Question 1 Design a lowpass filter, with cutoff frequency wc. The maximum gain of the fitler should be A dB, and the filter gain at angular frequency ws should be no more than As dB. Use as few circui...
Question 1
Design a lowpass filter, with cutoff frequency wc. The maximum gain of the fitler should be A dB, and the filter gain at angular frequency ws should be no more than As dB.
Use as few circuit elements as possible.
wc 1552(rad/s)
A 22,48 (dB)
ws 3776 (rad/s)
As -17,98 (dB)
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Question 1 Design a lowpass filter, with cutoff frequency wc. The maximum gain of the fitler should be A dB, and the filter gain at angular frequency ws should be no more than As dB. Use as few circui...
Design a lowpass filter, with cutoff frequencỵ 14 16 rad s w. The maximum gain of the filter should be A 17.46 dB, and...
Design a lowpass filter, with cutoff frequencỵ 14 16 rad s w. The maximum gain of the filter should be A 17.46 dB, and the filter gain at angularfrequencỵws 3519 rad should be no more than As -21.99 dB. a) Give a detailed analytical solution, leading to your filter order, and circuit parameters Sketchan approximate bode plot of your filter's frequency response, using a straight line approxi- mation Can you solve the problem? I think its 3th order if im...
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please show all steps and matlab plot ,
5) Design a one-pole, one-zero passive filter to have a low-frequency gain of -32 dB, a high-frequency gain of 0 dB, and a cutoff frequency of 2,000 Hz. Specify the circuit and all component values. Use Matlab to plot the magnitude and phase frequency response for your filter.
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The asymptotic Bode plot shown below represents a lowpass filter with gain enhancement over a range...
The asymptotic Bode plot shown below represents a lowpass filter with gain enhancement over a range of frequencies. A, dB +6 dB/octave -6 dB/octave 0 dB 500 1000 o rad/s (log scale) Design a circuit using no more than two op-amps that will have this magnitude characteristic. You must use one or both of the circuits below, and in addition, you may use any other circuit so long as the total number of op-amps is less than or equal to...
1. a. Design a bandstop filter with a cutoff frequency of -3dB at w1 = 20 rad/s and w2 = 100 rad/s b. Confirm by plotting the magnitude & phase of the transfer function. 2. Design a 5th order low...
1.
a. Design a bandstop filter with a cutoff
frequency of -3dB at w1 = 20 rad/s and w2 = 100 rad/s
b. Confirm by plotting the magnitude &
phase of the transfer function.
2. Design a 5th order low pass butterworth
filter with wc = 1 rad/s.
Use this equation for both problems.
(jo)
(jo)
Design a lowpass filter, with cutoff frequencỵ 14 16 rad s w. The maximum gain of the filter should be A 17.46 dB, and the filter gain at angularfrequencỵws 3519 rad should be no more than As -21.99 dB. a) Give a detailed analytical solution, leading to your filter order, and circuit parameters Sketchan approximate bode plot of your filter's frequency response, using a straight line approxi- mation Can you solve the problem? I think its 3th order if im...
please show all steps and matlab plot ,
5) Design a one-pole, one-zero passive filter to have a low-frequency gain of -32 dB, a high-frequency gain of 0 dB, and a cutoff frequency of 2,000 Hz. Specify the circuit and all component values. Use Matlab to plot the magnitude and phase frequency response for your filter.
5) Design a one-pole, one-zero passive filter to have a low-frequency gain of -32 dB, a high-frequency gain of 0 dB, and a cutoff...
12. Design a fourth order, 2 dB Chebyshev highpass filter with a cutoff frequency of 2.4 kHz a. Draw the circuit, labeling Vin, Yout, and all component values. (14 points) and a passband gain of 0 dB. Use capacitor values of 3300 pF an approximation of the Bode plot of the magnitude transfer function IH(ia) in dB, İndicating the ripple, the cutoff frequency, and the approximate filter roll-off in dB/decade. Note, this does not reguire solving for the function. (6...
The asymptotic Bode plot shown below represents a lowpass filter with gain enhancement over a range of frequencies. A, dB +6 dB/octave -6 dB/octave 0 dB 500 1000 o rad/s (log scale) Design a circuit using no more than two op-amps that will have this magnitude characteristic. You must use one or both of the circuits below, and in addition, you may use any other circuit so long as the total number of op-amps is less than or equal to...
1.
a. Design a bandstop filter with a cutoff
frequency of -3dB at w1 = 20 rad/s and w2 = 100 rad/s
b. Confirm by plotting the magnitude &
phase of the transfer function.
2. Design a 5th order low pass butterworth
filter with wc = 1 rad/s.
Use this equation for both problems.
(jo)
(jo)
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