11.13 The i-v characteristic of an n-channel enhancement MOSFET is shown in Figure P11.13(a); a standard amplifier circuit based on the n-channel MOSFET is shown in Figure P11.13(b). Determine the quiescent current ino and drain-to-source voltage vs 2.0 I= 25°C 1.8 1.6 Vas10 V- -9V- 1.4 1.2 8V- 1.0 0.8 7V- 0.6 0.4 5 V= 0.2 3 V- 1.0 2.0 3.0 4.0 5.0 6.0 7.0 8.0 9.0 10 Drain-source voltage vps. V (a) Rp VGD VDD VGS Va Drain current ip, A if Vcc = 7 V; VD= 10 V; and Rp = 5 2. In what region is the transistor operating? %3D

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11.13 The i-v characteristic of an n-channel
enhancement MOSFET is shown in Figure P11.13(a);
a standard amplifier circuit based on the n-channel
MOSFET is shown in Figure P11.13(b). Determine the
quiescent current ino and drain-to-source voltage vs
2.0
I= 25°C
1.8
1.6
Vas10 V-
-9V-
1.4
1.2
8V-
1.0
0.8
7V-
0.6
0.4
5 V=
0.2
3 V-
1.0
2.0
3.0
4.0
5.0
6.0 7.0
8.0
9.0
10
Drain-source voltage vps. V
(a)
Rp
VGD
VDD
VGS
Va
Drain current ip, A
Transcribed Image Text:11.13 The i-v characteristic of an n-channel enhancement MOSFET is shown in Figure P11.13(a); a standard amplifier circuit based on the n-channel MOSFET is shown in Figure P11.13(b). Determine the quiescent current ino and drain-to-source voltage vs 2.0 I= 25°C 1.8 1.6 Vas10 V- -9V- 1.4 1.2 8V- 1.0 0.8 7V- 0.6 0.4 5 V= 0.2 3 V- 1.0 2.0 3.0 4.0 5.0 6.0 7.0 8.0 9.0 10 Drain-source voltage vps. V (a) Rp VGD VDD VGS Va Drain current ip, A
if Vcc = 7 V; VD= 10 V; and Rp = 5 2. In what
region is the transistor operating?
%3D
Transcribed Image Text:if Vcc = 7 V; VD= 10 V; and Rp = 5 2. In what region is the transistor operating? %3D
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