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Fast Analytical Techniques for Electrical Electronic Circuits 1st Edition by Vatche Vorperian ISBN 0521624428 9780511016370

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Fast Analytical Techniques for Electrical Electronic Circuits 1st Edition Vatche Vorperian Digital Instant Download

Author(s): Vatche Vorperian
ISBN(s): 9780511016370, 0521624428
Edition: 1st
File Details: PDF, 16.03 MB
Year: 2002
Language: english
SKU: EB-1674542 Category: Tag:

Fast Analytical Techniques for Electrical Electronic Circuits 1st Edition by Vatche Vorperian – Ebook PDF Instant Download/Delivery: 0521624428, 9780511016370
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ISBN 10: 0521624428 
ISBN 13: 9780511016370
Author: Vatche Vorperian

The only method of circuit analysis known to most engineers and students is nodal or loop analysis. Although this works well for obtaining numerical solutions, it is almost useless for obtaining analytical solutions in all but the simplest cases. In this unusual 2002 book, Vorpérian describes remarkable alternative techniques to solve, almost by inspection, complicated linear circuits in symbolic form and obtain meaningful analytical answers for any transfer function or impedance. Although not intended to replace traditional computer-based methods, these techniques provide engineers with a powerful set of tools for tackling circuit design problems. They also have great value in enhancing students’ understanding of circuit operation, making this an ideal course book, and numerous problems and worked examples are included. Originally developed by Professor David Middlebrook and others at Caltech (California Institute of Technology), the techniques described here are now widely taught at institutions and companies around the world.

Fast Analytical Techniques for Electrical Electronic Circuits 1st Table of contents:

1 Introduction The joys of network analysis
1.1 Fast analytical methods
1.2 Input impedance of a bridge circuit
1.3 Input impedance of a bridge circuit with a dependent source
1.4 Input impedance of a reactive bridge circuit with a dependent source
1.5 Review
Problems
REFERENCES
2 Transfer functions Getting physical
2.1 Definition of a transfer function
2.2 The six types of transfer functions of an electrical circuit
2.3 Determination of the poles of a network
2.4 Determination of the zeros of a transfer function
2.5 The complete response, stability and transfer functions
2.6 Magnitude and phase response
2.7 First-order transfer functions
2.8 Second-order transfer functions
2.9 Review
Problems
3 The extra element theorem A basic simplification tool
3.1 Introduction
3.2 Null double injection
3.3 The EET for impedance elements
3.4 The EET for dependent sources
3.5 Review
Problems
REFERENCES
4 The N-extra element theorem Divide and conquer
4.1 Introduction
4.2 The 2-EET for impedance elements
4.3 The 2-EET for dependent sources
4.4 The NEET
4.5 A proof of the NEET
4.6 Review
Problems
REFERENCES
5 Electronic negative feedback Low-entropy reformulation of US Patent 2, 102,671
5.1 Introduction
5.2 The EET for dependent sources and formulation of electronic feedback
5.2.1 Gain analysis
5.2.2 Driving-point analysis
5.2.3 Loop gain
5.3 Does this circuit have feedback or not? That is not the question
5.4 Gain analysis of feedback amplifiers
5.5 Driving-point analysis of feedback amplifiers
5.5.1 Input impedance for current mixing
5.5.2 Output impedance for voltage sensing
5.5.3 Input admittance for voltage mixing
5.5.4 Output admittance for current sensing
5.6 Loop gain: a more detailed look
5.7 Stability
5.8 Phase and gain margins
5.9 Review
Problems
REFERENCES
6 High-frequency and microwave circuits Doing it all in your head
6.1 Introduction
6.2 Cascode MOS amplifier
The low-frequency asymptote A
The numerator N(s)
The denominator D(s)
6.3 Fifth-order Chebyshev low-pass filter
6.4 MESFET amplifier
The low-frequency asymptote A
The denominator D(s)
6.5 Review
Problems
REFERENCES
7 Passive filters Where inductors and transformers still get respect
7.1 Introduction
7.2 RC filters with gain
7.3 Lattice filters
7.4 Resonant filters
7.4.1 Parallel resonant filters
7.4.2 Tapped parallel resonant filter
7.4.3 The three-winding transformer
7.5 Infinite scaling networks
7.5.1 Infinite grid
7.5.2 Infinite scaling networks
7.5.3 A generalized linear element and a unified R, L and C model
7.6 Review
Problems
REFERENCES
8 PWM switching dc-to-dc converters Introducing the PWM switch
8.1 Introduction
8.2 Basic characteristics of dc-to-dc converters
8.3 The buck converter
8.4 The boost converter
8.5 The buck-boost converter
8.6 The Cuk converter
8.7 The PWM switch and its invariant terminal characteristics
8.8 Average large-signal and small-signal equivalent circuit models of the PWM switch
8.9 The PWM switch in other converter topologies
8.10 The effect of parasitic elements on the model of the PWM switch
8.11 Feedback control of dc-to-dc converters
8.11.1 Single-loop voltage feedback control
8.11.2 Current feedback control
8.11.3 Voltage feedback control with peak current control
8.12 Review

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