3) Consider the transistor circuit below. Assume the input is biased such that the transistor works normally, and ignore any internal resistances in the transistor. For the calculations in this problem, you may assume ß » 1. a) Consider small voltage changes Vin and Vout at the input and output (i.e., ignore bias voltages). Compute the voltage gain G = Vout/Vin- b) Compute the input impedance. Zin = Vin/lin c) Compute the output impedance. Zout = Vout/lout +Vcc Re - Vout R Ignore the transistor impedance. Vin

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3) Consider the transistor circuit below. Assume the input is biased such that
the transistor works normally, and ignore any internal resistances in the
transistor. For the calculations in this problem, you may assume ß > 1.
a) Consider small voltage changes Vin and
Vout at the input and output (i.e., ignore
bias voltages). Compute the voltage gain
G = Vout/Vin-
+Vcc
Rc
b) Compute the input impedance.
Zin = Vin/lin
Vout
c) Compute the output impedance.
Zout = Vout/lout
Ra
Ignore the transistor impedance.
Vin
Transcribed Image Text:3) Consider the transistor circuit below. Assume the input is biased such that the transistor works normally, and ignore any internal resistances in the transistor. For the calculations in this problem, you may assume ß > 1. a) Consider small voltage changes Vin and Vout at the input and output (i.e., ignore bias voltages). Compute the voltage gain G = Vout/Vin- +Vcc Rc b) Compute the input impedance. Zin = Vin/lin Vout c) Compute the output impedance. Zout = Vout/lout Ra Ignore the transistor impedance. Vin
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