= 10 k2. The For the circuit shown in Figure 1, VDD=3.3 V and Rp Vpp transistor parameters are VIN=0.4V, k„'= 100µA/V² , W/L = 50, and 2 = 0.025V'. Assume the transistor is biased such that IDQ = 0.25 mA. Rp (a) Verify that the transistor is biased in the saturation region. vo (b) Determine the small signal parameters gm and ro. vps + (c) Determine the small-signal voltage gain (v/v;). VGS V GSQ
= 10 k2. The For the circuit shown in Figure 1, VDD=3.3 V and Rp Vpp transistor parameters are VIN=0.4V, k„'= 100µA/V² , W/L = 50, and 2 = 0.025V'. Assume the transistor is biased such that IDQ = 0.25 mA. Rp (a) Verify that the transistor is biased in the saturation region. vo (b) Determine the small signal parameters gm and ro. vps + (c) Determine the small-signal voltage gain (v/v;). VGS V GSQ
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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Transcribed Image Text:10 ΚΩ. Τhe
For the circuit shown in Figure 1, VDD=3.3 V and RD
VDD
transistor parameters are Vry=0.4V, k,'= 100µA/V² , W/L = 50, and
2 = 0.025V. Assume the transistor is biased such that IDQ = 0.25 mA.
ip
(a) Verify that the transistor is biased in the saturation region.
o vo
+
(b) Determine the small signal parameters gm and ro.
vps
+
(c) Determine the small-signal voltage gain (vv;).
UGS
V GsQ
ww
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