In the given common-gate amplifier circuit below, the voltage source Vg is a constant voltage source that, along with the DC component of the input voltage, sets the quiescent drain current of the PMOS transistor such that gm=3ms. The transistor also has A-0, Ce-4pF and Ca=200fF. The amplifier is fed with an input source having Rin=5kn, has a load resistance R, =10kn and a load capacitance C =2pF. Derive the transfer function and answer the questions below. Express your answer up to 3 decimal places. a. DC gain (in dB) b. frequency of the dominant pole (wo1, in Mrad/sec) c. frequency of the non-dominant pole (w,2, in Grad/sec) d. output resistance of the transistor (choices: 100kn, 1kn, 100MN, infinity) Rin VIN OVOUT RL CL VB
In the given common-gate amplifier circuit below, the voltage source Vg is a constant voltage source that, along with the DC component of the input voltage, sets the quiescent drain current of the PMOS transistor such that gm=3ms. The transistor also has A-0, Ce-4pF and Ca=200fF. The amplifier is fed with an input source having Rin=5kn, has a load resistance R, =10kn and a load capacitance C =2pF. Derive the transfer function and answer the questions below. Express your answer up to 3 decimal places. a. DC gain (in dB) b. frequency of the dominant pole (wo1, in Mrad/sec) c. frequency of the non-dominant pole (w,2, in Grad/sec) d. output resistance of the transistor (choices: 100kn, 1kn, 100MN, infinity) Rin VIN OVOUT RL CL VB
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Author:Robert L. Boylestad
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Chapter1: Introduction
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Transcribed Image Text:In the given common-gate amplifier circuit below, the voltage source Vg is a constant voltage source that, along with the DC component of the input voltage, sets the
quiescent drain current of the PMOS transistor such that gm=3ms. The transistor also has A-0, Ce-4pF and Ca=200fF. The amplifier is fed with an input source having
Rin=5kn, has a load resistance R, =10kn and a load capacitance C =2pF. Derive the transfer function and answer the questions below. Express your answer up to 3 decimal
places.
a. DC gain (in dB)
b. frequency of the dominant pole (wo1, in Mrad/sec)
c. frequency of the non-dominant pole (w,2, in Grad/sec)
d. output resistance of the transistor (choices: 100kn, 1kn, 100MN, infinity)
Rin
VIN
OVOUT
RL
CL
VB
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