Linear Circuits: Time Domain, Phasor, and Laplace Transform Approaches
Edition: 3
Copyright: 2009
Pages: 1140
Edition: 3
Copyright: 2009
Pages: 1140
Edition: 3
Copyright: 2009
Pages: 1140
Choose Your Format
Ebook
$121.55 USD
$151.94 USD
Ebook
$145.87 USD
Preface
Chapter 1 • Charge, Current, Voltage and Ohm’s Law
Chapter 2 • Kirchhoff’s Current & Voltage Laws and Series-Parallel Resistive Circuits
Chapter 3 • Nodal and Loop Analyses
Chapter 4 • The Operational Amplifier
Chapter 5 • Linearity, Superposition, and Source Transformation
Chapter 6 • Thevenin, Norton, and Maximum Power Transfer Theorems
Chapter 7 • Inductors and Capacitors
Chapter 8 • First Order RL and RC Circuits
Chapter 9 • Second Order Linear Circuits
Chapter 10 • Sinusoidal Steady State Analysis by Phasor Methods
Chapter 11 • Sinusoidal Steady State Power Calculations
Chapter 12 • Laplace Transform Analysis I: Basics
Chapter 13 • Laplace Transform Analysis II: Circuit Applications
Chapter 14 • Laplace Transform Analysis III: Transfer Function Applications
Chapter 15 • Time Domain Circuit Response Computations: The Convolution Method
Chapter 16 • Band-Pass Circuits and Resonance
Chapter 17 • Magnetically Coupled Circuits and Transformers
Chapter 18 • Two-Ports
Chapter 19 • Principles of Basic Filtering
Chapter 20 • Brief Introduction to Fourier Series
Index