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Analysis and Design of Linear Circuits 2nd Revised edition [Kõva köide]

,
  • Formaat: Hardback, 950 pages, kõrgus: 240 mm, Illustrations (some col.)
  • Ilmumisaeg: 15-Jan-1998
  • Kirjastus: Prentice Hall
  • ISBN-10: 0135352797
  • ISBN-13: 9780135352793
Teised raamatud teemal:
Analysis and Design of Linear Circuits 2nd Revised editionSuurem pilt
  • Formaat: Hardback, 950 pages, kõrgus: 240 mm, Illustrations (some col.)
  • Ilmumisaeg: 15-Jan-1998
  • Kirjastus: Prentice Hall
  • ISBN-10: 0135352797
  • ISBN-13: 9780135352793
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780135352793.html
Märksõnad:
Improving upon its widely-acclaimed design coverage, the second edition of this text provides even greater design emphasis, with new open-ended design problems and a focus on evaluating design alternatives. Innovative pedagogy helps readers comprehend the basics; synthesize concepts from multiple chapter topics; design and evaluate circuit stages (or building blocks); and ultimately, design and evaluate complete circuits by integrating the concepts learned throughout the chapters.
PART 1 RESISTANCE CIRCUITS 1(252)
CHAPTER 1 INTRODUCTION
3(19)
1-1 About This Book
4(2)
1-2 Symbols and Units
6(1)
1-3 Circuit Variables
6(9)
SUMMARY
15(1)
EN ROUTE OBJECTIVES AND ASSOCIATED PROBLEMS
15(5)
CHAPTER-INTEGRATING PROBLEMS
20(1)
CHAPTER 2 BASIC CIRCUIT ANALYSIS
21(63)
2-1 Element Constraints
22(5)
2-2 Connection Constraints
27(8)
2-3 Combined Constraints
35(6)
2-4 Equivalent Circuits
41(8)
2-5 Voltage and Current Division
49(6)
2-6 Circuit Reduction
55(6)
2-7 Computer-aided Circuit Analysis
61(6)
SUMMARY
67(1)
EN ROUTE OBJECTIVES AND ASSOCIATED PROBLEMS
68(12)
CHAPTER-INTEGRATING PROBLEMS
80(4)
CHAPTER 3 CIRCUIT ANALYSIS TECHNIQUES
84(81)
3-1 Node-voltage Analysis
86(14)
3-2 Mesh-current Analysis
100(10)
3-3 Linearity Properties
110(8)
3-4 Thevenin and Norton Equivalent Circuits
118(13)
3-5 Maximum Signal Transfer
131(4)
3-6 Interface Circuit Design
135(11)
SUMMARY
146(1)
EN ROUTE OBJECTIVES AND ASSOCIATED PROBLEMS
147(14)
CHAPTER-INTEGRATING PROBLEMS
161(4)
CHAPTER 4 ACTIVE CIRCUITS
165(88)
4-1 Linear Dependent Sources
166(3)
4-2 Analysis of Circuits with Dependent Sources
169(12)
4-3 The Transistor
181(5)
4-4 The Operational Amplifier
186(7)
4-5 OP AMP Circuit Analysis
193(16)
4-6 OP AMP Circuit Design
209(13)
4-7 The Comparator
222(2)
4-8 Comparison of Analysis Methods
224(3)
SUMMARY
227(1)
EN ROUTE OBJECTIVES AND ASSOCIATED PROBLEMS
228(13)
CHAPTER-INTEGRATING PROBLEMS
241(4)
COURSE-INTEGRATING PROBLEMS (PART 1)
245(8)
PART 2 DYNAMIC CIRCUITS 253(444)
CHAPTER 5 SIGNAL WAVEFORMS
255(50)
5-1 Introduction
256(2)
5-2 The Step Waveform
258(5)
5-3 The Exponential Waveform
263(5)
5-4 The Sinusoidal Waveform
268(8)
5-5 Composite Waveforms
276(5)
5-6 Waveform Partial Descriptors
281(7)
5-7 Signal Spectra
288(7)
SUMMARY
295(1)
EN ROUTE OBJECTIVES AND ASSOCIATED PROBLEMS
296(7)
CHAPTER-INTEGRATING PROBLEMS
303(2)
CHAPTER 6 CAPACITANCE AND INDUCTANCE
305(52)
6-1 The Capacitor
306(8)
6-2 The Inductor
314(6)
6-3 Dynamic OP AMP Circuits
320(8)
6-4 Equivalent Capacitance and Inductance
328(4)
6-5 Mutual Inductance
332(8)
6-6 The Ideal Transformer
340(5)
SUMMARY
345(1)
EN ROUTE OBJECTIVES AND ASSOCIATED PROBLEMS
345(8)
CHAPTER-INTEGRATING PROBLEMS
353(4)
CHAPTER 7 FIRST- AND SECOND-ORDER CIRCUITS
357(76)
7-1 RC and RL Circuits
358(10)
7-2 First-order Circuit Step Response
368(10)
7-3 Initial and Final Conditions
378(6)
7-4 First-order Circuit Sinusoidal Response
384(7)
7-5 The Series RLC Circuit
391(11)
7-6 The Parallel RLC Circuit
402(5)
7-7 Second-Order Circuit Step Response
407(12)
SUMMARY
419(1)
EN ROUTE OBJECTIVES AND ASSOCIATED PROBLEMS
420(9)
CHAPTER-INTEGRATING PROBLEMS
429(4)
CHAPTER 8 SINUSOIDAL STEADY-STATE RESPONSE
433(79)
8-1 Sinusoids and Phasors
434(7)
8-2 Phasor Circuit Analysis
441(4)
8-3 Basic Circuit Analysis with Phasors
445(5)
8-4 Circuit Theorems with Phasors
460(10)
8-5 General Circuit Analysis with Phasors
470(11)
8-6 The Linear Transformer
481(9)
8-7 Energy and Power
490(7)
SUMMARY
497(1)
EN ROUTE OBJECTIVES AND ASSOCIATED PROBLEMS
498(12)
CHAPTER-INTEGRATING PROBLEMS
510(2)
CHAPTER 9 LAPLACE TRANSFORMS
512(56)
9-1 Signal Waveforms and Transforms
513(5)
9-2 Basic Properties and Pairs
518(7)
9-3 Pole-zero Diagrams
525(4)
9-4 Inverse Laplace Transforms
529(5)
9-5 Some Special Cases
534(6)
9-6 Circuit Response Using Laplace Transforms
540(8)
9-7 Translation and Scaling Properties
548(8)
9-8 Initial Value and Final Value Properties
556(3)
SUMMARY
559(1)
EN ROUTE OBJECTIVES AND ASSOCIATED PROBLEMS
560(6)
CHAPTER-INTEGRATING PROBLEMS
566(2)
CHAPTER 10 s-DOMAIN CIRCUIT ANALYSIS
568(62)
10-1 Transformed Circuits
569(10)
10-2 Basic Circuit Analysis in the s Domain
579(5)
10-3 Circuit Theorems in the s Domain
584(11)
10-4 Node-voltage Analysis in the s Domain
595(13)
10-5 Mesh-current Analysis in the s Domain
608(8)
10-6 Summary of s-Domain Circuit Analysis
616(3)
SUMMARY
619(1)
EN ROUTE OBJECTIVES AND ASSOCIATED PROBLEMS
620(8)
CHAPTER-INTEGRATING PROBLEMS
628(2)
CHAPTER 11 NETWORK FUNCTIONS
630(67)
11-1 Definition of a Network Function
631(3)
11-2 Network Functions of One- and Two-port Circuits
634(12)
11-3 Network Functions and Impulse Response
646(4)
11-4 Network Functions and Step Response
650(3)
11-5 Network Functions and Sinusoidal Steady-state Response
653(5)
11-6 Network Functions and Convolution
658(6)
11-7 Network Function Design
664(15)
SUMMARY
679(2)
EN ROUTE OBJECTIVES AND ASSOCIATED PROBLEMS
681(6)
CHAPTER-INTEGRATING PROBLEMS
687(3)
COURSE-INTEGRATING PROBLEMS (PART 2)
690(7)
PART 3 APPLICATIONS 697
CHAPTER 12 FREQUENCY RESPONSE
699(79)
12-1 Frequency-response Descriptors
700(6)
12-2 First-order Circuit frequency Response
706(16)
12-3 Second-order Circuit Frequency Response
722(13)
12-4 The Frequency Response of RLC Circuits
735(7)
12-5 Bode Diagrams
742(11)
12-6 Bode Diagrams with Complex Critical Frequencies
753(7)
12-7 Frequency and Step Responses
760(4)
SUMMARY
764(1)
EN ROUTE OBJECTIVES AND ASSOCIATED PROBLEMS
765(10)
CHAPTER-INTEGRATING PROBLEMS
775(3)
CHAPTER 13 ANALOG FILTER DESIGN
778(58)
13-1 Frequency-domain Signal Processing
779(2)
13-2 Design with First-order Circuits
781(9)
13-3 Design with Second-order Circuits
790(8)
13-4 Low-pass Filter Design
798(18)
13-5 High-pass Filter Design
816(5)
13-6 Bandpass and Bandstop Filter Design
821(3)
SUMMARY
824(1)
EN ROUTE OBJECTIVES AND ASSOCIATED PROBLEMS
825(8)
CHAPTER-INTEGRATING PROBLEMS
833(3)
CHAPTER 14 POWER IN THE SINUSOIDAL STEADY STATE
836(45)
14-1 Average and Reactive Power
837(3)
14-2 Complex Power
840(4)
14-3 AC Power Analysis
844(4)
14-4 Load-flow Analysis
848(6)
14-5 Three-phase Circuits
854(4)
14-6 Three-phase AC Power Analysis
858(10)
14-7 Three-Phase Power Measurement
868(2)
SUMMARY
870(1)
EN ROUTE OBJECTIVES AND ASSOCIATED PROBLEMS
871(7)
CHAPTER-INTEGRATING PROBLEMS
878(3)
CHAPTER 15 FOURIER SERIES
881(39)
15-1 Overview of Fourier Analysis
882(2)
15-2 Fourier Coefficients
884(9)
15-3 Waveform Symmetries
893(3)
15-4 Circuit Analysis Using Fourier Series
896(6)
15-5 RMS Value and Average Power
902(4)
15-6 The Exponential Fourier Series
906(4)
SUMMARY
910(1)
EN ROUTE OBJECTIVES AND ASSOCIATED PROBLEMS
911(6)
CHAPTER-INTEGRATING PROBLEMS
917(3)
CHAPTER 16 FOURIER TRANSFORMS
920
16-1 Definition of Fourier Transforms
921(6)
16-2 Laplace Transforms and Fourier Transforms
927(3)
16-3 Basic Fourier Transform Properties and Pairs
930(4)
16-4 More Fourier Transform Properties
934(6)
16-5 Circuit Analysis Using Fourier Transforms
940(3)
16-6 Impulse Response and Convolution
943(4)
16-7 Parseval's Theorem
947(5)
SUMMARY
952(1)
EN ROUTE OBJECTIVES AND ASSOCIATED PROBLEMS
953(6)
CHAPTER-INTEGRATING PROBLEMS
959(2)
COURSE-INTEGRATING PROBLEMS (PART 3)
961
APPENDIX A COMPONENTS A-1
APPENDIX B SOLUTION OF LINEAR EQUATIONS A-9
APPENDIX C COMPLEX NUMBERS A-21
APPENDIX D TWO-PORT CIRCUITS A-25
APPENDIX E REFERENCES A-32
ANSWERS TO SELECTED PROBLEMS A-35
INDEX I-1