Question

In your design, please explicitly describe the transfer function, the bode plot, and the value of passive components obtained while designing the filter according to the given specification.

Use Multisim for the circuit design as well as frequency response analysis, and compare the output (Bode plots) with the simulation that can be obtained from MATLAB.

Validate your answer using MATLAB.

Design a bandpass active filter to pass frequencies between 500 Hz and 1500 Hz, and with K= 20

Answer #1

R1 = 3.185e3;

C1 = 100e-9;

R2 = 106157;

C2 = 1e-9;

G_s = tf([20 0],[(1/R2*C2) (1+(1/(R2*R1*C1*C2))) (1/R1*C1)])

bode(G_s)

In your design, please explicitly describe the transfer
function, the bode plot, and the value of passive components
obtained while designing the filter according to the given
specification.
Use Multisim for the circuit design as well as frequency
response analysis, and compare the output (Bode plots) with the
simulation that can be obtained from MATLAB.
Validate your answer using MATLAB.
Design a bandpass passive filter to pass frequencies between 500
Hz and 1500 Hz.

In your design, please explicitly describe the transfer
function, the bode plot, and the value of passive components
obtained while designing the filter according to the given
specification.
Use Multisim for the circuit design as well as frequency
response analysis, and compare the output (Bode plots) with the
simulation that can be obtained from MATLAB.
Validate your answer using MATLAB.
Design a lowpass active filter with a dc gain of 20 and a corner
frequency of 1500 Hz.

In your design, please explicitly describe the transfer
function, the bode plot, and the value of passive components
obtained while designing the filter according to the given
specification.
Use Multisim for the circuit design as well as frequency
response analysis, and compare the output (Bode plots) with the
simulation that can be obtained from MATLAB.
Validate your answer using MATLAB.
Design a highpass active filter with a high-frequency gain of 20
and a corner frequency of 500 Hz.

Design #1: Design a lowpass active ?lter with a dc gain of n1*n2
and a corner frequency of n2*300 Hz. n1 = 9, n2 = 7
? Validate your answer using MATLAB. Use Multisim for the
circuit design as well as frequency response analysis, and compare
the output (Bode plots) with the simulation that can be obtained
from MATLAB. In your design, please explicitly describe the
transfer function, the bode plot, and the value of passive
components obtained while designing...

Design and draw a simple electrical circuit (a combination of a
low-pass and a high-pass filter circuits) that will act as a
bandpass filter for frequencies between 0.1 and 100 rad/s. Generate
the magnitude Bode plot on matlab!!!
Please do the matlab! thank you!

Please show steps. Thank you
Design an identical cascade unit gain active RC low pass filter
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c) Plot the Bode diagram of the frequency response of the
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d) Estimate the output voltage if the filter is excited with an
input voltage vi(t) = sin(15000t)
e) What...

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apply the filter to the original music signal and observe the
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A. Magnitude and phase plot of your filter.
B. Magnitude plot of original signal
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PLEASE ANSWER QUESTION #2
Design an FIR band-pass filter with cutoff frequencies of π/ 4
and π/ 6 . The filter’s impulse response should have 81 samples
(i.e. N = 81). Use a Blackman filter window.
(a) Plot the filter’s impulse response
(b) Plot the magnitude of the filter’s frequency response, in
dB. (i.e. 20 log(|H(e jω)|))
(c) Print out the MATLAB code used in the filter design
2. Use the filter designed in #1 to filter a random input...

Design an active-RC low pass second order Butterworth filter for
a cutoff frequency of 1 kHz, and a pass band gain of 2 V/V. Use a
741 Op Amp. If using Table I, use a capacitor value of 0.1 μF for C
and C1, otherwise you may use any capacitors available in the lab.
If applicable, make an excel worksheet showing the calculations
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