书籍详情
模拟电子技术基础(英文版)
作者:刘广孚
出版社:石油大学出版社
出版时间:2020-09-01
ISBN:9787563668441
定价:¥25.00
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内容简介
本书主要内容包括:半导体基础知识、半导体二极管及其应用电路、放大器基础知识、集成运算放大器及其应用电路(包括线性应用和非线性应用)、双极型晶体管和场效应管的基础知识、仿真软件使用方法及应用电路分析举例。为了便于教学,书中介绍了很多实用的例题,同时在例题介绍中每一步骤都强调了所涉及到的理论依据。另外,为了简化计算过程,本书对所有器件的模型都进行了简化,并且只进行近似计算。
作者简介
暂缺《模拟电子技术基础(英文版)》作者简介
目录
Chapter 1 Semiconductor Diode
1.1 Basic knowledge of semiconductor
1.1.1 Intrinsic semiconductor
1.1.2 Extrinsic semiconductor
1.2 Formation and characteristics of P-N junction
1.2.1 Formation of P-N junction
1.2.2 Forward-bias condition of P-N junction
1.2.3 Reverse-bias condition of P-N junction
1.3 Diode and characteristics
1.3.1 Diode
1.3.2 Characteristics of diodes
1.3.3 Diode models
1.3.4 Main parameters of diode
1.4 Analysis methods for diode circuit
1.4.1 Simple circuits with one diode
1.4.2 Complicated circuits with one diode
1.4.3 Circuits with diodes
1.5 Zener diode
1.5.1 Characteristics of Zener diode
1.5.2 Main parameters of Zener diode
1.6 Other diodes
1.6.1 Light emitting diode
1.6.2 Photodiode
1.7 Diode application circuits
1.7.1 Half-wave rectification
1.7.2 Full-wave rectification
1.7.3 Voltage stabilizing circuit
Problems
Chapter 2 Amplifier Concepts and Characteristics
2.1 Basic amplifier concepts
2.1.1 Voltage amplifier model
2.1.2 Current amplifier model
2.1.3 Transresistance amplifier model
2.1.4 Transconductance amplifier model
2.2 Parameters of amplifiers
2.2.1 Gain
2.2.2 Input resistance
2.2.3 Output resistance
2.3 Amplifier cascades
2.4 Differential amplifier circuits
2.4.1 The input modes of the signal
2.4.2 Voltage gain
2.4.3 Common mode rejection ratio
2.5 Operational amplifier
2.5.1 Characteristics of operational amplifier
2.5.2 Ideal model of operational amplifier
2.6 Negative feedback amplifier
2.6.1 Concept of feedback
2.6.2 Gain with feedback
2.6.3 Judgement of positive or negative feedback
2.6.4 Analysis method for negative amplifier
Problems
Chapter 3 Operational Amplifier Applications
3.1 Operation circuits
3.1.1 Proportion operation circuits
3.1.2 Voltage summing circuit
3.1.3 Voltage subtractor circuit
3.1.4 Design operation circuits
3.1.5 Integrator circuit
3.1.6 Differentiator circuit
3.2 Signal conversion circuits
3.2.1 V/I converter
3.2.2 I/V converter
3.3 Voltage comparator
3.3.1 Single threshold comparator
3.3.2 Schmitt trigger
3.3.3 Window comparator circuits
Problems
Chapter 4 BJT and FET
4.1 Bipolar junction transistor
4.1.1 Basic structure of BJT
4.1.2 Working principle of BJT
4.1.3 BJT characteristic curve
4.1.4 Main parameters of BJT
4.2 Field effect transistor
4.2.1 Basic structure and working principle
4.2.2 Characteristic curve
4.2.3 Precautions for using FET
Problems
Chapter 5 Simulations
5.1 Working interface of multisim
5.1.1 Component operation
5.1.2 Analyzing components
5.2 Multisim analysis example
5.2.1 Simulation of diode circuits
5.2.2 Simulation of the op-amp circuits
5.2.3 Simulation of DC regulated power supply circuits
REFERENCE
1.1 Basic knowledge of semiconductor
1.1.1 Intrinsic semiconductor
1.1.2 Extrinsic semiconductor
1.2 Formation and characteristics of P-N junction
1.2.1 Formation of P-N junction
1.2.2 Forward-bias condition of P-N junction
1.2.3 Reverse-bias condition of P-N junction
1.3 Diode and characteristics
1.3.1 Diode
1.3.2 Characteristics of diodes
1.3.3 Diode models
1.3.4 Main parameters of diode
1.4 Analysis methods for diode circuit
1.4.1 Simple circuits with one diode
1.4.2 Complicated circuits with one diode
1.4.3 Circuits with diodes
1.5 Zener diode
1.5.1 Characteristics of Zener diode
1.5.2 Main parameters of Zener diode
1.6 Other diodes
1.6.1 Light emitting diode
1.6.2 Photodiode
1.7 Diode application circuits
1.7.1 Half-wave rectification
1.7.2 Full-wave rectification
1.7.3 Voltage stabilizing circuit
Problems
Chapter 2 Amplifier Concepts and Characteristics
2.1 Basic amplifier concepts
2.1.1 Voltage amplifier model
2.1.2 Current amplifier model
2.1.3 Transresistance amplifier model
2.1.4 Transconductance amplifier model
2.2 Parameters of amplifiers
2.2.1 Gain
2.2.2 Input resistance
2.2.3 Output resistance
2.3 Amplifier cascades
2.4 Differential amplifier circuits
2.4.1 The input modes of the signal
2.4.2 Voltage gain
2.4.3 Common mode rejection ratio
2.5 Operational amplifier
2.5.1 Characteristics of operational amplifier
2.5.2 Ideal model of operational amplifier
2.6 Negative feedback amplifier
2.6.1 Concept of feedback
2.6.2 Gain with feedback
2.6.3 Judgement of positive or negative feedback
2.6.4 Analysis method for negative amplifier
Problems
Chapter 3 Operational Amplifier Applications
3.1 Operation circuits
3.1.1 Proportion operation circuits
3.1.2 Voltage summing circuit
3.1.3 Voltage subtractor circuit
3.1.4 Design operation circuits
3.1.5 Integrator circuit
3.1.6 Differentiator circuit
3.2 Signal conversion circuits
3.2.1 V/I converter
3.2.2 I/V converter
3.3 Voltage comparator
3.3.1 Single threshold comparator
3.3.2 Schmitt trigger
3.3.3 Window comparator circuits
Problems
Chapter 4 BJT and FET
4.1 Bipolar junction transistor
4.1.1 Basic structure of BJT
4.1.2 Working principle of BJT
4.1.3 BJT characteristic curve
4.1.4 Main parameters of BJT
4.2 Field effect transistor
4.2.1 Basic structure and working principle
4.2.2 Characteristic curve
4.2.3 Precautions for using FET
Problems
Chapter 5 Simulations
5.1 Working interface of multisim
5.1.1 Component operation
5.1.2 Analyzing components
5.2 Multisim analysis example
5.2.1 Simulation of diode circuits
5.2.2 Simulation of the op-amp circuits
5.2.3 Simulation of DC regulated power supply circuits
REFERENCE
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