Consider the circuit shown below. Voltage VB is a constant source. are biased in the active region. Small-signal device transconductances are gm1 = 1 mU and 9m2 = 0.5 mU. Assume ro1 = 0 and ro2 = 0 if not specified. a. Find voltage gain Ap1 = vo1/Vin- b. Find voltage gain Ap2 = voz/Vin- c. Find voltage gain Ap3 = Vo3/Vin- d. Find output resistance looking into the drain of M1, Ro1. Assume ro1 = 20 kn Both M1 and M2 %3D %3D and ro2 = 00. VDD 10 k2 FR01 VinHE M, 02 Vo3
Consider the circuit shown below. Voltage VB is a constant source. are biased in the active region. Small-signal device transconductances are gm1 = 1 mU and 9m2 = 0.5 mU. Assume ro1 = 0 and ro2 = 0 if not specified. a. Find voltage gain Ap1 = vo1/Vin- b. Find voltage gain Ap2 = voz/Vin- c. Find voltage gain Ap3 = Vo3/Vin- d. Find output resistance looking into the drain of M1, Ro1. Assume ro1 = 20 kn Both M1 and M2 %3D %3D and ro2 = 00. VDD 10 k2 FR01 VinHE M, 02 Vo3
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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![Both M1 and M2
Consider the circuit shown below. Voltage VB is a constant source.
are biased in the active region. Small-signal device transconductances are gmı = 1 mU and
gm2 = 0.5 mU. Assume r.1 = 0 and ro2 = ∞ if not specified.
a. Find voltage gain Ap1 = vo1/Vin-
b. Find voltage gain Ay2 = vo2/vin-
c. Find voltage gain Ap3 = vo3/Vin-
d. Find output resistance looking into the drain of M1, Ro1: Assume ro1 = 20 kn
and ro2 = o.
%3D
%3D
VDD
10 k2
Vo1
-Ro1
Vin H M,
Vo2
Vo3
R2
10 k2](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ffdeea5bc-2de6-4ee7-9fa0-f0cc12f04ba2%2F67f167b7-06d7-4b4f-bbb4-190903270d30%2F9jddwnp_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Both M1 and M2
Consider the circuit shown below. Voltage VB is a constant source.
are biased in the active region. Small-signal device transconductances are gmı = 1 mU and
gm2 = 0.5 mU. Assume r.1 = 0 and ro2 = ∞ if not specified.
a. Find voltage gain Ap1 = vo1/Vin-
b. Find voltage gain Ay2 = vo2/vin-
c. Find voltage gain Ap3 = vo3/Vin-
d. Find output resistance looking into the drain of M1, Ro1: Assume ro1 = 20 kn
and ro2 = o.
%3D
%3D
VDD
10 k2
Vo1
-Ro1
Vin H M,
Vo2
Vo3
R2
10 k2
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