Includes Index.

Table of Contents. Ch. 1 Relationship of circuit analysis to engineering - - Analysis and design - - computer-Aided analysis - - Successful problem-solving strategies. – Ch. 2 Basic components and electric circuits - - Units and scales - - Voltage and current sources - - Ohm’s law. – Ch. 3 Voltage and current laws - - nodes, paths, loops, and branches - - Kirchhoff’s current law - - Kirchhoff’s voltage law - - The single-loop circuit - - The single-Node-pair circuit - - Series and parallel connected sources - - Resistors in series and parallel - - Voltage and current division. – Ch. 4 Basic nodal and mesh analysis - - Nodal analysis - - The Supernode - - Mesh analysis - - The Supermesh - - Nodal vs. mesh analysis: a comparison - - computer aided circuit analysis. – Ch. 5 Handy circuit analysis techniques - - Linearity and superposition - - Source transformations - - Maximum power transfer - - Delta-Wye conversion. – Ch.6 The Operational amplifier - - Cascaded stages - - feedback, comparators, and the instrumentation amplifier - - Practical consideration. – Ch. 7 Capacitors and inductors - - Inductance and capacitance combinations - - Linearity and its consequences. – Ch. 8 Basic RC and RL Circuits - - The Source-free RC circuit - - The Source-free LC Circuit. – Ch. 9 The RLC Circuit - - The Source-free parallel circuit - - The Overdamped parallel RLC circuit - - The Complete response of the RLC Circuit. – Ch. 10 Sinusoidal steady-state analysis - - The complex forcing function - - The Phasor - - Impedance and admittance - - Nodal and mesh analysis - - Phasor diagrams. – Ch. 11 AC Circuit power analysis - - Instantaneous power - - Average power - - Effective values of current and voltage - - Apparent power and power factor - - Complex power. – Ch. 12 Polyphase circuits - - Polyphase systems - - Single-phase three-wire systems - - Three-Phase Y-Y connection - - The Delta connection - - Power measurement in three-phase systems. – Ch. 13 Magnetically coupled circuits - - Mutual inductance - - Energy considerations - - The linear transformer - - The Ideal transformer. – Ch.14 Circuit analysis in the s-Domain - - Complex frequency - - Laplace transforms of simple time functions - - Inverse transform techniques - - Basic theorems for the laplace - - The initial value and final value theorems - - Nodal and Mesh analysis in the s-Domain - - Poles, Zeros, and transfer functions. – Ch. 15 Frequency response - Transfer function - - Bode diagrams - - Parallel resonance - - Bandwidth and high-q circuits - - Series Resonance - - Scaling - - Basic filter design. – Ch. 16 Two port networks - - one port network - - Admittance parameters - - Some equivalent networks - - Impedance parameters - - transmission parameters. – Ch. 17 Fourier circuit analysis - - Trigonometric form of the fourier series - - The Use of symmetry - - The fourier transform of a general periodic time function - - The physical significance of the system function.