Description

Book Synopsis


Table of Contents

Chapter 1 Introduction 1

1 – 1 About This Book 2

1 – 2 Symbols and Units 4

1 – 3 Circuit Variables 5

1 – 4 Computational and Simulation Software Introduction 11

Summary 12

Problems P- 1

Integrating Problems P- 2

Chapter 2 Basic circuit Analysis 15

2 – 1 Element Constraints 16

2 – 2 Connection Constraints 21

2 – 3 Combined Constraints 28

2 – 4 Equivalent Circuits 35

2 – 5 Voltage and Current Division 43

2 – 6 Circuit Reduction 52

2 – 7 Computer-Aided Circuit Analysis 56

Summary 62

Problems P- 5

Integrating Problems P- 13

Chapter 3 circuit Analysis Techniques 63

3 – 1 Node-Voltage Analysis 64

3 – 2 Mesh-Current Analysis 80

3 – 3 Linearity Properties 88

3 – 4 Thévenin and Norton Equivalent Circuits 98

3 – 5 Maximum Signal Transfer 109

3 – 6 Interface Circuit Design 112

Summary 124

Problems P- 17

Integrating Problems P- 27

Chapter 4 Active circuits 125

4 – 1 Linear Dependent Sources 126

4 – 2 Analysis of Circuits with Dependent Sources 127

4 – 3 The Operational Amplifier 149

4 – 4 OP AMP Circuit Analysis 157

4 – 5 OP AMP Circuit Design 174

4 – 6 OP AMP Circuit Applications 181

Summary 206

Problems P- 31

Integrating Problems P- 42

Chapter 5 Signal Waveforms 207

5 – 1 Introduction 208

5 – 2 The Step Waveform 209

5 – 3 The Exponential Waveform 214

5 – 4 The Sinusoidal Waveform 220

5 – 5 Composite Waveforms 227

5 – 6 Waveform Partial Descriptors 234

Summary 240

Problems P- 45

Integrating Problems P- 50

Chapter 6 capacitance and Inductance 241

6 – 1 The Capacitor 242

6 – 2 The Inductor 249

6 – 3 Dynamic OP AMP Circuits 256

6 – 4 Equivalent Capacitance and Inductance 265

Summary 269

Problems P- 53

Integrating Problems P- 58

Chapter 7 First- and Second-order circuits 271

7 – 1 RC and RL Circuits 272

7 – 2 First-Order Circuit Step Response 284

7 – 3 Initial and Final Conditions 293

7 – 4 First-Order Circuit Response to Exponential and Sinusoidal Inputs 300

7 – 5 The Series RLC Circuit 309

7 – 6 The Parallel RLC Circuit 320

7 – 7 Second-Order Circuit Step Response 325

Summary 336

Problems P- 61

Integrating Problems P- 69

Chapter 8 Sinusoidal Steady-state Response 337

8 – 1 Sinusoids and Phasors 338

8 – 2 Phasor Circuit Analysis 344

8 – 3 Basic Phasor Circuit Analysis and Design 350

8 – 4 Circuit Theorems with Phasors 366

8 – 5 General Circuit Analysis with Phasors 379

8 – 6 Energy and Power 394

Summary 399

Problems P- 73

Integrating Problems P- 82

Chapter 9 Laplace Transforms 401

9 – 1 Signal Waveforms and Transforms 402

9 – 2 Basic Properties and Pairs 406

9 – 3 Pole-Zero Diagrams 414

9 – 4 Inverse Laplace Transforms 417

9 – 5 Circuit Response Using Laplace Transforms 428

9 – 6 Initial and Final Value Properties 436

Summary 439

Problems P- 85

Integrating Problems P- 89

Chapter 10 s-Domain Circuit Analysis 441

10– 1 Transformed Circuits 442

10– 2 Basic Circuit Analysis in the s Domain 451

10– 3 Circuit Theorems in the s Domain 457

10– 4 Node-Voltage Analysis in the s Domain 467

10– 5 Mesh-Current Analysis in the s Domain 476

10– 6 Summary of s -Domain Circuit Analysis 482

Summary 486

Problems P- 93

Integrating Problems P- 101

Chapter 11 Network Functions 487

11– 1 Definition of a Network Function 488

11– 2 Network Functions of One- and Two-Port Circuits 491

11– 3 Network Functions and Impulse Response 503

11– 4 Network Functions and Step Response 506

11– 5 Network Functions and Sinusoidal Steady-State Response 510

11– 6 Impulse Response and Convolution 519

11– 7 Network Function Design and Evaluation 525

Summary 540

Problems P- 105

Integrating Problems P- 112

Chapter 12 Frequency Response 543

12– 1 The Electromagnetic Spectrum and Frequency-Response Descriptors 544

12– 2 Bode Diagram Descriptors 547

12– 3 First-Order Low-Pass and High-Pass Responses 549

12– 4 Bandpass and Bandstop Responses 566

12– 5 The Frequency Response of RLC Circuits 574

12– 6 Bode Diagrams 584

12– 7 Frequency Response and Step Response 596

Summary 602

Problems P- 115

Integrating Problems P- 122

Chapter 13 Fourier Series 603

13– 1 Overview of Fourier Series 604

13– 2 Fourier Coefficients 605

13– 3 Waveform Symmetries 615

13– 4 Circuit Analysis Using the Fourier Series 617

13– 5 RMS Value and Average Power 626

Summary 633

Problems P- 127

Integrating Problems P- 131

Chapter 14 Active Filter Design 635

14– 1 Active Filters 636

14– 2 Second-Order Low-Pass and High-Pass Filters 637

14– 3 Second-Order Bandpass and Bandstop Filters 646

14– 4 Low-Pass Filter Design 656

14– 5 Low-Pass Filter Evaluation 677

14– 6 High-Pass Filter Design and Evaluation 682

14– 7 Bandpass and Bandstop Filter Design 694

Summary 700

Problems P- 133

Integrating Problems P- 137

Chapter 15 Mutual Inductance and Transformers 701

15– 1 Coupled Inductors 702

15– 2 The Dot Convention 704

15– 3 Energy Analysis 709

15– 4 The Ideal Transformer 711

15– 5 Linear Transformers 719

Summary 726

Problems P- 141

Integrating Problems P- 143

Chapter 16 Ac Power Systems 729

16– 1 Average and Reactive Power 730

16– 2 Complex Power 732

16– 3 Single-Phase Circuit Analysis 735

16– 4 Single-Phase Power Flow 740

16– 5 Balanced Three-Phase Circuits 745

16– 6 Three-Phase Circuit Analysis 750

16– 7 Three-Phase Power Flow 763

Summary 766

Problems P- 145

Integrating Problems P- 150

Chapter 17 Two-port Networks 767

17– 1 Introduction 768

17– 2 Impedance Parameters 769

17– 3 Admittance Parameters 772

17– 4 Hybrid Parameters 774

17– 5 Transmission Parameters 777

17– 6 Two-Port Conversions and Connections 780

Summary 785

Problems P- 151

Integrating Problems P- 153

Chapter 18 Fourier Transforms 787

18– 1 Introduction to Fourier Transforms 788

18– 2 Circuit Analysis Using Fourier Transforms 803

18– 3 Impulse Response and Convolution 806

18– 4 Parseval’ sTheorem 809

Summary 814

Problems P- 155

Integrating Problems P- 157

Appendix A Solution of Linear Equations A- 1

Appendix B Butterworth and Chebyshev Poles B- 1

Appendix C Behaviorally Motivated Learning C- 1

Appendix D Computational Tools D- 1

Appendix E Solutions To Exercises (Available online) E- 1

Appendix F Complex Numbers F- 1

Appendix G Standard Values and References G- 1

Appendix H Answers to Selected Problems H- 1

Index I- 1

The Analysis and Design of Linear Circuits

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    A Paperback / softback by Roland E. Thomas, Albert J. Rosa, Gregory J. Toussaint

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      Publisher: John Wiley & Sons Inc
      Publication Date: 18/05/2023
      ISBN13: 9781119913023, 978-1119913023
      ISBN10: 1119913020
      Also in:
      Technology, Engineering & Agriculture Electronics and communications engineering

      Description

      Book Synopsis


      Table of Contents

      Chapter 1 Introduction 1

      1 – 1 About This Book 2

      1 – 2 Symbols and Units 4

      1 – 3 Circuit Variables 5

      1 – 4 Computational and Simulation Software Introduction 11

      Summary 12

      Problems P- 1

      Integrating Problems P- 2

      Chapter 2 Basic circuit Analysis 15

      2 – 1 Element Constraints 16

      2 – 2 Connection Constraints 21

      2 – 3 Combined Constraints 28

      2 – 4 Equivalent Circuits 35

      2 – 5 Voltage and Current Division 43

      2 – 6 Circuit Reduction 52

      2 – 7 Computer-Aided Circuit Analysis 56

      Summary 62

      Problems P- 5

      Integrating Problems P- 13

      Chapter 3 circuit Analysis Techniques 63

      3 – 1 Node-Voltage Analysis 64

      3 – 2 Mesh-Current Analysis 80

      3 – 3 Linearity Properties 88

      3 – 4 Thévenin and Norton Equivalent Circuits 98

      3 – 5 Maximum Signal Transfer 109

      3 – 6 Interface Circuit Design 112

      Summary 124

      Problems P- 17

      Integrating Problems P- 27

      Chapter 4 Active circuits 125

      4 – 1 Linear Dependent Sources 126

      4 – 2 Analysis of Circuits with Dependent Sources 127

      4 – 3 The Operational Amplifier 149

      4 – 4 OP AMP Circuit Analysis 157

      4 – 5 OP AMP Circuit Design 174

      4 – 6 OP AMP Circuit Applications 181

      Summary 206

      Problems P- 31

      Integrating Problems P- 42

      Chapter 5 Signal Waveforms 207

      5 – 1 Introduction 208

      5 – 2 The Step Waveform 209

      5 – 3 The Exponential Waveform 214

      5 – 4 The Sinusoidal Waveform 220

      5 – 5 Composite Waveforms 227

      5 – 6 Waveform Partial Descriptors 234

      Summary 240

      Problems P- 45

      Integrating Problems P- 50

      Chapter 6 capacitance and Inductance 241

      6 – 1 The Capacitor 242

      6 – 2 The Inductor 249

      6 – 3 Dynamic OP AMP Circuits 256

      6 – 4 Equivalent Capacitance and Inductance 265

      Summary 269

      Problems P- 53

      Integrating Problems P- 58

      Chapter 7 First- and Second-order circuits 271

      7 – 1 RC and RL Circuits 272

      7 – 2 First-Order Circuit Step Response 284

      7 – 3 Initial and Final Conditions 293

      7 – 4 First-Order Circuit Response to Exponential and Sinusoidal Inputs 300

      7 – 5 The Series RLC Circuit 309

      7 – 6 The Parallel RLC Circuit 320

      7 – 7 Second-Order Circuit Step Response 325

      Summary 336

      Problems P- 61

      Integrating Problems P- 69

      Chapter 8 Sinusoidal Steady-state Response 337

      8 – 1 Sinusoids and Phasors 338

      8 – 2 Phasor Circuit Analysis 344

      8 – 3 Basic Phasor Circuit Analysis and Design 350

      8 – 4 Circuit Theorems with Phasors 366

      8 – 5 General Circuit Analysis with Phasors 379

      8 – 6 Energy and Power 394

      Summary 399

      Problems P- 73

      Integrating Problems P- 82

      Chapter 9 Laplace Transforms 401

      9 – 1 Signal Waveforms and Transforms 402

      9 – 2 Basic Properties and Pairs 406

      9 – 3 Pole-Zero Diagrams 414

      9 – 4 Inverse Laplace Transforms 417

      9 – 5 Circuit Response Using Laplace Transforms 428

      9 – 6 Initial and Final Value Properties 436

      Summary 439

      Problems P- 85

      Integrating Problems P- 89

      Chapter 10 s-Domain Circuit Analysis 441

      10– 1 Transformed Circuits 442

      10– 2 Basic Circuit Analysis in the s Domain 451

      10– 3 Circuit Theorems in the s Domain 457

      10– 4 Node-Voltage Analysis in the s Domain 467

      10– 5 Mesh-Current Analysis in the s Domain 476

      10– 6 Summary of s -Domain Circuit Analysis 482

      Summary 486

      Problems P- 93

      Integrating Problems P- 101

      Chapter 11 Network Functions 487

      11– 1 Definition of a Network Function 488

      11– 2 Network Functions of One- and Two-Port Circuits 491

      11– 3 Network Functions and Impulse Response 503

      11– 4 Network Functions and Step Response 506

      11– 5 Network Functions and Sinusoidal Steady-State Response 510

      11– 6 Impulse Response and Convolution 519

      11– 7 Network Function Design and Evaluation 525

      Summary 540

      Problems P- 105

      Integrating Problems P- 112

      Chapter 12 Frequency Response 543

      12– 1 The Electromagnetic Spectrum and Frequency-Response Descriptors 544

      12– 2 Bode Diagram Descriptors 547

      12– 3 First-Order Low-Pass and High-Pass Responses 549

      12– 4 Bandpass and Bandstop Responses 566

      12– 5 The Frequency Response of RLC Circuits 574

      12– 6 Bode Diagrams 584

      12– 7 Frequency Response and Step Response 596

      Summary 602

      Problems P- 115

      Integrating Problems P- 122

      Chapter 13 Fourier Series 603

      13– 1 Overview of Fourier Series 604

      13– 2 Fourier Coefficients 605

      13– 3 Waveform Symmetries 615

      13– 4 Circuit Analysis Using the Fourier Series 617

      13– 5 RMS Value and Average Power 626

      Summary 633

      Problems P- 127

      Integrating Problems P- 131

      Chapter 14 Active Filter Design 635

      14– 1 Active Filters 636

      14– 2 Second-Order Low-Pass and High-Pass Filters 637

      14– 3 Second-Order Bandpass and Bandstop Filters 646

      14– 4 Low-Pass Filter Design 656

      14– 5 Low-Pass Filter Evaluation 677

      14– 6 High-Pass Filter Design and Evaluation 682

      14– 7 Bandpass and Bandstop Filter Design 694

      Summary 700

      Problems P- 133

      Integrating Problems P- 137

      Chapter 15 Mutual Inductance and Transformers 701

      15– 1 Coupled Inductors 702

      15– 2 The Dot Convention 704

      15– 3 Energy Analysis 709

      15– 4 The Ideal Transformer 711

      15– 5 Linear Transformers 719

      Summary 726

      Problems P- 141

      Integrating Problems P- 143

      Chapter 16 Ac Power Systems 729

      16– 1 Average and Reactive Power 730

      16– 2 Complex Power 732

      16– 3 Single-Phase Circuit Analysis 735

      16– 4 Single-Phase Power Flow 740

      16– 5 Balanced Three-Phase Circuits 745

      16– 6 Three-Phase Circuit Analysis 750

      16– 7 Three-Phase Power Flow 763

      Summary 766

      Problems P- 145

      Integrating Problems P- 150

      Chapter 17 Two-port Networks 767

      17– 1 Introduction 768

      17– 2 Impedance Parameters 769

      17– 3 Admittance Parameters 772

      17– 4 Hybrid Parameters 774

      17– 5 Transmission Parameters 777

      17– 6 Two-Port Conversions and Connections 780

      Summary 785

      Problems P- 151

      Integrating Problems P- 153

      Chapter 18 Fourier Transforms 787

      18– 1 Introduction to Fourier Transforms 788

      18– 2 Circuit Analysis Using Fourier Transforms 803

      18– 3 Impulse Response and Convolution 806

      18– 4 Parseval’ sTheorem 809

      Summary 814

      Problems P- 155

      Integrating Problems P- 157

      Appendix A Solution of Linear Equations A- 1

      Appendix B Butterworth and Chebyshev Poles B- 1

      Appendix C Behaviorally Motivated Learning C- 1

      Appendix D Computational Tools D- 1

      Appendix E Solutions To Exercises (Available online) E- 1

      Appendix F Complex Numbers F- 1

      Appendix G Standard Values and References G- 1

      Appendix H Answers to Selected Problems H- 1

      Index I- 1

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