1 - 1  About This Book.

1 - 2  Symbols and Units.

1 - 3  Circuit Variables.

SUMMARY.

PROBLEMS.

INTEGRATING PROBLEMS.

CHAPTER 2 • BASIC CIRCUIT ANALYSIS.

2 - 1  Element Constraints.

2 - 2  Connection Constraints.

2 - 3  Combined Constraints.

2 - 4  Equivalent Circuits.

2 - 5  Voltage and Current Division.

2 - 6  Circuit Reduction.

2 - 7  Computer-aided Circuit Analysis.

SUMMARY.

PROBLEMS.

INTEGRATING PROBLEMS.

CHAPTER 3 • CIRCUIT ANALYSIS TECHNIQUES.

3 - 1  Node-voltage Analysis.

3 - 2  Mesh-current Analysis.

3 - 3  Linearity Properties.

3 - 4  Thévenin and Norton Equivalent Circuits.

3 - 5  Maximum Signal Transfer.

3 - 6  Interface Circuit Design.

SUMMARY.

PROBLEMS.

INTEGRATING PROBLEMS.

CHAPTER 4 • ACTIVE CIRCUITS.

4 - 1 Linear Dependent Sources.

4 - 2 Analysis of Circuits with Dependent Sources.

4 - 3 The Transistor.

4 - 4 The Operational Amplifier.

4 - 5 OP AMP Circuit Analysis.

4 - 6 OP AMP Circuit Design.

4 - 7 OP AMP Circuit Applications.

SUMMARY.

PROBLEMS.

INTEGRATING PROBLEMS.

CHAPTER 5 • SIGNAL WAVEFORMS.

5 - 1 Introduction.

5 - 2 The Step Waveform.

5 - 3 The Exponential Waveform.

5 - 4 The Sinusoidal Waveform.

5 - 5 Composite Waveforms.

5 - 6 Waveform Partial Descriptors.

SUMMARY.

PROBLEMS.

INTEGRATING PROBLEMS.

CHAPTER 6 • CAPACITANCE AND INDUCTANCE.

6 - 1 The Capacitor.

6 - 2 The Inductor.

6 - 3 Dynamic OP AMP Circuits.

6 - 4 Equivalent Capacitance and Inductance.

SUMMARY.

PROBLEMS.

INTEGRATING PROBLEMS.

CHAPTER 7 • FIRST- AND SECOND-ORDER CIRCUITS.

7 - 1  RC and RL Circuits.

7 - 2  First Order Circuit - Second Response. 

7 - 3  Initial and Final Conditions.

7 - 4  First order Circuit - Sinusoid Reponse.

7 - 5  The Series RLC Circuit.

7 - 6  The Parallel RLC Circuit.

7 - 7  Second-order Circuit Step Response.

7 - 8  Other Second-order Circuits.

SUMMARY.

PROBLEMS.

INTEGRATING PROBLEMS..

CHAPTER 8 • SINUSOIDAL STEADY-STATE RESPONSE.

8 - 1  Sinusoids and Phasors.

8 - 2  Phasor Circuit Analysis. 

8 - 3  Basic Circuit Analysys With Phasors.

8 - 4  Circuit Theorems with Phasors.

8 - 5  General Circuit Analysis With Phasors.

8 - 6  Energy and Power.

SUMMARY.

PROBLEMS.

INTEGRATING PROBLEMS.

CHAPTER 9 • LAPLACE TRANSFORMS.

9 - 1  Signal Waveforms and Transforms.

9 - 2  Basic Properties & Pairs. 

9 - 3  Pole-zero Diagrams.

9 - 4  Inverse Laplace Transforms.

9 - 5  Some Special Cases.

9 - 6  Circuit Response Using Laplace Transforms.

9 - 7  Initial Value & Final Value Properties..

SUMMARY.

PROBLEMS.

INTEGRATING PROBLEMS.

CHAPTER 10 • s-DOMAIN CIRCUIT ANALYSIS.

10-1 Transformed Circuits.

10-2 Basic Circuit Analysis In The s Domain.

10-3 Circuit Theorems In The s Domain.

10-4 Node Voltage Analysis In The s Domain.

10-5 Mesh-Current Analysis In The s Domain.

10-6 Summary of s-Domain Circuit Analysis.

SUMMARY.

PROBLEMS.

INTEGRATING PROBLEMS.

CHAPTER 11 • NETWORK FUNCTIONS.

11-1 Definition of a Network Function.

11-2 Network Functions of One- and Two-port Circuits.

11-3 Network Functions and Impulse Response.

11-4 Network Functions and Step Response.

11-5 Network Functions and Sinusoidal Steady-state Response.

11-6 Impulse Response and Convolution.

11-7 Network Function Design.

SUMMARY.

PROBLEMS.

INTEGRATING PROBLEMS.

CHAPTER 12 • FREQUENCY RESPONSE.

12-1 Frequency-response Descriptors.

12-2 Bode Plots.

12-3 First-order Low-Pass and High-Pass Responses.

12-4 Bandpass and Bandstop Responses.

12-5 The Frequency Response of RLC Circuits.

12-6 Bode Diagrams with Real Poles and Zeros.

12-7 Bode Diagrams with Complex Poles and Zeros.

12-8 Frequency Response and Step Response.

SUMMARY.

PROBLEMS.

INTEGRATING PROBLEMS.

CHAPTER 13 • FOURIER SERIES.

13-1 Overview of Fourier Analysis.

13-2 Fourier Coefficients..

13-3 Waveform Symmetries.

13-4  Circuit Analysis Using The Fourier Series 630 

13-5 RMS Value and Average Power.

SUMMARY.

PROBLEMS.

INTEGRATING PROBLEMS..

CHAPTER 14 • ACTIVE FILTER DESIGN.

14-1 Active Filter.

14-2 Second-order Low-pass and High-pass Filters.

14-3 Second-order Bandpass and Bandstop Filters.

14-4 Low-Pass Filter Design.

14-5 Low-pass Filter Evaluation.

14-6 High-Pass Filter Design.

14-7 Bandpass and Bandstop Filters.

SUMMARY.

PROBLEMS.

INTEGRATING PROBLEMS.

CHAPTER 15 • MUTUAL INDUCTANCE.

15-1 Coupled Inductors.

15-2 The Dot Convention.

15-3 Energy Analysis.

15-4 The Ideal Transformer.

15-5 Transformers In The Sinusoidal Steady State. 

15-6 Transformer Equivalent Circuits.

SUMMARY.

PROBLEMS.

INTEGRATING PROBLEMS.

CHAPTER 16 • POWER IN THE SINUSOIDAL STEADY STATE.

16-1 Average and Reactive Power.

16-2 Complex Power.

16-3 AC Power Analysis.

16-4 Load-flow Analysis.

16-5 Three-phase Circuits.

16-6 Three-phase AC Power Analysis.

SUMMARY.

PROBLEMS.

INTEGRATING PROBLEMS.

APPENDIX A - STANDARD VALUES.

APPENDIX B - SOLUTION OF LINEAR EQUATIONS.

APPENDIX C - COMPLEX NUMBERS.

APPENDIX D - BUTTERWORTH AND CHEBYCHEV POLE.

INDEX.

WEB APPENDICES.

APPENDIX W1—FOURIER TRANSFORMS.

W1-1 Definition of Fourier Transforms.

W1-2 Laplace Transforms and Fourier Transforms.

W1-3 Basic Fourier Transform Properties & Pairs.

W1-4 Circuit Analysis Using Fourier Transforms.

W1-5 Impulse Response and Convolution.

W1-6 Parseval’s Theorem.

SUMMARY.

PROBLEMS.

APPENDIX W2—TWO-PORT CIRCUITS.

W2-1 Introduction.

W2-2 Impedance Parameters.

W2-3 Admittance Parameters.

W2-4 Hybrid Parameters.

W2-5 Transmission Parameters.

W2-6 Two-Port Conversion.

W2-7 Two-Port Connections.