes

Microchip's Mid-Range Family of products to the next

level with its new ECCP peripheral. The ECCP

peripheral builds on the technology of the CCP module

with added features such as four PWM channels for

easy bidirectional motor control through the hardware.

This application note focuses on using the ECCP in

PWM mode using the full-bridge configuration. Using

the ECCP allows easy interfacing to a full-bridge

configuration for bidirectional BDC motor control.

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Brushed DC Motor control by using PIC microcontroller

I used PIC microcontroller to realize the control of BLDC motor. In the video, you can observe how the PID parameter affect the performance of motor. The different magnitudes (due to different PID parameters)

Efficient Brushless DC motor and Permanent Magnet Synchronous Motor Control

Demonstration of advanced sensorless algorithms such as field oriented control and trapezoidal control using sinusoidal drive for Brushless DC (BLDC) and Permanent Magnet (PM) Synchronous Motors

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