Table of Contents

Chapter1 Lumped Circuits and Kirchhoff’s Laws
1.1 Lumped circuits
1.2 Charge, Voltage and Current
1.3 Reference Directions
1.4 Kirchhoff’s Laws
Summary
Drills
Discussion
Chapter 2 Circuit Elements
2.1 Resistors
2.2 Independent sources
2.3 Power
Summary
Drills
Experiment
Chapter 3 Simple Circuits
3.1 Series Resistors and Voltage Division
3.2 Parallel Resistors and Current Division
3.3 Source Transformation
Summary
Drills
Discussion
Chapter 4 Techniques of Circuit Analysis
4.1 Nodal Analysis
4.2 Nodal Analysis with Voltage Sources
4.3 Mesh Analysis
4.4 Mesh Analysis with Current Source branch
4.5 The Nodal versus Mesh Analysis
Summary
Drills
Discussion
Chapter 5 Circuit Theorems
5.1 Substitution Theorem
5.2 Linearity Property
5.3 Superposition Theorem
5.4 Thevenin's and Norton’s Theorem
5.5 Maximum Power Transfer
Summary
Drills
Experiment
Chapter 6 Capacitors and Inductors
6.1 Capacitors 73
6.2 Series and Parallel Capacitors
6.3 The Inductor
6.4 Series and Parallel Inductors
6.5 Energy stored in Capacitor and Inductor
Summary
Drills
Discussion
Chapter7 First-order Circuits
7.1 Introduction
7.2 Zero-Input Response
7.3 Zero-State Response
7.4 Complete Response
Summary
Drills
Experiment
Chapter 8 Sinusoids and Phasors
8.1 Sinusoids
8.2 Sinusoidal Steady-State Response
8.3 The Phasor Method
8.4 Kirchhoff’s Laws in Phasor Domain
8.5 Phasor Relationships for Circuit Elements
8.6 Impedance and Admittance
Summary
Drills
Experiment
Chapter 9 Sinusoidal Steady-State Analysis
9.1 Nodal Analysis
9.2 Mesh Analysis
9.3 Superposition Theorem
9.4 Source Transformation
9.5 Thevenin and Norton Equivalent Circuits
9.6 Phasor Diagram
9.7 Resonant circuit
Summary
Drills
Experiment
Chapter 10 AC Power Analysis
10.1 Instantaneous and Average Power
10.2 Apparent Power and Power Factor
10.3 Complex power
10.4 Power Factor Correction
10.5 Maximum Power Transfer
Summary
Drills
Discussion
Experiment
Chapter11 Three-Phase Circuits
11.1 Three-phase System
11.2 Balanced Connection
11.3 Power in Balanced System
11.4 Power Measurement in Three-Phase Circuits
Summary
Drills
Chapter 12 Magnetically Coupled Circuits
12.1 Mutual Inductance
12.2 Circuit Analysis with Coupled Inductors
12.3 Linear transformer
12.4 Ideal Transformers
12.5 Applications
Summary
Drills
Discussion
References
Appendix
Answer