Thomas R.E., Rosa A.J., Toussaint G.J. The Analysis and Design of Linear Circuits

8th edition. — Hoboken: Wiley, 2016. — 912 p. — ISBN: 978-1119235385.The Analysis and Design of Linear Circuits, 8th Edition provides an introduction to the analysis, design, and evaluation of electric circuits, focusing on developing the learners design intuition. The text emphasizes the use of computers to assist in design and evaluation. Early introduction to circuit design motivates the student to create circuit solutions and optimize designs based on real-world constraints. This text is an unbound, three hole punched version.About This BookSymbols and Units.
Circuit Variables.
Computational and Simulation Software Introduction.Basics circuit analysis.
Element Constraints.
Connection Constraints.
Combined Constraints.
Equivalent Circuits.
Voltage and Current Division.
Circuit Reduction.
Computer-Aided Circuit Analysis.Circuit analysis techniques.
Node-Voltage Analysis.
Mesh-Current Analysis.
Linearity Properties.
Thevenin and Norton Equivalent Circuits.
Maximum Signal Transfer.
Interface Circuit Design.Active circuits.
Linear Dependent Sources.
Analysis of Circuits with Dependent Sources.
The Operational Amplifier.
OP AMP Circuit Analysis.
OP AMP Circuit Design.
OP AMP Circuit Applications.Signal waveforms.The Step Waveform.
The Exponential Waveform.
The Sinusoidal Waveform.
Composite Waveforms.
Waveform Partial Descriptors.Capacitance and inductance.
The Capacitor.
The Inductor.
Dynamic OP AMP Circuits.
Equivalent Capacitance and Inductance.First- and second-order circuits.
RC and RL Circuits.
First-Order Circuit Step Response.
Initial and Final Conditions.
First-Order Circuit Response to Exponential and Sinusoidal Inputs.
The Series RLC Circuit.
The Parallel RLC Circuit.
Second-Order Circuit Step Response.Sinusoidal steady-state response.
Sinusoids and Phasors.
Phasor Circuit Analysis.
Basic Phasor Circuit Analysis and Design.
Circuit Theorems with Phasors.
General Circuit Analysis with Phasors.
Energy and Power.Laplace transforms.
Signal Waveforms and Transforms.
Basic Properties and Pairs.
Pole-Zero Diagrams.
Inverse Laplace Transforms.
Circuit Response Using Laplace Transforms.
Initial and Final Value Properties.s-domain circuit analysis.
Transformed Circuits.
Basic Circuit Analysis in the s Domain.
Circuit Theorems in the s Domain.
Node-Voltage Analysis in the s Domain.
Mesh-Current Analysis in the s Domain.
Summary of s-Domain Circuit Analysis.Network functions.
Definition of a Network Function.
Network Functions of One- and Two-Port Circuits.
Network Functions and Impulse Response.
Network Functions and Step Response.
Network Functions and Sinusoidal Steady-State Response.
Impulse Response and Convolution.
Network Function Design and Evaluation.Frequency response.
Frequency-Response Descriptors.
Bode Diagrams.
First-Order Low-Pass and High-Pass Responses.
Bandpass and Bandstop Responses.
The Frequency Response of RLC Circuits.
Bode Diagrams with Real Poles and Zeros.
Bode Diagrams with Complex Poles and Zeros.
Frequency Response and Step Response.Fourier series.
Overview of Fourier Analysis.
Fourier Coefficients.
Waveform Symmetries.
Circuit Analysis Using the Fourier Series.
RMS Value and Average Power.Active filter design.
Active Filters.
Second-Order Low-Pass and High-Pass Filters.
Second-Order Bandpass and Bandstop Filters.
Low-Pass Filter Design.
Low-Pass Filter Evaluation.
High-Pass Filter Design.
Bandpass and Bandstop Filter Design.Mutual Inductance and Transformers.
Coupled Inductors.
The Dot Convention.
Energy Analysis.
The Ideal Transformer.
Linear Transformers.AC power systems.
Average and Reactive Power.
Complex Power.
Single-Phase Circuit Analysis.
Single-Phase Power Flow.
Balanced Three-Phase Circuits.
Three-Phase Circuit Analysis.
Three-Phase Power Flow.Two-port networks.Impedance Parameters.
Admittance Parameters.
Hybrid Parameters.
Transmission Parameters.
Two-Port Conversions and Connections.Appendixes.