基本信息: |
书名:电工学原理及应用(英文精编版.第4版) |
原价:55.(咨询特价) | 作者:(美)汉伯利著 |
出版社:机械工业出版社 | 出版日期:2010-10-1 |
ISBN(咨询特价) | 字数: |
页码:589 | 版次:1 |
装帧:平装 | 开本:大32开 |
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内容提要 |
本畅销教材汇总了电气工程领域的几乎所有的概念,并提供了详尽的例题和实际应用范例。作者Allan R.Hambley通过讲授电工学原理来激励学生学习,并应用于解决各个工程领域的专门的或者有趣的问题。本书以对学生友好的写作风格、精心的问题设计、简明的练习和例题而见长。第4版的内容相比前三版改动较大,满足了目前相关课程高校教师和学生的需要。同时,第4版还为教师和学生提供了功能强大的网络信息资源,详情请登录培生教育的工程实验室网站http://www.myengirleeringlab.com。 我国也有许多所大学采用本书作为本科“电工学”课程的教材和主要教学参考书,收到了良好的效果。本书基于该书第4版进行改编,保留其中的基本内容,压缩或删除了一些高级内容。本括电路理论和数字系统两部分内容,适用于化工、生物、土木工程等非电专业学生的“电工学”课程,也可以作为电气工程、计算机、自动化等专业学生的专业导论课程的参考教材。 |
目录 |
Preface Part OneCircuits Chapter 1Introduction 1.1Overview of Electrical Engineering 1.2Circuits, Currents, and Voltages 1.3Power and Energy 1.4Kirchhoff's Current Law 1.5Kirchhoff's Voltage Law 1.6Independent on Circuit Elements 1.7Introduction to Circuits Summary Problems Chapter 2Resistive Circuits 2.1Resistances in Series and Parallel 2.2Network Analysis by Using Series and Parallel EquivalentsPreface Part OneCircuits Chapter 1Introduction 1.1Overview of Electrical Engineering 1.2Circuits, Currents, and Voltages 1.3Power and Energy 1.4Kirchhoff's Current Law 1.5Kirchhoff's Voltage Law 1.6Independent on Circuit Elements 1.7Introduction to Circuits Summary Problems Chapter 2Resistive Circuits 2.1Resistances in Series and Parallel 2.2Network Analysis by Using Series and Parallel Equivalents 2.3Voltage-Divider and Current-Divider Circuits 2.4Th6venin and Norton Equivalent Circuits 2.5Superposition Principle 2.6Wheatstone Bridge Summary Problems Chapter3Inductance and Capacitance 3.1Capacitance 3.2Capacitances in Series and Parallel 3.3Physical Characteristics of Capacitors 3.4Inductance 3.5Inductances in Series and Parallel 3.6Practical Inductors 3.7Mutual Inductance Summary Problems Chapter 4Transients 4.1First-Order Re Circuits 4.2DC Steady State 4.3RL Circuits Summary Problems Chapter 5Steady-State Sinusoidal Analysis 5.1Sinusoidal Currents and Voltages 5.2Phasors 5.3Complex Impedances 5.4Circuit Analysis with Phasors and Complex Impedances 5.5Power in AC Circuits 5.6Thevenin and Norton Equivalent Circuits 5.7Balanced Three-Phase Circuits Summary Problems Chapter 6Frequency Response, Bode Plots, and Resonance 6.1Fourier Analysis, Filters, and Transfer Functions 6.2First-Order Lowpass Filters 6.3Decibels, the Cascade Connection, and .Logarithmic Frequency Scales 6.4Bode Plots 6.5First-Order Highpass Filters 6.6Series Resonance 6.7Parallel Resonance Summary Problems Part TwoDigital Systems Chapter 7Logic Circuits 7.1Basic Logic Circuit Concepts 7.2Representation of Numerical Data in Binary Form 7.3Combinatorial Logic Circuits 7.4Synthesis of Logic Circuits 7.5Minimization of Logic Circuits 7.6Sequential Logic Circuits Summary Problems Chapter 8Diodes 8.1Basic Diode Concepts 8.2Load-Line Analysis of Diode Circuits 8.3Zener-Diode Voltage-RegulatorCircuits 8.4Ideal-Diode Model 8.5Piecewise-Linear Diode'Models 8.6Rectifier Circuits 8.7W*e-Shaping Circuits 8.8Linear,Small-Signal Equivalent Circuits Summary Problems Chapter 9 Amplifiers: Specifications and External Characteristics 9.1Basic Amplifier Concepts 9.2Cascaded Amplifiers 9.3Power Supplies and Efficiency 9.4Additional Amplifier Models 9.5Importance.of Amplifier Impedances in Various Applications 9.6Ideal Amplifiers 9.7Frequency Response 9.8Linear W*eform Distortion 9.9Pulse Response 9.10Transfer Characteristic and Nonlinear Distortion 9.11Differential Amplifiers 9.12Offset Voltage, Bias Current, and Offset Current Summary Problems Chapter 10Field-Effect Transistors 10.1NMOS and PMOS Transistors 10.2Load-Line Analysis of a Simple NMOS Amplifier 10.3Bias Circuits 10.4Small-Signal Equivalent Circuits 10.5Common-Source Amplifiers 10.6Source Followers 10.7CMOS Logic Gates Summary Problems Chapter 11Bipolar Junction Transistors 11.1Current and Voltage Relationships 11.2Common-Emitter Characteristics 11.3Load-Line Analysis of a Common-Emitter Amplifier 11.4pnp Bipolar_ Junction Transistors 11.5Large-Signal DC Circuit Models~ 11.6Large-Signal DC Analysis of BJT Circuits 11.7Small-Signal Equivalent Circuits 11.8Common-Emitter Amplifiers 11.9Emitter Followers Summary Problems Chapter 12Operational Amplifiers 12.1Ideal Operational Amplifiers 12.2Inverting Amplifiers 12.3Noninverting Amplifiers 12.4Op-Amp Imperfections in the Linear Range of Operation 12.5Nonlinear Limitations 12.6DC Imperfections 12.7Differential andInstrumentation Amplifiers 12.8Integrators and Differentiators Summary Problems |
作者介绍 |
Allan R.Hambley拥有密歇根理工大学学士学位、伊利诺斯理工学院硕士学位和伍斯特科技学院博士学位,现为密歇根理工大学电子与计算机工程教授。他在电子工程领域和通信系统领域都取得了突出的教学成就。美国工程教育学会因其著作《电子学》向他颁发了1988年度Meriam/Wiley |
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