作者:(美)JamesW.Nilsson(詹姆
页数:784
出版社:电子工业出版社
出版日期:2023
ISBN:9787121464416
高清校对版pdf(带目录)
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内容简介
本书被IEEE Spectrum期刊称为“电路领域的经典之作”,是欧美电路课程广泛采用的教材。全书共18章,系统地讲述了电路的基本概念、基本理论、基本分析方法和计算方法。主要内容包括:电路基本元件、简单电阻电路分析、电路常见分析法、运算放大器基本应用电路、一阶和二阶动态电路的分析、正弦稳态电路分析及其功率计算、平衡三相电路、拉普拉斯变换及其应用、选频电路、有源滤波器、傅里叶级数及傅里叶变换、双端口网络等。书中每章内容均由现实生活中的实际应用展开,阐述细致并列出了详尽的图表资料,且附有大量例题、自测练习和课后习题。例题讲解透彻,非常适合自学,是一本电路分析的优秀教材。
作者简介
James W. Nilsson教授在艾奥瓦州立大学任教39年。从艾奥瓦州立大学退休后,一直在圣母大学和美国空军学院担任客座教授。他撰写的教材荣获过许多奖励和荣誉。1990年被选为的电气和电子工程师学会的会士。Susan A. Riedel教授从1981以来,在马凯特大学的电气工程和计算机系任教。
James W. Nilsson教授在艾奥瓦州立大学任教39年。从艾奥瓦州立大学退休后,一直在圣母大学和美国空军学院担任客座教授。他撰写的教材荣获过许多奖励和荣誉。1990年被选为的电气和电子工程师学会的会士。Susan A. Riedel教授从1981以来,在马凯特大学的电气工程和计算机系任教。
目录
CHAPTER 1 Circuit Variables
Practical Perspective: Balancing Power
1.1 Electrical Engineering: An Overview
1.2 The International System of Units
1.3 Circuit Analysis: An Overview
1.4 Voltage and Current
1.5 The Ideal Basic Circuit Element
1.6 Power and Energy
Practical Perspective: Balancing Power
Summary
Problems
CHAPTER 2 Circuit Elements
Practical Perspective: Heating with Electric Radiators
2.1 Voltage and Current Sources
2.2 Electrical Resistance (Ohm’s Law)
2.3 Constructing a Circuit Model
2.4 Kirchhoff’s Laws
2.5 Analyzing a Circuit Containing Dependent Sources
Practical Perspective: Heating with Electric Radiators
Summary
Problems
CHAPTER 3 Simple Resistive Circuits
Practical Perspective: Resistive Touch Screens
3.1 Resistors in Series
3.2 Resistors in Parallel
3.3 The Voltage-Divider and Current-Divider Circuits
3.4 Voltage Division and Current Division
3.5 Measuring Voltage and Current
3.6 Measuring Resistance—The Wheatstone Bridge
3.7 Delta-to-Wye (Pi-to-Tee) Equivalent Circuits
Practical Perspective: Resistive Touch Screens
Summary
Problems
CHAPTER 4 Techniques of Circuit Analysis
Practical Perspective: Circuits with Realistic Resistors
4.1 Terminology
4.2 Introduction to the Node-Voltage Method
4.3 The Node-Voltage Method and Dependent Sources
4.4 The Node-Voltage Method: Some Special Cases
4.5 Introduction to the Mesh-Current Method
4.6 The Mesh-Current Method and Dependent Sources
4.7 The Mesh-Current Method: Some Special Cases
4.8 The Node-Voltage Method Versus the Mesh-Current Method
4.9 Source Transformations
4.10?Thévenin and Norton Equivalents
4.11?More on Deriving the Thévenin Equivalent
4.12?Maximum Power Transfer
4.13?Superposition
Practical Perspective: Circuits with Realistic Resistors
Summary
Problems
CHAPTER 5 The Operational Amplifier
Practical Perspective: Sensors
5.1 Operational Amplifier Terminals
5.2 Terminal Voltages and Currents
5.3 The Inverting-Amplifier Circuit
5.4 The Summing-Amplifier Circuit
5.5 The Noninverting-Amplifier Circuit
5.6 The Difference-Amplifier Circuit
5.7 A More Realistic Model for the Operational Amplifier
Practical Perspective: Sensors
Summary
Problems
CHAPTER 6 Inductance, Capacitance, and Mutual Inductance
Practical Perspective: Capacitive Touch Screens
6.1 The Inductor
6.2 The Capacitor
6.3 Series-Parallel Combinations of Inductance and Capacitance
6.4 Mutual Inductance
6.5 A Closer Look at Mutual Inductance
Practical Perspective: Capacitive Touch Screens
Summary
Problems
CHAPTER 7 Response of First-Order RL and RC Circuits
Practical Perspective: Artificial Pacemaker
7.1 The Natural Response of an RL Circuit
7.2 The Natural Response of an RC Circuit
7.3 The Step Response of RL and RC Circuits
7.4 A General Solution for Step and Natural Responses
7.5 Sequential Switching
7.6 Unbounded Response
7.7 The Integrating Amplifier
Practical Perspective: Artificial Pacemaker
Summary
Problems
CHAPTER 8 Natural and Step Responses of RLC Circuits
Practical Perspective: Clock for Computer Timing
8.1 Introduction to the Natural Response of a Parallel RLC Circuit
8.2 The Forms of the Natural Response of a Parallel RLC Circuit
8.3 The Step Response of a Parallel RLC Circuit
8.4 The Natural and Step Response of a Series RLC Circuit
8.5 A Circuit with Two Integrating Amplifiers
Practical Perspective: Clock for Computer Timing
Summary
Problems
CHAPTER 9 Sinusoidal Steady-State Analysis
Practical Perspective: A Household Distribution Circuit
9.1 The Sinusoidal Source
9.2 The Sinusoidal Response
9.3 The Phasor
9.4 The Passive Circuit Elements in the Frequency Domain
9.5 Kirchhoff’s Laws in the Frequency Domain
9.6 Series, Parallel, and Delta-to-Wye Simplifications
9.7 Source Transformations and Thévenin?CNorton Equivalent Circuits
9.8 The Node-Voltage Method
9.9 The Mesh-Current Method
9.10?The Transformer
9.11?The Ideal Transformer
9.12?Phasor Diagrams
Practical Perspective: A Household Distribution Circuit
Summary
Problems
CHAPTER 10 Sinusoidal Steady-State Power Calculations
Practical Perspective: Vampire Power
10.1 Instantaneous Power
10.2 Average and Reactive Power
10.3 The rms Value and Power Calculations
10.4 Complex Power
10.5 Power Calculations
10.6 Maximum Power Transfer
Practical Perspective: Vampire Power
Summary
Problems
CHAPTER 11 Balanced Three-Phase Circuits
Practical Perspective: Transmission and Distribution of Electric Power
11.1 Balanced Three-Phase Voltages
11.2 Three-Phase Voltage Sources
11.3 Analysis of the Wye-Wye Circuit
11.4 Analysis of the Wye-Delta Circuit
11.5 Power Calculations in Balanced Three-Phase Circuits
11.6 Measuring Average Power in Three-Phase Circuits
Practical Perspective: Transmission and Distribution of Electric Power
Summary
Problems
CHAPTER 12 Introduction to the Laplace Transform
Practical Perspective: Transient Effects
12.1 Definition of the Laplace Transform
12.2 The Step Function
12.3 The Impulse Function
12.4 Functional Transforms
12.5 Operational Transforms
12.6 Applying the Laplace Transform
12.7 Inverse Transforms
12.8 Poles and Zeros of F(s)
12.9 Initial- and Final-Value Theorems
Practical Perspective: Transient Effects
Summary
Problems
CHAPTER 13 The Laplace Transform in Circuit Analysis
Practical Perspective: Surge Suppressors
13.1 Circuit Elements in the s Domain
13.2 Circuit Analysis in the s Domain
13.3 Applications
13.4 The Transfer Function
13.5 The Transfer Function in Partial Fraction Expansions
13.6 The Transfer Function and the Convolution Integral
13.7 The Transfer Function and the Steady-State Sinusoidal Response
13.8 The Impulse Function in Circuit Analysis
Practical Perspective: Surge Suppressors
Summary
Problems
CHAPTER 14 Introduction to Frequency Selective Circuits
Practical Perspective: Pushbutton Telephone Circuits
14.1 Some Preliminaries
14.2 Low-Pass Filters
14.3 High-Pass Filters
14.4 Bandpass Filters
14.5 Bandreject Filters
Practical Perspective: Pushbutton Telephone Circuits
Summary
Problems
CHAPTER 15 Active Filter Circuits
Practical Perspective: Bass Volume Control
15.1 First-Order Low-Pass and High-Pass Filters
15.2 Scaling
15.3 Op Amp Bandpass and Bandreject Filters
15.4 Higher-Order Op Amp Filters
15.5 Narrowband Bandpass and Bandreject Filters
Practical Perspective: Bass Volume Control
Summary
Problems
CHAPTER 16 Fourier Series
Practical Perspective: Active High-Q Filters
16.1 Fourier Series Analysis: An Overview
16.2 The Fourier Coefficients
16.3 The Effect of Symmetry on the Fourier Coefficients
16.4 An Alternative Trigonometric Form of the Fourier Series
16.5 An Application
16.6 Average-Power Calculations with Periodic Functions
16.7 The rms Value of a Periodic Function
16.8 The Exponential Form of the Fourier Series
16.9 Amplitude and Phase Spectra
Practical Perspective: Active High-Q Filters
Summary
Problems
CHAPTER 17 The Fourier Transform
Practical Perspective: Filtering Digital Signals
17.1 The Derivation of the Fourier Transform
17.2 The Convergence of the Fourier Integral
17.3 Using Laplace Transforms to Find Fourier Transforms
17.4 Fourier Transforms in the Limit
17.5 Some Mathematical Proper
Practical Perspective: Balancing Power
1.1 Electrical Engineering: An Overview
1.2 The International System of Units
1.3 Circuit Analysis: An Overview
1.4 Voltage and Current
1.5 The Ideal Basic Circuit Element
1.6 Power and Energy
Practical Perspective: Balancing Power
Summary
Problems
CHAPTER 2 Circuit Elements
Practical Perspective: Heating with Electric Radiators
2.1 Voltage and Current Sources
2.2 Electrical Resistance (Ohm’s Law)
2.3 Constructing a Circuit Model
2.4 Kirchhoff’s Laws
2.5 Analyzing a Circuit Containing Dependent Sources
Practical Perspective: Heating with Electric Radiators
Summary
Problems
CHAPTER 3 Simple Resistive Circuits
Practical Perspective: Resistive Touch Screens
3.1 Resistors in Series
3.2 Resistors in Parallel
3.3 The Voltage-Divider and Current-Divider Circuits
3.4 Voltage Division and Current Division
3.5 Measuring Voltage and Current
3.6 Measuring Resistance—The Wheatstone Bridge
3.7 Delta-to-Wye (Pi-to-Tee) Equivalent Circuits
Practical Perspective: Resistive Touch Screens
Summary
Problems
CHAPTER 4 Techniques of Circuit Analysis
Practical Perspective: Circuits with Realistic Resistors
4.1 Terminology
4.2 Introduction to the Node-Voltage Method
4.3 The Node-Voltage Method and Dependent Sources
4.4 The Node-Voltage Method: Some Special Cases
4.5 Introduction to the Mesh-Current Method
4.6 The Mesh-Current Method and Dependent Sources
4.7 The Mesh-Current Method: Some Special Cases
4.8 The Node-Voltage Method Versus the Mesh-Current Method
4.9 Source Transformations
4.10?Thévenin and Norton Equivalents
4.11?More on Deriving the Thévenin Equivalent
4.12?Maximum Power Transfer
4.13?Superposition
Practical Perspective: Circuits with Realistic Resistors
Summary
Problems
CHAPTER 5 The Operational Amplifier
Practical Perspective: Sensors
5.1 Operational Amplifier Terminals
5.2 Terminal Voltages and Currents
5.3 The Inverting-Amplifier Circuit
5.4 The Summing-Amplifier Circuit
5.5 The Noninverting-Amplifier Circuit
5.6 The Difference-Amplifier Circuit
5.7 A More Realistic Model for the Operational Amplifier
Practical Perspective: Sensors
Summary
Problems
CHAPTER 6 Inductance, Capacitance, and Mutual Inductance
Practical Perspective: Capacitive Touch Screens
6.1 The Inductor
6.2 The Capacitor
6.3 Series-Parallel Combinations of Inductance and Capacitance
6.4 Mutual Inductance
6.5 A Closer Look at Mutual Inductance
Practical Perspective: Capacitive Touch Screens
Summary
Problems
CHAPTER 7 Response of First-Order RL and RC Circuits
Practical Perspective: Artificial Pacemaker
7.1 The Natural Response of an RL Circuit
7.2 The Natural Response of an RC Circuit
7.3 The Step Response of RL and RC Circuits
7.4 A General Solution for Step and Natural Responses
7.5 Sequential Switching
7.6 Unbounded Response
7.7 The Integrating Amplifier
Practical Perspective: Artificial Pacemaker
Summary
Problems
CHAPTER 8 Natural and Step Responses of RLC Circuits
Practical Perspective: Clock for Computer Timing
8.1 Introduction to the Natural Response of a Parallel RLC Circuit
8.2 The Forms of the Natural Response of a Parallel RLC Circuit
8.3 The Step Response of a Parallel RLC Circuit
8.4 The Natural and Step Response of a Series RLC Circuit
8.5 A Circuit with Two Integrating Amplifiers
Practical Perspective: Clock for Computer Timing
Summary
Problems
CHAPTER 9 Sinusoidal Steady-State Analysis
Practical Perspective: A Household Distribution Circuit
9.1 The Sinusoidal Source
9.2 The Sinusoidal Response
9.3 The Phasor
9.4 The Passive Circuit Elements in the Frequency Domain
9.5 Kirchhoff’s Laws in the Frequency Domain
9.6 Series, Parallel, and Delta-to-Wye Simplifications
9.7 Source Transformations and Thévenin?CNorton Equivalent Circuits
9.8 The Node-Voltage Method
9.9 The Mesh-Current Method
9.10?The Transformer
9.11?The Ideal Transformer
9.12?Phasor Diagrams
Practical Perspective: A Household Distribution Circuit
Summary
Problems
CHAPTER 10 Sinusoidal Steady-State Power Calculations
Practical Perspective: Vampire Power
10.1 Instantaneous Power
10.2 Average and Reactive Power
10.3 The rms Value and Power Calculations
10.4 Complex Power
10.5 Power Calculations
10.6 Maximum Power Transfer
Practical Perspective: Vampire Power
Summary
Problems
CHAPTER 11 Balanced Three-Phase Circuits
Practical Perspective: Transmission and Distribution of Electric Power
11.1 Balanced Three-Phase Voltages
11.2 Three-Phase Voltage Sources
11.3 Analysis of the Wye-Wye Circuit
11.4 Analysis of the Wye-Delta Circuit
11.5 Power Calculations in Balanced Three-Phase Circuits
11.6 Measuring Average Power in Three-Phase Circuits
Practical Perspective: Transmission and Distribution of Electric Power
Summary
Problems
CHAPTER 12 Introduction to the Laplace Transform
Practical Perspective: Transient Effects
12.1 Definition of the Laplace Transform
12.2 The Step Function
12.3 The Impulse Function
12.4 Functional Transforms
12.5 Operational Transforms
12.6 Applying the Laplace Transform
12.7 Inverse Transforms
12.8 Poles and Zeros of F(s)
12.9 Initial- and Final-Value Theorems
Practical Perspective: Transient Effects
Summary
Problems
CHAPTER 13 The Laplace Transform in Circuit Analysis
Practical Perspective: Surge Suppressors
13.1 Circuit Elements in the s Domain
13.2 Circuit Analysis in the s Domain
13.3 Applications
13.4 The Transfer Function
13.5 The Transfer Function in Partial Fraction Expansions
13.6 The Transfer Function and the Convolution Integral
13.7 The Transfer Function and the Steady-State Sinusoidal Response
13.8 The Impulse Function in Circuit Analysis
Practical Perspective: Surge Suppressors
Summary
Problems
CHAPTER 14 Introduction to Frequency Selective Circuits
Practical Perspective: Pushbutton Telephone Circuits
14.1 Some Preliminaries
14.2 Low-Pass Filters
14.3 High-Pass Filters
14.4 Bandpass Filters
14.5 Bandreject Filters
Practical Perspective: Pushbutton Telephone Circuits
Summary
Problems
CHAPTER 15 Active Filter Circuits
Practical Perspective: Bass Volume Control
15.1 First-Order Low-Pass and High-Pass Filters
15.2 Scaling
15.3 Op Amp Bandpass and Bandreject Filters
15.4 Higher-Order Op Amp Filters
15.5 Narrowband Bandpass and Bandreject Filters
Practical Perspective: Bass Volume Control
Summary
Problems
CHAPTER 16 Fourier Series
Practical Perspective: Active High-Q Filters
16.1 Fourier Series Analysis: An Overview
16.2 The Fourier Coefficients
16.3 The Effect of Symmetry on the Fourier Coefficients
16.4 An Alternative Trigonometric Form of the Fourier Series
16.5 An Application
16.6 Average-Power Calculations with Periodic Functions
16.7 The rms Value of a Periodic Function
16.8 The Exponential Form of the Fourier Series
16.9 Amplitude and Phase Spectra
Practical Perspective: Active High-Q Filters
Summary
Problems
CHAPTER 17 The Fourier Transform
Practical Perspective: Filtering Digital Signals
17.1 The Derivation of the Fourier Transform
17.2 The Convergence of the Fourier Integral
17.3 Using Laplace Transforms to Find Fourier Transforms
17.4 Fourier Transforms in the Limit
17.5 Some Mathematical Proper
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