ECE530H -‐ Analog Integrated Circuits
Introduc8on
Generally, this course deals with analog integrated circuit analysis and design including integrated circuit devices and modeling, single-‐stage amplifier design, feedback, opera8onal amplifier design and compensa8on.
Summary Main Informa8on
1 .Staff Antonio Liscidini -‐ Instructor Sadegh Jalali -‐ Teaching Assistant Shayan Shahramian -‐ Teaching Assistant Kevin Banovic -‐ Teaching Assistant About me: 1977 Born in Tirano (SO), Italy (twin brother) 2006 Ph.D. in Microelectronic from the University of Pavia 2008 Assistant Professor University of Pavia -‐ Italy 2012 Married with my wonderful wife Valen8na 2012 Joint to ECE Dept. University of Toronto 2014 My li[le heart Sofia was born Office Loca3on: BA5114 Research interest: Implementa8ons of analog front-‐end transceivers and digital frequency synthesizers for cellular and ultra low power applica8ons.
1. Staff 2. Text 3. Web resources 4. Lecture, Tutorial and Lab
Schedule 5. Grading 6. Structure of the course 7. Syllabus
Summary
Main Informa8on
2. Textbook Analog Integrated Circuit Design, 2nd edi8on, by Carusone, Johns, Mar8n Publisher: Wiley and Sons 3. Web resources Official course website via Portal Textbook website at h[p://analogicdesign.com 4. Lecture, Tutorial and Lab schedule Monday from 2PM to 3PM -‐ room WB219 – lecture Wednesday from 2PM to 3PM -‐ room WB219 – lecture Thursday from 2PM to 3PM -‐ room WB219 – lecture Thursday from 12PM to 3PM -‐room SF2201 -‐ lab Monday from 4PM to 6PM -‐room BA2165 -‐ tutorial Timetable available online at h[p://h[p://www.apsc.utoronto.ca/8metable/fall.html#ECE
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Main Informa8on
5. Grading – Schedule AIempt
Final Exam Dec 5
55% • 2-‐3 ques8ons • Total 8me 50
minutes
Quiz Oct 9
(in Lecture)
10%
Mid – Term Nov 3
(in Tutorial)
20%
Laboratory
15%
• 4 ques8ons • Total 8me 110
minutes
• 5 ques8ons • Total 8me 150
minutes
Calculator Type: 2 (i.e. all non-‐programmable electronic calculators permiIed) Exam paper type: D (aid-‐sheet with some equa3ons)
• Evalua8on lab ac8vi8es
ECE530H -‐ Analog Integrated Circuits
The Course
The course has a bo[om-‐up structure star8ng from the device modeling up to the design and the compensa8on of a two stage opera8onal amplifier
Structure of the course
CMOS devices, modeling and layout
Basic single stage amplifier
theory
Operational amplifiers
Chapter 3 Figure 06
Devices
Basic single stage amplifier theory
Opera8onal Amplifiers
Detailed Syllabus
Lecture Date Brief Descrip8on Text Reference
Sep 4 Course Introduc8on
1 Sep 8 Integrated circuit pn junc8ons 1.1
2 Sep 10-‐11 Integrated circuit MOSFET (2h) 1.2, 1.3
3 Sep 15 Advance MOSFET modeling 1.4, 1.5
4 Sep 17-‐18 Noise in integrated circuit (2h) 9.1 – 9.3
5 Sep 22 Passive integrated circuit devices 1.6
6 Sep 24-‐25 Processing and Layout (2h) 2.1 – 2.4
7 Sep 29 Review of current mirrors and single-‐stage amplifier 3.1 – 3.3
8 Oct 1-‐2 Noise elementary circuits (2h) 9.4
9 Oct 6 Source degenera8on and cascode circuits 3.4 – 3.7
Oct 8 Wrap-‐up lecture
Quiz (Oct 9) cover up to here
10 Oct 15 Differen8al pairs Introduc8on to the frequency response
3.8 4.1
11 Oct 16-‐20 Frequency response of elementary circuits (2h) 4.2 – 4.3
Detailed Syllabus
Lecture Date Brief Descrip8on Text Reference
12 Oct 22 Noise in frequency 9.4
13 Oct 23-‐27 Feedback theory (2h) 5.1 – 5.4
Oct 29 Common Feedback Amplifiers 5.4
14 Oct 30 Intro two stage opamp 6.1.1 – 6.1.3
15 Nov 3 Some opamp non-‐ideali8es 6.1.4
Mid-‐term (Nov 4 Tutorial) covers un3l here
16 Nov 5-‐6 Frequency compensa8on (2h) 6.2
17 Nov 10 Advance current mirrors 6.3
18 Nov 12 Folded cascode opamp 6.4
19 Nov 13 Current mirror opamp 6.5
20 Nov 17 Linear se[ling 8me 6.6
21 Nov 19-‐20 Fully differen8al opamp 6.7
22 Nov 24-‐26 Common mode feedback 6.8
Nov27–Dec 1 Wrap-‐up lectures
Dec 3-‐4 Ques8on and Exercises for final exam