ECE430H- AnalogIntegratedCircuits

Introduction

Generally, this course deals with analogintegrated circuit analysis and design includingintegrated circuit devices and modeling, single-stage amplifier design, feedback, operationalamplifier design and compensation.

SummaryMainInformation

1 .StaffAntonio Liscidini – InstructorFoad Arvani- Teaching Assistant (Lab)Luke Wang - Teaching Assistant (Lab)Danial Mohammadi - Teaching Assistant (Tutorial)

About me:1977 Born in Tirano (SO), Italy (twin brother)2006 Ph.D. in Microelectronic from the University of Pavia2008 Assistant Professor University of Pavia - Italy2012 Married with my wonderful wife Valentina2012 Assistant Professor University of Toronto2014 My little heart Sofia was born2016 My second little one Lucia was born2017 Associate Professor University of Toronto

Office Location:BA5114

Research interest:Implementations of analog front-end transceivers anddigital frequency synthesizers for cellular and ultra lowpower applications.

1. Staff2. Text3. Webresources4. Lecture,TutorialandLab

Schedule5. Grading6. Structureofthecourse7. Syllabus

Summary

MainInformation

2.TextbookAnalogIntegratedCircuitDesign,2ndedition,byCarusone,Johns,MartinPublisher:WileyandSons

3.WebresourcesOfficialcoursewebsiteviaPortalTextbookwebsiteathttp://analogicdesign.com

4.Lecture,TutorialandLabscheduleMondayfrom1PMto2PM- roomWB219– lectureTuesdayfrom2PMto3PM- roomWB219– lectureThursdayfrom1PMto2PM- roomWB219– lecture

Mondayfrom9PMto12PM-roomSF2201– lab(everytwoweeks)Wednesdayfrom9PMto11PM-roomBA2155– tutorial(everytwoweeks)

Timetableavailableonlineathttp://www.apsc.utoronto.ca/timetable/fall.html

!

MainInformation

5.Grading– ScheduleAttempt

FinalExamTBD

55%• 2-3questions• Totaltime50

minutes

QuizOct10

(inLecture)

10%

Mid– TermNov8

(inTutorial)

20%

Laboratory

15%

• 4questions• Totaltime110

minutes

• 5questions• Totaltime150

minutes

CalculatorType:2(i.e.allnon-programmableelectroniccalculatorspermitted)Exampapertype:D(aid-sheetwithsomeequations)

• Evaluationlabactivities

ECE530H- AnalogIntegratedCircuits

TheCourse

The course has a bottom-up structure startingfrom the device modeling up to the design andthe compensation of a two stage operationalamplifier

Structureofthecourse

CMOSdevices,modelingandlayout

Basic single stage amplifier

theory

Operational amplifiers

Chapter3Figure06

Devices

Basicsinglestageamplifiertheory

OperationalAmplifiers

DetailedSyllabus

Slides Date Brief Description TextReference

0 Sep7 CourseIntroduction

1 Sep11 Integratedcircuitpn junctions 1.1

2 Sep 12-14 IntegratedcircuitMOSFET(2h) 1.2,1.3

3 Sep 18 AdvanceMOSFETmodeling 1.4,1.5

4 Sep 19-21 Noiseinintegratedcircuit(2h) 9.1– 9.3

5 Sept25 Passiveintegratedcircuitdevices 1.6

6 Sept26- 28 ProcessingandLayout(2h) 2.1– 2.4

7 Oct2 Reviewofcurrentmirrorsandsingle-stage amplifier 3.1– 3.3

8 Oct3-Oct5 Noiseelementarycircuits(2h) 9.4

Quiz(Oct10)coveruptohere

9 Oct12 Sourcedegenerationandcascodecircuits 3.4– 3.7

10 Oct 16 Differential pairsIntroductiontothefrequencyresponse

3.84.1

11 Oct17-Oct19 Frequency responseofelementarycircuits(2h) 4.2 – 4.3

12 Oct23 Noise infrequency 9.4

DetailedSyllabus

Lecture Date Brief Description TextReference

13 Oct24-26 Feedbacktheory (2h) 5.1– 5.4

14 Oct30 CommonFeedbackAmplifiers 5.4

Oct31 Wrap-up lecture

Mid-term(Nov8 Tutorial)coversuntilhere

15 Nov2 Introtwostageopamp 6.1.1– 6.1.3

16 Nov6 Someopampnon-idealities 6.1.4

17 Nov7-9 Frequencycompensation(2h) 6.2

18 Nov13 Advancecurrentmirrors 6.3

19 Nov14 Foldedcascodeopamp 6.4

20 Nov16 Currentmirroropamp 6.5

21 Nov20 Linearsettlingtime 6.6

22 Nov21-23 Fullydifferentialopamp 6.7

23 Nov27-28 Commonmodefeedback 6.8

24 Nov30 Linearity andDynamicRange 9.5

Dec4 - 5 Wrap-up lectures

Dec 7 QuestionandExercisesforfinal exam