1. A speech signal with bandwidth (BW) 10 KHz is sampled at 20 KHz. Suppose that speech signal is corrupted by three sinusoids of frequencies F1 = 10 KHz, F2 = 7780 Hz and F3 = 6667 Hz. (a) Design a FIR filter that removes these frequencies components. (b) Choose the gain of the filter such that |H(0) = 1 and then plot the log magnitude response and the phase response of the filter. (c) Does the filter fulfill your objectives? Do you recommend the use of this filter application? a practical
1. A speech signal with bandwidth (BW) 10 KHz is sampled at 20 KHz. Suppose that speech signal is corrupted by three sinusoids of frequencies F1 = 10 KHz, F2 = 7780 Hz and F3 = 6667 Hz. (a) Design a FIR filter that removes these frequencies components. (b) Choose the gain of the filter such that |H(0) = 1 and then plot the log magnitude response and the phase response of the filter. (c) Does the filter fulfill your objectives? Do you recommend the use of this filter application? a practical
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:1. A speech signal with bandwidth (BW) 10 KHz is sampled at 20 KHz. Suppose that speech
signal is corrupted by three sinusoids of frequencies F1 = 10 KHz, F2 = 7780 Hz and F3 = 6667
Hz.
(a) Design a FIR filter that removes these frequencies components.
(b) Choose the gain of the filter such that |H(0) = 1 and then plot the log magnitude response
and the phase response of the filter.
(c) Does the filter fulfill your objectives? Do you recommend the use of this filter
application?
a practical
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