Frequency (Hz) 100 200 500 1000 2000 5000 10000 20000 50000 100000 Magnitude Response 20log| Vout(jo)/Vin(jo)| Vout(jo)/Vin(jo)|| Passive RC Low Pass Filter 1. Analyze the LP filter in Figure 7 and determine the following (Use the Background Information provided in the Module 03: Passive RC Filters file or see table in section 1.6 of Sedra/Smith textbook): a. RC Time Constant b. Corner frequency c. Transfer Function (for physical frequencies) Vout(jo)/Vin(jo) d. Note: It is worth the effort to use Excel, MATLAB, or similar product or application to perform these calculations. Otherwise, it will consume a lot of time calculating each value manually using a calculator. e. Plot the Magnitude Response in dB [20log|Magnitude Response] on the semi-log graph from 100Hz to 100KHz using the data points for the frequencies in the table below. FGEN 5Vpp sine wave Ground R w 16k Probe с 1nF' O-scope Figure 7: Passive Low Pass Filter Probe GND
Frequency (Hz) 100 200 500 1000 2000 5000 10000 20000 50000 100000 Magnitude Response 20log| Vout(jo)/Vin(jo)| Vout(jo)/Vin(jo)|| Passive RC Low Pass Filter 1. Analyze the LP filter in Figure 7 and determine the following (Use the Background Information provided in the Module 03: Passive RC Filters file or see table in section 1.6 of Sedra/Smith textbook): a. RC Time Constant b. Corner frequency c. Transfer Function (for physical frequencies) Vout(jo)/Vin(jo) d. Note: It is worth the effort to use Excel, MATLAB, or similar product or application to perform these calculations. Otherwise, it will consume a lot of time calculating each value manually using a calculator. e. Plot the Magnitude Response in dB [20log|Magnitude Response] on the semi-log graph from 100Hz to 100KHz using the data points for the frequencies in the table below. FGEN 5Vpp sine wave Ground R w 16k Probe с 1nF' O-scope Figure 7: Passive Low Pass Filter Probe GND
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Transcribed Image Text:Frequency
(Hz)
100
200
500
1000
2000
5000
10000
20000
50000
100000
Magnitude Response 20log| Vout(jo)/Vin(jo)|
Vout(jo)/Vin(jo)||
![Passive RC Low Pass Filter
1. Analyze the LP filter in Figure 7 and determine the following (Use the Background Information
provided in the Module 03: Passive RC Filters file or see table in section 1.6 of Sedra/Smith textbook):
a. RC Time Constant
b. Corner frequency
c. Transfer Function (for physical frequencies) Vout(jo)/Vin(jo)
d. Note: It is worth the effort to use Excel, MATLAB, or similar product or application to perform
these calculations. Otherwise, it will consume a lot of time calculating each value manually
using a calculator.
e. Plot the Magnitude Response in dB [20log|Magnitude Response] on the semi-log graph from
100Hz to 100KHz using the data points for the frequencies in the table below.
FGEN
5Vpp
sine wave
Ground
R
w
16k
Probe
с
1nF'
O-scope
Figure 7: Passive Low Pass Filter
Probe GND](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F2e521a1e-f4ee-4c02-af71-8dfc2cc184d3%2Ff8c4ea84-0b5c-4c36-830f-f085919ed817%2Fas6j3kn_processed.png&w=3840&q=75)
Transcribed Image Text:Passive RC Low Pass Filter
1. Analyze the LP filter in Figure 7 and determine the following (Use the Background Information
provided in the Module 03: Passive RC Filters file or see table in section 1.6 of Sedra/Smith textbook):
a. RC Time Constant
b. Corner frequency
c. Transfer Function (for physical frequencies) Vout(jo)/Vin(jo)
d. Note: It is worth the effort to use Excel, MATLAB, or similar product or application to perform
these calculations. Otherwise, it will consume a lot of time calculating each value manually
using a calculator.
e. Plot the Magnitude Response in dB [20log|Magnitude Response] on the semi-log graph from
100Hz to 100KHz using the data points for the frequencies in the table below.
FGEN
5Vpp
sine wave
Ground
R
w
16k
Probe
с
1nF'
O-scope
Figure 7: Passive Low Pass Filter
Probe GND
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