Chapter 1 Basic Concept
1.1 Introduction
1.2 System of Units
1.3 Charge and Current
1.4 Voltage
1.5 Power and Energy
1.6 Circuit Elements
1.7 Applications
2.1 Introduction
2.2 Ohm,s law
2.3 Nodes, Branches, and Loops
2.4 Kirchhoff,s Law
2.5 Series Resistors and Voltage
Division
2.6 Parallel Resistors and Current
Division
2.7 Wye-Delta Transformations
2.8 Applications
3.1 Introduction
3.2 Nodal Analysis
3.3 Nodal Analysis with Voltage
Sources
3.4 Mesh Analysis
3.5 Mesh Analysis with Current
Sources
3.6 Nodal and Mesh Analyses by
Inspection
3.7 Nodal versus Mesh Analysis
3.9 Applications: DC Transistor
Circuits
Chapter
4
Circuit
Theorems
4.1
Introduction
4.2 Linear Property
4.3
Superposition
4.4 Source Transformation
4.5
Thevenin’s
Theorem
4.6
Norton’s
Theorem
4.7 Derivations of Thevenin’s and Norton’s Theorems
4.8
Maximum
Power Transfer
4.10 Applications
Chapter 5 Operational Amplifiers
5.1 Introduction
5.2
Operational Amplifiers
5.3
Ideal Op Amp
5.4
Inverting Amplifier
5.5
Noninverting Amplifier
5.6
Summing Amplifier
5.7
Difference Amplifier
5.8
Cascaded Op Amp Circuits
5.10 Applications
Chapter 6 Capacitors and Inductors
6.1 Introduction
6.2
Capacitors
6.3
Series and Parallel Capacitors
6.4
Inductors
6.5
Series and Parallel Inductors
6.6
Applications
Chapter 7 First-Order Circuits
7.1 Introduction
7.2
The Source Free RC
Circuit
7.3
The Source Free RL
Circuit
7.4
Singularity Functions
7.5
Step Response of An RC Circuit
7.6
Step Response of An RL Circuit
7.7
First-Order OP Amp Circuits
7.9
Applications
Chapter 8 Second-Order Circuits
8.1 Introduction
8.2
Finding Initial and Final Values
8.3
The Source Free Series RLC Circuit
8.4
The Source Free Parallel RLC Circuit
8.5
Step Response of A Series RLC Circuit
8.6
Step Response of A Parallel RLC Circuit
8.7
General Second-Order Circuits
8.8
Second-Order OP AMP Circuits
8.10 Duality
8.11 Applications
- 教師(teacher): 王醴