Name SID
/ 42/ MI35/itff/zgrnj waif;
_ 2 apef' j'rdSS (Ciléb/(g'b error
N0 CALCULATORS, CELL PHONES, or other electronics allowed. Show your work, and put finai answers In the
boxes provided. Use
A couple practice problems. I am not the person writing the exam so please dont take these as an
indication of how hard/easy the exam will be. This does not by any means cover all the material on the
EE 140: Analog Integrated Circuits
Lecture 10w: High Swing Current Sources II
CTN 2/17/12
Lecture 10: High Swing Current Sources II
Announcements:
This is the make-up lecture for yesterdays
lecture
R
Prof. Sam Palermo
ECEN 474 Exam #3
December 3, 2010
Texas A&M University
Department of Electrical and Computer Engineering
ECEN 474 (Analog) VLSI Circuit Design
Fall 2010
Exam #3
Instructor: Sam Paler
ECEN474: (Analog) VLSI Circuit Design
Fall 2012
Lecture 12: Noise
Sam Palermo
Analog & Mixed-Signal Center
Texas A&M University
Announcements
HW3 due Wednesday Oct 24
Todays office hours are from 4-
EE 536a
Lecture Aid
Aid
#8
Academic
Year
2011-2012
System And Circuit Level
Noise Models And Analysis
Dr. John Choma,
Professor Of Electrical Engineering
Ming Hsieh Department of Electrical Engineerin
UniversityofCalifornia,Berkeley
EE42/100
Spring2013
Prof.K.Pister
Homework1Solution
1.
2.
(a)
32
8
a
Req
4
16
8
b
32
a
4
Req
16
16
b
32
a
Req
4
8
4
40
b
a
Req
b
a
Req
4 /40 =3.63
b
(b)
3.
4.
Startbyar
University of California, Berkeley
EE 42/100
Spring 2013
Prof. K. Pister
Homework 2
Due Friday (5pm), Feb. 8, 2013
Please turn the homework in to the drop box located next to 125 Cory Hall (labeled EE
University of California, Berkeley
EE 42/100
Spring 2013
Prof. K. Pister
Homework 3 Solution
Due Friday (5pm), Feb. 14, 2013
Please turn the homework in to the drop box located next to 125 Cory Hall (
University of California, Berkeley
EE 42/100
Spring 2013
Prof. K. Pister
Homework 4 Solution
Due Friday (5pm), Mar. 1, 2013
Please turn the homework in to the drop box located next to 125 Cory Hall (l
= (5)-1 = ( * 10)-1 => - (- 6 dB + 20 dB) = - (14 dB) = -14 dB
1201 W
10
2402 W
R2
16 points total for part 5c
4 points for each curve (straight
line or exact soln are fine)
1 for correct amplitude at
HW8 Solutions, ee42/100, 13sp
1) bits to represent
60: ceil(log2(60) = 6 bits thats the expression to use with google, but by hand its easy to
remember that 210 = 1024 ~= 1000. So one million is 20 bi
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