Analog Ic Design
Offered By: Indian Institute of Technology Madras via Swayam
Course Description
Overview
This course will introduce advanced concepts in analog circuit design specifically relevant to CMOS IC design. It will cover circuit noise and mismatch, their analysis, and their impact on CMOS opamp design. As prerequisites, the student is expected to have undergone a course on (a) basic circuit theory and analysis (b) signals and systems and (c) MOS analog circuits. At the end of this course, the student should be able to design and analyze several types of CMOS opamps at the transistor level.INTENDED AUDIENCE : B.E/B.Tech,M.E/M.Tech,M.S,PhD engineering subjectPRE-REQUISITES : UG course (or equivalent) on: Basic Electrical Circuits, Signals and Systems, Analog CircuitsINDUSTRY SUPPORT : NILL
Syllabus
Week 1:Negative Feedback control
Week 2:Negative feedback with ideal delays
Week 3: Nyquist criterion, Gain and phase margin
Week 4:Single and two-stage opamps at block level
Week 5:Three-stage and feedforward compensated opamps
Week 6:Opamp datasheet, CMOS process
Week 7:MOS transistor basics
Week 8:Noise in circuits
Week 9:Basic amplifier stages
Week 10:Single-stage opamp
Week 11:Cascode opamp
Week 12:Two-stage opamp
Week 2:Negative feedback with ideal delays
Week 3: Nyquist criterion, Gain and phase margin
Week 4:Single and two-stage opamps at block level
Week 5:Three-stage and feedforward compensated opamps
Week 6:Opamp datasheet, CMOS process
Week 7:MOS transistor basics
Week 8:Noise in circuits
Week 9:Basic amplifier stages
Week 10:Single-stage opamp
Week 11:Cascode opamp
Week 12:Two-stage opamp
Taught by
S. Aniruddhan
Tags
Related Courses
Information TheoryThe Chinese University of Hong Kong via Coursera Fundamentals of Electrical Engineering
Rice University via Coursera Digital Signal Processing
École Polytechnique Fédérale de Lausanne via Coursera Circuits and Electronics 1: Basic Circuit Analysis
Massachusetts Institute of Technology via edX Solar: Solar Cells, Fuel Cells and Batteries
Stanford University via Stanford OpenEdx