电路分析 第2版 英文影印版
作者：Allan H.Robbins,Wilhelm C.Miller
出版时间： 2003
丛编项： 国外高校电子信息类优秀教材
内容简介
　　这本书的关于电路理论的数学基础和实际应用将对电子工程及相关专业的学生有很大帮助。它综合了电路分析的许多课题，包括DC和AC电路、分析方法、电容、电感、磁学、简单晶体管和计算机方法。书中上百的逐步解决的问题引导读者在解决问题中严谨思考。两个流行的模拟软件OrCADPSpice和ElectronicsWorkbench的使用贯穿全书。本书具有在线支持，读者可以登陆有声音剪辑的网页获得每一章难点问题的深层次讨论。本书综合了电路分析的许多课题，包括DC和AC电路、分析方法、电容、电感、磁学、简单晶体管和计算机
目录
Preface
PART Ⅰ Foundation DC Concepts
1 Introduction
1.1 Introduction
1.2 The SI System of Units
1.3 Converting Units
1.4 Power of Ten Notation
1.5 Prefixes
1.6 Significant Digits and Numerical Accuracy
1.7 Circuit Diagrams
1.8 Circuit Analysis Using Computers
Problems
2 Voltage and Current
2.1 Atomic Theory Review
2.2 The Unit of Electrical Charge:The Coulomb
2.3 Voltage
2.4 Current
2.5 Practical DC Voltage and Current
2.7 Switches,Fuses,and Circuit Breakers
Problems
3 Resistance
3.1 Resistance of Conductors
3.2 Electrical Wire Tables
3.3 Resistance of Wires—Circular Mils
3.4 Temperature Effects
3.5 Types of Resistors
3.6 Color Coding of Resistors
3.7 Measuring Resistance—The Ohmmeter
3.8 Thermistors
3.9 Photoconductive Cells
3.10 Nonlinear resistance
3.11 Conductance
3.12 Superconductors
Problems
4 Ohm's Law,Power,and Energy
4.1 Ohm's Law
4.2 Voltage Polarity and Current Direction
4.3 Power
4.4 Power Direction Convention
4.5 Energy
4.6 Efficiency
4.7 Nonlinear and Dynamic Resistances
4.8 Conputer-Aided Circuit Analysis
Problems
PART Ⅱ Basic DC Analysis
5 Series Circuits
5.1 Series Circuits
5.2 Kirchhoff's Voltage Law
5.3 Resistors in Series
5.4 Voltage Sources in Series
5.5 Interchanging Series Components
5.6 The Voltage Divider Rule
5.7 Circuit Ground
5.8 Voltage Subscripts
5.9 Internal Resistance of Voltage Sources
5.10 Voltmeter Design
5.11 Ohmmeter Design
5.12 Ammeter Loading Effects
5.13 Circuit Analysis Using Computers
Problems
6 Parallel Circuits
6.1 Parallel Circuits
6.2 Kirchhoff's Current Law
6.3 Resistors in Parallel
6.4 Voltage Sources in Parallel
6.5 Current Divider Rule
6.6 Analysis of Parallel Circuits
6.7 Ammeter Design
6.8 Voltmeter Loading Effects
6.9 Circuit Analysis Using Computers
Problems
7 Series-Parallel Circuits
7.1 The Series-Parallel Network
7.2 Analysis of Series-Parallel Circuits
7.3 Applications of Series-Parallel Circuits
7.4 Potentiometers
7.5 Loading Effects of Instruments
7.6 Circuit Analysis Using Computers
Problems
8 Methods of Analysis
8.1 Constant-Current Sources
8.2 Source Conversions
8.3 Current Sources in Parallel and Series
8.4 Branch-Current Analysis
8.5 Mesh(Loop)Analysis
8.6 Nodal Analysis
8.7 Delta-Wye(Pi-Tee)Conversion
8.8 Bridge Networks
8.9 Circuit Analysis Using Computers
Problems
9 Network Theorems
9.1 Superposition Theorem
9.2 Thevenin's Theorem
9.3 Norton's Theorem
9.4 Maximum Power Transfer Theorem
9.5 Substitution Theorem
9.6 Millman's Theorem
9.7 Reciprocity Theorem
9.8 Circuit Analysis Using Computers
Problems
PART Ⅲ Capacitance and Inductance
10 Capacitors and Capacitance
10.1 Capacitance
10.2 Factors Affecting Capacitance
10.3 Electric Fields
10.4 Dielectrics
10.5 Nonideal Effects
10.6 Types of Capacitors
10.7 Capacitors in Parallel and Series
10.8 Capacitor Current and Voltage
10.9 Energy Stored by a Capacitor
10.10 Capacitor Failures and Troubleshooting
Problems
11 Capacitor Charging,Discharging,and Simple Waveshaping Circuits
11.1 Introduction
11.2 Capacitor Charging Equations
11.3 Capacitor with an Initial Voltage
11.4 Capacitor Discharging Equations
11.5 More Complex Circuits
11.6 An RC Timing Application
11.7 Pulse Response of RC Circuits
11.8 Transient Analysis Using Computers
Problems
12 Magnetism and Magnetic Circuits
12.1 The Nature of a Magnetic Field
12.2 Electromagnetism
12.3 Flux and Flux Density
12.4 Magnetic Circuits
12.5 Air Gaps,Fringing,and Laminated Cores
12.6 Series Elements and Parallel Elements
12.7 Magnetic Circuits with DC Excitantion
12.8 Magnetic Field Intensity and Magnetization Curves
12.9 Ampere's Circuital Law
12.10 Series Magnetic Circuits:Given Ф，Find NI
12.11 Series-Parallel Magnetic Circuits
12.12 Series Magnetic Circuits:Given NI,FindФ
12.13 Force Due to an Electromagnet
12.14 Properties of Magnetic Materials
12.15 Measuring Magnetic Fields
Problems
13 Inductance and Inductors
13.1 Electromagnetic Induction
13.2 Induced Voltage and Induction
13.3 Self-Inductance
13.4 Computing Induced Voltage
13.5 Inductances in Series and Parallel
13.6 Practical Considerations
13.7 Inductance and Steady State DC
13.8 Energy Stored by an Inductance
13.9 Inductor Troubleshooting Hints
Problems
14 Inductive Transients
14.1 Introduction
14.2 Current Buildup Transients
14.3 Interrupting Current in an Inductive Circuit
14.4 De-energizing Transients
14.5 More Complex Circuits
14.6 RL Transients Using Computers
Problems
PART Ⅳ Foundation AC Comcepts
15 AC Fundamentals
15.1 Introduction
15.2 Generating AC Voltages
15.3 Voltage and Current Conventions for AC
15.4 Frequency,Period,Amplitude,and Peak Value
15.5 Angular and Graphic Relationships for Sine Waves
15.6 Voltage and Currents as Functions of Time
15.7 Introduction to Phasors
15.8 AC Waveforms and Average Value
15.9 Effective Values
15.10 Rate of Change of a Sine Wave(Derivative)
15.11 AC Voltage and Current Measurement
15.12 Circuit Analysis Using Computers
Problems
16 R,L,and C Elements and the Impedance Concept
16.1 Complex Numbers Review
16.2 Complex Numbers in AC Analysis
16.3 R,L and C Cricuits with Sinusoidal Excitation
16.4 Resistance and Sinusoidal AC
16.5 Inductance and Sinusoidal AC
16.6 Capacitance and Sinusoidal AC
16.7 The Impedance Concept
16.8 Computer Analysis of AC Circuits
Problems
17 Power in AC Circuits
17.1 Introduction
17.2 Power to a Resistive Load
17.3 Power to an Inductive Load
17.4 Power to a Capacitive Load
17.5 Power in More Complex Circuits
17.6 Apparent Power
17.7 The Relationship Between P,Q,and S
17.8 Power Factor
17.9 AC Power Measurements
17.10 Effective Resistance
17.11 Energy Relationships for AC
17.12 Circuit Analysis Using Computers
Problems
PART Ⅴ Impedance Networks
18 AC Series-Parallel Circuits
18.1 Ohm's Law for AC Circuits
18.2 AC Series Circuits
18.3 Kirchhoff's Voltage Law and the Voltage Divider Rule
18.4 AC Parallel Circuits
18.5 Dirchhoff's Current Law and the Current Divider Rule
18.6 Series-Parallel Circuits
18.7 Frequency Effects
18.8 Applications
18.9 Circuit Analysis Using Computers
Problems
19 Methods of AC Analysis
19.1 Dependent Sources
19.2 Source Conversion
19.3 Mesh(Loop)Analysis
19.4 Nodal Analysis
19.5 Delta-to-Wye and Wye-to-Delta Conversions
19.6 Bridge Networks
19.7 Circuit Analysis Using Computers
Problems
20 AC Network Theroems
20.1 Superposition Theorem—Independent Sources
20.2 Superposition Theorem—Dependent Sources
20.3 TGhevenin's Theorem—Independent Sources
20.4 Norton's Theorem—Independent Sources
20.5 Thevenin's and Norton's Theorems for Dependent Sources
20.6 Maximum Power Transfer Theorem
20.7 Circuit Analysis Using Computers
Problems
21 Resonance
21.1 Series Resonance
21.2 Quality Factor,Q
21.3 Impedance of a Series Resonant Circuit
21.4 Power,Bandwidth,and Selectivity of a Series Resonant Circuit
21.5 Series-to-Parallel RL and RC Conversion
21.6 Parallel Resonance
21.7 Circuit Analysis Using Computers
Problems
22 Filters and the Bode Plot
22.1 The Decibel
22.2 Multistage Systems
22.3 Simple RC and RL Transfer Functions
22.4 The Low-Pass Filter
22.5 The High-Pass Filter
22.6 The Band-Pass Filter
22.7 The Ban-Reject Filter
22.8 Circuit Analysis Using Computers
Problems
23 Three-Phase Systems
23.1 Three-Phase Voltage Generation
23.2 Basic Three-Phase Circuit Connections
23.3 Basic Three-Phase Relationships
23.4 Examples
23.5 Power in a Balanced Systems
23.6 Measuring Power in Three-Phase Circuits
23.7 Unbalanced Loads
23.8 Power System Loads
23.9 Circuit Analysis Using Computers
Problems
24 Transformers and Cupled Circuits
24.1 Introduction
24.2 Iron-Core Transformers:The Ideal Model
24.3 Reflected Impedance
24.4 Transformer Ratings
24.5 Transformer Applications
24.6 Practical Iron-Core Transformers
24.7 Transormer Tests
24.8 Voltage and Frequency Effects
24.9 Loosely Coupled Circuits
24.10 Magnetically Coupled Circuits with Sinusoidal Excitation
24.11 Coupled Impedance
24.12 Circuit Analysis Using Computers
Problems
25 Nonsinusoidal Waveforms
25.1 Composite Waveforms
25.2 Fourier Series
25.3 Fourier Series of Common Waveforms
25.4 Frequency Spectrum
25.5 Circuit Response to a Nonsinusoidal Waveform
25.6 Circuit Analysis Using Computers
Problems
APPENDIX A OrCAD-PSpice A/D
APPENDIX B Solution of Simultaneous Linear Equations
APPENDIX C Maximum Power Transfer Theorem
APPENDIX D Answers to Selected Odd-Numbered
Probems
Glossary
Index