Sunday, 23 April 2017

DSPP Experiment 6 : Chebyshev Filter Design

In experiment 5, we designed a butterworth filter which is maximally flat which has its disadvantages of higher orders.This leads to requirement of large components for the practical design of the filter and the cost of the filter increases. Butterworth filters also do not have a steep roll off factor. Thus, in applications where frequency response is more important than the constant amplitude across the frequency range and cheaper filters are required, chebyshev filter is used.

 A Chebyshev filter is one in which we can see ripples in a filter response, either in the stop band or the pass band. This experiment is similar to Experiment 5. The only difference in the filter design is in the formulae for calculating analog parameters of the filter.

We designed a Chebyshev 1 filter where the ripple exists only in the pass band and the stop band is free of it. The frequency response of the digital filter could be seen to be close enough to the desired response. As in experiment 5, we designed both LPF and HPF.
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22 comments:

  1. $oM€$h25 April 2017 at 10:03

    Very well explained

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  2. Unknown25 April 2017 at 22:05

    Good content

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  3. Unknown25 April 2017 at 22:09

    In chebyshev-2 ripples exist in stopband

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  4. Unknown25 April 2017 at 22:42

    The ripples could be seen in the frequency response

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    Replies
    1. Just DSPP Things25 April 2017 at 23:59

      Yes, ripples can be seen in the frequency response of Chebyshev filters

      Delete
  5. Ankesh Patil25 April 2017 at 22:44

    No ripples in passband

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    Replies
    1. Just DSPP Things25 April 2017 at 23:59

      Yes, in chebyshev-2 ripples exist only in stopband

      Delete
  6. Unknown25 April 2017 at 22:49

    In chebyshev filter there are ripples in pass band monotonic in stop band.

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  7. Unknown28 April 2017 at 05:01

    The ripples in passband in case of Chebyshev-1 filters should be avoided as these signals are to be analyzed. Any minor changes in the gain can lead to low performance.

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  8. Tony28 April 2017 at 05:12

    The reduced order,proves to be beneficial in practical applications.

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  9. Unknown28 April 2017 at 06:11

    It is a good filter if the application can tolerate ripple in passband

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  10. Swastika Digha28 April 2017 at 06:23

    It's order is lesser than Butterworth filters for the same specifications

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  11. Unknown28 April 2017 at 06:42

    Its used in low-end applications.

    ReplyDelete

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