Ebook: Engineering circuit analysis
- Year: 2012
- Publisher: McGraw-Hill
- City: New York
- Edition: 8th ed
- Language: English
- pdf
Machine generated contents note: ch. 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 --
Reading Further --
ch. 2 Basic Components And Electic Circuits --
2.1. Units and Scales --
2.2. Charge, Current, Voltage, and Power --
2.3. Voltage and Current Sources --
2.4. Ohm's Law --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
ch. 13 Magnetically Coupled Circuits --
13.1. Mutual Inductance --
13.2. Energy Considerations --
13.3. The Linear Transformer --
13.4. The Ideal Transformer --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises.
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 --
Reading Further --
ch. 2 Basic Components And Electic Circuits --
2.1. Units and Scales --
2.2. Charge, Current, Voltage, and Power --
2.3. Voltage and Current Sources --
2.4. Ohm's Law --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
ch. 13 Magnetically Coupled Circuits --
13.1. Mutual Inductance --
13.2. Energy Considerations --
13.3. The Linear Transformer --
13.4. The Ideal Transformer --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises --
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 --
Summary And Review --
Reading Further --
Exercises.
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