Electrical Circuits I – EE 205
1
Chapter 1: Circuit Variables
3 Topics
1.1. Introduction
1.4. Overview on Circuit Analysis
1.5 – 1.6. Voltage and Current
2
Chapter 2: Circuit Elements
5 Topics
2.1. Voltage and Current Sources
2.2. Ohm’s Law (Electrical Resistance)
2.3. Constructing a Circuit Model
2.4. Kirchhoff’s Laws
2.5. Dependent Sources
3
Chapter 3: Simple Resistive Circuits
7 Topics
3.1. Resistors in Series
3.2. Resistors in Parallel
3.3. Voltage Divider and Current Divider
3.4. Voltage Division and Current Division
3.5. Measuring Voltage and Current
3.6. Measuring Resistance
3.7. Delta to Dye Conversion
4
Chapter 4: Techniques of Circuit Analysis
12 Topics
4.1. Terminology
4.2. The Node-Voltage Method and Dependent Sources
4.3. Special Cases of Node-Voltage Method
4.4. Introduction to the Mesh-Current Method
4.5. Introduction to the Mesh-Current Method
4.6. The Mesh-Current Method and Dependent Sources
4.7. The Mesh-Current Method: Some Special Cases
4.9. Source Transformation
4.10. Thévenin and Norton Equivalents
4.11. More on Deriving a Thévenin Equivalent
4.12. Maximum Power Transfer
4.13. Superposition
5
Chapter 5: The Operational Amplifier
4 Topics
5.1 – 5.2. Operational Amplifier Terminals & Terminal Voltages and Currents
5.3. The Inverting-Amplifier Circuit
5.4. The Summing-Amplifier Circuit
5.5 The Noninverting-Amplifier Circuit
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6
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1.1. Introduction
Electrical Circuits I – EE 205
Chapter 1: Circuit Variables
1.1. Introduction
Chapter Progress
1.1. Introduction
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