Electrical Machines Mathematical Fundamentals of Machine Topologies / [electronic resource] :
by Dieter Gerling.
- XIII, 472 p. 310 illus., 182 illus. in color. online resource.
- Mathematical Engineering, 4 2192-4732 ; .
- Mathematical Engineering, 4 .
Part I: Steady-State Operation -- 1. Fundamentals 2. DC Machines -- 3. Rotating Field Theory -- 4. Induction Machines -- 5. Synchronous Machines -- 6. Permanent Magnet Machines -- 7. Switched Reluctance Machines -- 8. Fractional Horsepower Machines for Single-Phase Operation (optional) -- Part II: Dynamic Operation -- 9. Fundamentals 10. DC Machines -- 11. Space Vector Theory -- 12. Induction Machines -- 13. Synchronous Machines -- 14. Permanent Magnet Machines.
Electrical Machines and Drives play a powerful role in industry with an ever increasing importance. This fact requires the understanding of machine and drive principles by engineers of many different disciplines. Therefore, this book is intended to give a comprehensive deduction of these principles. Special attention is given to the precise mathematical derivation of the necessary formulae to calculate machines and drives and to the discussion of simplifications (if applied) with the associated limits. The book shows how the different machine topologies can be deduced from general fundamentals, and how they are linked together. This book addresses graduate students, researchers, and developers of Electrical Machines and Drives, who are interested in getting knowledge about the principles of machine and drive operation and in detecting the mathematical and engineering specialties of the different machine and drive topologies together with their mutual links. The detailed - but nevertheless compact - mathematical deduction together with a distinct emphasis onto assumptions, simplifications and the associated limits, leads to a clear understanding of Electrical Machine and Drive topologies and characteristics.
9783642175848
10.1007/978-3-642-17584-8 doi
Engineering. Mathematical models. Engineering design. Power electronics. Engineering. Power Electronics, Electrical Machines and Networks. Engineering Design. Mathematical Modeling and Industrial Mathematics.