Q2: Determine Zi, Z., and A, for the network of +22 V ifr₁ = 33 k. #10:1 91 MO 2.2 ΚΩ ΓΕΩ Η ΜΩ loss=7.5 mA V=-4 V 2. Given VGS (Th) = 4 V and ID(on) = 4 mA at VGS(on) = 6 V of an enhancement-type MOS-FET, then K is 9. The relationship between ID and Vos in JFET transistor is A. Exponential B. linear C. nonlinear D. logarithmic E. sinusoidal 5. For a JFET configuration; if VGSQ = 0 V, then Iɲ A. > B.≤ C. = D.< IDSS. |

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Q2: Determine Zi, Z., and A, for the network of
+22 V
ifr₁ = 33 k.
#10:1
91 MO
2.2 ΚΩ
ΓΕΩ
Η ΜΩ
loss=7.5 mA
V=-4 V
2. Given VGS (Th) = 4 V and ID(on) = 4 mA at VGS(on) = 6 V of an enhancement-type
MOS-FET, then K is
9. The relationship between ID and Vos in JFET transistor is
A. Exponential B. linear C. nonlinear D. logarithmic E. sinusoidal
5. For a JFET configuration; if VGSQ = 0 V, then Iɲ
A. > B.≤
C. =
D.<
IDSS.
|
Transcribed Image Text:Q2: Determine Zi, Z., and A, for the network of +22 V ifr₁ = 33 k. #10:1 91 MO 2.2 ΚΩ ΓΕΩ Η ΜΩ loss=7.5 mA V=-4 V 2. Given VGS (Th) = 4 V and ID(on) = 4 mA at VGS(on) = 6 V of an enhancement-type MOS-FET, then K is 9. The relationship between ID and Vos in JFET transistor is A. Exponential B. linear C. nonlinear D. logarithmic E. sinusoidal 5. For a JFET configuration; if VGSQ = 0 V, then Iɲ A. > B.≤ C. = D.< IDSS. |
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