Basic electric circuit theory : a one-semester text /

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This is the only book on the market that has been conceived and deliberately written as a one-semester text on basic electric circuit theory. As such, this book employs a novel approach to the exposition of the material in which phasors and ac steady-state analysis are introduced at the beginning. T...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Mayergoyz, I. D.
Otros Autores: Lawson, W. (Wes)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: San Diego : Academic Press, ©1997.
Temas:
Electric circuits.
Circuits électriques.
circuits.
TECHNOLOGY & ENGINEERING > Electrical.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Basic Electric Circuit Theory: A One-Semester Text; Copyright Page; Table of Contents; Preface; Chapter 1. Basic Circuit Variables and Elements; 1.1 Introduction; 1.2 Circuit Variables; 1.3 Reference Directions; 1.4 The Resistor; 1.5 The Inductor; 1.6 The Capacitor; 1.7 Ideal Independent Voltage and Current Sources; 1.8 Summary; 1.9 Problems; Chapter 2. Kirchhoff's Laws; 2.1 Introduction; 2.2 Circuit Topology; 2.3 Kirchhoff 's Laws; 2.4 Linearly Independent Kirchhoff Equations; 2.5 Summary; 2.6 Problems; Chapter 3. AC Steady State; 3.1 Introduction; 3.2 AC Quantities
  • 3.3 Amplitude and Phase Relationships for Circuit Elements3.4 Phasors; 3.5 Impedance and Admittance; 3.6 AC Steady-State Equations; 3.7 AC Power; 3.8 Complex Frequency; 3.9 Summary; 3.10 Problems; Chapter 4. Equivalent Transformations of Electric Circuits; 4.1 Introduction; 4.2 Series and Parallel Connections; 4.3 Voltage and Current Divider Rules; 4.4 Input Impedance; 4.5 Symmetry; 4.6 The Superposition Principle; 4.7 An Introduction to Electric Circuit Simulation with MicroSim PSpice; 4.8 Summary; 4.9 Problems; Chapter 5. Thevenin's Theorem and Related Topics; 5.1 Introduction
  • 5.2 Nonideal Two-Terminal Circuit Elements5.3 Equivalent Transformations of Nonideal Voltage and Current Sources; 5.4 Thevenin's Theorem; 5.5 Norton's Theorem; 5.6 Nonlinear Resistive Circuits; 5.7 Summary; 5.8 Problems; Chapter 6. Nodal and Mesh Analysis; 6.1 Introduction; 6.2 Nodal Analysis; 6.3 Mesh Current Analysis; 6.4 MicroSim PSpice Simulations; 6.5 Summary; 6.6 Problems; Chapter 7. Transient Analysis; 7.1 Introduction; 7.2 First-Order Circuits; 7.3 Second-Order Circuits; 7.4 Transfer Functions and Their Applications; 7.5 Impulse Response and Convolution Integral
  • 7.6 Circuits with Diodes (Rectifiers)7.7 MicroSim PSpice Simulations; 7.8 Summary; 7.9 Problems; Chapter 8. Dependent Sources and Operational Amplifiers; 8.1 Introduction; 8.2 Dependent Sources as Linear Models for Transistors; 8.3 Analysis of Circuits with Dependent Sources; 8.4 Operational Amplifiers; 8.5 MicroSim PSpice Simulations; 8.6 Summary; 8.7 Problems; Chapter 9. Frequency Characteristics of Electric Circuits; 9.1 Introduction; 9.2 Resonance; 9.3 Passive Filters; 9.4 Bode Plots; 9.5 Active-RC Filters; 9.6 Synthesis of Transfer Functions with Active-RC Circuits
  • 9.7 MicroSim PSpice Simulations9.8 Summary; 9.9 Problems; Chapter 10. Magnetically Coupled Circuits and Two-Port Elements; 10.1 Introduction; 10.2 Mutual Inductance and Coupled Circuit Equations; 10.3 Transformers; 10.4 Theory of Two-Port Elements; 10.5 MicroSim PSpice Simulations; 10.6 Summary; 10.7 Problems; Appendix A: Complex Numbers; Appendix B: Gaussian Elimination; Appendix C: MicroSim PSpice References; Index

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