Electromagnetic Foundations of Electrical Engineering
1. Auflage August 2008
420 Seiten, Hardcover
Wiley & Sons Ltd
Kurzbeschreibung
Electromagnetic Foundations of Electrical Engineering begins with an explanation of Maxwell's equations, from which the fundamental laws and principles governing the static and time-varying electric and magnetic fields are derived. Results for both slowly- and rapidly-varying electromagnetic field problems are discussed in detail. This book benefits electrical engineering students and faculty staff in sub-disciplines as diverse as power and energy systems, circuit theory and telecommunications. It also appeals to existing electrical engineering professionals with a need for a refresher course in electromagnetic foundations.
The applications of electromagnetic phenomena within electrical engineering have been evolving and progressing at a fast pace. In contrast, the underlying principles have been stable for a long time and are not expected to undergo any changes. It is these electromagnetic field fundamentals that are the subject of discussion in this book with an emphasis on basic principles, concepts and governing laws that apply across the electrical engineering discipline.
Electromagnetic Foundations of Electrical Engineering begins with an explanation of Maxwell's equations, from which the fundamental laws and principles governing the static and time-varying electric and magnetic fields are derived. Results for both slowly- and rapidly-varying electromagnetic field problems are discussed in detail.
Key aspects:
* Offers a project portfolio, with detailed solutions included on the companion website, which draws together aspects from various chapters so as to ensure comprehensive understanding of the fundamentals.
* Provides end-of-chapter homework problems with a focus on engineering applications.
* Progresses chapter by chapter to increasingly more challenging topics, allowing the reader to grasp the more simple phenomena and build upon these foundations.
* Enables the reader to attain a level of competence to subsequently progress to more advanced topics such as electrical machines, power system analysis, electromagnetic compatibility, microwaves and radiation.
This book is aimed at electrical engineering students and faculty staff in sub-disciplines as diverse as power and energy systems, circuit theory and telecommunications. It will also appeal to existing electrical engineering professionals with a need for a refresher course in electromagnetic foundations.
To the Electrical Engineer Practitioner.
To the Student.
To the Instructor.
ACKNOWLEDGEMENTS.
PROJECT PORTFOLIO.
Analysis of a power delivery system.
Cylindrical type transmission lines.
DC current transducer.
Determination of the conductivity of a circular conducting disk.
Directional coupler analysis.
Ill-defined grounding problems.
Induction machine analysis.
Line matching technique using an exponential transmission-line section.
Linear variable differential transformer.
Magnetic actuator and sensor device.
Overhead-line protection by ground-wires.
Power line carrier communication.
Pseudo-balanced three-phase lines.
Screened high-voltage three-phase installation.
Shielded three-phase cable analysis.
Three-route microwave splitter.
Transmission-line system with balun transformer for even to odd-mode conversion.
Transmission-line system with transformer-stage matching.
Two-way loudspeaker analysis.
Variable reluctance transformer.
PART I: A BRIEF OVERVIEW.
INTRODUCTION.
CHAPTER 1: BASIC FIELD VECTORS.
PART II: STATIONARY FIELD PHENOMENA.
INTRODUCTION.
CHAPTER 2: ELECTROSTATICS.
CHAPTER 3: STATIONARY CURRENTS.
CHAPTER 4: MAGNETIC FIELD OF STATIONARY CURRENTS.
PART III: SLOW TIME-VARYING FIELDS.
INTRODUCTION.
CHAPTER 5: MAGNETIC INDUCTION PHENOMENA.
CHAPTER 6: ELECTRIC INDUCTION PHENOMENA.
CHAPTER 7: LUMPED PARAMETERS CIRCUIT ANALYSIS.
PART IV: RAPID TIME-VARYING FIELDS.
INTRODUCTION.
CHAPTER 8: ELECTROMAGNETIC FIELD PHENOMENA.
CHAPTER 9: TRANSMISSION LINE ANALYSIS.
APPENDICES.
Appendix 1: Formulas from Vector Analysis.
Appendix 2: Lorentz Transformation.
Appendix 3: Elements of Complex Algebra.
Appendix 4: Elements of Fourier Analysis.
BIBLIOGRAPHY.
INDEX.
Professor Brandão Faria was a senior scientist with the former Centro de Electrotecnia Teórica e Medidas Eléctricas where he served as President from 1994 until 2000. Since 2008, he has been at the recently created CIEEE (Center for Innovation in Electrical Engineering and Energy).
Professor Brandão Faria was the recipient of two Honorable Mentions awarded in 1994 and 2007 by the Portuguese State Department of Science and Technology, and by the Technical University of Lisbon, respectively. His areas of interest include electromagnetic field problems, power lines, and wave propagation phenomena in multiconductor transmission lines. He is the author of two books on electrical engineering subjects, namely Optica and Multiconductor Transmission-Line Structures, and has published over 100 technical papers.
Professor Brandão Faria is a member of the Editorial Board of the European Transactions on Electrical Power (John Wiley & Sons, Ltd) and a senior member of the IEEE.
