2. Find the equivalent resistance Rab in the circuits of Figure below. a o 10 2 60 Ω 30 2 bo ww ww 20 Ω ww-

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2. Find the equivalent resistance Rab in the circuits of Figure below.
a o
10 2
60 Ω
30 2
bo
ww
20 Ω
3. The network of Figure below is the basic biasing arrangement for the field-effect transistor (FET), a
device of increasing importance in electronic design. (Biasing simply means the application of de
levels to establish a particular set of operating conditions.) Even though you may be unfamiliar with
the FET, you can perform the following analysis using only the basic laws introduced in your lectures
and the information provided on the diagram.
a. Determine the voltages VG and Vs.
b. Find the currents I1, I2, Ip, and Is.
c. Determine V Ds-
d. Calculate VDG.
= 16 V
VDD
to
ID
2 MQ
Rp32.5 k)
R1
오D
VGO
G
Vas = -1.75 V L[[IG
IG = 0 A
Ip = Is
VGS
IS
oVs
Is
R2
270 kN
Rs 1.5 kN
Transcribed Image Text:2. Find the equivalent resistance Rab in the circuits of Figure below. a o 10 2 60 Ω 30 2 bo ww 20 Ω 3. The network of Figure below is the basic biasing arrangement for the field-effect transistor (FET), a device of increasing importance in electronic design. (Biasing simply means the application of de levels to establish a particular set of operating conditions.) Even though you may be unfamiliar with the FET, you can perform the following analysis using only the basic laws introduced in your lectures and the information provided on the diagram. a. Determine the voltages VG and Vs. b. Find the currents I1, I2, Ip, and Is. c. Determine V Ds- d. Calculate VDG. = 16 V VDD to ID 2 MQ Rp32.5 k) R1 오D VGO G Vas = -1.75 V L[[IG IG = 0 A Ip = Is VGS IS oVs Is R2 270 kN Rs 1.5 kN
4. Find Vo in the circuit in Figure below using nodal analysis also find the power delivered from
2mA source.
ww
2 kn
2v
31kn
1000
V. 1kn
2 mA
Transcribed Image Text:4. Find Vo in the circuit in Figure below using nodal analysis also find the power delivered from 2mA source. ww 2 kn 2v 31kn 1000 V. 1kn 2 mA
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