B: For the following circuit, assume that 1 = 0 (no device output conductances), y = 0 (no backgate transconductances) and ignore capacitances. T Voo Vout Vo R*. E Rp Vin EM, b) Derive or write down by inspection the small signal voltage gain, Vout/Vin. Case 1- No assumption required and what will be the answer? Case 2 - You can assume that Rp is much larger than the inverse transconductance of a device.(find the answer from the below options ) Vout/Vin = none of these O gm1*RD O gm1*RP
B: For the following circuit, assume that 1 = 0 (no device output conductances), y = 0 (no backgate transconductances) and ignore capacitances. T Voo Vout Vo R*. E Rp Vin EM, b) Derive or write down by inspection the small signal voltage gain, Vout/Vin. Case 1- No assumption required and what will be the answer? Case 2 - You can assume that Rp is much larger than the inverse transconductance of a device.(find the answer from the below options ) Vout/Vin = none of these O gm1*RD O gm1*RP
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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Provide the detailed explanation -
Transcribed Image Text:B: For the following circuit, assume that 1. = 0 (no device output conductances), y = 0 (no backgate
transconductances) and ignore capacitances.
Voo
Vout
R*.
Rp
Vin o
b) Derive or write down by inspection the small signal voltage gain, Vout/Vin.
Case 1- No assumption required and what will be the answer?
Case 2 - You can assume that Rp is much larger than the inverse transconductance of a device.(find
the answer from the below options )
Vout/Vin =
none of these
-gm1*RD
O gm1*RP
O gm1*RD/(gm2*RP)
O gm1*RP
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