This book concerns the design of power magnet devices including inductors, transformers, electromagnets, and rotating electric machinery. It opens with a discussion of evolutionary computing based optimization before moving on to set for the magnetic analysis techniques useful to the design of all the devices. Further chapters focus on elementary inductor design, force and torque production, and the design of an electromagnet (a solenoid). This is followed by discussions on transformer design and conductor losses. The author revisits the simple inductor design described earlier with the inclusion of losses in the context of a buck converter. Later chapters explain and implement topics including thermal analysis in the design of three-phase inductors and the calculation of capacitance in the design of common mode inductors. The book closes with rotating electric machinery which is considered featuring the design of a permanent magnet ac machine.
Reihe
Auflage
Sprache
Verlagsort
Verlagsgruppe
Zielgruppe
Maße
Höhe: 260 mm
Breite: 183 mm
Dicke: 39 mm
Gewicht
ISBN-13
978-1-119-67460-3 (9781119674603)
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Schweitzer Klassifikation
SCOTT D. SUDHOFF, PhD, is a Professor of Electrical and Computer Engineering at Purdue University. He served as Editor-in-Chief of IEEE's Transactions on Energy Conversion and is the inaugural Editor-in-Chief of IEEE's Power and Energy Technology Systems Journal. He is an IEEE Fellow, recipient of the Veinott award, co-author of the Wiley-IEEE Press title Analysis of Electric Machinery and Drive Systems, Third Edition, and authored the previous edition of this title in 2014. Dr. Sudhoff also holds patents in the areas of solid-state distribution transformers and the stability of power electronics-based systems.
Autor*in
Purdue University, IN
Author biography [TBC]
Preface
1. Optimization-Based Design
2. Magnetics and Magnetic Equivalent Circuits
3. Introduction to Inductor Design
4. Force and Torque
5. Introduction to Electromagnet Design
6. Magnetic Core Loss and Material Characterization
7. Transformer Design
8. Distributed Windings and Rotating Electric Machinery
9. Introduction to Permanent Magnet AC Machine Design
10. Introduction to Thermal Equivalent Circuits
11. AC Conductor Losses
12. Parasitic Capacitance
13. Buck Converter Design
14. 3-Phase Inductor Design
15. Common-Mode Inductor Design
16. Finite Element Analyiss
Appendix A Conductor Data and Wire Gauges
Appendix B Selected Ferrimagnetic Core Data
Appendix C Selected Magnetic Steel Data
Appendix D Selected Permanent Magnet Data
Appendix E Phasor Analysis
Appendix F Trigonometric Identities
