Filter parameters: High-pass: Design a highpass filter with no more than 3 dB of ripple in a passband at 16000 Hz and above, and at least 60 dB of attenuation in the stopband from 0 to 400 Hz. Find the filter order and cutoff frequency.

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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H5.
Filter parameters:
High-pass: Design a highpass filter with no more
than 3 dB of ripple in a passband at 16000 Hz
and above, and at least 60 dB of attenuation in
the stopband from 0 to 400 Hz. Find the filter
order and cutoff frequency.
Band-pass: Design a bandpass filter with no
more than 3 dB of ripple in a passband from 160
to 4000 Hz and upwards, and at least 60 dB of
attenuation in the stopband from 0 to 40 Hz and
from 16000 onwards. Find the filter order and
cutoff frequency.
System response:
Consider a Butterworth low-pass filter of order N = 5 and cutoff
frequency wc = 1
(a) Find the 2K poles of H(s)H(-s).
(b) Determine H (s).
Transcribed Image Text:Filter parameters: High-pass: Design a highpass filter with no more than 3 dB of ripple in a passband at 16000 Hz and above, and at least 60 dB of attenuation in the stopband from 0 to 400 Hz. Find the filter order and cutoff frequency. Band-pass: Design a bandpass filter with no more than 3 dB of ripple in a passband from 160 to 4000 Hz and upwards, and at least 60 dB of attenuation in the stopband from 0 to 40 Hz and from 16000 onwards. Find the filter order and cutoff frequency. System response: Consider a Butterworth low-pass filter of order N = 5 and cutoff frequency wc = 1 (a) Find the 2K poles of H(s)H(-s). (b) Determine H (s).
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