Output voltage corresponding to the sinusoidal input voltage (VCC = 12 V,, coupling capacitor values are 10 uF, F = 1 kHz). Calculate A, (dividing max output value by max input value.) b) Vcc Rc R1 Vo Z R2 RE Ce (Voltage-divider bias configuration) (R; = 33 k2, R2 = 10 k2, Rc = 33 k2 Rɛ=1.5 k Q, V; = 20 mV) to +

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Output voltage corresponding to the sinusoidal input voltage (VCC = 12 V, coupling capacitor values are
10 uF, F = 1 kHz).
Calculate A, (dividing max output value by max input value.)
b)
oVcc
Rc
R1
+
Vo
R2
RE
CE
(Voltage-divider bias configuration)
(R1 = 33 k2, R2 = 10 kN, Re = 33 kM, RẸ=1.5 k Q, V; = 20 mV)
Transcribed Image Text:Output voltage corresponding to the sinusoidal input voltage (VCC = 12 V, coupling capacitor values are 10 uF, F = 1 kHz). Calculate A, (dividing max output value by max input value.) b) oVcc Rc R1 + Vo R2 RE CE (Voltage-divider bias configuration) (R1 = 33 k2, R2 = 10 kN, Re = 33 kM, RẸ=1.5 k Q, V; = 20 mV)
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