Institution: Massachusetts Institute of Technology
Start Date: At your own pace
Want to learn about circuits and electronics through this course entitled as “Circuits and Electronics 1: Basic Circuit Analysis” offered by the Massachusetts Institute of Technology. This course is designed for those who have high school physics background including the basics of electricity and magnetism.
In this course, you will learn techniques that are foundational to the design of microchips used in smartphones, computers, and the Internet. This course includes interactive video sequences, readings from the textbook, homework, online laboratories, and optional tutorials. The course is self-paced.
Course Summary
- Duration: 5 weeks
- Commitment: 6 hours per week
- Subject: Electronics
- Institution: Massachusetts Institute of Technology
- Languages: English
- Price: Free
- Session: At your own pace
- Requirement: None
- Certificate Available: Yes
Who Developed the Course
Massachusetts Institute of Technology – a coeducational, privately endowed research university founded in 1861 – is dedicated to advancing knowledge and educating students in science, technology,
Target Audience
High school mathematical background of working with algebraic equations and basic calculus, and a high school physics background including the basics of electricity and magnetism.
Where Could This Lead You
After completing this course, you can apply for jobs in the given fields:
- Component Engineer
- Senior Engineer
Get Extra Benefits
Get a verified certificate to highlight the knowledge and skills you acquire ($ 99 USD)
- Official and approved: Get a certificate with the logo of the institution and the signature of a professor to show your achievements and increase your professional prospects
- Easy to share: Add the certificate to your resume, or publish it directly on LinkedIn
- Proven motivational measure: Give yourself an additional stimulus to complete the course
How to Join This Course
You can register yourself here.
Course Format
- Week 1:
From physics to electrical engineering; lumped abstraction, KVL, KCL, intuitive simplification techniques, nodal analysis - Week 2:
Linearity, superposition, Thevenin & Norton methods, digital abstraction, digital logic, combinational gates - Week 3:
MOSFET switch, MOSFET switch models, nonlinear resistors, nonlinear networks - Week 4 :
Small signal analysis, small signal circuit model, dependent sources
Learning Outcomes
By the end of this course, you will able to…
- How to design and analyze circuits using the node method, superposition, and the Thevenin method
- How to use lumped circuit models and abstraction to simplify circuit analysis
- How to use intuition to solve circuits
- Construction of simple digital gates using MOSFET transistors
- Measurement of circuit variables using tools such as virtual oscilloscopes, virtual multimeters, and virtual signal generators
Who Will You Learn With?
- Anant Agarwal: CEO at the Massachusetts Institute of Technology
- Gerald Sussman: Professor at the Massachusetts Institute of Technology
- Piotr Mitros: Chief Scientist at the Massachusetts Institute of Technology
- Chris Terman: Senior Lecturer at the Massachusetts Institute of Technology
- Bonnie Lam: Graduate student at the Massachusetts Institute of Technology
Conclusion
- Importance of Course: At the end of the course you will able to understand techniques to design of microchips used in smartphones, computers, and the Internet.
- Importance of Certificate: By the Certificate of Achievement you will be able to prove your success when applying for jobs or courses. You can display it on your LinkedIn or CV.
Detailed Information
For more information about the course, you may visit the Website.