Circuit Systems with MATLAB and PSpice

PREFACE.

CHAPTER 1: BASIC CONCEPTS ON ELECTRIC CIRCUITS.

1.0 SYMBOLS AND UNITS.

1.1 NETWORK VARIABLES.

1.2 CIRCUIT ELEMENTS.

1.3 KIRCHHOFF'S LAWS.

1.4 EQUIVALENT TRANSFROMATION OF SOURCES.

1.5 SERIS AND PARALLEL CONNECTIONS.

Problems.

CHAPTER 2: RESISTOR CIRCUITS.

2.1 COMBINATION OF RESISTORS.

2.2 VOLTAGE/CURRENT DIVIDER.

2.3"-Y( -T) TRANSFORMATION.

2.4 NODE ANALYSIS.

2.5 MESH (LOOP) ANALYSIS.

2.6 COMPARISON OF NODE ANALYSIS AND MESH ANALYSIS.

2.7 THEVENIN/NORTON EQUIVALENT CIRCUITS.

2.8 SUPERPOSITION PRINCIPLE AND LINEARITY.

2.9 OP AMP CIRCUITS WITH RESISTORS.

2.10 TRANSISTOR CIRCUITS.

2.11 LOADING EFFECT AND INPUT/OUTPUT RESISTANCE.

2.12 LOAD LINE ANALYSIS OF NONLINEAR RESISTOR CIRCUITS.

2.13 MORE EXAMPLES OF RESISTOR CIRCUITS.

Problems.

CHAPTER 3: FIRST-ORDER CIRCUITS.

3.1 THE CHARACTERISTICS OF INDUCTORS AND CAPACITORS.

3.2 SERIES-PARALLEL COMBINATION OF INDUCTORS/CAPACITORS.

3.3 CIRCUIT ANALYSIS USING LAPLACE TRANSFORM.

3.4 ANALYSIS OF FIRST ORDER CIRCUITS.

3.5 ANALYSIS OF FIRST-ORDER OP AMP CIRCUITS.

3.6 SINGULAR CIRCUITS.

3.7 SIMULATION USING PSPICE AND MATLAB.

3.8 APPLICATION AND DESIGN OF FIRST-ORDER CIRCUITS.

Problems.

CHAPTER 4: SECOND-ORDER CIRCUITS.

4.1 THE LAPLACE TRANSFORM FOR 2ND-ORDER DIFFERENTIAL EQUATIONS.

4.2 ANALYSIS OF SECOND-ORDER CIRCUITS.

4.3 SECOND-ORDER OP AMP CIRCUITS.

4.4 ANALOGY AND DUALITY.

4.5 TRANSFER FUNCTION, IMPULSE RESPONSE, AND CONVOLUTION.

4.6 THE STEADY-STATE RESPONSE TO A SINUSOIDAL INPUT.

4.7 AN EXAMPLE OF MATLAB ANAYSIS AND PSPICE SIMULATION.

Problems.

CHAPTER 5: MAGNETICALLY COUPLED CIRCUITS.

5.1 SELF INDUCTANCE.

5.2 MUTUAL INDUCTANCE.

5.3 RELATIVE POLARITY OF INDUCED VOLTAGES AND DOT CONVENTION.

5.4 EQUIVALENT MODELS OF MAGNETICALLY COUPLED COILS.

5.5 IDEAL TRANSFORMER.

5.6 LINEAR TRANSFORMER.

5.7 AUTOTRANSFORMERS.

Problems.

CHAPTER 6: AC CIRCUITS.

6.1 SINUSOIDAL SOURCES.

6.2 PHASOR AND AC ANALYSIS.

6.3 AC IMPEDANCE OF PASSIVE ELEMENTS.

6.4 AC CIRCUIT EXAMPLES.

6.5 INSTANTANEOUS, ACTIVE, REACTIVE, AND COMPLEX POWER.

6.6 POWER FACTOR.

6.7 MAXIMUM POWER TRANSFER - IMPEDANCE MATCHING.

6.8 LOAD FLOW CALCULATION.

6.9 DESIGN AND SIMULATION FOR MAXIMUM POWER TRANSFER.

Problems.

CHAPTER 7: THREE-PHASE AC CIRCUITS.

7.1 BALANCED THREE-PHASE VOLTAGES.

7.2 POWER OF BALANCED THREE-PHASE LOAD.

7.3 MEASUREMENT OF THREE-PHASE POWER.

7.4 THREE-PHASE POWER SYSTEM.

7.5 ELECTRIC SHOCK AND GROUNDING.

Problems.

CHAPTER 8: FREQUENCY SELECTIVE CIRCUIT - FILTER.

8.1 LOWPASS FILTER (LPF).

8.2 HIGHPASS FILTER (HPF).

8.3 BANDPASS FILTER (BPF).

8.4 BANDSTOP FILTER (BSF).

8.5 ACTIVE FILTER.

8.6 ANALOG FILTER DESIGN.

Problems.

CHAPTER 9: CIRCUIT ANALYSIS USING FOURIER SERIES.

9.1 FOURIER SERIES.

9.2 COMPUTATION OF FOURIER COEFFICIENTS USING SYMMETRY.

9.3 CIRCUIT ANALYSIS USING FOURIER SERIES.

9.4 FOURIER SERIES AND LAPLACE TRANSFORM.

9.5 RMS VALUE AND POWER OF A NON-SINUSOIDAL PERIODIC SIGNAL.

Problems.

CHAPTER 10: TWO-PORT NETWORKS.

10.1 DEFINITIONS OF TWO-PORT PARAMETERS.

10.2 RELATIONSHIPS AMONG TWO-PORT PARAMETERS.

10.3 RECIPROCITY OF TWO-PORT NETWORKS.

10.4 INTERCONNECTION OF TWO-PORT NETWORKS.

10.5 TWO-PORT NETWORKS HAVING SOURCE/LOAD.

10.6 FEEDBACK AMPLIFIERS AS TWO-PORT NETWORKS.

10.7 CIRCUIT MODELS WITH GIVEN PARAMETERS.

Problems.

APPENDICIES.

Appendix A: Laplace Transform.

Appendix B: Matrix Operations with MATLAB.

Appendix C: Complex Number Operations with MATLAB.

Appendix D: Nonlinear/Differential Equations with MATLAB.

Appendix E: Symbolic Computations with MATLAB.

Appendix F: Useful Formulas.

Appendix G: The Standard Values of Resistors, Capacitors, and Inductors.

Appendix H: OrCAD/PSpice.

Appendix I: MATLAB Introduction.

Appendix J: Solutions of Problems.

REFERENCES.

INDEX.