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NETWORK ANALYSIS By: VAN VALKENBURG
A
treatment of topics in the field of electric networks (or circuits)
which are considered as a foundation in electrical engineering and occur
at either the beginning or intermediate level. Contains material on the
Nyquist criterion. Gives Tellegan's theorem, and the Gauss elimination
method.
Includes expanded coverage of Thevenin's and Norton's theorems, the Routh-Hurwitz criterion, and Fourier transforms. Problems and suggested digital computer exercises at the end of each chapter. Solutions to selected problems given in the appendix.
Includes expanded coverage of Thevenin's and Norton's theorems, the Routh-Hurwitz criterion, and Fourier transforms. Problems and suggested digital computer exercises at the end of each chapter. Solutions to selected problems given in the appendix.
Table of Contents
- Development of the Circuit Concept
- Conventions for Describing Networks
- Network Equations
- First-order Differential Equations
- Initial Conditions in Networks
- The Laplace Transformation
- Transforms of Other Signal Wave-forms
- Impedance Functions and Network Theorems
- Network Functions; Poles and Zeros
- Two-Port Parameters
- Sinusoidal Steady-State Analysis
- Frequency Response Plots
- Input Power, Power Transfer, and Insertion Loss
- Fourier Series and Signal Spectra
- Fourier Integral and Continuous Spectra
- Appendices
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