ESSENTIALS OF ADVANCED CIRCUIT ANALYSIS
Comprehensive textbook answering questions regarding the Advanced Circuit Analysis subject, including its theory, experiment, and role in modern and future technology
Essentials of Advanced Circuit Analysis focuses on fundamentals with the balance of a systems theoretical approach and current technological issues. The book aims to achieve harmony between simplicity, engineering practicality, and perceptivity in the material presentation.
Each chapter presents its material on various levels of technological and mathematical difficulty, broadening the potential readership and making the book suitable for both engineering and engineering technology curricula.
Essentials of Advanced Circuit Analysis is an instrument that will introduce our readers to real-life engineering problems—why they crop up and how they are solved. The text explains the need for a specific task, shows the possible approaches to meeting the challenge, discusses the proper method to pursue, finds the solution to the problem, and reviews the solution's correctness, the options of its obtaining, and the limitations of the methods and the results.
Essentials of Advanced Circuit Analysis covers sample topics such as:
Traditional circuit analysis's methods and techniques, concentrating on the advanced circuit analysis in the time domain and frequency domain
Application of differential equations for finding circuits’ transient responses in the time domain, and classical solution (integration) of circuit’s differential equation, including the use of the convolution integral
Laplace and Fourier transforms as the main modern methods of advanced circuit analysis in the frequency domain
Essentials of Advanced Circuit Analysis is an ideal textbook and can be assigned for electronics, signals and systems, control theory, and spectral analysis courses. It’s also valuable to industrial engineers who want to brush up on a specific advanced circuit analysis topic.
Preface xv Acknowledgments xix About the Companion Website xxi Part 1 Background – Steady-State Analysis of Electrical Circuits 1 1 Components, Topologies, and Basic Laws of Electrical Circuits 3 2 Methods of DC Circuit Analysis 81 3 Basics of AC Steady-State Circuit Analysis 127 Part 2 Advanced Circuit Analysis in Time Domain 189 4 Advanced Circuit Analysis in Time Domain—I 191 5 Advanced Circuit Analysis in Time-Domain—II 239 6 Advanced Circuit Analysis in Time Domain–Convolution-Integral Technique 327 Part 3 Frequency-Domain Advanced Circuit Analysis 371 7 What and Why of the Laplace Transform 373 8 Laplace Transform Application to Advanced Circuit Analysis 415 9 Advanced Consideration of the Laplace Transform and its Application to Circuit Analysis 487 10 Fourier Transform in Advanced Circuit Analysis 549 Bibliography and References 617 Index 621
Djafar K. Mynbaev, PhD, is a Professor Emeritus of the Electrical and Telecommunications Engineering Technology Department at the New York City College of Technology, CUNY. He has spent a significant part of his career working in telecommunications and has published numerous papers and chapters for different books on this subject. In academia, he taught many courses in the Electrical Engineering curriculum, and Advanced Circuit Analysis was permanently on his roster. Dr. Mynbaev is an author (with Lowell Scheiner) of the books Fiber-Optic Communications Technology by Prentice Hall, 2001, and Essentials of Modern Communications by Wiley, 2020. He holds over two dozen patents and is a well-known speaker at conferences worldwide.