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(电子)国外电子与通信教材
电子电路设计基础(英文版)Introduction to Electronic Circuit Design  |
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| 本书按照逻辑(而不是按照顺序)对内容进行组织,使读者在某个设计过程中能够对不同类型的分析进行比较。本书的特点如下:利用一个普通的晶体管介绍多种适用于FET和BJT电路的基本原理;将复杂问题进行分解;提供全面的针对练习的解决方案;等等。本书的主要内容有:电子电路设计,半导体物理与电子器件,固态器件制造,计算机辅助设计的工具与技巧,运算放大器,小信号线性与放大,直流偏置,低频小信号交流分析与放大器,放大器频率响应,反馈,滤波器与调制放大器,低频大信号交流分析,数据转换器,门级数字电路,晶体管级数字电路。本书适合作为高等院校电子类的本科生教材,也可作为该领域技术人员的参考书。 |
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| Part 1 The Foundations of Electronic Circuit DesignChapter 1 Electronic Circuit Design1.1 The Process of Design1.2 Analysis for Design1.2.1 Frequency-Independent Analysis for Design1.2.2 Frequency-Dependent Analysis for Design1.3 Electronic Systems1.3.1 Electronic versus Electric Circuits1.3.2 Analog and Digital Electronic Circuits1.3.3 Modeling Electronic Systems1.3.4 Discrete,Integrated,and Hybrid Circuits1.4 NotationSolutions to ExercisesChapter SummaryReferencesProblemsCapter 2 Semiconductor Physics and Electronic Devices2.1 Material Properties2.1.1 Crystal Structure2.1.2 Conductors,Insulators,and Semiconductors2.1.3 Generation and Recombination2.2 Conduction Mechanisms2.2.1 Diffusion2.2.2 Drift2.3 Conductor-to-Semiconductor Contacts2.3.1 Rectifying Contacts2.3.2 Ohmic Contacts2.4 pn-junction Diodes2.4.1 Intuitive Treatment2.4.2 Detailed Analysis of Current Flow2.4.3 Minority-Carrier Profiles2.4.4 Summary of Current Flow2.4.5 Charge Storage and Varactor Diodes2.4.6 Breakdown and Zener Diodes2.4.7 Other Types of Diodes2.5 Bipolar Junction Transistors2.5.1 Intuitive Treatment2.5.2 Detailed Analysis of Current Flow2.5.3 Base Current2.5.4 Base-Width Modulation(The Early Effect)2.5.5 Charge Storage2.5.6 Breakdown Voltages2.5.7 Other Types of Junction Transistors2.6 Metal-Oxide Semiconductor Field-Effect Transistors(MOSFETs)2.6.1 Intuitive Treatment2.6.2 Detailed Analysis of Current Flow2.6.3 Channel-Length Modulation2.6.4 Charge Storage2.6.5 The Effect of Bulk Bias2.6.6 Breakdown2.6.7 Short-and Narrow-Channel Effects2.7 Junction Field-Effect Transistors(JFETs)2.7.1 Intuitive Treatment2.7.2 Detailed Analysis of Current Flow2.7.3 Second-Order Effects2.8 Metal-Semiconductor FETs(MOSFETs)2.9 Silicon Controlled Rectiffier and Power Handling Devices2.10 Comparison of DevicesSolutions to ExercisesChapter SummaryReferencesProblemsChapter 3 Solid-State Device Fabrication3.1 CMOS Technology3.1.1 The Beginning:Choosing a Substrate3.1.2 Active Region Formation3.1.3 Nand P Well Formation3.1.4 Gate Formation3.1.5 Tip or Extension(LDD)Formation3.1.6 Source/Drain Formation3.1.7 Contact and Local Interconnect Formation3.1.8 Multilevel Metal Formation3.1.9 Electrical Model Related to Physical Structure3.2 Bipolar Technology3.2.1 Device Fabrication3.2.2 Electrical Model Related to Physical StructureChapter SummaryReferencesProblemsChapter 4 Computer-Aided Design:Tools and Techniques4.1 Overview of Simulation Techniques4.1.1 Analog Systems4.1.2 Digital Systems4.1.3 Mixed Analog and Digital Systems4.2 Circuit Simulation Using SPICE4.2.1 SPICE Input and Output4.2.2 Simulation Modes and Types of Analysis4.3 Circuit Elements and Models for SPICE4.3.1 Sources4.3.2 Passive Devices4.3.3 Diodes4.3.4 Bipolar Junction Transistors4.3.5 MOS Field-Effect Transistors4.3.6 Junction Field-effect Transistors and MOSFETs4.4 Macro Models in SPICESolutions to ExercisesChapter SummaryReferencesProblemsPart 2 Analog Electronic Circuit DesignChapter 5 Operational Amplifiers5.1 Basic Op Amp Circuits5.1.1 The Noninverting Amplifier5.1.2 The Inverting Amplifier5.1.3 The Unity-Gain Amplifier,or Voltage Follower5.1.4 The Differential Amplifier5.1.5 The Instrumentation Amplifier5.1.6 Current Sources5.1.7 Voltage Regulators5.2 Frequency-Dependent Op Amp Circuits5.2.1 The Integrator and First-Order Low-Pass Filter5.2.2 The Differentiator and First-Order High-Pass Filter5.2.3 Second-Order Filters5.3 Nonlinear Op Amp Circuits5.3.1 Comparators5.3.2 Precision Rectification and Clipping5.3.3 Logarithmic Amplifiers5.4 Nonlinear Characteristics of Op Amps5.4.1 Finite Gain5.4.2 Input Bias and Offset Currents5.4.3 Input Offset Voltage5.4.4 Finite Input and Output Impedances5.4.5 Finite Bandwidth5.4.6 Common-Mode Rejection Ratio and Power-Supply Rejection Ratio5.4.7 Output Swing Revisited5.4.8 Slew Rate and Full-Power Bandwidth5.4.9 Noise5.4.10 Op Amp Parameter MeasurementSolutions to ExercisesChapter SummaryReferencesProblemsChapter 6 Small-Signal Linearity and Amplification6.1 Linear Time-Invariant Networks6.2 Nonlinear Circuit Analysis6.2.1 Analysis Solution6.2.2 Graphical Solution6.2.3 Solving with Models6.3 Small-Signal Analysis6.3.1 An Alternate View of the Small-Signal Approximation6.3.2 Accuracy of the Small-Signal Approximation6.4 Small-Signal Amplifiers6.4.1 Small-Signal Models for Transistors6.4.2 Example Application6.5 Types of Amplifiers6.5.1 Two-Port Models for Amplifiers6.5.2 AC-and DC-coupled Transfer FunctionsSolutions to ExercisesChapter SummaryReferencesProblemsChapter 7 DC Biasing7.1 DC and Large-Signal Low-Frequency Models for Design7.1.1 Independent Sources7.1.2 Linear Passive Devices (Rs,Ls,& Cs)7.1.3 Diodes7.1.4 Bipolar Junction Transistors7.1.5 MOS Field-Effect Transistors7.1.6 Junction Field-Effect Transistors7.1.7 Comparison-of Bipolar and Field-Effect Transistors Biasing7.2 Biasing of Single-Stage Amplifiers7.2.1 JBT Amplifiers7.2.2 FET Amplifiers7.3 Biasing of Multistage Amplifiers7.3.1 Cascaded Bipolar Amplifiers7.3.2 Cascaded FET Amplifiers7.4 Biasing for Integrated Circuits7.4.1 Simple Bipolar Current Mirrors7.4.2 More Advanced Bipolar Current Mirrors7.4.3 FET Current Mirrors7.5 Biasing of Differential Amplifiers7.6 Worst-Case Analysis and Parameter VariationSolutions to ExercisesChapter SummaryReferencesProblemsChapter 8 Low-Frequency Small-Signal AC Analysis and Amplifiers8.1 Low-Frequency Small-Signal Models for Design8.1.1 Independent Sources8.1.2 Linear Passive Devices(Rs,Ls,& Cs)8.1.3 Dides8.1.4 The Generic Transistor8.1.5 Bipolar Junction Transistors8.1.6 MOS Field-Effect Transistors8.1.7 Junction Field-Effect Transistors8.1.8 Comparison of Bipolar and Field-Effect Transistors8.2 Stages with Voltage and Current Cain8.2.1 A Generic Implementation:The Common-Merge Amplifier8.2.2 A Bipolar Implementation:The Common-Emitter Amplifier8.2.3 A MOS Implementation:The Common-Source Amplifier8.3 Voltage Buffers8.3.1 A Generic Implementation:The Merge Follower8.3.2 A Bipolar Implementation:The Emitter Follower8.3.3 A FET Implementation:The Source Follower8.4 Current Buffers8.4.1 A Generic Implementation:The Common-Control Amplifier8.4.2 A Bipolar Implementation:The Common-Base Amplifier8.4.3 A FET Implementation:The Common-Gate Amplifier8.5 Integrated Amplifiers8.5.1 The Body Effect in FET Amplifiers8.5.2 Current Mirrors8.6 Differential Amplifiers8.6.1 The Generic Differential Pair8.6.2 A Bipolar Implementation:The Emitter-Coupled Pair8.6.3 A FET Implementation:The Source-Coupled Pair8.7 Multistage Amplifiers8.7.1 Multistage Bipolar Amplifiers8.7.2 Multistage FET Amplifiers8.7.3 Multistage Amplifiers with Bipolar and Field0Effect Transistors8.7.4 Multistage Amplifiers with Differential Pairs:Operational Amplifiers8.8 Comparison of BJT and FET AmplifiersSolutions to ExercisesChapter SummaryReferencesProblemsChapter 9 Amplifier Frequency Response9.1 High-Frequency Small-Signal Models for Design9.1.1 Independent Sources9.1.2 Linear Passive Elements(Rs,Ls,& Cs)9.1.3 Diodes9.1.4 The Generic Transistors9.1.5 Bipolar Junction Transistors9.1.6 MOS Field-Effect Transistors9.1.7 Junction Field-Effect Transistors9.2 Stages with Voltage and Current Gain9.2.1 A Generic Implementation:The Common-Merge Amplifier9.2.2 A Bipolar Implementation:The Common-Emitter Amplifier9.2.3 A FET Implementation:The Common-Source Amplifier9.2.4 Comparison of Bipolar and FET Implementations9.3 Voltage Buffers9.3.1 A Generic Implementation:The Merge Follower9.3.2 A Bipolar Implementation:The Emitter Follower9.3.3 A FET Implementation:The Source Follower9.4 Courrent Buffers9.4.1 A Generic Implementation:The Common-Control Amplifier9.4.2 A Bipolar Implementation:The Common-Base Amplifier9.4.3 A FET Implementation:The Common-Gate Amplifier9.5 Comparison of Single-Stage Amplifiers9.5.1 Bipolar Amplifiers9.5.2 FET Amplifiers9.6 Multistage Amplifiers9.6.1 The Common-Merge Merge-Follower Cascade9.6.2 A Bipolar Implementation:The Common-Emitter Emitter-Follower Cascade9.6.3 A FET Implementation:The Common-Source Source-Follower Cascade9.6.4 The Cascode Amplifier:A Common-Merge Common-Control Cascade9.6.5 The Bipolar Cascode Amplifier:A Common-Emitter Common-Base Cascade9.6.6 The MOSFET Cascode Amplifier:A Common-Source Common-Gate Cascade9.7 Differential Amplifiers9.7.1 The Generic Differential Pair9.7.2 A Bipolar Implementation:The Emitter-Coupled Pair9.7.3 A FET Implementation:The Source-Coupled PairSolutions to ExercisesChapter SummaryReferencesProblemsChapter 10 Feedback10.1 Negative Feedback10.1.1 Ideal Block Diagram Analysis10.1.2 Ideal Analysis and the Characteristics of Negative Feedback10.1.3 First-Order Practical Analysis10.1.4 Advanced Analysis10.1.5 Stability of Systems with Feedback10.1.6 Compensation10.2 Positive Feedback and Oscillators10.2.1 Sinusoidal Oscillators10.2.2 Nonsinusoidal OscillatorsSolutions to ExercisesChapter SummaryReferencesProblemsChapter 11 Filters and Tuned Amplifiers11.1 Filters11.1.1 Ideal Transfer Functions11.1.2 Practical Transfer Functions11.1.3 Normalization (Frequency and Component Value Scaling)11.1.4 The Narrowband Approximation11.1.5 Integrated Filters and Simulated Inductors11.1.6 Discrete-time Filters11.2 Trned Amplifiers11.2.1 Single-Tuned Amplifiers11.2.2 Synchronous and Stagger-Tuned Amplifiers11.3 Phase-Locked Loops11.3.1 First-Order PLLs11.3.2 Second-Order PLLs11.3.3 Type-II PLLsSolutions to ExercisesChapter SummaryReferencesProblemsChapter 12 Low-Frequency Large-Signal AC Analysis12.1 Diode Circuits12.1.1 Diode Rectifiers12.1.2 Limiting Clamping,and Multiplying Circuits12.1.3 Diode Switching12.2 Amplifiers12.2.1 Signal Swing in Bipolar Amplifiers12.2.2 Signal Swing in FET Amplifiers12.2.3 Distortion in Amplifiers12.3 Output Stages12.3.1 Class A Output Stages:Classification and Efficiency of Output Stages12.3.2 Class B and AB Output Stages12.3.3 More Advanced Output Stages12.3.4 Power Transistors,Thermal Modeling,and Heat SinksSolutions to ExercisesChapter SummaryReferencesProblemsChapter 13 Data Converters13.1 Overview13.1.1 Analog and Digital Signal Processing and Applications of Data Converters13.1.2 Data Converter Transfer Functions and Specifications13.2 Digital-to-Analog Converters13.2.1 Resistive DACs13.2.2 Capacitive DACs13.3 Analog-to-Digital Converters13.3.1 Sample-and-Hold Circuit13.3.2 The Successive Approximation ADC13.3.3 The Dual-Slope ADC13.3.4 The Flash ADC13.3.5 Other ADC ArchitecturesSolutions to ExercisesChapter SummaryReferencesProblemsPart 3 Digital Electronic Circuit DesignChapter 14 Gate-Level Digital Circuits14.1 Background and Binary Logic14.1.1 Fundamental Characteristics of Digital Circuits14.1.2 Number Systems14.1.3 Binary Logic Gates14.2 Flip-Flops14.2.1 The Set-Reset Flip-Flop14.2.2 The JK Flip-Flop14.2.3 The Flip-Flop14.3 Shift Registers and Counters14.4 Reflections on Transmission LinesSolutions to ExercisesChapter SummaryReferencesProblemsChapter 15 Transistor-Level Digital Circuits15.1 Device Modeling for Digital Design15.1.1 Diodes15.1.2 Bipolar Junction Transistors15.1.3 MOS Field-Effect Transistors15.2 Specification of Logic Gates15.2.1 Static Specifications15.2.2 Dynamic Specifications15.3 MOS Digital Circuits15.3.1 NMOS15.3.2 CMOS Inverter (NOT gate)15.3.3 CMOS NOR and NAND Gates15.3.4 More Complex CMOS Gages15.3.5 Other Types of CMOS Logic15.3.6 MOS Memory15.4 Bipolar Digital Circuits15.4.1 Transistor-Transistor Logic15.4.2Emitter-Coupled LogicSolutions to ExercisesChapter SummaryReferencesProblemsAppendixesAppendix A Spice ReferenceRunning SPICEThe Input FileReferencesAppendix B Example Device ModelsDevice DataModel Libraries from the CDReferencesAppendix C Two-Port Network Properties (on the CD)Appendix D Review of Linear Time-Invariant Network Analysis (on the CD)Answers to Selected ProblemsINDEX |
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