本书是一本优秀的模拟电子电路基础英语原版教材(第九版)的改编版，内容涉及半导体器件基础，二极管及其应用电路，晶体管和场效应管放大电路的基本原理及频率响应，功率放大电路，多级放大电路、差分放大电路、电流元等模拟集成电路的单元电路，反馈电路，模拟集成运算放大器，电压比较器和波形变换电路等。

本书是一本优秀的模拟电子电路基础英语原版教材(第九版)的改编版，内容包括半导体器件基础，二极管及其应用电路，晶体管和场效应管放大电路的基本原理及频率响应，功率放大电路，多级放大电路、差分放大电路、电流元等模拟集成电路的单元电路，反馈电路，模拟集成运算放大器，电压比较器和波形变换电路等。在原版内容的基础上，改编版结合国内高等教育中采用英语或双语教学的特点和实际情况，对部分内容进行了删减和补充，适合40到68学时的教学要求。

本书内容简明扼要、深入浅出且示例丰富，采用原版英语，语言生动流畅，可作为电子、通信、信息等领域相关课程的本科生英语、双语教学教材或教学参考书，也可供相关专业的工程技术人员学习和参考。

Chapter 1 Semiconductor Diodes

  1.1 Introduction

  1.2 Semiconductor Materials: Ge, Si, and GaAs

  1.3 Covalent Bonding and Intrinsic Materials

  1.4 Extrinsic Materials: n-Type andp-Type Materials

  1.5 Semiconductor Diode

  1.6 Ideal Versus Practical

  1.7 Resistance Levels

  1.8 Diode Equivalent Circuits

  1.9 Transition and Diffusion Capacitance

  1.10 Reverse Recovery Time

  1.11 Diode Specification Sheets

  1.12 Semiconductor Diode Notation

  1.13 Zener Diodes

  1.14 Summary

  1.15 Computer Analysis

  Problems

Chapter 2 Diode Aoolications

  2.1 Introduction

  2.2 Load-Line Analysis

  2.3 Equivalent Model Analysis

  2.4 AND/OR Gates

  2.5 Sinusoidal Inputs: Half-Wave Rectification

  2.6 Full-Wave Rectification

  2.7 Clippers

  2.8 Clampers

  2.9 Zener Diodes

  2.10 Summary

  Problems

Chapter 3 Bipolar Junction Transistors

  3.1 Introduction

  3.2 Transistor Construction

  3.3 Transistor Operation

  3.4 Common-Base Configuration

  3.5 Transistor Amplifying Action

  3.6 Common-Emitter Configuration

  3.7 Common-Collector Configuration

  3.8 Limits of Operation

  3.9 Transistor Specification Sheet

  3.10 Transistor Casing and Terminal Identification

  3.11 Summary

  Problems

Chapter 4 DC Biasing-BJTs

  4.1 Introduction

  4.2 Operating Point

  4.3 Fixed-Bias Circuit

  4.4 Emitter Bias

  4.5 Voltage-Divider Bias

  4.6 DC Bias with Voltage Feedback

  4.7 Miscellaneous Bias Configurations

  4.8 Transistor Switching Networks

  4.9 pnp Transistors

  4.10 Bias Stabilization

  4.11 Summary

  Problems

Chapter 5 BJT AC Analysis

  5.1 Introduction

  5.2 Amplification in the AC Domain

  5.3 BJT Transistor Modeling

  5.4 The r Transistor Model

  5.5 The Hybrid Equivalent Model

  5.6 Hybrid π Model

  5.7 Variations of Transistor Parameters

  5.8 Common-Emitter Fixed'Bias Configuration

  5.9 Voltage-Divider Bias

  5.10 CE Emitter-Bias Configuration

  5.11 Emitter-Follower Configuration

  5.12 Common-Base Configuration

  5.13 Collector Feedback Configuration

  5.14 Collector DC Feedback Configuration

  5.15 Determining the Current Gain

  5.16 Effect of R.and R

  5.17 Two-Port Systems Approach

  5.18 Summary Table

  5.19 Cascaded Systems

  5.20 Darlington Connection

  5.21 Feedback Pair

  5.22 Current Mirror Circuits

  5.23 Current Source Circuits

  5.24 Approximate Hybrid Equivalent Circuit

  5.25 Summary

  Problems

Chapter 6 Field-Effect Transistors

  6.1 Introduction

  6.2 Construction and Characteristics of JFETs

  6.3 Transfer Characteristics

  6.4 Specification Sheets (JFETs)

  6.5 Important Relationships

  6.6 Depletion-Type MOSFET

  6.7 Enhancement-Type MOSFET

  6.8 CMOS

  6.9 Summary Table

  6.10 Summary

  Problems

Chapter 7 FET Biasing

  7.1 Introduction

  7.2 Fixed-Bias Configuration

  7.3 Self-Bias Configuration

  7.4 Voltage-Divider Biasing

  7.5 Depletion-Type MOSFETs

  7.6 Enhancement-Type MOSFETs

  7.7 Summary Table

  7.8 Combination Networks

  7.9 p-Channel Fets

  7.10 Summary

  Problems

Chapter 8 FET Amplifiers

  8.1 Introduction

  8.2 FET Small-Signal Model

  8.3 JFET Fixed-Bias Configuration

  8.4 JFET Self-Bias Configuration

  8.5 JFET Voltage-Divider Configuration

  8.6 JFET Source-Follower(Common-Drain) Configuration

  8.7 JFET Common-Gate Configuration

  8.8 Depletion-Type MOSFETs

  8.9 Enhancement-Type MOSFETs

  8.10 E-MOSFET Drain-Feedback Configuration

  8.11 E-MOSFET Voltage-Divider Configuration

  8.12 Summary Table

  8.13 Effect of R. and Rig

  8.14 Cascade Configuration

  8.15 Summary

  Problems

Chapter 9 BJT and JFET Frequency Response

  9.1 Introduction

  9.2 General Frequency Considerations

  9.3 Low-Frequency Analysis—Bode Plot

  9.4 Low-Frequency Response—JT Amplifier

  9.5 Low-Frequency Response—FET Amplifier

  9.6 Miller Effect Capacitance

  9.7 High-Frequency Response-- BJT Amplifier

  9.8 High-Frequency Response-- FET Amplifier

  9.9 Multistage Frequency Effects

  9.10 Summary

  Problems

Chapter 10 Operational Amplifiers

  10.1 Introduction

  10.2 Differential Amplifier Circuit

  10.3 Differential and Common-Mode Operation

  10.4 BIFET, BIMOS, and CMOS Differential Amplifier Circuits

  10.5 Op-Amp Basics

  10.6 Op-Amp Specifications—DC Offset Parameters

  10.7 Op-Amp Specifications—Frequency Parameters

  10.8 Op-Amp Unit Specifications

  10.9 Summary

  Problems

Chapter 11 Op-Amp Applications

  11.1 Operation Circuits

  11.2 Active Filters

  11.3 Comparator Unit Operation

  11.4 Schmitt Trigger

  11.5 Summary

  Problems

Chapter 12 Power Amplifiers

  12.1 Introduction—Definitions and Amplifier Types

  12.2 Series-Fed Class AAmplifier

  12.3 Transformer-Coupled Class AAmplifier

  12.4 Class B Amplifier Operation

  12.5 Class B Amplifier Circuits

  12.6 Class C and Class D Amplifiers

  12.7 Summary

  Problems

Chapter 13 Feedback Circuits

  13.1 Feedback Concepts

  13.2 Feedback Connection Types

  13.3 Practical Feedback Circuits

  13.4 Feedback Amplifier—Phase and Frequency Considerations

  13.5 Summary

  Problems