a) What is the voltage gain of the common-source amplifier shown below? Assume Kn = 0.193mA/V?, VTN = 1.5V, and 2 Q-point (VGs= 2.48V, Ip= 93µA, VDs= 4.14V). b) What is the maximum value of vi that satisfies the small-signal assumptions? c) Compare the voltage gain to the common-source "rule-of-thumb" gain estimate and the "intrinsic gain" of the transistor. 0.01 V-, and +Vpp = 10 V R2 Rp 43 k2 560 k2 C2→ 00 C→ 00 R1 R3 + M 1 ΚΩ 100 k2 R1 R4 430 k2 Ca → 00 20 kΩ

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My question is under the attachment.

a) What is the voltage gain of the common-source amplifier shown
below? Assume Kn = 0.193mA/V², VTN
Q-point (VGs= 2.48V, ID= 93µA, VDs = 4.14V).
b) What is the maximum value of vi that satisfies the small-signal
assumptions?
c) Compare the voltage gain to the common-source "rule-of-thumb" gain
estimate and the "intrinsic gain" of the transistor.
1.5V, and 2 = 0.01 V-l, and
=
+VDp= 10 V
%3D
R2
Rp
43 k2
560 k2
C2→ 00
R3
R1
M
vo
1 kΩ
100 k2
R|
R4
C3→ 00
430 kQ
20 k2
Transcribed Image Text:a) What is the voltage gain of the common-source amplifier shown below? Assume Kn = 0.193mA/V², VTN Q-point (VGs= 2.48V, ID= 93µA, VDs = 4.14V). b) What is the maximum value of vi that satisfies the small-signal assumptions? c) Compare the voltage gain to the common-source "rule-of-thumb" gain estimate and the "intrinsic gain" of the transistor. 1.5V, and 2 = 0.01 V-l, and = +VDp= 10 V %3D R2 Rp 43 k2 560 k2 C2→ 00 R3 R1 M vo 1 kΩ 100 k2 R| R4 C3→ 00 430 kQ 20 k2
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