Q.1. voltage V,= 50 mV. (a) a, b and c. (b) value changes from 6k2 to 20k2. (c) Consider the configuration given in Figure 1 having input Calculate the output voltage and plot the voltages at point What happens to the output voltage if the load resistor What happens to the voltage gain if R, becomes short circuit
Q.1. voltage V,= 50 mV. (a) a, b and c. (b) value changes from 6k2 to 20k2. (c) Consider the configuration given in Figure 1 having input Calculate the output voltage and plot the voltages at point What happens to the output voltage if the load resistor What happens to the voltage gain if R, becomes short circuit
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
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Publisher:Robert L. Boylestad
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Subject Electronics
![Consider the configuration given in Figure 1 having input
Q.1.
voltage V= 50 mV.
(a)
a, b and c.
Calculate the output voltage and plot the voltages at point
(b)
value changes from 6k2 to 20kQ.
(c)
What happens to the output voltage if the load resistor
What happens to the voltage gain if R becomes short circuit
(d)
Draw the low and high frequency equivalent circuit and
explain the frequency response
frequencies.
for
low
and high
24 V
4.3 k2
560 k2
10 μF
b
V.
10 μF
a
B = 80
C
+
1 k2
RL 26 k2](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F879cc3e8-4f65-4c11-8c8b-4bfbae0bce1b%2F423bbdda-7b09-466e-977c-0e7171c3cc1d%2F4evnkno_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Consider the configuration given in Figure 1 having input
Q.1.
voltage V= 50 mV.
(a)
a, b and c.
Calculate the output voltage and plot the voltages at point
(b)
value changes from 6k2 to 20kQ.
(c)
What happens to the output voltage if the load resistor
What happens to the voltage gain if R becomes short circuit
(d)
Draw the low and high frequency equivalent circuit and
explain the frequency response
frequencies.
for
low
and high
24 V
4.3 k2
560 k2
10 μF
b
V.
10 μF
a
B = 80
C
+
1 k2
RL 26 k2
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