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9780521624428

Fast Analytical Techniques for Electrical and Electronic Circuits

by
  • ISBN13:

    9780521624428

  • ISBN10:

    0521624428

  • Format: Hardcover
  • Copyright: 2002-06-10
  • Publisher: Cambridge University Press

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Summary

Today, 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 unique 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.

Table of Contents

Preface xi
Introduction
1(14)
Fast analytical methods
1(1)
Input impedance of a bridge circuit
2(2)
Input impedance of a bridge circuit with a dependent source
4(4)
Input impedance of a reactive bridge circuit with a dependent source
8(3)
Review
11(4)
Problems
11(3)
References
14(1)
Transfer functions
15(46)
Definition of a transfer function
15(2)
The six types of transfer functions of an electrical circuit
17(2)
Determination of the poles of a network
19(5)
Determination of the zeros of a transfer function
24(10)
The complete response, stability and transfer functions
34(7)
Magnitude and phase response
41(2)
First-order transfer functions
43(5)
Second-order transfer functions
48(4)
Review
52(9)
Problems
53(8)
The extra element theorem
61(46)
Introduction
61(1)
Null double injection
62(12)
The EET for impedance elements
74(14)
The EET for dependent sources
88(10)
Review
98(9)
Problems
99(7)
References
106(1)
The N-extra element theorem
107(56)
Introduction
107(1)
The 2-EET for impedance elements
108(22)
The 2-EET for dependent sources
130(7)
The NEET
137(10)
A proof of the NEET
147(6)
Review
153(10)
Problems
154(8)
References
162(1)
Electronic negative feedback
163(89)
Introduction
163(1)
The EET for dependent sources and formulation of electronic feedback
164(15)
Gain analysis
164(6)
Driving-point analysis
170(5)
Loop gain
175(4)
Does this circuit have feedback or not? This is not the question
179(1)
Gain analysis of feedback amplifiers
180(15)
Driving-point analysis of feedback amplifiers
195(18)
Input impedance for current mixing
196(4)
Output impedance for voltage sensing
200(4)
Input admittance for voltage mixing
204(5)
Output admittance for current sensing
209(4)
Loop gain: a more detailed look
213(5)
Stability
218(8)
Phase and gain margins
226(7)
Review
233(19)
Problems
234(17)
References
251(1)
High-frequency and microwave circuits
252(65)
Introduction
252(1)
Cascode MOS amplifier
252(9)
Fifth-order Chebyshev low-pass filter
261(4)
MESFET amplifier
265(45)
Review
310(7)
Problems
311(5)
References
316(1)
Passive filters
317(48)
Introduction
317(1)
RC filters with gain
317(10)
Lattice filters
327(8)
Resonant filters
335(14)
Parallel resonant filters
336(3)
Tapped parallel resonant filter
339(5)
The three-winding transformer
344(5)
Infinite scaling networks
349(9)
Infinite grid
349(2)
Infinite scaling networks
351(5)
A generalized linear element and a unified R, L and C model
356(2)
Review
358(7)
Problems
358(6)
References
364(1)
PWM switching dc-to-dc converters
365(107)
Introduction
365(1)
Basic characteristics of dc-to-dc converters
366(4)
The buck converter
370(16)
The boost converter
386(6)
The buck-boost converter
392(5)
The Cuk converter
397(3)
The PWM switch and its invariant terminal characteristics
400(2)
Average large-signal and small-signal equivalent circuit models of the PWM switch
402(9)
The PWM switch in other converter topologies
411(15)
The effect of parasitic elements on the model of the PWM switch
426(6)
Feedback control of dc-to-dc converters
432(28)
Single-loop voltage feedback control
433(7)
Current feedback control
440(13)
Voltage feedback control with peak current control
453(7)
Review
460(12)
Problems
461(9)
References
470(2)
Index 472

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The New copy of this book will include any supplemental materials advertised. Please check the title of the book to determine if it should include any access cards, study guides, lab manuals, CDs, etc.

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