• Saurabh Saxena
• Sankaran Aniruddhan

• Prof. Saurabh's Webex invite: All EVEN roll numbers
• Prof. Aniruddhan's Webex invite: All ODD roll numbers

• Lectures: E slot (Tu 11-11:50am; W 10-10:50am; Th 8-8:50am; Fr 5:00-5:50pm)
• Extended tutorial: Saturday 9am-12pm
• Tutorial hours will typically be scheduled on the Friday evening E slot (5:00-5:50pm)

Registered students can login and see the course page at https://courses.iitm.ac.in/. Resources, tutorials, exam schedules, discussion forum etc. can be accessed from the moodle page.

Login to moodle at https://courses.iitm.ac.in/ and use the course forum to post questions and contact TAs and faculty.

• Four quizzes: 40%
• Tutorials: 10%
• End semester exam (theory): 25%
• Lab and associated exam: 25%

Quiz dates will be as follows (8am on Thursdays):

• Quiz 1 - 3/2/22
• Quiz 2 - 17/2/22 (as per institute Quiz 1 schedule)
• Quiz 3 - 24/3/22 (as per institute Quiz 2 schedule)
• Quiz 4 - 12/4/22 (Tuesday E slot)

The recorded video lectures from previous years' courses are available here.

2022 Lecture notes (Aniruddhan) are available below:

• Introduction lecture - Introduction to the course
• Single pdf file with all lectures so far - 19 Jan 2022 to 21 April 2022 (44 lectures)

2022 Class lecture recordings (Aniruddhan) are available below:

• Lecture videos: Lecture videos in mp4 format on google drive

2022 Lecture notes (Saurabh) are available below:

1. Introduction
2. Lecture #1 (pdf): Introduction to analog systems controlled by dependent voltage/current sources
3. Lecture #2 (pdf): Limitations of dependent voltage/current sources
4. Lecture #3 (pdf): Non-linearity of blocks delivering voltage/power gain, Modeling of non-linear blocks with linear dependent voltage/current sources
5. Lecture #4 (pdf): Introducing a negative feedback system to realize a fixed relationship between input and output variables
6. Lecture #5 (pdf): Time-domain analysis of a simple first-order negative feedback system, deriving an OPAMP model using VCCS, capacitor, and VCVS
7. Lecture #6 (pdf): Frequency-domain analysis of OPAMP standalone and in resistive feedback, steady state error for step inputs
8. Lecture #7 (pdf): Positive and negative feedback for OPAMP in closed loop, supply voltage limits in OPAMP, first-order OPAMP model with finite dc gain and a single pole
9. Lecture #8 (pdf): Input-Output characteristics of OPAMP in positive and negative feedback, Schmitt trigger realization with OPAMP
10. Lecture #9 (pdf): Analysis of OPAMPs with offset
11. Lecture #10 (pdf):
12. Lecture #11 (pdf):
13. Lecture #12 (pdf):
14. Lecture #13 (pdf):
15. Lecture #14 (pdf):
16. Lecture #15 (pdf):
17. Lecture #16 (pdf):
18. Lecture #17 (pdf):
19. Lecture #18 (pdf):
20. Lecture #19 (pdf):
21. Lecture #20 (pdf):
22. Lecture #21 (pdf):
23. Lecture #22 (pdf):
24. Lecture #23 (pdf):
25. Lecture #24 Part1 Lecture #24 Part2(pdf):
26. Lecture #25 (pdf):
27. Lecture #26 (pdf):
28. Lecture #27 (pdf):
29. Lecture #28 (pdf):
30. Lecture #29 (pdf):
31. Lecture #30 (pdf):
32. Lecture #31 (pdf):
33. Lecture #32 (pdf):
34. Lecture #33 (pdf):
35. Lecture #34 (pdf):
36. Lecture #35 (pdf):
37. Lecture #36 (pdf):
38. Lecture #37 (pdf):
39. Lecture #38 (pdf):
40. Lecture #39 (pdf):
41. Lecture #40 (pdf):
42. Lecture #41 (pdf):

Problem sets will be posted below. You are expected to solve them on your own. You can approach the teaching assistants for clarifications and help. You should work each problem completely on your own.

• Problem Set #1 - Tutorial 1
• Problem Set #2 - Tutorial 2
• Problem Set #3 - Tutorial 3
• Problem Set #4 - Tutorial 4
• Problem Set #5 - Tutorial 5
• Problem Set #6 - Tutorial 6
• Problem Set #7 - Tutorial 7
• Problem Set #8 - Tutorial 8

• Lab is not offered during online semester. Students will be required to take lab once it is offered after the institute opens. In case of hybrid class, students residing in the hostel at IITM can attend Lab classes
• Lab experiment description is available here: EE2020 Lab Document

• Time domain response of first and second order circuits:
  • Lectures 23-28 of Electrical Circuits and Networks
  • “Week 9” lectures in the course Basic Electrical Circuits
  • Practice problem set
  • Handout
• Circuit analysis with Laplace Transforms:
  • Lectures 43-47 of Electrical Circuits and Networks
  • Lectures 5-8 at this link
  • Solve the practice problems in Practice problem set.
• Bode plots:
  • Recorded lectures here and here
• Two port parameters:
  • Lectures 14, 15 of Electrical and Magnetic Circuits
  • Lectures 20(second half), 21, 24, 25, 26 of Prof. Dutta Roy's course on circuit theory at NPTEL. Problems in two port parameters are in lectures in 23, 25, 29

• EE1101: Signals and Systems
• EE2015: Electrical Circuits and Networks

The following recorded lectures have some content overlapping with the above two courses.

• Basic Electrical Circuits
• Electrical and Magnetic Circuits
• Networks and Systems

85% attendance is mandatory and will be strictly enforced. If you are more than 5 min. late, you will not be allowed into class.