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Fundamentals of electric circuits / Charles K. Alexander, Department of Electrical and Computer Engineering, Cleveland State University, Matthew N.O. Sadiku, Department of Electrical Engineering, Prairie View A & M University

Author
Alexander, Charles K.
Published
New York, NY : McGraw-hill Education, [2017]
Edition
Sixth edition.
Physical Description
xxii, 903 pages, 63 variously pages ; 27 cm
Additional Creators
Sadiku, Matthew N. O.

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Contents
Machine generated contents note: ch. 1 Basic Concepts -- 1.1.Introduction -- 1.2.Systems of Units -- 1.3.Charge and Current -- 1.4.Voltage -- 1.5.Power and Energy -- 1.6.Circuit Elements -- 1.7.Applications -- 1.7.1.TV Picture Tube -- 1.7.2.Electricity Bills -- 1.8.Problem Solving -- 1.9.Summary -- Review Questions -- Problems -- Comprehensive Problems -- ch. 2 Basic Laws -- 2.1.Introduction -- 2.2.Ohm's Law -- 2.3.Nodes, Branches, and Loops -- 2.4.Kirchhoff's Laws -- 2.5.Series Resistors and Voltage Division -- 2.6.Parallel Resistors and Current Division -- 2.7.Wye-Delta Transformations -- Delta to Wye Conversion -- Wye to Delta Conversion -- 2.8.Applications -- 2.8.1.Lighting Systems -- 2.8.2.Design of DC Meters -- 2.9.Summary -- Review Questions -- Problems -- Comprehensive Problems -- ch. 3 Methods of Analysis -- 3.1.Introduction -- 3.2.Nodal Analysis -- 3.3.Nodal Analysis with Voltage Sources -- 3.4.Mesh Analysis -- 3.5.Mesh Analysis with Current Sources -- 3.6.Nodal and Mesh Analyses by Inspection -- 3.7.Nodal Versus Mesh Analysis -- 3.8.Circuit Analysis with PSpice -- 3.9.Applications: DC Transistor Circuits -- 3.10.Summary -- Review Questions -- Problems -- Comprehensive Problem -- ch. 4 Circuit Theorems -- 4.1.Introduction -- 4.2.Linearity Property -- 4.3.Superposition -- 4.4.Source Transformation -- 4.5.Thevenin's Theorem -- 4.6.Norton's Theorem -- 4.7.Derivations of Thevenin's and Norton's Theorems -- 4.8.Maximum Power Transfer -- 4.9.Verifying Circuit Theorems with PSpice -- 4.10.Applications -- 4.10.1.Source Modeling -- 4.10.2.Resistance Measurement -- 4.11.Summary -- Review Questions -- Problems -- Comprehensive Problems -- ch. 5 Operational Amplifiers -- 5.1.Introduction -- 5.2.Operational Amplifiers -- 5.3.Ideal Op Amp -- 5.4.Inverting Amplifier -- 5.5.Noninverting Amplifier -- 5.6.Summing Amplifier -- 5.7.Difference Amplifier -- 5.8.Cascaded Op Amp Circuits -- 5.9.Op Amp Circuit Analysis with PSpice -- 5.10.Applications -- 5.10.1.Digital-to-Analog Converter -- 5.10.2.Instrumentation Amplifiers -- 5.11.Summary -- Review Questions -- Problems -- Comprehensive Problems -- ch. 6 Capacitors and Inductors -- 6.1.Introduction -- 6.2.Capacitors -- 6.3.Series and Parallel Capacitors -- 6.4.Inductors -- 6.5.Series and Parallel Inductors -- 6.6.Applications -- 6.6.1.Integrator -- 6.6.2.Differentiator -- 6.6.3.Analog Computer -- 6.7.Summary -- Review Questions -- Problems -- Comprehensive Problems -- ch. 7 First-Order Circuits -- 7.1.Introduction -- 7.2.The Source-Free RC Circuit -- 7.3.The Source-Free RL Circuit -- 7.4.Singularity Functions -- 7.5.Step Response of an RC Circuit -- 7.6.Step Response of an RL Circuit -- 7.7.First-Order Op Amp Circuits -- 7.8.Transient Analysis with PSpice -- 7.9.Applications -- 7.9.1.Delay Circuits -- 7.9.2.Photoflash Unit -- 7.9.3.Relay Circuits -- 7.9.4.Automobile Ignition Circuit -- 7.10.Summary -- Review Questions -- Problems -- Comprehensive Problems -- ch. 8 Second-Order Circuits -- 8.1.Introduction -- 8.2.Finding Initial and Final Values -- 8.3.The Source-Free Series RLC Circuit -- 8.4.The Source-Free Parallel RLC Circuit -- 8.5.Step Response of a Series RLC Circuit -- 8.6.Step Response of a Parallel RLC Circuit -- 8.7.General Second-Order Circuits -- 8.8.Second-Order Op Amp Circuits -- 8.9.PSpice Analysis of RLC Circuits -- 8.10.Duality -- 8.11.Applications -- 8.11.1.Automobile Ignition System -- 8.11.2.Smoothing Circuits -- 8.12.Summary -- Review Questions -- Problems -- Comprehensive Problems -- ch. 9 Sinusoids and Phasors -- 9.1.Introduction -- 9.2.Sinusoids -- 9.3.Phasors -- 9.4.Phasor Relationships for Circuit Elements -- 9.5.Impedance and Admittance -- 9.6.Kirchhoff's Laws in the Frequency Domain -- 9.7.Impedance Combinations -- 9.8.Applications -- 9.8.1.Phase-Shifters -- 9.8.2.AC Bridges -- 9.9.Summary -- Review Questions -- Problems -- Comprehensive Problems -- ch. 10 Sinusoidal Steady-State Analysis -- 10.1.Introduction -- 10.2.Nodal Analysis -- 10.3.Mesh Analysis -- 10.4.Superposition Theorem -- 10.5.Source Transformation -- 10.6.Thevenin and Norton Equivalent Circuits -- 10.7.Op Amp AC Circuits -- 10.8.AC Analysis Using PSpice -- 10.9.Applications -- 10.9.1.Capacitance Multiplier -- 10.9.2.Oscillators -- 10.10.Summary -- Review Questions -- Problems -- ch. 11 AC Power Analysis -- 11.1.Introduction -- 11.2.Instantaneous and Average Power -- 11.3.Maximum Average Power Transfer -- 11.4.Effective or RMS Value -- 11.5.Apparent Power and Power Factor -- 11.6.Complex Power -- 11.7.Conservation of AC Power -- 11.8.Power Factor Correction -- 11.9.Applications -- 11.9.1.Power Measurement -- 11.9.2.Electricity Consumption Cost -- 11.10.Summary -- Review Questions -- Problems -- Comprehensive Problems -- ch. 12 Three-Phase Circuits -- 12.1.Introduction -- 12.2.Balanced Three-Phase Voltages -- 12.3.Balanced Wye-Wye Connection -- 12.4.Balanced Wye-Delta Connection -- 12.5.Balanced Delta-Delta Connection -- 12.6.Balanced Delta-Wye Connection -- 12.7.Power in a Balanced System -- 12.8.Unbalanced Three-Phase Systems -- 12.9.PSpice for Three-Phase Circuits -- 12.10.Applications -- 12.10.1.Three-Phase Power Measurement -- 12.10.2.Residential Wiring -- 12.11.Summary -- Review Questions -- Problems -- Comprehensive Problems -- ch. 13 Magnetically Coupled Circuits -- 13.1.Introduction -- 13.2.Mutual Inductance -- 13.3.Energy in a Coupled Circuit -- 13.4.Linear Transformers -- 13.5.Ideal Transformers -- 13.6.Ideal Autotransformers -- 13.7.Three-Phase Transformers -- 13.8.PSpice Analysis of Magnetically Coupled Circuits -- 13.9.Applications -- 13.9.1.Transformer as an Isolation Device -- 13.9.2.Transformer as a Matching Device -- 13.9.3.Power Distribution -- 13.10.Summary -- Review Questions -- Problems -- Comprehensive Problems -- ch. 14 Frequency Response -- 14.1.Introduction -- 14.2.Transfer Function -- 14.3.The Decibel Scale -- 14.4.Bode Plots -- 14.5.Series Resonance -- 14.6.Parallel Resonance -- 14.7.Passive Filters -- 14.7.1.Low-Pass Filter -- 14.7.2.High-Pass Filter -- 14.7.3.Band-Pass Filter -- 14.7.4.Band-Stop Filter -- 14.8.Active Filters -- 14.8.1.First-Order Low-Pass Filter -- 14.8.2.First-Order High-Pass Filter -- 14.8.3.Band-Pass Filter -- 14.8.4.Band-Reject (or Notch) Filter -- 14.9.Scaling -- 14.9.1.Magnitude Scaling -- 14.9.2.Frequency Scaling -- 14.9.3.Magnitude and Frequency Scaling -- 14.10.Frequency Response Using PSpice -- 14.11.Computation Using MATLAB -- 14.12.Applications -- 14.12.1.Radio Receiver -- 14.12.2.Touch-Tone Telephone -- 14.12.3.Crossover Network -- 14.13.Summary -- Review Questions -- Problems -- Comprehensive Problems -- ch. 15 Introduction to the Laplace Transform -- 15.1.Introduction -- 15.2.Definition of the Laplace Transform -- 15.3.Properties of the Laplace Transform -- 15.4.The Inverse Laplace Transform -- 15.4.1.Simple Poles -- 15.4.2.Repeated Poles -- 15.4.3.Complex Poles -- 15.5.The Convolution Integral -- 15.6.Application to Integrodifferential Equations -- 15.7.Summary -- Review Questions -- Problems -- ch. 16 Applications of the Laplace Transform -- 16.1.Introduction -- 16.2.Circuit Element Models -- 16.3.Circuit Analysis -- 16.4.Transfer Functions -- 16.5.State Variables -- 16.6.Applications -- 16.6.1.Network Stability -- 16.6.2.Network Synthesis -- 16.7.Summary -- Review Questions -- Problems -- Comprehensive Problems -- ch. 17 The Fourier Series -- 17.1.Introduction -- 17.2.Trigonometric Fourier Series -- 17.3.Symmetry Considerations -- 17.3.1.Even Symmetry -- 17.3.2.Odd Symmetry -- 17.3.3.Half-Wave Symmetry -- 17.4.Circuit Applications -- 17.5.Average Power and RMS Values -- 17.6.Exponential Fourier Series -- 17.7.Fourier Analysis with PSpice -- 17.7.1.Discrete Fourier Transform -- 17.7.2.Fast Fourier Transform -- 17.8.Applications -- 17.8.1.Spectrum Analyzers -- 17.8.2.Filters -- 17.9.Summary -- Review Questions -- Problems -- Comprehensive Problems -- ch. 18 Fourier Transform -- 18.1.Introduction -- 18.2.Definition of the Fourier Transform -- 18.3.Properties of the Fourier Transform -- 18.4.Circuit Applications -- 18.5.Parseval's Theorem -- 18.6.Comparing the Fourier and Laplace Transforms -- 18.7.Applications -- 18.7.1.Amplitude Modulation -- 18.7.2.Sampling -- 18.8.Summary -- Review Questions -- Problems -- Comprehensive Problems -- ch. 19 Two-Port Networks -- 19.1.Introduction -- 19.2.Impedance Parameters -- 19.3.Admittance Parameters -- 19.4.Hybrid Parameters -- 19.5.Transmission Parameters -- 19.6.Relationships Between Parameters -- 19.7.Interconnection of Networks -- 19.8.Computing Two-Port Parameters Using PSpice -- 19.9.Applications -- 19.9.1.Transistor Circuits -- 19.9.2.Ladder Network Synthesis -- 19.10.Summary -- Review Questions -- Problems -- Comprehensive Problem.
Subject(s)
ISBN
9780078028229 (alkaline paper)
0078028221 (alkaline paper)
Note
Includes index.
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