Integrated Circuits and Systems group, IIT Madras

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EE5320: Analog IC Design(Jan.-May 2020)

Instructors

Classroom

  • ESB 350 or CRC 101 (TBD)

Schedule

B slot, MTech Calendar (Mo. 9-9:50am, Tu. 8-8:50am, We. 12-12:50pm, F. 11-11:50am)

Course page on moodle

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.

Teaching Assistants

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

Evaluation

  • Assignments (40%)
  • Quiz-I (20%)
  • Quiz-II (20%)
  • Final Exam (20%)

Course Objective

  • Understanding of MOS transistors: Focus on the behavior relevant to analog circuit design.
  • Develop design intuition: Feel for tradeoffs – noise, dynamic range, power.
  • Design based on hand calculations: Avoid perpetual “tweaking” in SPICE.
  • Gain hands-on design experience: High performance amplifier design project.

Course Outline

  • Introduction and Basic Concepts: analog vs digital, applications of analog ICs, CMOS technology and devices, device mismatch and errors, MOS transistor behavior, noise in passives & MOSFETs, systematic design procedure for basic amplifier.
  • Advanced Topics: multi-stage amplifiers, compensation techniques & loop stability, transient response in amplifiers, designing amplifiers for transient response Gm-C integrators, Fully Differential Opamps.
  • Special Topic: Phase Locked Loops.

Tutorials

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 one before the corresponding dates given below.

  1. Homework 1: pdf on process variations and mismatch
  2. Homework 2: pdf on single-stage amplifiers
  3. Homework 3: pdf on building blocks
  4. Homework 4: pdf on Fully Differential Amplifiers

References

This course doesn't follow a single textbook. You can follow any of the references below for different sections of the course.

  • Behzad Razavi, Design of Analog CMOS Integrated Circuits, McGraw-Hill, August 2000.
  • Carusone, Johns, and Martin, Analog Integrated Circuit Design, 2nd ed., Wiley, 2000.
  • Gray, Hurst, Lewis, and Meyer, Analysis and Design of Analog Integrated Circuits, 5th ed., Wiley 2009.

This course will mostly follow the lines of NPTEL course whose link is given below.

Knowledge of negative feedback control systems is essential for a good understanding of circuits. The book below is a very good reference. Chapters 8, 9, and 10 are particularly relevant to us.

Pre-requisites

If you are little rusty on basic circuit analysis or laplace transforms, refresh them from the references below or any of the widely used textbooks. In particularly, we will use Bode plots and Laplace transforms widely-they are described at the last two links below.

Attendance

Attendance will be strictly enforced and those falling short will not be permitted to write the end sem exam. TAs will go around the room taking attendance at the beginning of the class. If you are more than 5 min. late, please do not enter the classroom. }

Recorded lectures (notes only) - EE5320 Analog IC Design for Regular MTech students

  • EE5320 Lecture notes (lecture 3 onwards):
  1. pdf: Analog IC Design lecture notes for regular IITM students

Recorded lectures (videos and notes) - EE5320W Analog IC Design for Web-MTech students

  • Lecture videos (from EE5320W for Web-MTech course):
  1. video: Lecture 1
  2. video: Lecture 2
  3. video: Lecture 3
  4. video: Lecture 4
  5. video: Lecture 5
  6. video: Lecture 6
  7. video: Lecture 7
  8. video: Lecture 8
  9. video: Lecture 9
  10. video: Lecture 10
  11. video: Lecture 11
  12. video: Lecture 12
  13. video: Lecture 13
  14. video: Lecture 14
  15. video: Lecture 15
  16. video: Lecture 16
  17. video: Lecture 17
  18. video: Lecture 18
  19. video: Lecture 19
  20. video: Lecture 20
  21. video: Lecture 21
  22. video: Lecture 22
  23. video: Lecture 23
  24. video: Lecture 24
  25. video: Lecture 25
  26. video: Lecture 26
  27. video: Lecture 27
  28. video: Lecture 28
  29. video: Lecture 29
  30. video: Lecture 30
  31. video: Lecture 31
  32. video: Lecture 32
  33. video: Lecture 33
  34. video: Lecture 34
  • Lecture notes (from EE5320W):
  1. pdf: EE5320W Analog IC Design lecture notes 1 for Web-MTech students
  2. pdf: EE5320W Analog IC Design lecture notes 2 for Web-MTech students
  3. pdf: EE5320W Analog IC Design lecture notes 3 for Web-MTech students
  • Smaller File Size Videos for EE5320W for Web-MTech
  1. video: Lecture 27
  2. video: Lecture 28
  3. video: Lecture 29
  4. video: Lecture 30
  5. video: Lecture 31
  6. video: Lecture 32
  7. video: Lecture 33
  8. video: Lecture 34