In the circuit given in the figure, Vcc= 12 V, Vin = 10 mV, B = 100, ro = 40 kn, RB = 360 kn, RC = 3.3 KQ, RE = 220 2, Rs = 0.5 KQ and RL = 18.7 k' Stop. Accordingly, find the voltage gain (Vout/Vin) of the circuit. NOTE-1: The output impedance of the transistor ro will be taken into account in the calculations. NOTE-2: Capacitors are negligible at midband frequency.
In the circuit given in the figure, Vcc= 12 V, Vin = 10 mV, B = 100, ro = 40 kn, RB = 360 kn, RC = 3.3 KQ, RE = 220 2, Rs = 0.5 KQ and RL = 18.7 k' Stop. Accordingly, find the voltage gain (Vout/Vin) of the circuit. NOTE-1: The output impedance of the transistor ro will be taken into account in the calculations. NOTE-2: Capacitors are negligible at midband frequency.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Transcribed Image Text:In the circuit given in the figure, Vcc= 12 V, Vin = 10 mV, B = 100, ro = 40 kn, RB = 360 KQ, RC = 3.3 KQ, RE = 220 2, Rs = 0.5 k and RL = 18.7 k' Stop. Accordingly, find the voltage gain
(Vout/Vin) of the circuit.
NOTE-1: The output impedance of the transistor ro will be taken into account in the calculations.
NOTE-2: Capacitors are negligible at midband frequency.
Vin
Rs
C1
RB
-Vcc
RC
NPN
RE
C2
CE
-Vout
F
RL
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