Q3 Refer to Figure Q3. Given the amplifier parameters: IcQ=3 mA, B = 150, V₁ = 26 mV, and VA = 00. (i) Draw the mid-frequency ac equivalent circuit using the hybrid- model. (ii) Calculate the output impedance, Zo (iii) Find Av = vo / vi. Then, draw the waveform of v; with proper labelling for one cycle if the output voltage, vo is 2 cos 100nt (V) Vcc R₁ 25 ΚΩ Rsig 50 Ω V₂ C₁ не |√√10-3 C₂ не Icq=3 mA + ViR₂ 35 ΚΩ RE 2 ΚΩ Zo Figure Q3 Small signal BJT amplifier Vo RL 5 km2

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Publisher:Robert L. Boylestad
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(ii)
Q3
Refer to Figure Q3. Given the amplifier parameters:
IcQ=3 mA, B = 150, VT = 26 mV, and VA = ∞0.
(i)
Draw the mid-frequency ac equivalent circuit using the hybrid- model.
(ii)
Calculate the output impedance, Zo
(iii)
Find Av = vo / vi. Then, draw the waveform of v₁ with proper labelling for one
cycle if the output voltage, vo is 2 cos 100nt (V)
Vcc
R₁
Icq=3 mA
[ 25 ΚΩ
RE
Vi > R₂
135 ΚΩ
2 ΚΩ
Zo
Figure Q3 Small signal BJT amplifier
Ic
IB
List of Equation
Rig
50 Ω
Vs
IE = 1B + IC
Ic
9m VT
Te-f
Tπ
Im
m
5+
-0%
B =
Ic
a = -
IE
To =
VA
Ic
R₁
5 ΚΩ
Transcribed Image Text:Q3 Refer to Figure Q3. Given the amplifier parameters: IcQ=3 mA, B = 150, VT = 26 mV, and VA = ∞0. (i) Draw the mid-frequency ac equivalent circuit using the hybrid- model. (ii) Calculate the output impedance, Zo (iii) Find Av = vo / vi. Then, draw the waveform of v₁ with proper labelling for one cycle if the output voltage, vo is 2 cos 100nt (V) Vcc R₁ Icq=3 mA [ 25 ΚΩ RE Vi > R₂ 135 ΚΩ 2 ΚΩ Zo Figure Q3 Small signal BJT amplifier Ic IB List of Equation Rig 50 Ω Vs IE = 1B + IC Ic 9m VT Te-f Tπ Im m 5+ -0% B = Ic a = - IE To = VA Ic R₁ 5 ΚΩ
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