Consider the magnitude plot of transfer function obtained from series RLC circuit shown infigure 1, Answer the following.i)Design a series RLC passive filter with the help of magnitude plot. Assume the valueof capacitor as 0.001 mF.ii)Complete the figure 2 by labeling all the critical points.ii)Can we obtain plot shown in figure 2, from circuit having 3 capacitors in series withresistor? (yes or no)Considering the input voltage 1020° , find the current through the circuit designed inpart i, at center frequency.Find the quality factor.iv)v)majutk707 Hnere19B(k w)Figure 1

Series RLC band pass filter C = 0.001 mF From the plot, centre frequency (or) resonance frequency is…

Consider the magnitude plot of transfer function obtained from series RLC circuit shown in figure 1, Answer the following. i) Design a series RLC passive filter with the help of magnitude plot. Assume the value of capacitor as 0.001 mF. Complete the figure 2 by labeling all the critical points. ii) ii) Can we obtain plot shown in figure 2, from circuit having 3 capacitors in series with resistor? (yes or no) Considering the input voltage 1020° , find the current through the circuit designed in part i, at center frequency. Find the quality factor. iv)

Consider the magnitude plot of transfer function obtained from series RLC circuit shown in figure 1, Answer the following. i) Design a series RLC passive filter with the help of magnitude plot. Assume the value of capacitor as 0.001 mF. Complete the figure 2 by labeling all the critical points. ii) ii) Can we obtain plot shown in figure 2, from circuit having 3 capacitors in series with resistor? (yes or no) Considering the input voltage 1020° , find the current through the circuit designed in part i, at center frequency. Find the quality factor. iv)

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Concept explainers

Filter

A filter is a device or process which removes some of the unwanted features or components like frequencies from a signal in signal processing. The feature of filters is the complete or partial suppression of some part of the signal, and filtering is a class of signal processing. This most often means removing some frequency bands or some frequencies. In the frequency domain, the filters do not exclusively act, especially in the image processing field many other targets for filtering exist. Without having to act in the frequency domain, the correlations can be removed for certain frequency components and not for others. The filters are widely used in electronics and telecommunication, in television, radio, radar, audio recording, music synthesis, control systems, computer graphics, and image processing.

Question

Consider the magnitude plot of transfer function obtained from series RLC circuit shown in
figure 1, Answer the following.
i)
Design a series RLC passive filter with the help of magnitude plot. Assume the value
of capacitor as 0.001 mF.
ii)
Complete the figure 2 by labeling all the critical points.
ii)
Can we obtain plot shown in figure 2, from circuit having 3 capacitors in series with
resistor? (yes or no)
Considering the input voltage 1020° , find the current through the circuit designed in
part i, at center frequency.
Find the quality factor.
iv)
v)
majutk
707 Hnere
19
B
(k w)
Figure 1

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