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Engineering circuit analysis

Contributor(s): Material type: TextTextPublication details: New York : McGraw-Hill, ©2019Edition: 9th edDescription: xvi, 864 p. : ill. (some col.) ; 26 cmISBN:
  • 9789390185139
Subject(s): DDC classification:
  • 621.319 23 HAY-E
LOC classification:
  • TK454 .H4 2012
Online resources:
Contents:
1 Introduction 1.1.Overview of Text 1.2.Relationship of Circuit Analysis to Engineering 1.3.Analysis and Design 1.4.Computer-Aided Analysis 1.5.Successful Problem-Solving Strategies ch. 2 Basic Components And Electric Circuits 2.1.Units and Scales 2.2.Charge, Current, Voltage, and Power 2.3.Voltage and Current Sources 2.4.Ohm's Law ch. 3 Voltage And Current Laws 3.1.Nodes, Paths, Loops, and Branches 3.2.Kirchhoffs Current Law 3.3.Kirchhoffs Voltage Law 3.4.The Single-Loop Circuit 3.5.The Single-Node-Pair Circuit 3.6.Series and Parallel Connected Sources 3.7.Resistors in Series and Parallel 3.8.Voltage and Current Division ch. 4 Basic Nodal And Mesh Analysis 4.1.Nodal Analysis 4.2.The Supernode 4.3.Mesh Analysis 4.4.The Supermesh 4.5.Nodal vs. Mesh Analysis: A Comparison 4.6.Computer-Aided Circuit Analysis ch. 5 Handy Circuit Analysis Techniques 5.1.Linearity and Superposition 5.2.Source Transformations 5.3.Thevenin and Norton Equivalent Circuits 5.4.Maximum Power Transfer 5.5.Delta-Wye Conversion 5.6.Selecting an Approach: A Summary of Various Techniques ch. 6 The Operational Amplifier 6.1.Background 6.2.The Ideal Op Amp: A Cordial Introduction 6.3.Cascaded Stages 6.4.Circuits for Voltage and Current Sources 6.5.Practical Considerations 6.6.Comparators and the Instrumentation Amplifier ch. 7 Capacitors And Inductors 7.1.The Capacitor 7.2.The Inductor 7.3.Inductance and Capacitance Combinations 7.4.Consequences of Linearity 7.5.Simple Op Amp Circuits with Capacitors 7.6.Duality 7.7.Modeling Capacitors and Inductors with PSpice ch. 8 Basic Rl And Rc Circuits 8.1.The Source-Free RL Circuit 8.2.Properties of the Exponential Response 8.3.The Source-Free RC Circuit 8.4.A More General Perspective 8.5.The Unit-Step Function 8.6.Driven RL Circuits 8.7.Natural and Forced Response 8.8.Driven AC Circuits 8.9.Predicting the Response of Sequentially Switched Circuits ch. 9 The Rcl Circuit 9.1.The Source-Free Parallel Circuit 9.2.The Overdamped Parallel RLC Circuit 9.3.Critical Damping 9.4.The Underdamped Parallel RLC Circuit 9.5.The Source-Free Series RLC Circuit 9.6.The Complete Response of the RLC Circuit 9.7.The Lossless LC Circuit ch. 10 Sinusoidal Steady-State Analysis 10.1.Characteristics of Sinusoids 10.2.Forced Response to Sinusoidal Functions 10.3.The Complex Forcing Function 10.4.The Phasor 10.5.Impedance and Admittance 10.6.Nodal and Mesh Analysis 10.7.Superposition, Source Transformations and Thevenin's Theorem 10.8.Phasor Diagrams ch. 11 Ac Circuit Power Analysis 11.1.Instantaneous Power 11.2.Average Power 11.3.Effective Values of Current and Voltage 11.4.Apparent Power and Power Factor 11.5.Complex Power ch. 12 Polyphase Circuits 12.1.Polyphase Systems 12.2.Single-Phase Three-Wire Systems 12.3.Three-Phase Y-Y Connection 12.4.The Delta (A) Connection 12.5.Power Measurement in Three-Phase Systems ch. 13 Magnetically Coupled Circuits 13.1.Mutual Inductance 13.2.Energy Considerations 13.3.The Linear Transformer 13.4.The Ideal Transformer ch. 14 Complex Frequency And The Laplace Transform 14.1.Complex Frequency 14.2.The Damped Sinusoidal Forcing Function 14.3.Definition of the Laplace Transform 14.4.Laplace Transforms of Simple Time Functions 14.5.Inverse Transform Techniques 14.6.Basic Theorems for the Laplace Transform 14.7.The Initial-Value and Final-Value Theorems ch. 15 Circuit Analysis In The s-Domain 15.1.Z(s) and Y(s) 15.2.Nodal and Mesh Analysis in the s-Domain 15.3.Additional Circuit Analysis Techniques 15.4.Poles, Zeros, and Transfer Functions 15.5.Convolution 15.6.The Complex-Frequency Plane 15.7.Natural Response and the s Plane 15.8.A Technique for Synthesizing the Voltage Ratio H(s) = V out/V in ch. 16 Frequency Response 16.1.Parallel Resonance 16.2.Bandwidth and High-Q Circuits 16.3.Series Resonance 16.4.Other Resonant Forms 16.5.Scaling 16.6.Bode Diagrams 16.7.Basic Filter Design 16.8.Advanced Filter Design ch. 17 Two-Port Networks 17.1.One-Port Networks 17.2.Admittance Parameters 17.3.Some Equivalent Networks 17.4.Impedance Parameters 17.5.Hybrid Parameters 17.6.Transmission Parameters ch. 18 Fourier Circuit Analysis 18.1.Trigonometric Form of the Fourier Series 18.2.The Use of Symmetry 18.3.Complete Response to Periodic Forcing Functions 18.4.Complex Form of the Fourier Series 18.5.Definition of the Fourier Transform 18.6.Some Properties of the Fourier Transform 18.7.Fourier Transform Pairs for Some Simple Time Functions 18.8.The Fourier Transform of a General Periodic Time Function 18.9.The System Function and Response in the Frequency Domain 18.10.The Physical Significance of the System Function
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Holdings
Item type Current library Collection Call number Status Date due Barcode Item holds Course reserves
Books Books IIITD General Stacks Electronics and Communication Engineering 621.319 HAY-E (Browse shelf(Opens below)) Available 011733
Books Books IIITD General Stacks Electronics and Communication Engineering 621.319 HAY-E (Browse shelf(Opens below)) Available 011734
Books Books IIITD General Stacks Electronics and Communication Engineering 621.319 HAY-E (Browse shelf(Opens below)) Checked out 14/05/2024 011735
Books Books IIITD Reference Electronics and Communication Engineering REF 621.319 HAY-E (Browse shelf(Opens below)) Not for loan 011739

Basic Electronics (Sec A & B) UG (SEM II) WNT24

Circuit Theory and Devices UG MNS

Embedded Logic Design UG MNS

Books Books IIITD General Stacks Electronics and Communication Engineering 621.319 HAY-E (Browse shelf(Opens below)) Checked out 08/05/2024 011736
Books Books IIITD General Stacks Electronics and Communication Engineering 621.319 HAY-E (Browse shelf(Opens below)) Available 011738
Books Books IIITD General Stacks Electronics and Communication Engineering 621.319 HAY-E (Browse shelf(Opens below)) Available 011732
Books Books IIITD General Stacks Electronics and Communication Engineering 621.319 HAY-E (Browse shelf(Opens below)) Available 011737
Total holds: 0

Includes bibliographical references and index.

1 Introduction 1.1.Overview of Text 1.2.Relationship of Circuit Analysis to Engineering 1.3.Analysis and Design 1.4.Computer-Aided Analysis 1.5.Successful Problem-Solving Strategies ch. 2 Basic Components And Electric Circuits 2.1.Units and Scales 2.2.Charge, Current, Voltage, and Power 2.3.Voltage and Current Sources 2.4.Ohm's Law ch. 3 Voltage And Current Laws 3.1.Nodes, Paths, Loops, and Branches 3.2.Kirchhoffs Current Law 3.3.Kirchhoffs Voltage Law 3.4.The Single-Loop Circuit 3.5.The Single-Node-Pair Circuit 3.6.Series and Parallel Connected Sources 3.7.Resistors in Series and Parallel 3.8.Voltage and Current Division ch. 4 Basic Nodal And Mesh Analysis 4.1.Nodal Analysis 4.2.The Supernode 4.3.Mesh Analysis 4.4.The Supermesh 4.5.Nodal vs. Mesh Analysis: A Comparison 4.6.Computer-Aided Circuit Analysis ch. 5 Handy Circuit Analysis Techniques 5.1.Linearity and Superposition 5.2.Source Transformations 5.3.Thevenin and Norton Equivalent Circuits 5.4.Maximum Power Transfer 5.5.Delta-Wye Conversion 5.6.Selecting an Approach: A Summary of Various Techniques ch. 6 The Operational Amplifier 6.1.Background 6.2.The Ideal Op Amp: A Cordial Introduction 6.3.Cascaded Stages 6.4.Circuits for Voltage and Current Sources 6.5.Practical Considerations 6.6.Comparators and the Instrumentation Amplifier ch. 7 Capacitors And Inductors 7.1.The Capacitor 7.2.The Inductor 7.3.Inductance and Capacitance Combinations 7.4.Consequences of Linearity 7.5.Simple Op Amp Circuits with Capacitors 7.6.Duality 7.7.Modeling Capacitors and Inductors with PSpice ch. 8 Basic Rl And Rc Circuits 8.1.The Source-Free RL Circuit 8.2.Properties of the Exponential Response 8.3.The Source-Free RC Circuit 8.4.A More General Perspective 8.5.The Unit-Step Function 8.6.Driven RL Circuits 8.7.Natural and Forced Response 8.8.Driven AC Circuits 8.9.Predicting the Response of Sequentially Switched Circuits ch. 9 The Rcl Circuit 9.1.The Source-Free Parallel Circuit 9.2.The Overdamped Parallel RLC Circuit 9.3.Critical Damping 9.4.The Underdamped Parallel RLC Circuit 9.5.The Source-Free Series RLC Circuit 9.6.The Complete Response of the RLC Circuit 9.7.The Lossless LC Circuit ch. 10 Sinusoidal Steady-State Analysis 10.1.Characteristics of Sinusoids 10.2.Forced Response to Sinusoidal Functions 10.3.The Complex Forcing Function 10.4.The Phasor 10.5.Impedance and Admittance 10.6.Nodal and Mesh Analysis 10.7.Superposition, Source Transformations and Thevenin's Theorem 10.8.Phasor Diagrams ch. 11 Ac Circuit Power Analysis 11.1.Instantaneous Power 11.2.Average Power 11.3.Effective Values of Current and Voltage 11.4.Apparent Power and Power Factor 11.5.Complex Power ch. 12 Polyphase Circuits 12.1.Polyphase Systems 12.2.Single-Phase Three-Wire Systems 12.3.Three-Phase Y-Y Connection 12.4.The Delta (A) Connection 12.5.Power Measurement in Three-Phase Systems ch. 13 Magnetically Coupled Circuits 13.1.Mutual Inductance 13.2.Energy Considerations 13.3.The Linear Transformer 13.4.The Ideal Transformer ch. 14 Complex Frequency And The Laplace Transform 14.1.Complex Frequency 14.2.The Damped Sinusoidal Forcing Function 14.3.Definition of the Laplace Transform 14.4.Laplace Transforms of Simple Time Functions 14.5.Inverse Transform Techniques 14.6.Basic Theorems for the Laplace Transform 14.7.The Initial-Value and Final-Value Theorems ch. 15 Circuit Analysis In The s-Domain 15.1.Z(s) and Y(s) 15.2.Nodal and Mesh Analysis in the s-Domain 15.3.Additional Circuit Analysis Techniques 15.4.Poles, Zeros, and Transfer Functions 15.5.Convolution 15.6.The Complex-Frequency Plane 15.7.Natural Response and the s Plane 15.8.A Technique for Synthesizing the Voltage Ratio H(s) = V out/V in ch. 16 Frequency Response 16.1.Parallel Resonance 16.2.Bandwidth and High-Q Circuits 16.3.Series Resonance 16.4.Other Resonant Forms 16.5.Scaling 16.6.Bode Diagrams 16.7.Basic Filter Design 16.8.Advanced Filter Design ch. 17 Two-Port Networks 17.1.One-Port Networks 17.2.Admittance Parameters 17.3.Some Equivalent Networks 17.4.Impedance Parameters 17.5.Hybrid Parameters 17.6.Transmission Parameters ch. 18 Fourier Circuit Analysis 18.1.Trigonometric Form of the Fourier Series 18.2.The Use of Symmetry 18.3.Complete Response to Periodic Forcing Functions 18.4.Complex Form of the Fourier Series 18.5.Definition of the Fourier Transform 18.6.Some Properties of the Fourier Transform 18.7.Fourier Transform Pairs for Some Simple Time Functions 18.8.The Fourier Transform of a General Periodic Time Function 18.9.The System Function and Response in the Frequency Domain 18.10.The Physical Significance of the System Function

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