Motor Design and Power Electronics (course)
| Date: 06 May 2011, 00:56
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Note: On-line course - http://www.consult-g2.com/course.html
Course Contents
CHAPTER 1: MAGNETIC PRINCIPLES
1.1 Introduction
1.2 Magnetic circuits and the design equations
1.3 Sample calculation of magnetic flux design in a gap
1.4 The B-H curves of PM materials
1.5 Excursions of the operating points
1.6 Energy product and maximum energy product
1.7 Intrinsic and normal B-H curves
1.8 Magnetic forces on permeable materials
CHAPTER 2: MAGNETIC MATERIALS
2.1 Magnetically hard (PM) materials
2.2 Magnetically soft materials
CHAPTER 3: FLUX, RELUCTANCE AND PERMEANCE
3.1 Intuitive concept of flux
3.2 Reluctance and permeance
3.3 General formulation of reluctance
3.4 Roter's method
3.5 Numerical calculations of magnetic fields
3.5.1 Finite difference method
3.5.2 Finite element method
CHAPTER 4: ELECTROMAGNETICS
4.1 Force and emf generation
4.2 Transformer operation
4.3 Instruments of magnetics
CHAPTER 5: MAGNETIZING OF PERMANENT MAGNETS
5.1 Magnetizing requirements
5.2 Current vs. time in an ideal magnetizer
5.3 Real magnetizers
5.4 Optimization
5.5 Other considerations
5.6 Forces on conductors and coils
5.7 Winding patterns
CHAPTER 6: MOTOR DYNAMICS
6.1 Force production
6.1.1 Forces between a conductor and steel
6.2 Energy considerations
6.2.1 The force equation
6.3 Torque balance equation
6.3.1 Dynamic determination of torque
6.3.2 Torque development by 2 fields
CHAPTER 7: MOTOR DESIGN
7.1 Introduction
7.2 Overall dimensions
7.3 The magnetic circuit
7.4 Magnet performance
7.5 Design features
7.6 Motor winding
7.7 Winding connections
7.8 Motor characteristics
7.9 Loss calculation
7.10 Armature reaction and demagnetization
7.11 Acceleration
7.12 Designing with computers
CHAPTER 8: MANUFACTURING CONSIDERATIONS
8.1 Introduction
8.2 Laminations
8.2.1 Die punching
8.2.2 Chemical etching
8.2.3 Laser cutting
8.3 Stator stack
8.4 Winding
8.5 Magnet magnetization
8.6 Bearing assembly
CHAPTER 9: ELECTRONIC CONTROLLERS
9.1 Types of drives
9.2 Speed control
9.3 Sensorless control
CHAPTER 10: STEPPER MOTORS
10.2 Torque characteristics
10.3 Electromagnetic principles
10.4 Stepper design tips
CHAPTER 11: ACTUATORS
11.1.2 Basic principles
11.1.3 Shorted turn
11.1.4 Equivalent circuit
11.1.5 Static magnetic circuit
11.1.6 Coil construction
11.1.7 Improving linearity
11.1.8 Actuator dynamics
11.2 Solenoids
11.2.1 Introduction
11.2.2 First order force calculation
11.2.3 Idealized model
11.2.4 Bobbin and winding
11.2.5 Packing factor
11.2.6 Gap location
11.2.7 Plunger face shape
11.2.8 Remanence and sticking
11.2.9 The plunger-wall flux crossing region
11.2.10 Solenoid drive circuit consideration
11.2.11 Solenoids operating against springs
11.2.12 Constant force variable position solenoid
11.2.13 Solenoid actuation speed
11.2.14 Some other solenoid types
11.2.14.1 AC solenoids
11.2.14.2 Rotary solenoids
11.2.15 Testing of solenoids
11.3 Linear multiphase motors
11.4 Other actuators
BIBLIOGRAPHY
LIST OF SYMBOLS
UNIT CONVERSION FACTORS
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