The parameters of the circuit shown in Figure 1 are: B = 100, VBE = 0.7 V, VT = 26 mV, Cbe =12 pF, Cee = 15 pF and Cbe = 44 pF. Based on the circuit: Vo i) Determine the midband voltage gain, A, =2 vi ii) Calculate the low cut-off frequencies caused by C and C2. iii) Calculate CE if the cut-off caused by this capacitor is 88 Hz. iv) Based on values in (ii) and (iii), what is the dominant low cut-off frequency? v) Determine the high cut-off frequency.
The parameters of the circuit shown in Figure 1 are: B = 100, VBE = 0.7 V, VT = 26 mV, Cbe =12 pF, Cee = 15 pF and Cbe = 44 pF. Based on the circuit: Vo i) Determine the midband voltage gain, A, =2 vi ii) Calculate the low cut-off frequencies caused by C and C2. iii) Calculate CE if the cut-off caused by this capacitor is 88 Hz. iv) Based on values in (ii) and (iii), what is the dominant low cut-off frequency? v) Determine the high cut-off frequency.
Introductory Circuit Analysis (13th Edition)
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Transcribed Image Text:The parameters of the circuit shown in Figure 1 are:
B = 100, VBE = 0.7 V, VT = 26 mV, Cbc =12 pF, Cce= 15 pF and Cbe = 44 pF.
Based on the circuit:
i) Determine the midband voltage gain, A, =
Vo.
vi
ii) Calculate the low cut-off frequencies caused by C1 and C2.
iii) Calculate CE if the cut-off caused by this capacitor is 88 Hz.
iv) Based on values in (ii) and (iii), what is the dominant low cut-off frequency?
v) Determine the high cut-off frequency.
+18V
3.3k2
C2=0.022µF
C,=0.1µF
V,
20k2
15k2
Vo
1k2
CE
6802
2.73V
Vs
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