| About The Book Network Theory Analysis and Synthesis
This book offers an excellent and practically oriented introduction to the basic concepts of modern circuit theory. It builds a thorough and rigorous understanding of the analysis techniques of electric networks, and also explains the essential procedures involved in the synthesis of passive networks. Written specifically to meet the needs of undergraduate students of electrical and electronics engineering, electronics and communication engineering, instru-mentation and control engineering, and computer science and engineering, the book provides modularized coverage of the full spectrum of network theory suitable for a one-semester course.
A balanced emphasis on conceptual understanding and problem-solving helps students master the basic principles and properties that govern circuit behaviour. A large number of solved examples show students the step-by-step processes for applying the techniques presented in the text. A variety of exercises with answers at the chapter ends allow students to practice the solution methods.
Besides students pursuing courses in engineering, the book is also suitable for self-study by those preparing for AMIE and competitive examinations.
This book is recommended in Assam Engineering College, Assam, Royal School of Engineering & Technology, Assam, Assam Don Bosco University, Assam, Girijananda Chowdury Institute of Management and Technology, Assam, West Bengal University of Technology (WBUT) for B.Tech. An objective-type question bank at the end of book is designed to see how well the students have mastered the material presented in the text.
Table of Contents:
1. Fundamentals of Circuits.
2. Kirchhoff's Laws.
3. DC Network Theorems.
4. DC Transients.
5. Single-Phase AC Circuits.
7. Three-Phase Systems.
8. Fourier Series and Fourier Transform.
9. Laplace Transform.
10. Application of Laplace Transform.
11. Analysis of Special Signal Waveforms.
12. Application of Kirchhoff's Laws and Network Theorems to AC Circuits.
13. Coupled Circuits.
14. Two-Port Networks.s
15. Properties of Network Functions.
16. Network Graph Theory.
17. Analogous Systems.
18. State Variable Approach.
19. Transmission Lines.
20. Passive Filters.
23. Active Filters.
24. Synthesis of Passive Networks.
Appendix A. Phasors in AC Circuits.
Appendix B. PSpice Commands.