课程门户-章节详情

Analog Electronics-20211211

奚彩萍

1 题目讲解
- 1.1 1-2半导体基础，二极管
- 1.2 3基本放大电路
- 1.3 4-6多级放大电路，集成运放的线性应用，差动放大电路
- 1.4 7-10集成运放电压比较器，频率响应，有源滤波电路，负反馈，功率放大
- 1.5 11-12直流稳压电路，串联型稳压，集成稳压，信号产生电路
- 1.6 期中测试训练题
- 1.7 期末考试训练题
- 1.8 所有作业测试题详细答案
- 1.9 二极管作业测试
- 1.10 直流稳压电源作业测试
- 1.11 三极管作业测试
- 1.12 MOSFET作业测试
- 1.13 Bode plot
- 1.14 差分放大测试
- 1.15 集成运放测试
- 1.16 负反馈测试
- 1.17 功率放大电路测试
- 1.18 RC正弦波振荡电路作业测试
- 1.19 积分例题
- 1.20 MOSFET+BJT
- 1.21 icircuit APP 仿真实验1
- 1.22 icircuit APP 仿真实验2
- 1.23 icircuit APP 仿真实验3
- 1.24 icircuit APP 仿真实验4
- 1.25 video,young
2 Features of the course
- 2.1 Features of the course
- 2.2 LESSON1
- 2.3 LESSON2
- 2.4 LESSON3
- 2.5 LESSON4
- 2.6 LESSON5
- 2.7 LESSON6--PSPICE
- 2.8 20220902,how to download and use multisim
- 2.9 20220221第一周，周一下午78节，PN结，二极管仿真
- 2.10 20220221第一周，周一下午78节，4个集成运放的电路仿真
- 2.11 20220223第一周，周三下午56节，同相比例放大电路仿真
- 2.12 20220223第一周，周三下午56节，二极管仿真，分析方法
- 2.13 20220228第二周，周一下午78节，二极管，稳压二极管
- 2.14 20220302第二周，周三下午56节，稳压二极管，直流稳压电源
- 2.15 20220314第四周，周一下午78节，二极管，集成运放，BJT初步
- 2.16 20220316第四周，周三下午56节二极管、稳压二极管的仿真，三极管题型
- 2.17 20220321第五周，周一下午78节，BJT，AC分析
- 2.18 20220323第五周，周三下午56节，BJT分压式射极偏置
- 2.19 20220328第六周，周一下午78节，CC,CE,CB，MOSFET概念
- 2.20 20220330第六周，周三下午56节，MOSFET
- 2.21 20220402第六周周六，MOSFET，CS,CG,CD
- 2.22 20220406第七周，周三下午56节，CG举例，复合管，级联举例
- 2.23 20220411第八周，周一下午78节，频率响应基础
- 2.24 20220413第八周，周三下午56节，频率响应2
- 2.25 20220418第九周，周一下午78节，全频率公式，失真BJT，电流源BJT
- 2.26 20220420第九周，周三下午56节，电流源，差分放大电路
- 2.27 20220425第十周，周一下午78节，差分放大电路公式，例题
- 2.28 20220427第十周，周三下午56，模拟乘法器，负反馈初步
- 2.29 20220502第十一周，周一下午78，负反馈类型判断和公式
- 2.30 20220504第十一周，周三下午56，负反馈对电路的影响，串联电压负反馈举例
- 2.31 共发射极放大电路的仿真3个视频
- 2.32 模电1，2，只讲做题
- 2.33 模电3
- 2.34 模电4-6
- 2.35 模电7-10
- 2.36 模电11-12
- 2.37 BJT，特性曲线，击穿区特性
- 2.38 MOSFET特性曲线，击穿区
3 Semiconductor Diode
- 3.1 Semiconductor Diode
- 3.2 Diode Equivalent Circuits
- 3.3 Diode applications
- 3.4 Zener Diodes
- 3.5 PN junction, basic concept,video
- 3.6 PN junction,in class,video
- 3.7 Forward bias,reverse bias, video
- 3.8 Four kinds of models of diode,video
- 3.9 RD,rd,video
- 3.10 Two models with 0 internal resistance,video
- 3.11 Basic analysis of diode circuit,video
- 3.12 Simulations by icircuit app,video
- 3.13 Pspice and capture beginner,video
- 3.14 Priority method for 4 diodes,video
- 3.15 Clamping function of the diode,video
- 3.16 half-wave rectifier, video
- 3.17 full-wave rectifier,video
- 3.18 Zener diode, video
- 3.19 Homework2 solutions video
- 3.20 2 exercises for diode,videos
4 Field-Effect Transistors
- 4.1 Construction and characteristics of MOSFET and JFET
- 4.2 Depletion-type MOSFET
- 4.3 Enhancement-type MOSFET
- 4.4 FET Biasing
- 4.5 FET small-signal model
- 4.6 Common-source amplifier
- 4.7 Common-gate amplifier
- 4.8 Common-drain amplifier
- 4.9 Enhanced N-channel MOSFET,video
- 4.10 3 working conditions of E-NMOSFET,video
- 4.11 AC analysis of E-NMOSFET,summary,Kn,video
- 4.12 Depletion NMOS detailed analysis video
- 4.13 E-NMOS detailed analysis video
- 4.14 JFET detailed analysis video
- 4.15 Common-gate configuration,video
- 4.16 Common-drain configuration,video
- 4.17 Cascade connection circuit,CS+CD,video
5 Bipolar Junction Transistors
- 5.1 Construction and characteristics of BJT
- 5.2 DC Biasing–BJTs
- 5.3 BJT small-signal model
- 5.4 Common-emitter amplifier
- 5.5 Common-base amplifier
- 5.6 Common-collector amplifier
- 5.7 BJT structure, currents,video
- 5.8 BJT,currents relationship,video
- 5.9 BJT,input characteristics,video
- 5.10 BJT,output characteristics,video
- 5.11 BJT basic circuit analysis,video
- 5.12 BJT,β,α,video
- 5.13 BJT,DC,working condition,video
- 5.14 BJT,3 models of working conditions,video
- 5.15 BJT,re,CE, slight variation equivalent circuit,video
- 5.16 BJT,CE,working principle,video
- 5.17 DC,AC,analysis methods,video
- 5.18 Au,ri,analysis,video
- 5.19 ro,analysis,video
- 5.20 Voltage divider biasing circuit,video
- 5.21 Basic analysis of CE,CC,CB,video
- 5.22 Common-collector configuration,video
- 5.23 Common-base configuration,video
- 5.24 Cascade connection circuit,CE+CS,video
6 Multistage Amplifier
- 6.1 Cascade Connection
- 6.2 Cascode Connection
- 6.3 Darlington Connection
- 6.4 Feedback Pair
- 6.5 CMOS Circuit
- 6.6 Current Source Circuits
- 6.7 Current Mirror Circuits
- 6.8 Differential Amplifier Circuit
- 6.9 Darlington connection , video
- 6.10 Mirror current source,video
- 6.11 Micro-current source,video
- 6.12 Current source with high output resistance,video
- 6.13 Multiple current sources,video
- 6.14 Proportional current source,video
- 6.15 Application of current source,video
- 6.16 MOSFET mirror current source,video
- 6.17 MOSFET Cascode mirror current source,video
- 6.18 MOSFET combined current source,video
- 6.19 JFET current source,video
- 6.20 Function of differential amplifier circuit,video
- 6.21 Parameters of differential amplifier circuit,video
- 6.22 Bode plot,frequency response,video
- 6.23 Bode plot,examples,video
7 Operational Amplifiers
- 7.1 Differential and common-mode operation
- 7.2 Op-Amp basics
- 7.3 Practical Op-Amp circuits
- 7.4 Constant-gain multiplier
- 7.5 Voltage summing
- 7.6 Voltage buffer
- 7.7 Controller sources
- 7.8 Instrumentation circuits
- 7.9 Active filters
- 7.10 OPAM,virtual short,virtual open，video
- 7.11 inverting amplifier circuit,video
- 7.12 non-inverting amplifier circuit,video
- 7.13 2 exercises of non-inverting amplifier,video
- 7.14 adder,video
- 7.15 subtracter,video
- 7.16 3 exercises,3 H.M. exercises of OPAM,video
- 7.17 integral and differential operational circuits,video
- 7.18 an example of multisim simultiaon
- 7.19 Voltage comparator
8 Power Amplifiers
- 8.1 Introduction—Definitions and Amplifier Types
- 8.2 Series-Fed Class A Amplifier
- 8.3 Transformer-Coupled Class A Amplifier
- 8.4 Class B Amplifier Operation
- 8.5 Class AB Amplifier Circuits
- 8.6 Class B amplifier circuit,video
- 8.7 OTL,video
- 8.8 OCL,video
- 8.9 Application circuit and parameters choice of OCL,video
9 Feedback Amplifiers
- 9.1 Feedback concepts
- 9.2 Feedback connection types
- 9.3 Practical feedback circuits
- 9.4 Feedback amplifier design
- 9.5 Feedback concepts,video
- 9.6 Example,dAf,dA,stability,video
- 9.7 Function of feedback,ri,ro,video
- 9.8 Four kinds of negative feedback types,video
- 9.9 RC sinusoidal oscillation circuit
10 DC Power Supplies
- 10.1 Building blocks
- 10.2 General filter considerations
- 10.3 Capacitor or inductor filter
- 10.4 Transistor voltage regulation
- 10.5 IC voltage regulators
- 10.6 DC voltage stablizing filter circuit,video
11 UNSW,Sydney
- 11.1 P1 OP-AMP introduction
- 11.2 P2 OP-AMP configurations
- 11.3 P3 OP-AMP DC-imperfections
- 11.4 P4 OP-AMP frequency-response
- 11.5 P5 OP-AMP large signal
- 11.6 P6 Bode plot amplitude
- 11.7 P7 Bode plot amplitude example
- 11.8 P8 Bode plot phase
- 11.9 P9 Bode plot phase example
- 11.10 P10 BJT-PART1
- 11.11 P11 BJT PART 2
- 11.12 P12 BJT small signal configurations
- 11.13 P13 BJT CC
- 11.14 P14 BJT CE
- 11.15 P15 BJT CB,cascode connection
- 11.16 P16 BJT high frequency a
- 11.17 P17 BJT high frequency b
- 11.18 P18 BJT low frequency
- 11.19 P19 MOSFET part 1
- 11.20 P20 MOSFET part 2
- 11.21 P21 MOSFET configurations
- 11.22 P22 MOSFET example1
- 11.23 P23 MOSFET example2
- 11.24 P24 MOSFET example3
- 11.25 P25 Feedback intro
- 11.26 P26 Feedback analysis steps
- 11.27 Capicator exercise
12 Digital Integrated Circuit Analysis and Design
- 12.1 Introduction and Implementation Strategies for Digital IC
- 12.2 Devices
- 12.3 Converters1
- 12.4 Converters2
- 12.5 Combinational logic circuits
- 12.6 Sequential logic circuits1
- 12.7 Sequential logic circuits2
- 12.8 Designing Arithmetic Building Blocks
- 12.9 Wires
- 12.10 Coping with Interconnect
- 12.11 Assignment solving
- 12.12 7 Exercises FOR CH.1,3,5,6
- 12.13 7 Exercises FOR CH.7,8,9,11
13 Introduction and Implementation Strategies for Digital IC
- 13.1 Introduction to Digital IC,video
- 13.2 Architecture of Digital Processor,video
- 13.3 Full Custom Design Methodology,video
- 13.4 Semicustom Design Methodology.video
- 13.5 Quality Metric of Digital IC,video
- 13.6 Summary and Textbook .video
- 13.7 homework1
14 The Devices
- 14.1 Key Points Review of Last Lecture,video
- 14.2 Introduction,video
- 14.3 The Diode,video
- 14.4 The MOSFET Transistor,video
- 14.5 Secondary Effects,video
- 14.6 Summary and Textbook Reference,video
- 14.7 homework2
15 The CMOS Inverter I,II
- 15.1 Key Points Review of Last Lecture,video
- 15.2 Introduction,video
- 15.3 Static Behavior,video
- 15.4 homework3
- 15.5 Key Points Review of Last Lecture,video
- 15.6 Dynamic Behavior I,video
- 15.7 Dynamic Behavior II,video
- 15.8 Power Dissipation,video
- 15.9 Summary and Textbook Reference,video
- 15.10 homework4
16 Combinational Logic Circuits I,II
- 16.1 Introduction,video
- 16.2 Static CMOS Design I,video
- 16.3 Static CMOS Design II,video
- 16.4 homework5
- 16.5 Key Points Review of Last Lecture,video
- 16.6 Static CMOS Design III,video
- 16.7 Static CMOS Design IV,video
- 16.8 Dynamic CMOS Design,video
- 16.9 Summary,video
- 16.10 homework6
17 Sequential Logic Circuits I
- 17.1 Introduction I,video
- 17.2 Introduction II,video
- 17.3 Static Latches and Registers I,video
- 17.4 Static Latches and Registers II,video
- 17.5 Static Latches and Registers III,video
- 17.6 homework7
18 Sequential Logic Circuits II
- 18.1 Key Points Review,video
- 18.2 Dynamic Latches and Registers I,video
- 18.3 Dynamic Latches and Registers II,video
- 18.4 Dynamic Latches and Registers III,video
- 18.5 Pulse Register,video
- 18.6 Pipelining,video
- 18.7 Schmitt Trigger,video
- 18.8 Summary and Textbook Reference,video
- 18.9 homework8
19 Designing Arithmetic Building Blocks I
- 19.1 Introduction,video
- 19.2 Adder: Full Adder (Definition),video
- 19.3 Adder: Circuit Design,video
- 19.4 Adder: Logic Design I,video
- 19.5 Adder: Logic Design II,video
- 19.6 Adder: Summary,video
- 19.7 homework9
20 Designing Arithmetic Building Blocks II
- 20.1 Key Points Review,video
- 20.2 Multiplier,video
- 20.3 Shifter,video
- 20.4 Summary and Textbook Reference,video
- 20.5 homework10
21 The Wire
- 21.1 Introduction,video
- 21.2 Capacitance,video
- 21.3 Resistance,video
- 21.4 Electrical Wire Models,video
- 21.5 Summary and Textbook Reference,video
- 21.6 homework11
22 Coping with Interconnect
- 22.1 Introduction,video
- 22.2 Capacitive Parasitics,video
- 22.3 Capacitive Parasitics II,video
- 22.4 Resistive Parasitics,video
- 22.5 Summary and Textbook Reference,video
- 22.6 homework12
23 Assignment Solving
- 23.1 Assignment Solving,video
- 23.2 The teaching assistants want to say
24 Exercise I
- 24.1 Problem 1
- 24.2 Problem 2
- 24.3 Problem 3
- 24.4 Problem 4
- 24.5 Problem 5
- 24.6 Problem 6
- 24.7 Problem 7
25 Exercise II
- 25.1 Problem 8
- 25.2 Problem 9
- 25.3 Problem 10
- 25.4 Problem 11
- 25.5 Problem 12
- 25.6 Problem 13
- 25.7 Problem 14
26 绪论
- 26.1 模电引言XCP
27 集成运算放大电路
- 27.1 本章学习目标和学习任务
- 27.2 集成运算放大器
- 27.3 集成运算放大器的应用
- 27.4 比例和加减运算
- 27.5 积分和微分运算
- 27.6 运算放大器在信号运算方面的课后作业题
- 27.7 集成运放的multisim仿真
- 27.8 集成运放习题
28 二极管及其基本电路
- 28.1 本章学习目标和学习任务
- 28.2 半导体基础知识、PN结及其单向导电性
- 28.3 二极管、稳压二极管
- 28.4 半导体器件例题讲解
- 28.5 模电里的数学模型
- 28.6 集成运放、二极管、稳压管的例题和仿真视频
- 28.7 二极管整流电路举例
- 28.8 priority method,video
- 28.9 clamping fuction,video
- 28.10 half-wave,full-wave rectifiers,video
29 双极结型三极管(BJT)及其放大电路
- 29.1 本章学习目标和学习任务
- 29.2 双极型晶体管
- 29.3 共发射极基本放大电路的组成、直流和交流分析
- 29.4 静态工作点的稳定
- 29.5 射极输出器
- 29.6 TTL门电路
- 29.7 本章必须了解的内容
- 29.8 三极管的典型例题讲解
- 29.9 三极管基础知识介绍
- 29.10 二极管复习、三极管基本放大电路分析的方法DC,AC
- 29.11 分压式偏置放大电路例题
- 29.12 共发射极基本放大电路例题
- 29.13 共集电极基本放大电路例题
- 29.14 共基极基本放大电路例题
- 29.15 共发射极共基极级联电路例题
- 29.16 2个BJT级联的例题
- 29.17 1个BJT，一个N沟道耗尽型MOSFET,级联例题
- 29.18 N沟道耗尽型MOSFET共基极BJT级联例题
- 29.19 饱和失真，截止失真，NPN,PNP举例
30 场效应三极管及其放大电路
- 30.1 场效晶体管及其放大电路
- 30.2 CMOS门电路
- 30.3 N沟道结型场效应管
- 30.4 MOSFET数学公式分析及耗尽型例题
- 30.5 N沟道3种管子数学公式，分压式共源极电路例题
- 30.6 N沟道增强型，分压式偏置共源极放大电路例题
- 30.7 N沟道增强型，共漏极放大电路例题
- 30.8 N沟道增强型，共栅极放大电路例题
- 30.9 2个N沟道增强型管子级联例题
- 30.10 MOSFET概念等讲解（朱琎）
31 频率响应
- 31.1 频率响应的基本概念及分析方法
- 31.2 BJT的频率特性参数
- 31.3 共发射极放大电路的高频响应
- 31.4 共集电极和共基极放大电路的高频响应
- 31.5 低频高频分析中的数学公式概念
- 31.6 BJT的高频特性，gmVbe
- 31.7 多级放大电路的频率响应
- 31.8 频率响应基本概念和作业题2个
- 31.9 共发射极放大电路频率响应分析例题
- 31.10 Bode plot,examples
- 31.11 频率响应的例题3个
32 模拟集成电路，差分放大电路
- 32.1 电流源概述
- 32.2 application of current source,video,可以拖动
- 32.3 BJT镜像电流源
- 32.4 BJT微电流源
- 32.5 BJT高输出电阻电流源
- 32.6 BJT精密电流源，微电流源，比例电流源
- 32.7 FET镜像电流源
- 32.8 FET常用镜像电流源
- 32.9 FET串级镜像电流源
- 32.10 FET多路电流源
- 32.11 JFET电流源
- 32.12 差分放大电路
- 32.13 典型差分式放大电路分析
- 32.14 双端输入基本例题
- 32.15 差分总结
- 32.16 差分放大典型例题
- 32.17 差分放大课后作业3题
- 32.18 变跨导模拟乘法器
- 32.19 模拟乘法器应用例题
- 32.20 集成运算放大器内部结构例题
- 32.21 中国矿大，差分放大电路，仿真视频
33 反馈放大电路
- 33.1 反馈的基本概念
- 33.2 反馈类型的判断
- 33.3 负反馈对放大电路的影响
- 33.4 负反馈类型判断要点复习
- 33.5 串联电压负反馈的例题
- 33.6 作业题视频
- 33.7 20200420周一，负反馈基本概念视频
- 33.8 20200426周日，负反馈综合分析
- 33.9 Feedback concepts,video
- 33.10 Example,dAf,dA,stability,video
- 33.11 Function of feedback,ri,ro,video
- 33.12 Four kinds of negative feedback types,video
34 功率放大电路
- 34.1 功率放大电路概述
- 34.2 乙类功率放大电路
- 34.3 甲乙类功率放大电路
- 34.4 功率器件
- 34.5 互补对称功率放大电路
- 34.6 甲类功率放大电路公式XCP
- 34.7 乙类互补对称功率放大电路公式
- 34.8 乙类作业2个
- 34.9 消除交越失真乙类作业2个
- 34.10 2个比较难的带前置放大级的功率放大例题
- 34.11 1个有点难度的综合例题视频和互补对称概念
- 34.12 20200426周日，功率放大电路的概念
- 34.13 20200427周一，甲乙类电路概念和例题讲解
- 34.14 20200426，27，29二极管、三极管、场效应管概念梳理1
- 34.15 20220416乙类互补对称功率放大电路概念
35 信号处理与信号产生电路
- 35.1 运算放大器在信号处理与信号产生方面的应用
- 35.2 振荡电路中的正反馈
- 35.3 正弦波振荡电路
- 35.4 电压比较器（单门限，双门限）
- 35.5 波形产生电路
- 35.6 信号产生电路的复习和仿真介绍
36 直流稳压电源
- 36.1 单相半波整流电路
- 36.2 单相桥式整流电路
- 36.3 滤波电路me
- 36.4 直流稳压电源me
- 36.5 串联型稳压电路me
- 36.6 集成稳压电源me
- 36.7 半波，全波，单相桥式整流电路，电容滤波电路，集成稳压电源
- 36.8 直流稳压电源复习和仿真介绍
- 36.9 直流稳压电源仿真，icircuit app,multisim
37 复习
- 37.1 复习方法介绍，可拖动
- 37.2 2-3，6-11复习举例
- 37.3 4,5,6章复习
- 37.4 7-11章复习
38 WM课堂直播
- 38.1 第一讲，绪论
- 38.2 第二讲，OPAM
- 38.3 第三讲，PN结，同相、反相比例应用
- 38.4 第四讲，二极管，稳压二极管
- 38.5 第六讲，DC,AC通路分析，图解法
- 38.6 第七讲,CE,静态工作点稳定，微变等效分析
- 38.7 第八讲,CE,CB
- 38.8 第九讲，MOSFET场效应管
- 38.9 第十讲，共栅极，多级放大电路
- 38.10 第十一讲，多级放大电路的分析典型例题
- 38.11 第十二讲，电流源，镜像，微变，多路电流源
- 38.12 第十四讲，差分放大电路理论推导
- 38.13 第十五讲，差分放大电路演变过程
- 38.14 第十七讲，反馈的概念，反馈类型的判断
- 38.15 第十八讲，负反馈对电路的影响，计算
- 38.16 第十九讲，负反馈，电压串联负反馈例子
- 38.17 第二十讲，负反馈例题，功率放大电路
- 38.18 第二十一讲乙类互补对称功率放大电路，甲乙类
- 38.19 第二十二讲，正弦波振荡电路的振荡条件
- 38.20 第二十三讲，矩形波发生器，二极管，集成运放，三极管例题

所有作业测试题详细答案

β是三极管的放大倍数，跟IB没关系，Ic才跟β有关系.

CE,一个作业题,选C，有录的视频

29.12，第29章，第12个视频

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