1) A sinusoidal signal of 500 mV and 1 kHz from peak to peak is given as the input signal from the function generator. a) Calculate the voltage gain of the circuit in Figure 1. b) What is the phase relationship between input and output signals? (Assume ß = 50 and VBE = 0.4 V) VcC 12V RE 10kO RL 56kO Vout 10µF 10uf BD139 Vin RB1 >2.2k0 RB2 $0.56kO 500 mVpp 1 kHz Figure 1 一

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Electrical Engineering
1) A sinusoidal signal of 500 mV and 1 kHz from peak to peak is given as the input signal
from the function generator.
a) Calculate the voltage gain of the circuit in Figure 1.
b) What is the phase relationship between input and output signals?
(Assume ß = 50 and VBE = 0.4 V)
RE
10kO
RL
56kO
C2
Vout
C1
Q1:
10µF
10uF
BD139
: Víni
RB1:
2.2k0
RB2
: 500 mVpp
1-kHz
S0.56kO
Figure 1
Transcribed Image Text:Electrical Engineering 1) A sinusoidal signal of 500 mV and 1 kHz from peak to peak is given as the input signal from the function generator. a) Calculate the voltage gain of the circuit in Figure 1. b) What is the phase relationship between input and output signals? (Assume ß = 50 and VBE = 0.4 V) RE 10kO RL 56kO C2 Vout C1 Q1: 10µF 10uF BD139 : Víni RB1: 2.2k0 RB2 : 500 mVpp 1-kHz S0.56kO Figure 1
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