Book Detail | |
Publication Year | 1998 |
ISBN-13 | 978-81-7409-070-6 |
ASIN | 81-7409-070-3 |
Language | English |
Edition | 15th (2022) |
Pages | 852 |
Preface | |
Preface | Network Analysis forms an important and essential course for Engineering Degree students offering either Electrical Engineering or Electronics and Telecommunication Engineering. This text smoothly blends the two techniques. It begins with the use of classical methods but switches over to liberal use of Laplace Transforms and Pole and Zero technique. The book deals with the subject quite comprehensively. Further a large number of solved example and exercises have been included to assist the students in attaining complete grasp of the subject. |
Table of Contents | |
Table of Contents | * Network Elements * Network Topology or Network Geometry * Step Function Response of Simple R-Land R-C Circuits * Initial Conditions * Network Analysis Involving Second and Higher Order Differential Equations * Network Analysis Using Laplace Transformation * Laplace Transform of Special Signal Waveforms * Transform Impedance and Admittance Functions * Network Theorems * Network Functions * Parameters of Two-Port Networks * Sinusoidal Steady State Analysis * Frequency Response Plots * Input Power and Power Transfer * Fourier Series and Signal Spectrum * Fourier Integral and Continuous Spectra * The Transmission Lines * General Theory of Transmission Line * Reflection in Transmission Line * Transmission Lines at Radio Frequencies * The Power Transmission Lines * Resonance and Selectivity * Filters * Attenuators * Equalizers * Artificial Lines * Synthesis of One-port L-C Networks |