300kN, R2 700kN, Q.4 The parameters of the PMOS amplifier in Figure 3 are VDD = 15V, R1 %3D = 1kN, Rp = 2.5kN, C1 = C2 = CG = 0, |VM| = 0, Kp = 1mA/V², and V = -1.5V. Calculate (a) the input resistance R; = vs/is, (b) the no-load voltage gain A, = vo/vg, the output resistance Ro, and (d) the overall voltage gain A, = vL/vg. RL = 20kN, RSR %3D +VDD RSR R M1 C2 CG RL R.
300kN, R2 700kN, Q.4 The parameters of the PMOS amplifier in Figure 3 are VDD = 15V, R1 %3D = 1kN, Rp = 2.5kN, C1 = C2 = CG = 0, |VM| = 0, Kp = 1mA/V², and V = -1.5V. Calculate (a) the input resistance R; = vs/is, (b) the no-load voltage gain A, = vo/vg, the output resistance Ro, and (d) the overall voltage gain A, = vL/vg. RL = 20kN, RSR %3D +VDD RSR R M1 C2 CG RL R.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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Question
![300kN, R2
700kN,
15V, R1
Q.4 The parameters of the PMOS amplifier in Figure 3 are VDD
RL = 20kN, RSR
%3D
V = -1.5V. Calculate (a) the input resistance R; = vs/is, (b) the no-load voltage gain A, = vo/vg, (c)
the output resistance R., and (d) the overall voltage gain A, = vL/Vs.
1kN, Rp = 2.5kN, C1 = C2 = Cg = ∞, |VM| = ∞, Kp = 1mA/V², and
%3D
%3|
+VDD
RSR
C1
R
M1
C2
CG
R2
RL
to
R.
+](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fb9d93d5b-3633-421c-9998-1d7367e4399c%2Fa47f2d86-3eac-42a5-b11a-2afcacb24509%2Ft13bsyh_processed.jpeg&w=3840&q=75)
Transcribed Image Text:300kN, R2
700kN,
15V, R1
Q.4 The parameters of the PMOS amplifier in Figure 3 are VDD
RL = 20kN, RSR
%3D
V = -1.5V. Calculate (a) the input resistance R; = vs/is, (b) the no-load voltage gain A, = vo/vg, (c)
the output resistance R., and (d) the overall voltage gain A, = vL/Vs.
1kN, Rp = 2.5kN, C1 = C2 = Cg = ∞, |VM| = ∞, Kp = 1mA/V², and
%3D
%3|
+VDD
RSR
C1
R
M1
C2
CG
R2
RL
to
R.
+
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