ELECE3530  Integrated Analog Systems P, 27.02.201929.05.2019
This course space end date is set to 29.05.2019 Search Courses: ELECE3530
Topic outline

Basic information about content, assessment criteria et cetera:
Course in Oodi
Lecturer:
Prof. Kari Halonen
Exercises (homework) assistant:
Mika Pulkkinen
CAD Exercises assistants:
Mohammad Tanweer
Md NajmussadatCourse books:
 JohnsMartin: Analog Integrated Circuit Design, John Wiley&Sons Inc., 1997 and GregorianTemes: Analog MOS Integrated Circuits for Signal Processing, John Wiley&Sons Inc. 1986
 Toumazou, Lidgey & Haigh: Analogue IC Design: The currentmode approach, Peter Peregrinus Ltd., 1990
 AllenHolberg: CMOS Analog Circuit Design, Holt, Rinehart and Winston Inc.; Razavi: Principles of Data Conversion System Design, IEEE Press, 1995.
 JohnsMartin: Analog Integrated Circuit Design, John Wiley&Sons Inc., 1997 and GregorianTemes: Analog MOS Integrated Circuits for Signal Processing, John Wiley&Sons Inc. 1986

This is a preliminary schedule for the course.
Some items may switch dates and times. Such changes will be reported beforehand in the news section.
Location of teaching: Maari B, Maarintalo (address: Sähkömiehentie 3)
Wednesday 27.2.2019
08.1510.00 Lecture 1: Introduction to sampled systems
Wednesday 6.3.2019
08.1511.15 Lecture 2: Switchedcapacitor integrators
Lecture 3: Switchedcapacitor biquads (1/2)11.1512.00 Exercise 1: Switchedcapacitor integrator
Wednesday 13.3.2019
08.1510.00 Lecture 3: Switchedcapacitor biquads (1/2) 10.1512.00 Solution 1: Switchedcapacitor integrator
Exercise 2: Switchedcapacitor biquad
Wednesday 20.3.2019
08.0010.00 Murata excursion 10.1512.00 
Wednesday 27.3.201908.1510.00 Lecture 3: Switchedcapacitor biquads (2/2)
Lecture 4: Switchedcapacitor ladder filters (1/2)10.1512.00 Solution 2: Design of switchedcapacitor biquad
Exercise 3: Bilinear transformation in SCbiquad
Wednesday 3.4.201908.1510.00 Lecture 4: Switchedcapacitor ladder filters (2/2)
Lecture 5: Nonidealities in switchedcapacitor circuits(starting)10.1512.00 Solution 3: Bilinear transformation in SCbiquad
Exercise 4: Switchedcapacitor ladder filter
Wednesday 10.4.2019
08.1511.00 Lecture 5: Nonidealities in switchedcapacitor circuits( cont.)
Lecture 6: Continuoustime and currentmode filters
Lecture 7: Switchedcurrent filters11.0012.00 
Wednesday 17.4.2019
08.3010.00 Solution 4: Switchedcapacitor ladder filter
Exercise 5: Transconductancecapacitor filter10.1512.00 CAD 1: Switchedcapacitor ladder filter (assistance provided)
Wednesday 24.4.2019
08.1510.00 Lecture 7: Switchedcurrent filters
Lecture 8: Digitaltoanalog converters (1/2)10.1512.00 CAD 1: Switchedcapacitor ladder filter (assistance provided)
Wednesday 1.5.2019
08.1510.00  10.1512.00 
Wednesday 8.5.201908.1510.00 Lecture 8: Digitaltoanalog converters (2/2) 10.1512.00 Solution 5: Transconductancecapacitor filter
Exercise 6: Digitaltoanalog converter
Wednesday 15.5.201908.1510.00 Lecture 10: Oversampling analogtodigital converters 10.1512.00 Solution 6: Digitaltoanalog converter
Exercise 8: Oversampling analogtodigital converters
Wednesday 22.5.2019
08.1510.00 Lecture 9: Analogtodigital converters, Nyquist rate analogtodigital converters 10.1512.00 Solution 8: Oversampling analogtodigital converters
Exercise 7: Pipeline analogtodigital converter
Wednesday 29.5.2019
08.3009.00 Solution 7: Pipeline analogtodigital converter 09.1512.00 CAD 2: Deltasigma analogtodigital converter (assistance provided)
Wednesday xx.xx.2019
08.1510.00 10.1512.00 CAD 2: Deltasigma analogtodigital converter (assistance provided) 
The whole chapter if not mentioned otherwise. The chapters written in italics are supplementary.
 Chan Carusone, Johns, Martin: Analog Integrated Circuit Design 2^{nd} Ed.^{}, John Wiley, 2013. First edition by Johns, Martin (1997) has different chapter numbers.
 Chapter 11.13: Sample and Holds, Voltage References, and Translinear Circuits, p. 444456
 Chapter 13: DiscreteTime Signals
 Chapter 14: SwitchedCapacitor Circuits
 Chapter 15: Data Converter Fundamentals
 Chapter 16: NyquistRate D/A Converters
 Chapter 17: NyquistRate A/D Converters
 Chapter 18: Oversampling Converters
 Chapter 12: ContinuousTime Filters (supplementary)
 Gregorian, Temes: Analog MOS Integrated Circuits for Signal Processing, John Wiley, 1986.
 Chapter 5: SwitchedCapacitor Filters
 Chapter 7: Nonideal Effects in SwitchedCapacitor Circuits
 Toumazou, Lidgey, Haigh: Analogue IC design: the currentmode approach, Peter Peregrinus Ltd., 1990.
 Chapter 9: Continuoustime OTAC Filters
 Razavi: Principles of Data Conversion System Design, IEEE PRESS, 1995.
 Chapter 4: Basic principles of digitaltoanalog conversion (supplementary)
 Chapter 5: Digitaltoanalog converter architectures (supplementary)
And topics from lectures and exercises.
You can also use AllenHolberg instead of JohnsMartin, although the presentation in JohnsMartin is somewhat more thorough and easier to follow.
 Allen, Holberg: CMOS Analog Circuit Design, 2^{nd} Ed., Oxford University Press, 2002.
 Chapters 4.5, 4.6: Current and Voltage References, Bandgap Reference
 Chapter 9: Switched Capacitor Circuits
 Chapter 10: DigitalAnalog and AnalogDigital Converters

Lecture Examination guide:
 The question will be published by 14:00 on the day of the corresponding lecture, without further notifications (such as email or News Forum post.) If the question is not published by 14:00, a News Forum item will be posted as soon as the question is published.
 You have time to answer the questions until 23:59 on the day of the corresponding lecture.
 A good lecture examination answer is precise, to the point, and covers the key aspects. Suggested length is about 5 sentences.
 Please answer using your own words, not your partners, as these are individual assignments.
 The lecture examinations will be graded 02.
Topics
Introduction to sampled systems
Switchedcapacitor integrators
Switchedcapacitor biquads
Switchedcapacitor ladder filters
Nonidealities in switchedcapacitor circuits
Continuoustime filters
Currentmode filters
Digitaltoanalog converters
Analogtodigital converters
Nyquistrate analogtodigital converters
Oversampling analogtodigital converters
 The question will be published by 14:00 on the day of the corresponding lecture, without further notifications (such as email or News Forum post.) If the question is not published by 14:00, a News Forum item will be posted as soon as the question is published.

Guidelines:
 Deadline for the submission of each exercise is 15 minutes before the beginning of the next exercise session, unless otherwise noted. See section Schedule.
 You may collaborate in solving the exercises, but each student must write his/her answer and justifications in his/her own words. Copypaste errors are a big minus.
 Write your name and student number in the top of the first page of the submitted pdf.
 The only accepted file format is pdf. Submit only one single file per exercise. The maximum allowed file size is 5 Mb.
 Name your file like this: surname_firstname_exercise_X.pdf (e.g. einstein_albert_exercise_3.pdf, X = ordinal of the exercise)
 Matlab or any other code is not considered as derivation nor justification
 Take care of the clarity of your submission. Any unreadable or otherwise unclear parts of the submission are interpreted as erroneous.
Exercise grading:
 Each exercise is graded gradually from 0.0 to 2.0 points
 8 exercises > maximum total score from exercises is 8 * 2.0 = 16.0 points
 Resubmissions before the deadline will not reduce your points
 1.0 points are deducted from exercises that are submitted late
CAD exercise grading:
 Each CAD exercise is graded gradually from 0.0 to 2.0 points
 2 CAD exercises > maximum total score from CAD exercises is 2 * 2.0 = 4.0 points
 Resubmissions before the deadline will not reduce your points
 0.5 point will be deducted for each day of late submission
Important notice:
 The weights of course exercise points are as follows: lecture examinations 30%, exercises 40% and CADexercises 30%.
 Although maximum CAD exercise score is 4.0 points, their weight is almost as much as that of calculation exercises (16.0 points)
Exercises (homework):
Exercise 1: Switchedcapacitor integrator
Exercise 2: Design of switchedcapacitor biquad
Exercise 3: Bilinear transformation in SCbiquad
Exercise 4: Switchedcapacitor ladder filter
Exercise 5: Transconductancecapacitor filter
Exercise 6: Digitaltoanalog converter
Exercise 7: Pipeline analogtodigital converter
Exercise 8: Oversampling analogtodigital converters
CAD exercises:
CAD 1: Switchedcapacitor filter
CAD 2: Analogtodigital converter
NB! In order to run the necessary simulations in CAD exercises, you need to have a vspace account. Everyone who has taken ELECE3510 Basics of IC Design should have the accounts available. If you don't have the account, you should apply for it through the form in: https://bubba.ecdl.hut.fi/forms. The jobtitle is "Student" and application type "Apply for Computer user account".
