Free Online Course on Circuits and Electronics 2: Amplification, Speed, and Delay

Free Online Course on Circuits and Electronics 2: Amplification, Speed, and Delay
Certificate fee scholarship is available for this course.

Institution: Massachusetts Institute of Technology
Start Date:  Self Paced

Want to learn how to construct an amplifier for mobile phones? Wondering how energy storage elements like capacitors and inductors work, or how to make microchips run faster? The Massachusetts Institute of Technology is offering you free online course named as “Circuits and Electronics 2: Amplification, Speed, and Delay”. You will learn how to speed up digital circuits and build amplifiers in the design of microchips used in smartphones, computers, and the Internet. Topics covered include: MOSFET large signal and small signal analysis, amplifiers, energy storage elements like capacitors and inductors; and dynamics of first-order networks and circuit speed. This course is a Self Paced.

Course Summary

  •  Duration: 5 weeks
  • Commitment: 8 hours per week
  • Subject: Electronics
  • Institution: Massachusetts Institute of Technology
  • Languages: English
  • Price: Free
  • Session: Self Paced
  • Requirement: Should have a mathematical background
  • Certificate Available: Yes

Who Developed the Course

  • About University: Massachusetts Institute of Technology — a coeducational, privately endowed research university founded in 1861 — is dedicated to advancing knowledge and educating students in science, technology, and other areas of scholarship that will best serve the nation and the world in the 21st century
  • Mission of University: The mission of the Massachusetts Institute of Technology is to advance knowledge and educate students in science, technology, and other areas of scholarship that will best serve the nation and the world in the 21st century. We are also driven to bring knowledge to bear on the world’s great challenges.

Target Audience

  • You should have a mathematical background of working with calculus and basic differential equations, and a high school physics background in electricity and magnetism.
  • You should also have taken Circuits and Electronics 1: Basic Circuit Analysis through the given link: https://www.edx.org/course/circuits-electronics-1-basic-circuit-mitx-6-002-1x-0 or have an equivalent background in basic circuit analysis.

 Where Could This Lead You

  • Importance of the Subject in Today’s Scenario: An electronic circuit is composed of individual electronic components, such as resistors, transistors, capacitors, inductors, and diodes, connected by conductive wires or traces through which electric current can flow.
  • Your Career Option: If you’re wondering what your future could look like in this area, here are some potential careers:
  1. Design Engineer
  2. Electronics Testing
  3. Research & Development Engineer
  4. Electronics Engineer

Get Extra Benefits

Pursue a Verified Certificate to highlight the knowledge and skills you gain ($49 USD)

  • Official and Verified-Receive an instructor-signed certificate with the institution’s logo to verify your achievement and increase your job prospects
  • Easily Shareable-Add the certificate to your CV or resume, or post it directly on LinkedIn
  • Proven Motivator-Give yourself an additional incentive to complete the course

How to Join This Course

You should register yourself through the given link of join this free online course:  https://courses.edx.org/register

Course Format

Week 1: Amplifiers, MOSFET large signal analysis, MOSFET small-signal analysis

Week 2: Capacitors, first-order RC circuits

Week 3: Inductors, first-order step response, first-order circuit analysis, impulses, digital circuit speed

Week 4: Impulse, step, ramp superposition, digital memory, state, ZIR, ZSR

Learning Outcomes

At the end of this course, you’ll be able to:

  • How to build amplifiers using MOSFETs
  • How to use intuition to describe the approximate time and frequency behavior of first-order circuits containing energy storage elements like capacitors and inductors
  • The relationship between the mathematical representation of first-order circuit behavior and corresponding real-life effects
  • How to improve the speed of digital circuits
  • 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 mathematical models and explain the discrepancies

Who Will You Learn With

  • Anant Agarwal: CEO of edX and Professor of Electrical Engineering and Computer Science at MIT. His research focus is in parallel computer architectures and cloud software systems, and he is a founder of several successful startups, including Tilera, a company that produces scalable multicore processors.
  • Gerald Sussman: Professor of Electrical Engineering at MIT. He is a well-known educator in the computer science community, perhaps best known as the author of “Structure and Interpretation of Computer Programs,” which is universally acknowledged as one of the top ten textbooks in computer science, and as the creator of Scheme, a popular teaching language.
  • Piotr Mitros: Chief Scientist of edX and Research Scientist at MIT. His research focus is in finding ways to apply techniques from control systems to optimizing the learning process. He has worked as an analog designer at Texas Instruments, Talking Lights, and most recently, designed the analog front end for a novel medical imaging modality for Rhythmia Medical.
  • Chris Terman: A Senior Lecturer in the MIT Department of Electrical Engineering and Computer Science, Chris has been an award-winning lecturer for this course on campus since 1995.  He has four decades of experience as a teacher, digital systems designer, and courseware developer. Chris’ recent research is focused on educational technologies for teaching design skills.
  • Bonnie Lam: Graduate student in the Department of Electrical Engineering and Computer Science at MIT. Her research interests are digital design methodologies for low-power applications, and she is currently studying low-power techniques for ultrasound imaging.

 Suggested Reading

You can refer these books:

  • Design Your Own Circuits: 17 Exciting Design Ideas for New Electronics Projects by- Charles Platt
  • Electronic Circuit Analysis and Design by-Donald A. Neamen

Conclusion

  • Importance of Course: At the end of the course you will understand the relationship between the mathematical representation of first-order circuit behavior and corresponding real-life effects.
  • 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 given link:

https://www.edx.org/course/circuits-electronics-2-amplification-mitx-6-002-2x-0#

Apply Now

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