Electric circuits, and their electronic circuit extensions, are found in all electrical and electronic equipment; including: household equipment, lighting, heating, air conditioning, control systems in both homes and commercial buildings, computers, consumer electronics, and means of transportation, such as cars, buses, trains, ships, and airplanes. Electric circuit analysis is essential for designing all these systems.
Electric circuit analysis is a foundation for all hardware courses taken by students in electrical engineering and allied fields, such as electronics, computer hardware, communications and control systems, and electric power. This book is intended to help students master basic electric circuit analysis, as an essential component of their professional education. Furthermore, the objective of this book is to approach circuit analysis by developing a sound understanding of fundamentals and a problem-solving methodology that encourages critical thinking.
Preface, Convention for Voltage and Current Symbols Part I: Basic Concepts in Circuit Analysis
Chapter 1 Preliminaries to Circuit Analysis
Chapter 2 Fundamentals of Resistive Circuits
Chapter 3 Circuit Equivalence
Chapter 4 Circuit Theorems
Chapter 5 Circuit Simplification
Chapter 6 Circuit Equations
Chapter 7 Capacitors, Inductors, and Duality
Chapter 8 Sinusoidal Steady State
Chapter 9 Linear Transformer
Chapter 10 Ideal Transformer
Chapter 11 Basic Responses of First-Order Circuits
Chapter 12 Basic Responses of Second-Order Circuits Part II: Topics in Circuit Analysis
Chapter 13 Ideal Operational Amplifier
Chapter 14 Frequency Responses
Chapter 15 Butterworth and Active Filters
Chapter 16 Responses to Periodic Inputs
Chapter 17 Real, Reactive and Complex Power
Chapter 18 Responses to Step and Impulse Inputs
Chapter 19 Switched Circuits with Initial Energy Storage
Chapter 20 Convolution
Chapter 21 Properties of the Laplace Transform
Chapter 22 The Laplace Transform in Circuit Analysis
Chapter 23 Fourier Transform
Chapter 24 Two-Port Circuits
Chapter 25 Balanced Three-Phase Systems Appendices: Appendix A SI Units, Symbols, and Prefixes Appendix B Useful Mathematical Relations Appendix C PSpice Simulation Appendix D Complex Numbers and Algebra Appendix E Solution of Linear Simultaneous Equations
Nassir Sabah is a Professor of Electrical and Computer Engineering at the American University of Beirut, Lebanon. He received his B.Sc. (Hons. Class I) and his M.Sc. in Electrical Engineering from the University of Birmingham, U.K., and his Ph.D. in biophysical sciences from the State University of New York (SUNY/Buffalo). He has served as Chairman of the Electrical Engineering Department, Director of the Institute of Computer Studies, and Dean of the Faculty of Engineering and Architecture, at the American University of Beirut. In these capacities, he was responsible for the development of programs, curricula, and courses in electrical, biomedical, communications, and computer engineering. Professor Sabah has extensive professional experience in the fields of electrical engineering, electronics, and computer systems, with more than 35 years teaching experience in electric circuits, electronics, neuroengineering, and biomedical engineering. He has over 100 technical publications, mainly in neurophysiology, biophysics, and biomedical instrumentation. He has served on numerous committees and panels in Lebanon and the region. Professor Sabah is a Fellow of the IET, U.K., and a member of the American Society of Engineering Education.
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