Engineerings - MIT OCW
Shared by:martin88
Written by MIT OCW
6.002 Circuits and Electronics | Video Lectures
Instructors: Prof. Anant Agarwal
MIT Course Number: 6.002
Level: Undergraduate
Course Description: 6.002 is designed to serve as a first course in an undergraduate electrical engineering (EE), or electrical engineering and computer science (EECS) curriculum. At MIT, 6.002 is in the core of department subjects required for all undergraduates in EECS.
The course introduces the fundamentals 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. 6.002 is worth 4 Engineering Design Points. The 6.002 content was created collaboratively by Profs. Anant Agarwal and Jeffrey H. Lang.
The course uses the required textbook Foundations of Analog and Digital Electronic Circuits. Agarwal, Anant, and Jeffrey H. Lang. San Mateo, CA: Morgan Kaufmann Publishers, Elsevier, July 2005. ISBN: 9781558607354.
The course materials for 6.002 were last updated in Spring 2007. However, the lecture notes, demos, and videos presented in this section are taken from the Fall 2000 version.
1. Introduction and lumped abstraction
2. Basic circuit analysis method (KVL and KCL mMethod)
3. Superposition, Thévenin and Norton
4. The digital abstraction
5. Inside the digital gate
6. Nonlinear analysis
7. Incremental analysis
8. Dependent sources and amplifiers
9. MOSFET amplifier large signal analysis (part 1)
9.5 MOSFET amplifier large signal analysis (part 2)
10. Amplifiers - small signal model
11. Small signal circuits
12. Capacitors and first-order systems
13. Digital circuit speed
14. State and memory
15. Second-order systems (part 1)
15.5 Second-order systems (part 2)
16. Sinusoidal steady state
17. The impedance model
18. Filters
19. The operational amplifier abstraction
20. Operational amplifier circuits
21. Op amps positive feedback
22. Energy and power
23. Energy, CMOS
24. Power conversion circuits and diodes, Video not Available!
25. Violating the abstraction barrier
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| Creation Date: | Fri, 06 Jan 2012 10:29:21 -0500 |
| This is a Multifile Torrent | |
| 1. Introduction and lumped abstraction.mp4 169.36 MBs | |
| 10. Amplifiers - small signal model.mp4 208.22 MBs | |
| 11. Small signal circuits.mp4 49.27 MBs | |
| 12. Capacitors and first-order systems.mp4 202.02 MBs | |
| 13. Digital circuit speed.mp4 217.74 MBs | |
| 14. State and memory.mp4 197.55 MBs | |
| 15. Second-order systems.mp4 206.8 MBs | |
| 15.5 Second-order systems (cont.).mp4 196.67 MBs | |
| 16. Sinusoidal steady state.mp4 214.71 MBs | |
| 17. The impedance model.mp4 203.51 MBs | |
| 18. Filters.mp4 197.13 MBs | |
| 19. The operational amplifier abstraction.mp4 216.49 MBs | |
| 2. Basic circuit analysis method (KVL and KCL mMethod).mp4 203.6 MBs | |
| 20. Operational amplifier circuits.mp4 205.37 MBs | |
| 21. Op amps positive feedback.mp4 210.7 MBs | |
| 22. Energy and power.mp4 212.08 MBs | |
| 23. Energy, CMOS.mp4 165.07 MBs | |
| 25. Violating the abstraction barrier.mp4 190.85 MBs | |
| 3. Superposition, Thévenin and Norton.mp4 211.97 MBs | |
| 4. The digital abstraction.mp4 202.75 MBs | |
| 5. Inside the digital gate.mp4 210.76 MBs | |
| 6-002-spring-2007.zip 20.2 MBs | |
| 6. Nonlinear analysis.mp4 184.76 MBs | |
| 7. Incremental analysis.mp4 206.69 MBs | |
| 8. Dependent sources and amplifiers.mp4 215.86 MBs | |
| 9. MOSFET amplifier large signal analysis.mp4 208.35 MBs | |
| 9.5 MOSFET amplifier large signal analysis (cont.).mp4 208.37 MBs | |
| MIT OCW - Engineerings - Circuits and Electronics Video Lectures, Fall 2007.docx 15.94 KBs | |
| Torrent downloaded from Demonoid.me.txt 46 Bytes | |
| Combined File Size: | 5.02 GBs |
| Piece Size: | 4 MBs |
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| Info Hash: | 8030d2e856258f20b3be96da37a47351bc798867 |
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This post has 2 comments
April 12th, 2014
Can you please seed. Thanks.
May 6th, 2014
Hi. Can you please seed. I’m stuck at 99.6%.
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