10 μF TH EXAMPLE 4.15 Given the network of Fig. 4.44a and the BJT characteristics of Fig. 4.44b. a. Draw the load line for the network on the characteristics. b. Determine the de beta in the center region of the characteristics. Define the chosen point as the Q-point. 36 V 2.7 ΚΩ 150 ΚΩ 360 ΚΩ 10 μF R₁ R2 10 μF 330 Ω € 50 µF FIG. 4.44a Network for Example 4.15. c. Using the de beta calculated in part b, find the dc value of Ig. d. Find Ico and ICEQ 15 10 Ic (mA) 60 на 50 ΜΑ 40 ΜΑ 30 ма 20 μA 10 ΜΑ Ο ΜΑ 10 20 30 40 50 VCE (VOLTS) FIG. 4.44b BJT characteristics.

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10 μF
TH
EXAMPLE 4.15 Given the network of Fig. 4.44a and the BJT characteristics of Fig. 4.44b.
a. Draw the load line for the network on the characteristics.
b. Determine the de beta in the center region of the characteristics. Define the chosen point
as the Q-point.
36 V
2.7 ΚΩ
150 ΚΩ
360 ΚΩ
10 μF
R₁
R2
10 μF
330 Ω
€ 50 µF
FIG. 4.44a
Network for Example 4.15.
c. Using the de beta calculated in part b, find the dc value of Ig.
d. Find Ico and ICEQ
15
10
Ic (mA)
60 на
50 ΜΑ
40 ΜΑ
30 ма
20 μA
10 ΜΑ
Ο ΜΑ
10
20
30
40
50 VCE (VOLTS)
FIG. 4.44b
BJT characteristics.
Transcribed Image Text:10 μF TH EXAMPLE 4.15 Given the network of Fig. 4.44a and the BJT characteristics of Fig. 4.44b. a. Draw the load line for the network on the characteristics. b. Determine the de beta in the center region of the characteristics. Define the chosen point as the Q-point. 36 V 2.7 ΚΩ 150 ΚΩ 360 ΚΩ 10 μF R₁ R2 10 μF 330 Ω € 50 µF FIG. 4.44a Network for Example 4.15. c. Using the de beta calculated in part b, find the dc value of Ig. d. Find Ico and ICEQ 15 10 Ic (mA) 60 на 50 ΜΑ 40 ΜΑ 30 ма 20 μA 10 ΜΑ Ο ΜΑ 10 20 30 40 50 VCE (VOLTS) FIG. 4.44b BJT characteristics.
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