Chapter 1: Introduction
IntroductionChapter 2: Resistive Circuits
m2.1: Kirchhoff's Lawsm2.2: Equivalent Resistance
m2.3: Current and Voltage Dividers
m2.4: Wye-Delta Transformation
Chapter 3: Analysis Techniques
m3.1: Node-Voltage Methodm3.2: Mesh-Current Method
m3.3: Superposition
m3.4: Thévenin Equivalents and Maximum Power Transfer
Chapter 4: Operational Amplifiers
m4.1: Ideal Op-Amp Modelm4.2: Noninverting Amplifier
m4.3: Summing Amplifier
m4.4: Signal Processing Circuits
Chapter 5: RC and RL First-Order Circuits
m5.1: Capacitorsm5.2: Inductors
m5.3: Response of the RC Circuit
m5.4: Response of the RL Circuit
Chapter 6: RLC Circuits
m6.1: Initial and Final Conditionsm6.2: Natural Response of the Series RLC Circuit
m6.3:
m6.4: Step Response
Chapter 7: ac Analysis
m7.1: Impedance Transformationsm7.2: Equivalent Circuits
m7.3: Phase-Shift Circuits
m7.4: Phasor-Domain Analysis Techniques
Chapter 8: ac Power
m8.1: Periodic Waveformsm8.2: Average Power
m8.3: Complex Power
m8.4: The Power Factor
Chapter 9: Frequency Response of Circuits and Filters
m9.1: Scalingm9.2: Bode Plots
m9.3: Filter Order
m9.4: Cascaded Active Filters
Chapter 13: Fourier Analysis Technique
m13.1 Fourier Series Representationm13.2 Circuit Applications
m13.3 Fourier Transform
m13.4 Circuit Analysis with Fourier Transform
End Matter
Appendix A: Parts ListAppendix B: LM317 Voltage and Current Sources
Appendix C: TL072 Operational Amplifier
Appendix D: DG413 Quad Analog Switch
Appendix E: Transient Response Measurement Techniques
Appendix F: Sinusoid Measurement Techniques