Brushless Dc (Bldc) Motor Fundamentals
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Publicado: 26 de noviembre de 2012
AN885
Brushless DC (BLDC) Motor Fundamentals
Author: Padmaraja Yedamale Microchip Technology Inc.
Stator
The stator of a BLDC motor consists of stacked steel laminations with windings placed in the slots that are axially cut along the inner periphery (as shown in Figure 3). Traditionally, the stator resembles that of an induction motor; however, the windings are distributed in a differentmanner. Most BLDC motors have three stator windings connected in star fashion. Each of these windings are constructed with numerous coils interconnected to form a winding. One or more coils are placed in the slots and they are interconnected to make a winding. Each of these windings are distributed over the stator periphery to form an even numbers of poles. There are two types of stator windingsvariants: trapezoidal and sinusoidal motors. This differentiation is made on the basis of the interconnection of coils in the stator windings to give the different types of back Electromotive Force (EMF). Refer to the “What is Back EMF?” section for more information. As their names indicate, the trapezoidal motor gives a back EMF in trapezoidal fashion and the sinusoidal motor’s back EMF issinusoidal, as shown in Figure 1 and Figure 2. In addition to the back EMF, the phase current also has trapezoidal and sinusoidal variations in the respective types of motor. This makes the torque output by a sinusoidal motor smoother than that of a trapezoidal motor. However, this comes with an extra cost, as the sinusoidal motors take extra winding interconnections because of the coils distribution onthe stator periphery, thereby increasing the copper intake by the stator windings. Depending upon the control power supply capability, the motor with the correct voltage rating of the stator can be chosen. Forty-eight volts, or less voltage rated motors are used in automotive, robotics, small arm movements and so on. Motors with 100 volts, or higher ratings, are used in appliances, automation andin industrial applications.
INTRODUCTION
Brushless Direct Current (BLDC) motors are one of the motor types rapidly gaining popularity. BLDC motors are used in industries such as Appliances, Automotive, Aerospace, Consumer, Medical, Industrial Automation Equipment and Instrumentation. As the name implies, BLDC motors do not use brushes for commutation; instead, they are electronicallycommutated. BLDC motors have many advantages over brushed DC motors and induction motors. A few of these are: • • • • • • Better speed versus torque characteristics High dynamic response High efficiency Long operating life Noiseless operation Higher speed ranges
In addition, the ratio of torque delivered to the size of the motor is higher, making it useful in applications where space and weight arecritical factors. In this application note, we will discuss in detail the construction, working principle, characteristics and typical applications of BLDC motors. Refer to Appendix B: “Glossary” for a glossary of terms commonly used when describing BLDC motors.
CONSTRUCTION AND OPERATING PRINCIPLE
BLDC motors are a type of synchronous motor. This means the magnetic field generated by the statorand the magnetic field generated by the rotor rotate at the same frequency. BLDC motors do not experience the “slip” that is normally seen in induction motors. BLDC motors come in single-phase, 2-phase and 3-phase configurations. Corresponding to its type, the stator has the same number of windings. Out of these, 3-phase motors are the most popular and widely used. This application note focuses on3-phase motors.
2003 Microchip Technology Inc.
DS00885A-page 1
AN885
FIGURE 1: TRAPEZOIDAL BACK EMF
0
60
120
180
240
300
360
60
Phase A-B
Phase B-C
Phase C-A
FIGURE 2:
SINUSOIDAL BACK EMF
0 60 120 180 240 300 360 60
Phase A-B
Phase B-C
Phase C-A
DS00885A-page 2
2003 Microchip Technology Inc.
AN885
FIGURE 3: STATOR OF A...
Brushless DC (BLDC) Motor Fundamentals
Author: Padmaraja Yedamale Microchip Technology Inc.
Stator
The stator of a BLDC motor consists of stacked steel laminations with windings placed in the slots that are axially cut along the inner periphery (as shown in Figure 3). Traditionally, the stator resembles that of an induction motor; however, the windings are distributed in a differentmanner. Most BLDC motors have three stator windings connected in star fashion. Each of these windings are constructed with numerous coils interconnected to form a winding. One or more coils are placed in the slots and they are interconnected to make a winding. Each of these windings are distributed over the stator periphery to form an even numbers of poles. There are two types of stator windingsvariants: trapezoidal and sinusoidal motors. This differentiation is made on the basis of the interconnection of coils in the stator windings to give the different types of back Electromotive Force (EMF). Refer to the “What is Back EMF?” section for more information. As their names indicate, the trapezoidal motor gives a back EMF in trapezoidal fashion and the sinusoidal motor’s back EMF issinusoidal, as shown in Figure 1 and Figure 2. In addition to the back EMF, the phase current also has trapezoidal and sinusoidal variations in the respective types of motor. This makes the torque output by a sinusoidal motor smoother than that of a trapezoidal motor. However, this comes with an extra cost, as the sinusoidal motors take extra winding interconnections because of the coils distribution onthe stator periphery, thereby increasing the copper intake by the stator windings. Depending upon the control power supply capability, the motor with the correct voltage rating of the stator can be chosen. Forty-eight volts, or less voltage rated motors are used in automotive, robotics, small arm movements and so on. Motors with 100 volts, or higher ratings, are used in appliances, automation andin industrial applications.
INTRODUCTION
Brushless Direct Current (BLDC) motors are one of the motor types rapidly gaining popularity. BLDC motors are used in industries such as Appliances, Automotive, Aerospace, Consumer, Medical, Industrial Automation Equipment and Instrumentation. As the name implies, BLDC motors do not use brushes for commutation; instead, they are electronicallycommutated. BLDC motors have many advantages over brushed DC motors and induction motors. A few of these are: • • • • • • Better speed versus torque characteristics High dynamic response High efficiency Long operating life Noiseless operation Higher speed ranges
In addition, the ratio of torque delivered to the size of the motor is higher, making it useful in applications where space and weight arecritical factors. In this application note, we will discuss in detail the construction, working principle, characteristics and typical applications of BLDC motors. Refer to Appendix B: “Glossary” for a glossary of terms commonly used when describing BLDC motors.
CONSTRUCTION AND OPERATING PRINCIPLE
BLDC motors are a type of synchronous motor. This means the magnetic field generated by the statorand the magnetic field generated by the rotor rotate at the same frequency. BLDC motors do not experience the “slip” that is normally seen in induction motors. BLDC motors come in single-phase, 2-phase and 3-phase configurations. Corresponding to its type, the stator has the same number of windings. Out of these, 3-phase motors are the most popular and widely used. This application note focuses on3-phase motors.
2003 Microchip Technology Inc.
DS00885A-page 1
AN885
FIGURE 1: TRAPEZOIDAL BACK EMF
0
60
120
180
240
300
360
60
Phase A-B
Phase B-C
Phase C-A
FIGURE 2:
SINUSOIDAL BACK EMF
0 60 120 180 240 300 360 60
Phase A-B
Phase B-C
Phase C-A
DS00885A-page 2
2003 Microchip Technology Inc.
AN885
FIGURE 3: STATOR OF A...
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