2. Hand calculation for different filter's components 3. Detailed list of components and their values (use a table format). 1. Block Diagram. 2. Hand Calculation Design a basic wide-band, RC band stop filter with a lower cut-off frequency of 200Hz and a higher cut-off frequency of 900HZ. Rand Tream Ree Copyright American College of the Middle East. 2020 Page 2 of 4 Figure 1: Band Stop Filter Characteristics Assuming a capacitor, C value for both filter sections (Cur, Cur) of 0.2uF, calculate the values of the two resistors, Rur and Rsp using the formula: 1. From the Low pass filter formula, Find Rur: fi 2. From the High pass filter formula, Find Rur: 3. Calculate the center frequency (f) and Bandwidth (BW): a. fe = Vfi x fu b. BW = fu- fi

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Project: Band Stop Filter Design
The Band Stop Filter, (BSF) is another type of frequency selective circuit that functions in exactly
the opposite way to the Band Pass Filter. The band stop filter, also known as a band reject filter,
passes all frequencies with the exception of those within a specified stop band which are greatly
attenuated. By combining a basic RC low-pass filter with a RC high-pass filter we can form a
simple band-stop filter that can block or at least severely attenuate a range or band of frequencies
within the two cut-off frequency points.
Project Deliverable 2
This derivable illustrates criteria to proceed applying next steps of this project. Students have to
do the schematic of the proposed circuit as well as the detailed design equations.
Submit (below) a report with the following:
1. The band stop filter block diagram.
2. Hand calculation for different filter's components
3. Detailed list of components and their values (use a table format).
1. Block Diagram:
2. Hand Calculation
Design a basic wide-band, RC band stop filter with a lower cut-off frequency of 200HZ and a
higher cut-off frequency of 900HZ.
Rand Sp
Rego
Ha ne
Tea o
Low Pa
Response
Respose
to
Copyright © American College of the Middle East. 2020
Page 2 of 4
Figure 1: Band Stop Filter Characteristics
Assuming a capacitor, C value for both filter sections (Cur, Cur) of 0.2uF, calculate the values of
the two resistors, RLP and RHP using the formula:
1. From the Low pass filter formula, Find Rup:
1
fi =
2. From the High pass filter formula, Find Rup:
fu = 2nRypCHP
3. Calculate the center frequency (fc) and Bandwidth (BW):
a. fe = Vfi x fu
b. BW = fu - fi
Transcribed Image Text:Project: Band Stop Filter Design The Band Stop Filter, (BSF) is another type of frequency selective circuit that functions in exactly the opposite way to the Band Pass Filter. The band stop filter, also known as a band reject filter, passes all frequencies with the exception of those within a specified stop band which are greatly attenuated. By combining a basic RC low-pass filter with a RC high-pass filter we can form a simple band-stop filter that can block or at least severely attenuate a range or band of frequencies within the two cut-off frequency points. Project Deliverable 2 This derivable illustrates criteria to proceed applying next steps of this project. Students have to do the schematic of the proposed circuit as well as the detailed design equations. Submit (below) a report with the following: 1. The band stop filter block diagram. 2. Hand calculation for different filter's components 3. Detailed list of components and their values (use a table format). 1. Block Diagram: 2. Hand Calculation Design a basic wide-band, RC band stop filter with a lower cut-off frequency of 200HZ and a higher cut-off frequency of 900HZ. Rand Sp Rego Ha ne Tea o Low Pa Response Respose to Copyright © American College of the Middle East. 2020 Page 2 of 4 Figure 1: Band Stop Filter Characteristics Assuming a capacitor, C value for both filter sections (Cur, Cur) of 0.2uF, calculate the values of the two resistors, RLP and RHP using the formula: 1. From the Low pass filter formula, Find Rup: 1 fi = 2. From the High pass filter formula, Find Rup: fu = 2nRypCHP 3. Calculate the center frequency (fc) and Bandwidth (BW): a. fe = Vfi x fu b. BW = fu - fi
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