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工程电路分析(第七版)
作者:(美)海特(Hayt.W.H.)、等
出版社:电子工业出版社
出版时间:2006-09-01
ISBN:9787121030963
定价:¥55.00
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内容简介
教育部高等教育司推荐,国外优秀信息科学与技术系列教学用书。英文版。本书首版于1962年,目前已是第七版。得益于作者长期教学经验的积累,本书已被国外许多著名大学选为电子、电力工程领域入门课程的教材。作者从3个最基本的科学定律(欧姆定律、基尔霍夫电压定律和基尔霍夫电流定律)推导出了电路分析中常用的分析方法及分析工具。书中首先介绍电路的基本参量以及电路的基本概念,然后结合基尔霍夫电压和电流定律,介绍节点和网孔分析法以及叠加定理、电源变换等常用电路分析方法,并将运算放大器作为电路元件加以介绍;交流电路的分析开始于电容、电感的时域电路特性,然后分析RLC电路的正弦稳态响应,并介绍交流电路的功率分析方法,接着还对多相电路、磁耦合电路的性能分析进行了介绍;为了更深入了解电路的频域特性,本书还介绍了复频率、拉普拉斯变换和s域分析、频率响应、傅里叶分析、二端口网络等内容。作者注重将理论和实践相结合,无论例题、练习、章后习题还是正文中的应用实例,很多都来自于业界的典型应用,这也是本书的一大特色。本书可作为信息电子类、电气工程类、计算机类和应用物理类本科生的双语教学用书,也可作为从事电子技术、电气工程、通信工程领域工作的工程技术人员的参考书。[看更多]
作者简介
暂缺《工程电路分析(第七版)》作者简介
目录
CHAPTER 1 INTRODUCTION
1.1 Preamble
1.2 Overview of Text
1.3 Relationship of Circuit Analysis to Engineering
1.4 Analysis and Design
1.5 Computer-Aided Analysis
1.6 Successful Problem-Solving Strategies
READING FURTHER
CHAPTER 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 Ohms Law
SUMMARYAND REVIEW
READING FURTHER
EXERCISES
CHAPTER 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
SUMMARYAND REVIEW
READING FURTHER
EXERCISES
CHAPTER 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
SUMMARYAND REVIEW
READING FURTHER
EXERCISES
CHAPTER 5 USEFUL CIRCUIT ANALYSIS TECHNIQUES
5.1 Linearity and Superposition
5.2 Source Transformations
5.3 Thvenin and Norton Equivalent Circuits
5.4 Maximum Power Transfer
5.5 Delta-Wye Conversion
5.6 Selecting an Approach: A Summary of Various Techniques
SUMMARYAND REVIEW
READING FURTHER
EXERCISES
CHAPTER 6 THE OPERATIONAL AMPLIFIER
CHAPTER 7 CAPACITORS AND INDUCTORS
CHAPTER 8 BASIC RL AND RC CIRCUITS
CHAPTER 9 THE RLC CIRCUIT
CHAPTER 10 SINUSOIDAL STEADY-STATE ANALYSIS
CHAPTER 11 AC CIRCUIT POWER ANALYSIS
CHAPTER 12 POLYPHASE CIRCUITS
CHAPTER 13 MAGNETICALLY COUPLED CIRCUITS
CHAPTER 14 COMPLEX FREQUENCY AND THE LAPLACE TRANSFORM
CHAPTER 15 CIRCUIT ANALYSIS IN THE s-DOMAIN
CHAPTER 16 FREQUENCY RESPONSE
CHAPTER 17 TWO-PORT NETWORKS
CHAPTER 18 FOURIER CIRCUIT ANALYSIS
APPENDIX 1 AN INTRODUCTION TO NETWORK TOPOLOGY
APPENDIX 2 SOLUTION OF SIMULTANEOUS EQUATIONS
APPENDIX 3 A PROOF OF TH?VENIN?S THEOREM
APPENDIX 4 A PSPICE¨ TUTORIAL
APPENDIX 5 COMPLEX NUMBERS
APPENDIX 6 A BRIEF MATLAB TUTORIAL
APPENDIX 7 ADDITIONAL LAPLACE TRANSFORMTHEOREMS
INDEX
1.1 Preamble
1.2 Overview of Text
1.3 Relationship of Circuit Analysis to Engineering
1.4 Analysis and Design
1.5 Computer-Aided Analysis
1.6 Successful Problem-Solving Strategies
READING FURTHER
CHAPTER 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 Ohms Law
SUMMARYAND REVIEW
READING FURTHER
EXERCISES
CHAPTER 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
SUMMARYAND REVIEW
READING FURTHER
EXERCISES
CHAPTER 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
SUMMARYAND REVIEW
READING FURTHER
EXERCISES
CHAPTER 5 USEFUL CIRCUIT ANALYSIS TECHNIQUES
5.1 Linearity and Superposition
5.2 Source Transformations
5.3 Thvenin and Norton Equivalent Circuits
5.4 Maximum Power Transfer
5.5 Delta-Wye Conversion
5.6 Selecting an Approach: A Summary of Various Techniques
SUMMARYAND REVIEW
READING FURTHER
EXERCISES
CHAPTER 6 THE OPERATIONAL AMPLIFIER
CHAPTER 7 CAPACITORS AND INDUCTORS
CHAPTER 8 BASIC RL AND RC CIRCUITS
CHAPTER 9 THE RLC CIRCUIT
CHAPTER 10 SINUSOIDAL STEADY-STATE ANALYSIS
CHAPTER 11 AC CIRCUIT POWER ANALYSIS
CHAPTER 12 POLYPHASE CIRCUITS
CHAPTER 13 MAGNETICALLY COUPLED CIRCUITS
CHAPTER 14 COMPLEX FREQUENCY AND THE LAPLACE TRANSFORM
CHAPTER 15 CIRCUIT ANALYSIS IN THE s-DOMAIN
CHAPTER 16 FREQUENCY RESPONSE
CHAPTER 17 TWO-PORT NETWORKS
CHAPTER 18 FOURIER CIRCUIT ANALYSIS
APPENDIX 1 AN INTRODUCTION TO NETWORK TOPOLOGY
APPENDIX 2 SOLUTION OF SIMULTANEOUS EQUATIONS
APPENDIX 3 A PROOF OF TH?VENIN?S THEOREM
APPENDIX 4 A PSPICE¨ TUTORIAL
APPENDIX 5 COMPLEX NUMBERS
APPENDIX 6 A BRIEF MATLAB TUTORIAL
APPENDIX 7 ADDITIONAL LAPLACE TRANSFORMTHEOREMS
INDEX
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