W a) the drain current in triode region: ID=H.C. / [(vas-V₁) Ds - Vas GS DS W = b) the drain current in saturation region 1, HCV-V)² Explain why you chose this particular equation. VDD = +2 V ID RD VD ID Rs Vss=-2 V Fig. 4
W a) the drain current in triode region: ID=H.C. / [(vas-V₁) Ds - Vas GS DS W = b) the drain current in saturation region 1, HCV-V)² Explain why you chose this particular equation. VDD = +2 V ID RD VD ID Rs Vss=-2 V Fig. 4
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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Hey, can you please make sure this question is solved correctly and step by step solution to the way to approach and how it's done please. I want to learn how to do this type of problem.
Design the circuit of Figure 4, that is, determine the values of RD
and RS , so that the transistor operates at ID = 0.5mA and VD = +0.7V. The
NMOS transistor has Vt = 0.7V, nCox = 100A/V2
, L = 1m, and W = 30m.
Determine MOSFET operation mode (triode mode; saturation mode or cutoff
mode).
Use one of the equations below for the drain current:
Transcribed Image Text:W
a) the drain current in triode region: ID=H.C. / [(vas-V₁) Ds - Vas
GS
DS
W
=
b) the drain current in saturation region 1, HCV-V)²
Explain why you chose this particular equation.
VDD = +2 V
ID
RD
VD
ID
Rs
Vss=-2 V
Fig. 4
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