• Integration of modern software tools
• Superior Package including lecture notes and student solutions
• Greater range of difficulty in the exercises with numerous simpler exercises added in this edition
• Complete Robust Chapter Pedagogy
• Key Concepts Boxes throughout highlight important defintions
• Real World Applications Boxes open each chapter
• Exhaustive revision. Chapters 1-16 virtually new. More motivation, more exercises (especially simpler ones), more examples, more software, more package.

Raymond A. DeCarlo and Pen-Min Lin, both in the Department of Electrical Engineering, both at Purdue University

1: Introduction and Basic Concepts
2: Kirchhoff's Current & Voltage Laws and Series-Parallel Resistive Circuits
3: Nodal and Loop Analysis
4: The Operational Amplifier
5: Linearity, Superposition, and Source Transformations
6: Thevenin, Norton, and Maximum Power Transfer Theorems
7: Inductors, Capacitors and Duality
8: First Order RL and RC Circuits
9: Second Order Linear Circuits
10: Sinusoidal Steady State Analysis by Phasor Methods
11: Sinusoidal Steady State Power Calculations
12: Balanced Three-Phase Circuits
13: Laplace Transform Analysis, 1: Basics
14: Laplace Transform Analysis, 2: Circuit Applications
15: Laplace Transform Analysis 3: Transfer Function Applications
16: Time Domain Circuit Response Computations: The Convolution Method
17: Resonant and Bandpass Circuits
18: Magnetically Coupled Circuits and Transformers
19: Two-Ports
20: Analysis of Interconnected Two-Ports
21: Principles of Basic Filtering
22: Fourier Series with Applications to Electronic Circuits
Appendices
A1.: Matrice
A2.: Software Assisted Problems
A3/B1: Use of SPICE in Linear Circuits
B2: Software Assisted Problems
B3: Introduction to Magnetic Circuit Analysis
Photo Credits
Index