电路与电子学 (Circuits and Electronics)

随堂模式

  • 什么是随堂模式?

    随堂模式课程一般为每学期一轮次,课程每周更新,作业、考试有截止时间,由课程提供方老师、助教指导,课程完结,成绩由老师确认后,统一发放证书。

  • 什么是自主模式?

    自主模式课程常年开放加入,课件全部开放,作业、考试无截止时间,有学堂在线招募选拔的助教指导,考核通过即可自动获得证书。

来自于: 麻省理工学院 | 分类: 电子(109)

课程描述

6.002x teaches the fundamentals of circuit and electronic analysis.

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课程简介

The course introduces engineering in the context of the lumped circuit abstraction. Topics covered include: resistive elements and networks; independent and dependent sources; switches and MOS transistors; digital abstraction; amplifiers; energy storage elements; dynamics of first- and second-order networks; design in the time and frequency domains; and analog and digital circuits and applications. Design and lab exercises are also significant components of the course. The course is organized by weeks. To keep pace with the class, you are expected to complete all the work by the due dates indicated. Homeworks and labs must be completed by the Sunday of the week following the one in which they are posted. Weekly coursework includes interactive video sequences, readings from the textbook, homework, online laboratories, and optional tutorials. The course will also have a midterm exam and a final exam. Those who successfully earn enough points will receive an honor code certificate from MITx.

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课程章节

Overview
Welcome to 6.002x
Using the Tools
Circuit Sandbox
Lab Intro
Math Review
First Order Differential Equations
Second Order Differential Equations
Complex Numbers
Calculus at Length
Week 1
Administrivia and Circuit Elements
Circuit Analysis Toolchest
Homework 1
Lab 1
Week 2
Linearity and Superposition
Static Discipline and Boolean Logic
Homework 2
Lab 2
Logic Gates
Week 3
Inside the Gate
Circuits with Nonlinear Elements
Week 3 Tutorials
Homework 3
Lab 3
Comparing noise margins
Truth Table to a Circuit
Entrance Survey
Entrance Survey
Week 4
Incremental Analysis
Dependent Sources and Amplifiers
Homework 4
Lab 4
Current-controlled attenuator
Week 5
MOSFETs: Large Signals
MOSFET Amplifiers: Small signal model
Week 5 Tutorials
Homework 5
Lab 5
Week 6
Small-Signal Circuit Models
Capacitors and First-Order Circuits
Homework 6
Lab 6
Parallel-plate Capacitor (A&L 9.7)
Week 7
Inductors and First-Order Circuits
Speed of Digital Circuits
Homework 7
Lab 7
Geometry and Capacitance/Inductance (A&L 9.3)
Constitutive Laws for Capacitors and Inductors (A&L 9.6)
Unknown Capacitance (A&L 9.1)
Unknown Inductance (A&L 9.2)
Fall 2012 Midterm Exam(Practice)
Midterm Exam
2013 Midterm Exam
Fall 2013 Midterm
2013 Midterm Exam ???(Empty)
Fall 2013 Midterm
Week 8
Ramps, Steps, and Impulses
State and Memory
Week 8 Tutorials
Homework 8
Lab 8
Week 9
Undamped Second-Order Systems
Damped Second-Order Systems
Homework 9
Lab 9
Week 10
Sinusoidal Steady State
The Impedance Model
Homework 10
Lab 10
Week 11
Filters
Time Domain Versus Frequency Domain Analysis
Week 11 Tutorials
Homework 11
Lab 11
A&L Problem 13.4
Week 12
The Operational Amplifier Abstraction
Operational Amplifier Circuits
Week 12 Tutorials
Homework 12
Lab 12
Week 13
Op Amps Positive Feedback
Energy and Power
Week 13 Tutorials
wk13_solder
wk13_FreqResp
Week 14
Energy and CMOS Design
Breaking the Abstraction Barrier
Fall 2012 Final Exam (practice)
Final Exam
Spring 2013 Final Exam
Final Exam
Fall 2013 Final Exam
Fall 2013 Final

授课教师

  • Anant Agarwal 麻省理工学院 电气工程和计算机科学专业 教授

    Anant Agarwal教授是edX主席、MIT电气工程和计算机科学专业的教授。他的研究方向是并行计算机体系结构和云软件系统。他同时创立了若干创业公司,如Tilera。该公司生产可扩展的多核处理器。Agarwal教授曾荣获MIT的Smullin and Jamieson教学奖,他是本课程教材《模拟和数字电子电路基础》的作者之一。

  • Gerald Sussman 麻省理工学院 电气工程专业 教授

    Gerald Sussman教授是MIT电气工程专业的教授。他是计算机领域享有盛誉的教育家。他的著作《计算机程序的构造和解释》被普遍认为是计算机科学中最重要的10本教材之一。他还是Scheme(一种流行的教学用编程语言)的创始人。他的研究领域覆盖人工智能、物理、混沌系统、超级计算机设计等广泛的领域。

  • Piotr Mitros 麻省理工学院 edX 科学家

    Piotr Mitros是edX的首席科学家、MIT的研究科学家。他的研究专注于从应用控制论的方法来优化学习过程的手段。他曾经为德州仪器公司和Talking Lights公司设计模拟电路。最近他曾为Rhythmia Medical公司设计了一种新的医学影像模态的模拟前端电路。

  • Chris Terman 麻省理工学院 电气与计算机科学系 高级讲师

    Chris Terman是MIT电气与计算机科学系的高级讲师。他在该系讲授计算机课程多年,荣获多项教学奖。他的研究领域包括编程语言、编译器、计算机辅助设计工具和教育技术。

  • Tania Khanna 麻省理工学院 电气与计算机科学系 访问讲师

    Tania Khanna是MIT电气与计算机科学系的访问讲师。她的研究兴趣包括电子电路的系统级优化及其在生物医学电子学中的应用。她在康奈尔大学获学士学位,在MIT获硕士和博士学位。

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常见问题

What textbook do I need for the course?

学习本课程需要怎样的教材?Elsevier Publishing is generously providing a free online-only and a 40% discount on print and electronic versions of The Foundations of Analog and Digital Electronic Circuits by Agarwal and Lang for enrolled students. Once you enroll in the course, you will find information about these discounts in the course info page.教材为Agarwal和Lang编著的《模拟和数字电子电路基础》。Elsevier出版社慷慨地为注册本课程的学生提供了免费的在线教材和纸质或电子教材的6折价格。注册的学生将在课程info网页上找到有关折扣的信息。该教材也有中文版:于歆杰、朱桂萍、刘秀成译,《模拟和数字电子电路基础》,清华大学出版社,2008。ISBN 978-7-302-17144-7。

Will the text of the lectures be available?

能够获得老师讲课的字幕吗?Yes, transcripts of the course will be made available.是的。我们提供中文和英文的字幕。

Do I need to watch the lectures live?

是否需要实时地观看授课?No. You can watch the lectures at your leisure.不。只需在你方便时观看即可。

What are the prerequisites?

先修要求如何?You should have a mathematical background of working with Differential Equations and a physics background through AP level Electricity and Magnetism.你需要有关于微分方程的数学基础和大学普通物理水平的电磁学基础。

I don't have the prerequisites, Can I still take the course?

我没学过那些课程。但我是否还能学这门课?We do not check students for prerequisites, so you are certainly allowed to try. However, 6_002x does depend on previous experience with electricity and magnetism, and differential equations. If you do not know those subjects before taking the class, you will have to learn them over the semester, which can be an extremely difficult task.我们并不审查先修要求,因此你当然可以尝试进行学习。但是6.002x是基于电磁学和微分方程的。如果在学习之前对这些内容不了解,你需要在相同学期内学习这些知识。这样有可能非常的困难。

When does the course start?

课程何时开始?The course opens on October 23rd, 2013, and you can start the course any time after that.2013年10月23日以后任何时候你都可以开始学习。