Introduction to Electrical Circuit Analysis.

Intro -- Title Page -- Copyright -- Dedication -- Table of Contents -- Important Units -- Conventions with Examples -- Preface -- About the Companion Website -- Chapter 1: Introduction -- 1.1 Circuits and Important Quantities -- 1.2 Resistance and Resistors -- 1.3 Independent Sources -- 1.4 Dependent Sources -- 1.5 Basic Connections of Components -- 1.6 Limitations in Circuit Analysis -- 1.7 What You Need to Know before You Continue -- Chapter 2: Basic Tools: Kirchhoff's Laws -- 2.1 Kirchhoff's Current Law -- 2.2 Kirchhoff's Voltage Law -- 2.3 When Things Go Wrong with KCL and KVL -- 2.4 Series and Parallel Connections of Resistors -- 2.5 When Things Go Wrong with Series/Parallel Resistors -- 2.6 What You Need to Know before You Continue -- Chapter 3: Analysis of Resistive Networks: Nodal Analysis -- 3.1 Application of Nodal Analysis -- 3.2 Concept of Supernode -- 3.3 Circuits with Multiple Independent Voltage Sources -- 3.4 Solving Challenging Problems Using Nodal Analysis -- 3.5 When Things Go Wrong with Nodal Analysis -- 3.6 What You Need to Know before You Continue -- Chapter 4: Analysis of Resistive Networks: Mesh Analysis -- 4.1 Application of Mesh Analysis -- 4.2 Concept of Supermesh -- 4.3 Circuits with Multiple Independent Current Sources -- 4.4 Solving Challenging Problems Using the Mesh Analysis -- 4.5 When Things Go Wrong with Mesh Analysis -- 4.6 What You Need to Know before You Continue -- Chapter 5: Black-Box Concept -- 5.1 Thévenin and Norton Equivalent Circuits -- 5.2 Maximum Power Transfer -- 5.3 Shortcuts in Equivalent Circuits -- 5.4 When Things Go Wrong with Equivalent Circuits -- 5.5 What You Need to Know before You Continue -- Chapter 6: Transient Analysis -- 6.1 Capacitance and Capacitors -- 6.2 Inductance and Inductors -- 6.3 Time-Dependent Analysis of Circuits in Transient State -- 6.4 Switching and Fixed-Time Analysis.

6.5 Parallel and Series Connections of Capacitors and Inductors -- 6.6 When Things Go Wrong in Transient Analysis -- 6.7 What You Need to Know before You Continue -- Chapter 7: Steady-State Analysis of Time-Harmonic Circuits -- 7.1 Steady-State Concept -- 7.2 Time-Harmonic Circuits with Sinusoidal Sources -- 7.3 Concept of Phasor Domain and Component Transformation -- 7.4 Special Circuits in Phasor Domain -- 7.5 Analysis of Complex Circuits at Fixed Frequencies -- 7.6 Power in Steady State -- 7.7 When Things Go Wrong in Steady-State Analysis -- 7.8 What You Need to Know before You Continue -- Chapter 8: Selected Components of Modern Circuits -- 8.1 When Connections Are via Magnetic Fields: Transformers -- 8.2 When Components Behave Differently from Two Sides: Diodes -- 8.3 When Components Involve Many Connections: OP-AMPs -- 8.4 When Circuits Become Modern: Transistors -- 8.5 When Components Generate Light: LEDs -- 8.6 Conclusion -- Chapter 9: Practical Technologies in Modern Circuits -- 9.1 Measurement Instruments -- 9.2 Three-Phase Power Delivery -- 9.3 AD and DA Converters -- 9.4 Logic Gates -- 9.5 Memory Units -- 9.6 Conclusion -- Chapter 10: Next Steps -- 10.1 Energy Is Conserved, Always! -- 10.2 Divide and Conquer Complex Circuits -- 10.3 Appreciate the Package -- 10.4 Consider Yourself as a Circuit Element -- 10.5 Safety First -- Chapter 11: Photographs of Some Circuit Elements -- Appendix A -- A.1 Basic Algebra Identities -- A.2 Trigonometry -- A.3 Complex Numbers -- Appendix B: Solutions to Exercises -- Chapter 1 -- Chapter 2 -- Chapter 3 -- Chapter 4 -- Chapter 5 -- Chapter 6 -- Chapter 7 -- Chapter 8 -- Index -- End User License Agreement.

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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.