VDD = 5 V, and Rin = 500 k2. The transistor parameters are given as %3D VTN1 = 0.7 V, VTP2 = -0.7 V, Kn1 = 0.4 mA/V?, Kp2 = 2 mA/V?, and A1 = A2 = 0. (a) Design the circuit such that the current and voltage values at Q point are: IpQ1 = 0.3 mA, Ipa2 = 0.8 mA, Vosą1 = 3 V, and VDsQ2 = 4 V. The voltage across Rs1 is to be 0.5 V. (b) Draw the small-signal equivalent circuit of the amplifier. (c) Determine the small-signal voltage gain A, = v/Vi. VDD RD1 R$2 Rs2 R1 Rin Cs2 M1 M2 Cc Vo R2 Rs1 RD2 Cs1
VDD = 5 V, and Rin = 500 k2. The transistor parameters are given as %3D VTN1 = 0.7 V, VTP2 = -0.7 V, Kn1 = 0.4 mA/V?, Kp2 = 2 mA/V?, and A1 = A2 = 0. (a) Design the circuit such that the current and voltage values at Q point are: IpQ1 = 0.3 mA, Ipa2 = 0.8 mA, Vosą1 = 3 V, and VDsQ2 = 4 V. The voltage across Rs1 is to be 0.5 V. (b) Draw the small-signal equivalent circuit of the amplifier. (c) Determine the small-signal voltage gain A, = v/Vi. VDD RD1 R$2 Rs2 R1 Rin Cs2 M1 M2 Cc Vo R2 Rs1 RD2 Cs1
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Transcribed Image Text:VDD = 5 V, and Rin = 500 k2.
The transistor parameters are given as
VTN1 = 0.7 V, VTP2 = -0.7 V, Kni = 0.4 mA/V?, Kp2 = 2 mA/V?, and A1 =12 = 0.
(a) Design the circuit such that the current and voltage values at Q point are: Ipq1 = 0.3 mA, IDQ2 = 0.8 mA,
VosQ1 = 3 V, and VpsQ2 = 4 V. The voltage across Rs1 is to be 0.5 V.
(b) Draw the small-signal equivalent circuit of the amplifier.
(c) Determine the small-signal voltage gain A, = Vo/Vi.
%3D
VDD
Rs2
RD1
R1
Rin
=Cs2
M1
M2
oVo
Cc
R2
Rs1
Cs1
Rp2
Vi
(+
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