Modeling and High Performance Control of Electric Machines
Wiley - IEEE
1. Auflage Mai 2005
736 Seiten, Hardcover
Wiley & Sons Ltd
Kurzbeschreibung
Any electrical device that transmits or modifies energy to perform or assist in the performance of human tasks is an electric machine. This technology is used daily in all industries around the world. This book is an exposition of the modeling and control of electric machines, specifically, the direct current (DC) machine and the alternating current (AC) machines consisting of the induction motor, permanent magnet (PM) synchronous motor and the brushless DC motor. The particular emphasis is on techniques used for high performance applications, that is, applications that require both rapid and precise control of position, speed and/or torque. A major reason for writing this book was to carefully derive the mathematical models of electric machines based on the basic principles of electricity and magnetism and show how these mathematical models are used to design control algorithms that achieve high performance.
Modeling and High Performance Control of Electric Machines introduces you to both the modeling and control of electric machines. The direct current (DC) machine and the alternating current (AC) machines (induction, PM synchronous, and BLDC) are all covered in detail. The author emphasizes control techniques used for high-performance applications, specifically ones that require both rapid and precise control of position, speed, or torque. You'll discover how to derive mathematical models of the machines, and how the resulting models can be used to design control algorithms that achieve high performance. Graduate students studying power and control as well as practicing engineers in industry will find this a highly readable text on the operation, modeling, and control of electric machines.
1. The Physics of the DC Motor.
2.Feedback Control.
3. Magnetic Fields and Materials.
PART II: AC MACHINE THEORY.
4. Rotating Magnetic Fields.
5. The Physics of AC Machines.
6. Mathematical Models of AC Machines.
7. Symmetric Balanced Three-Phase AC Machines.
8. Induction Motor Control.
9. PM Synchronous Motor Control.
10. Trapezoidal Back-Emf PM Synchronous Motors (BLDC).
Appendix: Trigonometric Table and Identities.
References.
Index.
