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University of Michigan EECS 311: Electronic Circuits
Fall 2009
Quiz 1
10/21/2008
NAME: ________________________________________________ Honor Code: I have neither given nor received unauthorized aid on this examination, nor have I concealed any violations of the Honor Code. Signature _____________________________________
Problem Points Score Initials
1 25
2 30
3 15
4 30
Total
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Problem 1 (25 Points): Potpourri – the following problem has three unrelated parts. a) Use the circuit below for this part, where the voltages applied to the terminals of the NMOS
vary with time as shown in the graph. Complete the table below by evaluating the specified voltages and determining the region of operation at the 3 points in time indicated on the graph. Assume for the NMOS that 0.5 , 2 0.5 , and 0.5 / .
Point Region of Operation
1
2
3
vG
vB
vD
vSvB
t
-4-3-2-1
1234
0vS
1
vDvG
2 3
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Initials: ____________
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b) Find the transfer function / of the following circuit.
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c) Use the circuit below for this part. Assume the two diodes have identical parameters (same and ), and are in the forward bias region. Using the appropriate large‐signal model for
the diodes, calculate the value for at a temperature of 100 . 1.38 · 10 / and 1.6 · 10 .
vOUT
I 10I
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Initials: ____________
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Problem 2 (30 Points): Use the following circuit for all parts of this problem. a) Assume the opamp has finite gain and differential input resistance between the ( )
and ( ) terminals. All other parameters of the opamp are ideal. Find an expression for the input impedance .
iIN C
R
vOUT
Zin
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b) Assume the opamp has finite gain and bandwidth, given by the following expression. All other parameters of the opamp are ideal.
1 /
Find an expression for the transfer function / .
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Initials: ____________
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c) Assume the opamp has finite offset voltage . Find an expression for the transfer function / when 0.
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Problem 3 (15 Points): Use the following circuit for this problem. Assume the opamp is ideal, and use the constant‐voltage‐drop (CVD) model for the diode with 1 . Plot the output voltage on the graph provided below for an input voltage of a ramp from 0 to 5 as shown on the graph below.
RR
vOUTvIN
t
vOUT
0 1 2 3 4 5
2
46
8
10
0
-10
-8-6
-4
-2
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Initials: ____________
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Problem 4 (30 Points): Use the parameters from the table below for all parts of this problem. Assume 0 unless otherwise shown.
NMOS PMOS
1 1
, 500 / 250 /
, 0 0 a) The following circuit is a linear voltage regulator providing a constant 5 supply voltage to a
digital logic chip. Assuming the NMOS is in the Saturation region, calculate the value of of the NMOS when 1 .
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b) For the circuit below, find the range of that will simultaneously bias the NMOS in the Saturation region, and the PMOS in the Linear region.
4.5V
5V
vIN
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Initials: ____________
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c) For the circuit below, assume the NMOS is in the Saturation region, and the PMOS is in the Linear region. Additionally, approximate the PMOS in Linear with the voltage‐controlled resistor model (good for small ). Calculate the value for the voltage .
5V
vOUT
5V
1.5k
3.5k
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(Space for additional work)