1. Find the cut off frequency of the circuit given in Figure 1 with R=10 2, C=4.7 uF and amplitude of source voltage is 2.5 V. 2. Plot the gain (Vo /V,) of the circuit versus frequency.
1. Find the cut off frequency of the circuit given in Figure 1 with R=10 2, C=4.7 uF and amplitude of source voltage is 2.5 V. 2. Plot the gain (Vo /V,) of the circuit versus frequency.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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![The low-pass filter configuration with a capasitor and resistor is given in Figure 1. A
cut-off frequency of the circuit is given as:
1
2n RC
Resistor, R
Vr
Capacitor, C
Vout
Figure 1: The RC Low-Pass Filter[1]
Low Pass
Filtter
3 d8
i= Cutoff Frequency
Increasing Frequency-> f
Figure 2. Frequency Response of the Low-Pass Filter[2]
3. PRELIMINARY WORK
1. Find the cut off frequency of the circuit given in Figure 1 with R=10 Q, C=4.7 uF and
amplitude of source voltage is 2.5 V.
2. Plot the gain (V,/V,) of the circuit versus frequency.
Normalized Output Power](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fb1cb8493-c5f6-43cf-9d83-93913534dde9%2Ff8db61e1-653a-415b-9574-77b55567ba02%2Fft2jazj_processed.jpeg&w=3840&q=75)
Transcribed Image Text:The low-pass filter configuration with a capasitor and resistor is given in Figure 1. A
cut-off frequency of the circuit is given as:
1
2n RC
Resistor, R
Vr
Capacitor, C
Vout
Figure 1: The RC Low-Pass Filter[1]
Low Pass
Filtter
3 d8
i= Cutoff Frequency
Increasing Frequency-> f
Figure 2. Frequency Response of the Low-Pass Filter[2]
3. PRELIMINARY WORK
1. Find the cut off frequency of the circuit given in Figure 1 with R=10 Q, C=4.7 uF and
amplitude of source voltage is 2.5 V.
2. Plot the gain (V,/V,) of the circuit versus frequency.
Normalized Output Power
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