TY  - BOOK
AU  - Decarlo,Raymond A.
AU  - Lin, Pen-Min,
TI  - Linear circuit analysis: time domain, phasor, and laplace transform approaches 
SN  - 0195136667 (hbk.)
U1  - 621.3192 
PY  - 2001///
CY  - N.Y.
PB  - Oxford University Press
KW  - Electric circuit analysis
KW  - Electric circuits, Linear
N1  - Preface.  - Ch.  1.  Role and Importance of Circuits in Engineering.  - Ch.  2.  Kirchhoff's Current and Voltage Laws and Series - Parallel Resistive Circuits.  - Ch.  3.  Nodal and Loop Analyses.  - Ch.  4.  The Operational Amplifier.  -  Ch.  5.  Linearity, Superposition, and Source Transformations.  - Ch.  6.  Thevenin, Norton, and Maximum Power Transfer Theorems.  - Ch.  7.  Inductors, Capacitors, and Duality. - Ch.  8.  First-Order RL and RC Circuits.  - Ch.  9.  Second-Order Linear Circuits.  - Ch. 10.  Sinusoidal Steady-State Analysis by Phasor Methods.  - Ch.  11.  Sinusoidal Steady-State Power Calculations.  - Ch.  12.  Balanced Three-Phase Circuits.  - Ch.  13.  Laplace Transform Analysis, 1: Basics.  - Ch.  14.  Laplace Transform Analysis, 2: Circuit Applications.  - Ch.  15.  Laplace Transform Analysis, 3: Transfer Function Applications.  - Ch.  16.  Time Domain Circuit Response Computations: The Convolution Method.  - Ch.  17.  Resonant and Bandpass Circuits.  - Ch.  18.  Magnetically Coupled Circuits and Transformers.  - Ch.  19.  Two-Ports.  - Ch.  20.  Analysis of Interconnected Two-Ports.  - Ch.  21.  Principles of Basic Filtering.  - Ch.  22.  Fourier Series with Applications to Electronic Circuits.  - Appendix A1.  Matrices.  - Appendix A2.  Solving Circuit Problems with MATLAB: Chapters 1 to 12.  - Appendix A3.  Use of SPICE in Linear Circuits.  - Index
ER  -