System requirements for CD-ROM: "See the "README" files for any specific information/system requirements related to each file folder, but most files will run on WIndows XP or higher"--P. 777.

Includes index.

What is a network -- Systems -- Electrical energy sources -- Dependent source or controlled source -- Kirchhoff's voltage law (KVL) -- Kirchhoff's current law (KCL) -- Mesh analysis -- Nodal analysis -- Passive elements -- Current division formula -- Voltage division formula for two resistors -- Power and rms values -- Kirchhoff's laws and their applications -- Branch current method -- Graph theory -- Rules for drawing a graph -- Some useful definitions -- Complete incidence matrix (a[subscript c]) -- Drawing a graph from an incidence matrix -- Drawing a graph from a reduced incidence matrix -- Kirchhoff's Current Law (KCL) -- Fundamental loops (tie-sets) of a graph -- Cut-set -- Fundamental cut-sets or f-cut-sets -- Nodal analysis based on graph theory -- Loop analysis based on graph theory -- The Laplace Transform -- Laplace Transform of some commonly used functions

Basic Laplace Transform Theorem -- Laplace transform of some other functions -- Initial value theorem -- Final value theorem -- Inverse Laplace transformation -- Basic signals and waveform synthesis -- Step function -- Ramp function -- Parabolic function -- Impulse function or dirac delta function -- Exponential function -- Sinusoidal signal -- Relation between parabolic, ramp, unit step, and impulse functions -- Synthesis of general waveforms -- Circuit analysis by the classical method -- Linear differential equations -- Determination of the complementary function (c.f.) -- Determination of the Particular Integral (P.I.) -- Initial conditions in circuits -- Transient response of series RL circuit having D.C. excitation -- Transient response of series RC circuit having D.C. excitation -- Transient response of series RLC circuit having D.C. excitation -- Applications of the Laplace transform -- Solution of linear differential equations -- Transformed circuit components representation -- Network theorems -- Introduction to network theorems -- Millman's theorem -- Superposition theorem -- Thevenin's theorem -- Norton's theorem -- Millman's theorem revisited -- Maximum power transfer theorem -- [Delta]-Y and Y-[delta] conversions -- Compensation theorem -- Tellegen's theorem -- Reciprocity theorem -- Network functions; poles and zeros -- Introduction -- Network functions for a one-port network -- Network functions for a two-port network -- Network functions as a quotient of polynomials in S -- Poles and zeros of network functions -- Significance of poles and zeros in network functions -- Restrictions on locations of poles and zeros in driving-point functions -- Restrictions on locations of poles and zeros for transfer functions -- Time-domain response from pole and zero plots -- Routh criterion -- Two-port networks -- Open circuit impedance or [z] parameters -- Short circuit admittance or [y] parameters -- ABCD or transmission parameters -- Hybrid or h-parameters -- Inverse hybrid (or g) parameters -- Inter-relationship of parameters -- Condition for reciprocity -- Condition for symmetry -- Interconnections of two-port networks -- Lattice networks -- Image parameters -- Network synthesis -- Introduction -- Analysis and design -- Elements of the realizability theory -- Hurwitz polynomial

Procedure for obtaining the continued fraction expansion -- Positive real functions -- Synthesis of one-port networks with two elements (R, L, C) -- LC Immittance function or LC network synthesis -- RC impedance or RL admittance function -- Rl impedance or RC admittance function -- Resonance and selectivity -- Series resonance -- Phasor diagram of series RLC circuit -- Reactance and impedance curves of a series RLC circuit -- Vibration of current and voltages with frequency in a series RLC circuit -- Selectivity and bandwidth -- Quality factor or q-factor -- Series resonance and selectivity of series RLC circuit with frequency variable -- Selectivity or series RLC circuit with a capacitance variable -- Selectivity of series RLC circuit with an L variable -- Parallel resonance -- Impedance of parallel-tuned circuit -- Selectivity and bandwidth of a parallel-tuned circuit -- Filters -- Parameters of a filter -- Decibel and Neper -- Propagation constant -- Classification of filters -- Basic filter networks -- Cut-off frequencies -- Constant-K filters -- m-derived filters -- m-derived band-pass filter -- Fourier analysis -- Periodic functions -- Even and odd functions -- Fourier series -- Alternative forms of Fourier series -- Useful integrals in Fourier series -- Evaluation of Fourier series constants -- Fourier series constants for period (0 + 0.2[pi]) -- Limits of integration per time period -- Fourier constants in terms of even and odd functions -- Waveform symmetries -- Use of Fourier series -- Selected answers to exercises -- About the CD-ROM.

"Intended as a textbook for an electronic circuit analysis course or a reference for practicing engineers, the book uses a self-study format with hundreds of worked examples to master difficult mathematical topics and circuit design issues. Computer programs using MATLAB on the accompanying CD-ROM provide calculations and executables for visualizing and solving applications from industry. It covers the complex mathematical topics and concepts needed to understand and solve serious problems with circuits."--Publisher's description.

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