VDD = 3.6 V and RL = 8.5 kn, please answer the following questions. Note that M₁ and M₂ have the owing parameters: VTH = 0.5V, k = 500, and X = 0.001V-¹. Also note that the DC input voltage is such that the gate-to-source voltage of M2 is at VDD. Express all your answers up to THREE decimal ces. Vdd T RL pt) ID1,Q pt) VDS1,Q 2 pt) VGS1,Q M1 pt) gm1 pt) rol pt) 9m2 M2 etermine the DC operating point of M₁. μA V -O vo 0.2 pt) What is the DC input voltage, VIN? What are the small signal parameters of M₁? mS ΜΩ mS V mS ΚΩ V erive the two-port parameters of the given source-degenerated CS amplifier. You may assume that ro1 >> 1. = pt) Gm pt) Ro pt) A₂
VDD = 3.6 V and RL = 8.5 kn, please answer the following questions. Note that M₁ and M₂ have the owing parameters: VTH = 0.5V, k = 500, and X = 0.001V-¹. Also note that the DC input voltage is such that the gate-to-source voltage of M2 is at VDD. Express all your answers up to THREE decimal ces. Vdd T RL pt) ID1,Q pt) VDS1,Q 2 pt) VGS1,Q M1 pt) gm1 pt) rol pt) 9m2 M2 etermine the DC operating point of M₁. μA V -O vo 0.2 pt) What is the DC input voltage, VIN? What are the small signal parameters of M₁? mS ΜΩ mS V mS ΚΩ V erive the two-port parameters of the given source-degenerated CS amplifier. You may assume that ro1 >> 1. = pt) Gm pt) Ro pt) A₂
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Related questions
Question
![diode-connected NMOS device as shown below
with VDD = 3.6 V and RL
following parameters: VTH
Given the NMOS common source amplifier degenerated by a
8.5 kn, please answer the following questions. Note that M₁ and M₂ have the
0.5V, k = 5004, and A = 0.001V-1. Also note that the DC input voltage is
set such that the gate-to-source voltage of M2 is at VDD. Express all your answers up to THREE decimal
places.
Vdd
T
RL
(0.5 pt) ID1,Q
(0.5 pt) VDS1,Q
(0.2 pt) VGS1,Q
M1
(0.2 pt) gm1
(0.2 pt) rol
(0.2 pt) 9m2
M2
=
1. Determine the DC operating point of M₁.
μA
V
O VO
2. (0.2 pt) What is the DC input voltage, VIN?
3. What are the small signal parameters of M₁?
mS
ΜΩ
mS
V
4. Derive the two-port parameters of the given source-degenerated CS amplifier. You may assume that rol » 1.
(0.8 pt) Gm
(0.8 pt) Ro
(0.4 pt) Av
ms
ΚΩ](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F1a15f930-2efd-4d08-8093-a7ee8f796dc3%2Fb64b6343-5bab-4fec-9c6f-71855331061d%2Fpqkjm5e_processed.jpeg&w=3840&q=75)
Transcribed Image Text:diode-connected NMOS device as shown below
with VDD = 3.6 V and RL
following parameters: VTH
Given the NMOS common source amplifier degenerated by a
8.5 kn, please answer the following questions. Note that M₁ and M₂ have the
0.5V, k = 5004, and A = 0.001V-1. Also note that the DC input voltage is
set such that the gate-to-source voltage of M2 is at VDD. Express all your answers up to THREE decimal
places.
Vdd
T
RL
(0.5 pt) ID1,Q
(0.5 pt) VDS1,Q
(0.2 pt) VGS1,Q
M1
(0.2 pt) gm1
(0.2 pt) rol
(0.2 pt) 9m2
M2
=
1. Determine the DC operating point of M₁.
μA
V
O VO
2. (0.2 pt) What is the DC input voltage, VIN?
3. What are the small signal parameters of M₁?
mS
ΜΩ
mS
V
4. Derive the two-port parameters of the given source-degenerated CS amplifier. You may assume that rol » 1.
(0.8 pt) Gm
(0.8 pt) Ro
(0.4 pt) Av
ms
ΚΩ
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