Consider the circuit shown in Figure4. B-120 i. Find Re such that VCEQ 2.2 V ii. Determine the midband gain iii. Determine Cc and CE such that the corner frequency associated with CE is fe-10 Hz and the corner frequency associated with Cc is fe 50 Hz. iv. Determine fi and fo. v. What is the gain-bandwidth product?
Consider the circuit shown in Figure4. B-120 i. Find Re such that VCEQ 2.2 V ii. Determine the midband gain iii. Determine Cc and CE such that the corner frequency associated with CE is fe-10 Hz and the corner frequency associated with Cc is fe 50 Hz. iv. Determine fi and fo. v. What is the gain-bandwidth product?
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Finding the RC and Frequency Responses for BJT Circuits
Transcribed Image Text:Consider the circuit shown in Figure4. B-120
i. Find Re such that VCEQ 2.2 V
ii. Determine the midband gain
iii. Determine Ce and C such that the corner frequency associated with CE is fe-10 Hz and the
corner frequency associated with Cc is fc - 50 Hz.
iv. Determine fi and fio.
v. What is the gain-bandwidth product?
R₁ =
10 k
ww
V+ = 3 V
lo=
0.2 mA
Rc
V=-3 V
Cc
HH
CE
-0%
R₁ = 20 k
Cbc = 18 pF
Che= 24 pF
Ссе = 12 pF
Cw, = 8 pF
= 10 pF
Cwo
Figure 4
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The change in gain, or the amount of signal a device or circuit lets through with frequency, characterizes a device or circuit's behavior throughout a given range of signal frequencies. A transistor's mid-band gain is its gain at its mid frequencies. this is the region of the transistor's bandwidth when its gain is at its greatest and most stable level.
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