For the circuit in Figure 4, let Vcc=9V, R1= 27 kQ. R2= 15 kQ., RE = 1.2 kQ and Rc= 2.2k2. The transistor has ß = 100. Answer the following questions: i. Determine whether to use exact analysis or approximate analysis. ii. Calculate the voltages of Vc, VB and VE. iii. Calculate the direct current (dc) of Ic, IB and IE. iv. Determine the value of re.

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Vcc
Rc
8.
R1
Io
Ii
Rsig
RL
Vo
Vin
R2
Vsig
Zout
RE
Zin
Figure 4
8
Transcribed Image Text:Vcc Rc 8. R1 Io Ii Rsig RL Vo Vin R2 Vsig Zout RE Zin Figure 4 8
For the circuit in Figure 4, let Vec= 9V, R1= 27 kO, R2= 15 kQ, RE= 1.2 kO and
Rc= 2.2kQ. The transistor has ß= 100. Answer the following questions:
i.
Determine whether to use exact analysis or approximate analysis.
ii.
Calculate the voltages of Vc, VB and VE.
iii.
Calculate the direct current (dc) of Ic, IB and IE.
iv.
Determine the value of re.
Transcribed Image Text:For the circuit in Figure 4, let Vec= 9V, R1= 27 kO, R2= 15 kQ, RE= 1.2 kO and Rc= 2.2kQ. The transistor has ß= 100. Answer the following questions: i. Determine whether to use exact analysis or approximate analysis. ii. Calculate the voltages of Vc, VB and VE. iii. Calculate the direct current (dc) of Ic, IB and IE. iv. Determine the value of re.
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