Circuits and Electronics

开始时间: 04/22/2022 持续时间: 16 weeks

所在平台: EdxArchive 课程类别: 其他类别 大学或机构: MITx 授课老师： Anant Agarwal Gerald Sussman

课程主页: https://www.edx.org/archive/circuits-electronics-mitx-6-002x-0

课程评论：没有评论

第一个写评论        关注课程

课程详情

*Note - This is an Archived course*

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.

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.

FAQ

Will the text of the lectures be available?
Yes, transcripts of the course will be made available.

Do I need to watch the lectures live?
No. You can watch the lectures at your leisure.

What are the prerequisites?
You should have a mathematical background of working with Differential Equations and a physics background through AP level Electricity and Magnetism.

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

---

This is a past/archived course. At this time, you can only explore this course in a self-paced fashion. Certain features of this course may not be active, but many people enjoy watching the videos and working with the materials. Make sure to check for reruns of this course.

课程大纲

• How to employ lumped circuit models and techniques including the node method, superposition, and the Thevenin method.
• How to use intuition to describe the approximate time and frequency behavior of circuits containing energy storage elements (capacitors and inductors).
• The relationship between the mathematical representation of circuit behavior and corresponding real-life effects.
• Construction of simple digital gates, amplifiers, and filters in a virtual laboratory.
• Measurement of circuit variables using tools such as virtual oscilloscopes, virtual multimeters, and virtual signal generators.
• How to compare the measurements with the behavior predicted by mathematic models and explain the discrepancies.

课程评论(0条)