====== EE3002: Analog Circuits(Jul.-Nov. 2020) ======
===== Instructors =====
  * [[http://www.ee.iitm.ac.in/~ani/|S. Aniruddhan]]
===== Classrooms =====
  * Online! See email sent to class mailing list for details.

===== Schedule =====
E slot(Tu 11-11:50am; W 10-10:50am; Th 8-8:50am; Fr 4:50-5:40pm)

===== Course page on moodle =====
Registered students can login and see the course page at [[https://courses.iitm.ac.in/|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/|https://courses.iitm.ac.in/]] to post questions and contact TAs and faculty.

===== Evaluation (Tentative) =====
Final exam (70%);  Tutorials (30%)

===== Recorded lectures =====
The recorded video lectures from a previous year  of the course are available [[http://www.ee.iitm.ac.in/videolectures/doku.php?id=ec201:start|here]]. 

**Lecture notes from this year are available below**:

  * {{courses:ee3002_2020:ee3002-2020-notes.pdf|Single pdf file with all lectures so far}} - 5 August 2020 to present

  * {{courses:ee3002_2020:ee3002-2020-intro.pdf|Lecture 1}} - 4 August 2020
  * {{courses:ee3002_2020:ee3002-2020-lec2.pdf|Lecture 2}} - 5 August 2020
  * {{courses:ee3002_2020:ee3002-2020-lec3.pdf|Lecture 3}} - 6 August 2020
  * {{courses:ee3002_2020:ee3002-2020-lec4.pdf|Lecture 4}} - 7 August 2020
  * {{courses:ee3002_2020:ee3002-2020-lec5.pdf|Lecture 5}} - 12 August 2020
  * {{courses:ee3002_2020:ee3002-2020-lec6.pdf|Lecture 6}} - 13 August 2020
  * {{courses:ee3002_2020:ee3002-2020-lec7.pdf|Lecture 7}} - 14 August 2020
  * {{courses:ee3002_2020:ee3002-2020-lec8.pdf|Lecture 8}} - 18 August 2020
  * {{courses:ee3002_2020:ee3002-2020-lec9.pdf|Lecture 9}} - 19 August 2020
  * {{courses:ee3002_2020:ee3002-2020-lec10.pdf|Lecture 10}} - 20 August 2020
  * {{courses:ee3002_2020:ee3002-2020-lec11.pdf|Lecture 11}} - 21 August 2020
  * {{courses:ee3002_2020:ee3002-2020-lec12.pdf|Lecture 12}} - 25 August 2020
  * {{courses:ee3002_2020:ee3002-2020-lec13.pdf|Lecture 13}} - 26 August 2020
  * {{courses:ee3002_2020:ee3002-2020-lec14.pdf|Lecture 14}} - 27 August 2020
  * {{courses:ee3002_2020:ee3002-2020-lec15.pdf|Lecture 15}} - 28 August 2020
  * {{courses:ee3002_2020:ee3002-2020-lec16.pdf|Lecture 16}} - 1 September 2020
  * {{courses:ee3002_2020:ee3002-2020-lec17.pdf|Lecture 17}} - 2 September 2020
  * {{courses:ee3002_2020:ee3002-2020-lec18.pdf|Lecture 18}} - 3 September 2020
  * {{courses:ee3002_2020:ee3002-2020-lec19.pdf|Lecture 19}} - 4 September 2020
  * {{courses:ee3002_2020:ee3002-2020-lec20.pdf|Lecture 20}} - 8 September 2020
  * {{courses:ee3002_2020:ee3002-2020-lec21.pdf|Lecture 21}} - 9 September 2020
  * {{courses:ee3002_2020:ee3002-2020-lec22.pdf|Lecture 22}} - 10 September 2020
  * {{courses:ee3002_2020:ee3002-2020-lec23.pdf|Lecture 23}} - 11 September 2020
  * {{courses:ee3002_2020:ee3002-2020-lec24.pdf|Lecture 24}} - 15 September 2020
  * {{courses:ee3002_2020:ee3002-2020-lec25.pdf|Lecture 25}} - 16 September 2020
  * {{courses:ee3002_2020:ee3002-2020-lec26.pdf|Lecture 26}} - 17 September 2020
  * {{courses:ee3002_2020:ee3002-2020-lec27.pdf|Lecture 27}} - 18 September 2020
  * {{courses:ee3002_2020:ee3002-2020-lec28.pdf|Lecture 28}} - 22 September 2020
  * {{courses:ee3002_2020:ee3002-2020-lec29.pdf|Lecture 29}} - 23 September 2020
  * {{courses:ee3002_2020:ee3002-2020-lec30.pdf|Lecture 30}} - 24 September 2020
  * {{courses:ee3002_2020:ee3002-2020-lec31.pdf|Lecture 31}} - 25 September 2020
  * {{courses:ee3002_2020:ee3002-2020-lec32.pdf|Lecture 32}} - 29 September 2020
  * {{courses:ee3002_2020:ee3002-2020-lec33.pdf|Lecture 33}} - 6 October 2020
  * {{courses:ee3002_2020:ee3002-2020-lec34.pdf|Lecture 34}} - 7 October 2020
  * {{courses:ee3002_2020:ee3002-2020-lec35.pdf|Lecture 35}} - 8 October 2020
  * {{courses:ee3002_2020:ee3002-2020-lec36.pdf|Lecture 36}} - 9 October 2020
  * {{courses:ee3002_2020:ee3002-2020-lec37.pdf|Lecture 37}} - 13 October 2020
  * {{courses:ee3002_2020:ee3002-2020-lec38.pdf|Lecture 38}} - 14 October 2020
  * {{courses:ee3002_2020:ee3002-2020-lec39.pdf|Lecture 39}} - 15 October 2020
  * {{courses:ee3002_2020:ee3002-2020-lec40.pdf|Lecture 40}} - 16 October 2020
  * {{courses:ee3002_2020:ee3002-2020-lec41.pdf|Lecture 41}} - 20 October 2020
  * {{courses:ee3002_2020:ee3002-2020-lec42.pdf|Lecture 42}} - 21 October 2020
  * {{courses:ee3002_2020:ee3002-2020-lec43.pdf|Lecture 43}} - 22 October 2020
  * {{courses:ee3002_2020:ee3002-2020-lec44.pdf|Lecture 44}} - 23 October 2020
  * {{courses:ee3002_2020:ee3002-2020-lec45.pdf|Lecture 45}} - 27 October 2020
  * {{courses:ee3002_2020:ee3002-2020-lec46.pdf|Lecture 46}} - 28 October 2020
  * {{courses:ee3002_2020:ee3002-2020-lec47.pdf|Lecture 47}} - 29 October 2020
  * {{courses:ee3002_2020:ee3002-2020-lec48.pdf|Lecture 48}} - 03 November 2020


**Google Meet recordings from 2020 lectures**:

  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec1.mp4|Lecture 1 video]]: Course Introduction [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec1_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec2.mp4|Lecture 2 video]]: Analysis of circuits with nonlinear elements [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec2_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec3.mp4|Lecture 3 video]]: Incremental analysis of a nonlinear circuit (esp diode) [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec3_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec4.mp4|Lecture 4 video]]: Incremental analysis of a diode circuit (example) [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec4_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec5.mp4|Lecture 5 video]]: Incremental analysis for voltage and power gain [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec5_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec6.mp4|Lecture 6 video]]: Introduction to MOSFETs & its I-V characteristics [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec6_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec7.mp4|Lecture 7 video]]: MOSFET transconductance; MOS amplifier from 2-port [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec7_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec8.mp4|Lecture 8 video]]: Synthesis of Common Source Amplifier (DC + Signal)[[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec8_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec9.mp4|Lecture 9 video]]: Swing limits of CSA [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec9_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec10.mp4|Lecture 10 video]]: Swing limits of CSA (contd.) [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec10_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec11.mp4|Lecture 11 video]]: Swing limits of CSA (contd.) [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec11_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec12.mp4|Lecture 12 video]]: The Real MOSFET (output conductance) [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec12_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec13.mp4|Lecture 13 video]]: Negative feedback biasing - MOSFET Current Mirror [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec13_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec14.mp4|Lecture 14 video]]: Current mirror biasing of common source amplifier [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec14_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec15.mp4|Lecture 15 video]]: Common-source amplifier - drain feedback [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec15_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec16.mp4|Lecture 16 video]]: Common-source amplifier - source feedback [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec16_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec17.mp4|Lecture 17 video]]: Common-source amplifier - source feedback (contd.) [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec17_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec18.mp4|Lecture 18 video]]: Choosing AC coupling capacitor value; Drain to source feedback [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec18_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec19.mp4|Lecture 19 video]]: Source to gate feedback [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec19_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec20.mp4|Lecture 20 video]]: MOSFET based VCVS - Common-drain amplifier [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec20_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec21.mp4|Lecture 21 video]]: Common-drain amplifier; MOSFET VCCS (Transadmittance Amplifier) [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec21_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec22.mp4|Lecture 22 video]]: MOSFET CCCS - Common-gate amplifier [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec22_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec23.mp4|Lecture 23 video]]: MOSFET CCVS (Transimpedance Amplifier) [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec23_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec24.mp4|Lecture 24 video]]: Introduction to the PMOSFET [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec24_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec25.mp4|Lecture 25 video]]: PMOSFET Bias Stabilization [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec25_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec26.mp4|Lecture 26 video]]: PMOSFET small-signal controlled sources [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec26_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec27.mp4|Lecture 27 video]]: The Active Load [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec27_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec28.mp4|Lecture 28 video]]: The CMOS Inverter [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec28_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec29.mp4|Lecture 29 video]]: Biasing of the CMOS Inverter [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec29_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec30.mp4|Lecture 30 video]]: Introduction to Differential Circuits [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec30_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec31.mp4|Lecture 31 video]]: Evolution of Truly Differential Amplifier [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec31_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec32.mp4|Lecture 32 video]]: CM and DM half circuits; CMRR; Decomposition of input into DM and CM components [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec32_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec33.mp4|Lecture 33 video]]: Differential Amplifier with single-ended output [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec33_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec34.mp4|Lecture 34 video]]: One Stage Opamp - Small Signal Analysis [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec34_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec35.mp4|Lecture 35 video]]: One Stage Opamp - Input and Output CM Range [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec35_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec36.mp4|Lecture 36 video]]: One Stage Opamp in feedback [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec36_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec37.mp4|Lecture 37 video]]: Large signal behaviour of differential pair; MOSFET Capacitances [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec37_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec38.mp4|Lecture 38 video]]: Frequency response of common source amplifier [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec38_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec39.mp4|Lecture 39 video]]: Pole splitting due to Cgd [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec39_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec40.mp4|Lecture 40 video]]: Multipole amplifiers in feedback [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec40_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec41.mp4|Lecture 41 video]]: Frequency compensation; Gain and phase margin [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec41_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec42.mp4|Lecture 42 video]]: Dominant pole compensation example [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec42_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec43.mp4|Lecture 43 video]]: One stage opamp transfer function; Slew rate [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec43_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec44.mp4|Lecture 44 video]]: Driving resistive loads; Two stage opamp [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec44_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec45.mp4|Lecture 45 video]]: Pole splitting compensation in a two stage opamp [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec45_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec46.mp4|Lecture 46 video]]: Pole-zero cancellation compensation in a two stage opamp [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec46_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec47.mp4|Lecture 47 video]]: Introduction to the BJT [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec47_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec48.mp4|Lecture 48 video]]: BJT Common Emitter Amplifier [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec48_lowres.mp4|Low Resolution Video]]

**Optional Lectures on Bandgap References**:

PDF:

  * {{courses:ee3002_2020:ee3002-2020-lec49.pdf|Lecture 49 (Bandgap References - 1)}} - 04 November 2020
  * {{courses:ee3002_2020:ee3002-2020-lec50.pdf|Lecture 50 (Bandgap References - 2)}} - 06 November 2020

Video:

  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec49.mp4|Lecture 49 video]]: Bandgap References - 1 [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec49_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_gmeet_lec50.mp4|Lecture 50 video]]: Bandgap References - 2 [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_gmeet_lec50_lowres.mp4|Low Resolution Video]]

**Follow up Analog courses at IITM**:
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_followup_courses.mp4|Follow up courses]]: Follow up Analog Courses [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_followup_courses_lowres.mp4|Low Resolution Video]]
  * [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/ee3002_2020_reviewclass.mp4|Review Class]]: Review Class on 20 Nov 2020 [[http://www.ee.iitm.ac.in/~ani/2020/ee3002/lowres/ee3002_2020_reviewclass_lowres.mp4|Low Resolution Video]]


**Link to original lecture video page from previous years**:

All years, all courses from VLSI group: http://www.ee.iitm.ac.in/videolectures/doku.php?id=allyears

Aniruddhan's EE3002 lectures from 2012: http://www.ee.iitm.ac.in/videolectures/doku.php?id=ec3102_2012a:start

Aniruddhan's EE3002 lectures from 2014: http://www.ee.iitm.ac.in/videolectures/doku.php?id=ee3002_2014a:start


===== 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. (The dates below are only tentative ones and can be changed at any time)

  * {{courses:ee3002_2020:ee3002_tutorial1.pdf|Tutorial 1}} - Due 8 September 2020
  * {{courses:ee3002_2020:ee3002_tutorial2.pdf|Tutorial 2}} - Due 15 September 2020
  * {{courses:ee3002_2020:ee3002_tutorial3.pdf|Tutorial 3}} - Due 25 September 2020
  * {{courses:ee3002_2020:ee3002_tutorial4.pdf|Tutorial 4}} - Due 6 October 2020
  * {{courses:ee3002_2020:ee3002_tutorial5.pdf|Tutorial 5}} - Due 16 October 2020
  * {{courses:ee3002_2020:ee3002_tutorial6.pdf|Tutorial 6}} - Due 26 October 2020
  * {{courses:ee3002_2020:ee3002_tutorial7.pdf|Tutorial 7}} - Due 5 November 2020
  * {{courses:ee3002_2020:ee3002_tutorial8.pdf|Tutorial 8}} - Due 12 November 2020
  * {{courses:ee3002_2020:ee3002_tutorial9.pdf|Tutorial 9}} - Due 29 November 2020


===== Simulation exercises for further learning=====

LTSpice tutorial/simulation exercises: The simulation files are hosted on GitHub. The link to it and a set of guidelines are compiled in the PDF below. The exercises were designed to explain LTspice by simulating various circuits. Different circuits have been chosen to explain different analysis and testbench setups e.g. R-2R ladder / RC filters / RLC circuits / Rectifiers / Wein Bridge oscillator / Single stage Opamp / 555 Timer / MOSFETs. Most of those circuits have either been covered in previous or ongoing courses.

  * {{courses:ee3002_2019:ltspice_simulation_exercises.pdf|LTSpice Simulation exercises}}
  * {{courses:ee3002_2017:simulationexercises-ee5310.pdf|Other simulation exercises for practice)}}

Use the TSMC 0.18um MOSFET Model Files from: http://www.ee.iitm.ac.in/~nagendra/cadinfo.html



===== References =====
  * **Bode plots**: Recorded lectures [[http://www.ee.iitm.ac.in/~nagendra/EC1010/201401/lectures/20140401/20140401.html|here]] and [[http://www.ee.iitm.ac.in/~nagendra/EC201/201208/lectures/20120817/20120817.html|here]]
  * **Two port parameters**: 
    * Lectures [[http://www.ee.iitm.ac.in/~nagendra/EC1010/201401/lectures/20140213/20140213.html|14]], [[http://www.ee.iitm.ac.in/~nagendra/EC1010/201401/lectures/20140214/20140214.html|15]] of [[http://www.ee.iitm.ac.in/~nagendra/videolectures/doku.php?id=ec1010_2014nk:start|Electrical and Magnetic Circuits]] 
    * lectures 20(second half), 21, 24, 25, 26 of [[http://nptel.iitm.ac.in/video.php?subjectId=108102042|Prof. Dutta Roy's course on circuit theory]] at [[http://nptel.iitm.ac.in|NPTEL]]. Problems in two port parameters are in lectures in 23, 25, 29 
  * **Circuit analysis with Laplace Transforms**: Follow lectures 5-8 at [[http://www.ee.iitm.ac.in/~nagendra/videolectures/doku.php?id=200806krkf:start|this link]] to refresh your understanding of laplace transform analysis, sinusoidal steady state etc. Solve the practice problems in {{courses:ec201_2011:laplacetutorial.pdf|this problem set}}.

===== Pre-requisites =====
  * [[http://www.ee.iitm.ac.in/~nagendra/videolectures/doku.php?id=ec1010_2014nk:start|Electrical and Magnetic Circuits]] or Electric Circuits and Networks
  * [[http://nptel.iitm.ac.in/video.php?courseId=1049|Networks and Systems]] or Signals and Systems
  * Analog Systems and Laboratory

===== Attendance =====
Please enter your roll number in the chat window as soon as you join the class on the video conference session.