Circuits
zyBooks 2017

Table of Contents

1. Basic Electricity
1.1 Introduction
1.2 Electricity and magnetism
1.3 Current
1.4 Voltage
1.5 Energy and power
1.6 Resistors
1.7 Ohm’s Law
1.8 Voltage sources
1.9 Current sources
1.10 Switches
1.11 Simple circuit examples
1.12 Capacitors
1.13 Inductors
1.14 Nonideal voltage sources
1.15 Nonideal current sources

2. Resistor Networks
2.1 Conductance
2.2 Series and parallel combinations
2.3 Kirchhoff’s Voltage Law
2.4 Voltage divider
2.5 Kirchhoff’s Current Law
2.6 Current divider
2.7 Maximum power transfer
2.8 Delta-wye (pi-tee) transformations
2.9 Nonlinear resistors
2.10 Practical resistors
2.11 Measuring resistance

3. Network Analysis
3.1 Superposition and linearity
3.2 Node analysis
3.3 Mesh analysis
3.4 Thevenin equivalent
3.5 Norton equivalent
3.6 Source transformations

4. Time-Domain Analysis
4.1 Capacitor constitutive law
4.2 Inductor constitutive law
4.3 First-order source-less circuits
4.4 Singularity functions
4.5 First-order circuit response
4.6 Second-order circuits
4.7 Second-order circuit response

5. Op-amps
5.1 Dependent sources
5.2 Ideal op-amp
5.3 Feedback
5.4 Inverting amplifier
5.5 Noninverting amplifier
5.6 Integrator and differentiator
5.7 Practical op-amps
5.8 Multiple op-amp circuits

6. Frequency-Domain Analysis
6.1 Sinusoidal steady state
6.2 Resistor impedance
6.3 Capacitor impedance
6.4 Inductor impedance
6.5 Admittance
6.6 First-order circuit frequency response
6.7 Logarithmic frequency response plots
6.8 Second order circuit frequency response
6.9 Practical capacitors and inductors
6.10 Phasors
6.11 RMS voltages and currents
6.12 Reactive power
6.13 Complex power
6.14 Power factor correction