In the circuit in the figure, Vi = 20 mV, VCC = 15 V, β = 110, r0 = 30 kΩ, RC = 4.7 kΩ, RF1 = 100 kΩ, RF2 = 47 kΩ. Also, since the internal resistance of the ac source is RS = 3.53 kΩ and the load connected to the output is RL = 14.5 kΩ, what is the value of the output voltage (V0)? NOTE: The output impedance of the transistor r0 must be taken into account in the calculations.
In the circuit in the figure, Vi = 20 mV, VCC = 15 V, β = 110, r0 = 30 kΩ, RC = 4.7 kΩ, RF1 = 100 kΩ, RF2 = 47 kΩ. Also, since the internal resistance of the ac source is RS = 3.53 kΩ and the load connected to the output is RL = 14.5 kΩ, what is the value of the output voltage (V0)? NOTE: The output impedance of the transistor r0 must be taken into account in the calculations.
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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In the circuit in the figure, Vi = 20 mV, VCC = 15 V, β = 110, r0 = 30 kΩ, RC = 4.7 kΩ, RF1 = 100 kΩ, RF2 = 47 kΩ. Also, since the internal resistance of the ac source is RS = 3.53 kΩ and the load connected to the output is RL = 14.5 kΩ, what is the value of the output voltage (V0)?
NOTE: The output impedance of the transistor r0 must be taken into account in the calculations.
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First we will find ac parameters by DC analysis then we will do ac analysis to calculate output voltage for given input voltage.
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