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The Analysis and Design of Linear Circuits, 8th Edition provides an introduction to the analysis, design, and evaluation of electric circuits, focusing on developing the learners design intuition. The text emphasizes the use of computers to assist in design and evaluation. Early introduction to circuit design motivates the student to create circuit solutions and optimize designs based on real-world constraints. This text is an unbound, three hole punched version.

Roland E. Thomas is the author of The Analysis and Design of Linear Circuits, Binder Ready Version, 8th Edition, published by Wiley. Albert J. Rosa is the author of The Analysis and Design of Linear Circuits, Binder Ready Version, 8th Edition, published by Wiley.

Chapter 1 Introduction 1

1-1 About This Book 2

1-2 Symbols and Units 3

1-3 Circuit Variables 5

1-4 Computational and Simulation Software Introduction 10

Chapter 2 Basic Circuit Analysis 16

2-1 Element Constraints 17

2-2 Connection Constraints 22

2-3 Combined Constraints 28

2-4 Equivalent Circuits 34

2-5 Voltage and Current Division 42

2-6 Circuit Reduction 50

2-7 Computer - Aided Circuit Analysis 54

Chapter 3 Circuit Analyisis Techniques 72

3-1 Node: Voltage Analysis 73

3-2 Mesh Current Analysis 89

3-3 Linearity Properties 97

3-4 Thevenin and Norton Equivalent Curcuits 107

3-5 Maximum Signal Transfer 118

3-6 Interface Circuit Design 121

Chapter 4 Active Circuits 150

4-1 Linear Dependent Sources 151

4-2 Analysis of Circuits with Dependent Sources 152

4-3 The Operational Amplifier 171

4-4 OP AMP Circuit Analysis 178

4-5 OP AMP Circuit Design 193

4-6 OP AMP Circuit Applications 199

Chapter 5 Signal Waveforms 233

5-1 Introduction 234

5-2 The Step Waveform 235

5-3 The Exponential Waveform 240

5-4 The Sinusoidal Waveform 245

5-5 Composite Waveforms 252

5-6 Waveform Partial Descriptors 259

Chapter 6 Capacitance and Inductance 274

6-1 The Capacitor 275

6-2 The Inductor 282

6-3 Dynamic OP AMP Circuits 288

6-4 Equivalent Capacitance and Inductance 296

Chapter 7 First and Second-Order Circuits 309

7-1 RC and RL Circuits 310

7-2 First-Order Circuits Step Response 321

7-3 Initial and Final Conditions 329

7-4 First-Order Circuit Response to Exponential and Sinusoidal Inputs 336

7-5 The Series RLC Circuit 344

7-6 The Parallel RLC Circuit 353

7-7 Second-Order Circuit Step Response 359

Chapter 8 Sinusoidal Steady-State Response 382

8-1 Sinusoids and Phasors 383

8-2 Phasor Circuit Analysis 389

8-3 Basic Phasor Circuit Analysis and Design 394

8-4 Circuit Theorems with Phasors 409

8-5 General Circuit Analysis with Phasors 422

8-6 Energy and Power 435

Chapter 9 Laplace Transforms 453

9-1 Signal Waveforms and Transforms 454

9-2 Basic Properties and Pairs 458

9-3 Pole-Zero Diagrams 466

9-4 Inverse Laplace Transforms 469

9-5 Circuit Response Using Laplace Transforms 480

9-6 Initial and Final Value Properties 488

Chapter 10 Domain Circuit Analysis 498

10-1 Transformed Circuits 499

10-2 Basic Circuit Analysis in the Domain 508

10-3 Circuit Theorems in the s Domain 513

10-4 Node Voltage Analysis in the s Domain 523

10-5 Mesh-Current Analysis in the s Domain 532

10-6 Summary of s-Domain Circuit Analysis 538

Chapter 11 Network Functions 554

11-1 Definition of a Network Function 555

11-2 Network Function of One- and Two-Port Circuits 558

11-3 Network Functions and Impluse Response 569

11-4 Network Functions and Step Response 572

11-5 Network Functions and Sinusoidal Steady-State Response 576

11-6 Impluse Response and Convolution 583

11-7 Network Function Design and Evaluation 589

Chapter 12 Frequency Response 616

12-1 Frequency-Response Descriptors 617

12-2 Bode Diagrams 619

12-3 First-Order Low-Pass and High-Pass Responses 621

12-4 Bandpass and Bandstop Responses 637

12-5 The Frequency Response of RLC Circuits 643

12-6 Bode Diagrams with Real Poles and Zeros 652

12-7 Bode Diagrams with Complex Poles Zeros 661

12-8 Frequency Response and Step Response 667

Chapter 13 Fourier Series 686

13-1 Overview of Fourier Series 687

13-2 Fourier Coefficients 688

13-3 Waveform Symmetries 697

13-4 Circuit Analysis Using the Fourier Series 699

13-5 RMS Value and Average Power 706

Chapter 14 Active Filter Design 719

14-1 Active Filters 720

14-2 Second-Order Low-Pass and High-Pass Filters 721

14-3 Second-Order Bandpass and Bandstop Filters 730

14-4 Low-Pass Filter Design 739

14-5 Low-Pass Filter Evaluation 757

14-6 High-Pass Filter Design 760

14-7 Bandpass and Bandstop Filter Design 772

Chapter 15 Mutual Inductance and Transformers 785

15-1 Coupled Inductors 786

15-2 The Dot Convention 788

15-3 Energy Analysis 790

15-4 The Ideal Transformer 792

15-5 Linear Transformers 799

Chapter 16 AC Power Systems 811

16-1 Average and Reactive Power 812

16-2 Complex Power 814

16-3 Single-Phase Circuit Analysis 817

16-4 Single-Phase Power Flow 821

16-5 Balanced Three-Phase Circuits 825

16-6 Three-Phase Circuit Analysis 830

16-7 Three-Phase Power Flow 841

Appendix A Complex Numbers 850

Answers to Selected Problems 854

Index 881

Web Chapter 17 Two-Port Networks WC1

17-1 Introduction WC2

17-2 Impedance Parameters WC3

17-3 Admittance Parameters WC5

17-4 Hybrid Parameters WC7

17-5 Transmission Parameters WC10

17-6 Two-Port Conversions and Connections wc12

Web Appendix A Solution of Linear Equations

Web Appendix B Butterworth and Chebyshev Poles

Web Appendix C Fourier Transform

Web Appendix D Computational Tools

Web Appendix E Solutions to Exercises

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