University of California at Berkeley
Dept of Electrical Engineering & Computer Sciences

EE247
Analog-Digital Interfaces in VLSI Technology

Instructor: Haideh Khorramabadi- Note Office hours Tues. & Thurs. 2:30-3:30pm @ 519 Cory Hall


Course Description
Course Reader (Filters)
Course Reader (Nyquist Rate Data Converters)
Course Reader (Oversampled Data Converters)
Lecture Notes Session 1
Lecture Notes Session 2
Lecture Notes Session 3
Lecture Notes Session 4
Homework #1 due Sept. 15th (note in problem #2 use integrator as the building block and NOT differentiator)
Solution to Homework #1
Lecture Notes Session 5
Lecture Notes Session 6 (2 slides per page)
Lecture Notes Session 7 (2 slides per page)
Lecture Notes Session 8 (2 slides per page)
Homework #2 due Sept. 29th
Solution to Homework #2
Lecture Notes Session 9 (2 slides per page)
Lecture Notes Session 10 (2 slides per page)
Homework #3 due October 11th, please note that in problem 2, the input signal is NOT bandlimited and the frequency range of interest is 0 to 15kHz
Solution to Homework #3
Lecture Notes Session 11 (2 slides per page)
Lecture Notes Session 12 (2 slides per page)
Homework #4 due Oct. 20th
Solution to Homework #4 pages1-4
Solution to Homework #4 page-5
Solution to Homework #4 page-6
Lecture Notes Session 13 (2 slides per page)
Lecture Notes Session 14 (2 slides per page)
Lecture Notes Session 15 (2 slides per page)
Lecture Notes Session 16 (2 slides per page)
Lecture Notes Session 17 (2 slides per page)
Midterm exam & solution
Homework #5 due Nov. 10th
Solution for Homework #5 contributed by Octavian Florescu
Solution for Homework #5 contributed by Renaldi Winoto
Lecture Notes Session 18 (2 slides per page)
Lecture Notes Session 19 (2 slides per page)
Lecture Notes Session 20 (2 slides per page)
Homework #6 due Nov. 22nd
Solution for Homework #6 contributed by Louis P. Alarcon
Lecture Notes Session 21 (2 slides per page)
Lecture Notes Session 22 (2 slides per page)
Lecture Notes Session 23 (2 slides per page)
Homework #7 due Dec. 6th- Note: In problem 1) Vref=480mV instead of the specified 440mV
Lecture Notes Session 24 (2 slides per page)
Lecture Notes Session 25 (2 slides per page)
Lecture Notes Session 26 (2 slides per page)
Lecture Notes Session 27
_ Extra Lecture Notes Delta-Sigma Decimator Design
_ For the Final exam you can only bring two 8X11 pages of your notes For the Final exam you can only bring two 8X11 pages of your notes