hi,小慕
课程

中国大学MOOC,为你提供一流的大学教育

hi,小mooc
Analog Electronics Technique
第11次开课
开课时间: 2025年02月17日 ~ 2025年06月29日
学时安排: 4-5 hours/week
进行至第8周,共19周 已有 27 人参加
立即参加
课程详情
课程评价(97)
spContent=Analog electronics technology is a technology for processing continuous signals in the field of electricity. The core is signal amplification. So how to form an amplifier circuit and a processing circuit? Through the study of this course, you will find the answers.Join us now!
Analog electronics technology is a technology for processing continuous signals in the field of electricity. The core is signal amplification. So how to form an amplifier circuit and a processing circuit? Through the study of this course, you will find the answers.Join us now!
—— 课程团队
课程概述

   The analog electronic technology is a basic course for undergraduates majoring in electrical, and electronic information majors, which has strong practicality and engineering characteristics.

   Through the study of the electronic devices, basic circuits and the system analysis and design, this course enables learners to acquire basic knowledge, basic theory and basic skills in electronic technology, laying a solid foundation for in-depth study and practical application of electronic technology.

     In this course, you will learn about single-transistor amplifier circuits, power amplifiers, op-amp circuits, and current source used for active biasing or active loads. also the differential amplifier that eliminates noise and interference, and a feedback amplifier circuit that implements closed-loop automatic control.

   This course features virtually all of its course materials online, including lecture notes, online video and the exercise, and there are a lot of Multisim simulations to help you understand the analog circuits.

授课目标

   Understand the analysis techniques,such as decompose a signal to DC and AC components, for DC components, know hwo to do DC analysis, and for AC components, know how to do AC analysis.

   Can analysis the single transistor amplifiers, power amplifiers, op-amp circuits,differential amplifiers, and multistage amlifiers.Understand the feedback principles, and know how to design an closed-loop controlled circuits.

课程大纲

Introduction

Lecture 0 Introduction of Analog Electronics Technique

Lecture 1 The Ideal Operational Amplifier

1.0 Preview of the Operational Amplifier

1.1 The Operational Amplifier

1.2 Inverting Amplifier

1.3 Summing Amplifier

1.4 Noninverting Amplifier

1.5 Op-Amp Applications

1.6 Detailed Explanation of Exercises for Op-amp

Test questions for The Ideal Operational Amplifier

Lecture 2 Semiconductor Materials and Diodes Circuits

2.1 Semiconductor Materials and Properties

2.2 The pn Junction

2.3 Diode Circuits: DC Analysis and Models

2.4 Diode Circuits: AC Equivalent Circuit

2.5 Other Diode Types

2.6 Rectifier Circuits

2.7 Clipper and Clamper Circuits

2.8 Multiple-Diode Circuits

2.9 Detailed Explanation of Exercises for Diode Circuits

2.10 Excellent experimental report

Test questions for Semiconductor Materials and Diodes Circuits

Lecture 3 The Field-Effect Transistor

3.1.1 N-channel Enhancement-Mode MOSFET

3.1.2 Ideal MOSFET Current-Voltage Characteristics

3.1.3 Circuit Symbols and Conventions

3.2 MOSFET DC Circuit Analysis

3.3 Detailed Explanation of Exercises for the FET

Test questions for The Field-Effect Transistor

Lecture 4 Basic FET Amplifiers

4.1 The MOSFET Amplifier

4.2 Basic Transistor Amplifier Configurations

4.3 The Common-Source Amplifier

4.4 The Common-Drain Amplifier

4.5 The Common-Gate Configuration

4.6 The Three Basic Amplifier Configurations: Summary and Comparison

4.7 Multistage Amplifiers

4.8 An Example for CS amplifier

4.9 Detailed Explanation of Exercises for Basic FET Amplifiers

Test questions for Basic FET Amplifiers

Lecture 5 The Bipolar Junction Transistor

5.1 Basic Bipolar Junction Transistor

5.2 DC Analysis of Transistor Circuits

5.3 Basic Transistor Applications

5.4 Bipolar Transistor Biasing

5.5 Detailed Explanation of Exercises for BJT

Test questions for The Bipolar Junction Transistor

Lecture 6 Basic BJT Amplifiers

6.1 Analog Signals and Linear Amplifiers

6.2 The Bipolar Linear Amplifier

6.3 Basic Transistor Amplifier Configurations

6.4 Common-Emitter Amplifiers

6.5 Common-Collector Amplifier

6.6 Common-Base Amplifier

6.7 The Three Basic Amplifiers: Summary and Comparison

6.8 Multistage Amplifiers

6.9 Design Application:Audio Amplifier

6.10 Detailed Explanation of Exercises for BJT Amplifiers

6.11 Excellent experimental report

Test questions for Basic BJT Amplifiers

Lecture 7 Frequency Response

7.1 Amplifier Frequency Response

7.2 System Transfer Functions

7.3 Frequency Response: Transistor Amplifiers with Circuit Capacitors

7.4 Frequency Response: Bipolar Transistor

Test questions for Frequency Response

Lecture 8 Output Stages and Power Amplifiers

8.1 Power Amplifiers

8.2 Power Transistors

8.3 Classes of Amplifiers

8.4 Class-AB Push-Pull Complementary Output Stages

8.5 Summary of the Power Amplifiers

8.6 Detailed Explanation of Exercises for Power Amplifiers

Test questions for Output Stages and Power Amplifiers

Lecture 9 Integrated Circuit Biasing and Active Loads

9.1 Bipolar Transistor Current Sources

9.2 FET Current Sources

9.3 Circuits with Active Loads

9.4 Exercises for Current Source

Test questions for Integrated Circuit Biasing and Active Loads

Lecture 10 Differential and Multistage Amplifiers

10.0 Preview

10.1 The Differential Amplifier

10.2 Basic BJT Differential Pair

10.3 Basic FET Differential Pair

10.4 Differential Amplifier with Active Load

Test questions for Differential and Multistage Amplifiers

Lecture 11 Feedback and Stability

11.1 Introduction to Feedback

11.2 Basic Feedback Concepts

11.3 Ideal Feedback Topologies

11.4 voltage (Series-Shunt) Amplifiers

11.5 Current (Shunt-Series) Amplifiers

11.6 Transconductance(Sereis-Series) Amplifiers

11.7 Transresistance (Shunt-Shunt) Amplifiers

11.8 Loop Gain

11.9 Stability of the Feedback Circuit

11.10 Detailed Explanation of Exercises for Feedback

Test questions for Feedback and Stability

Lecture 12 Applications and Design of Integrated Circuits

12.1 Active Filters

12.2 Oscillators

12.3 Schmitt Trigger Circuits

12.4 Nonsinusoidal Oscillators

12.5 Voltage Regulators

Test questions for Applications and Design of Integrated Circuits

展开全部
预备知识

The basic concepts and analysis methods, such as:

1) Definition of ideal voltage source and current sources;

2) Independent and depedent sources;

3)Ohm's Law,KCL,KVL;

4)Nodal analysis and mesh analysis;

5)Thevenin and Norton theorems;

6)Concept of impedance;

7) Basic semiconductor physics;

8)Operation priciples, terminal I-V equations and circuit model of diode and MOSFET;

参考资料

1) Donald A. Neamen. Microelectronics circuit Analysis and Design 4th ed. McGraw-Hill,2018,9

2)Ulrich Tietze,Christoph Schenk,Electronic Circuits: Handbook for Design and Application,Springer-VerlagBerlin, Heidelberg,2007;

3) 康华光主编,电子技术基础,模拟部分(第六版),北京:高等教育出版社,2013;

4) 华中科技大学《模拟电子技术基础》MOOC课程

  (网址:https://www.icourse163.org/course/hust-481015

5)康华光、张林主编,电子技术基础,模拟部分(第七版),北京:高等教育出版社,2021;

Huazhong University of Science and Technology
5 位授课老师
Tianping Deng

Tianping Deng

professor

张林

张林

教授

刘建

刘建

讲师

推荐课程

模拟电子技术基础

邓天平

3512人参加

Principle of Microcomputer

Donghong ZUO

142人参加

模电不挂科-5小时学完模拟电子技术/模拟电路

猴博士爱讲课

201743人参加

电工学不挂科-5小时学完电工学(下)

猴博士爱讲课

170464人参加
下载
下载

下载App