From da6b455dc35d1f9db153f1a7258549cd8e23f6b2 Mon Sep 17 00:00:00 2001 From: Divyansh Manocha Date: Fri, 23 Feb 2018 15:04:55 +0000 Subject: Adding lab5 --- lab5/RTDSP/Matlab/m_filter.m | 29 +++++++++++++++++++++++++++++ 1 file changed, 29 insertions(+) create mode 100644 lab5/RTDSP/Matlab/m_filter.m (limited to 'lab5/RTDSP/Matlab/m_filter.m') diff --git a/lab5/RTDSP/Matlab/m_filter.m b/lab5/RTDSP/Matlab/m_filter.m new file mode 100644 index 0000000..581c631 --- /dev/null +++ b/lab5/RTDSP/Matlab/m_filter.m @@ -0,0 +1,29 @@ +function Hd = m_filter +%M_FILTER Returns a discrete-time filter object. + +% MATLAB Code +% Generated by MATLAB(R) 9.2 and the Signal Processing Toolbox 7.4. +% Generated on: 15-Feb-2018 14:19:05 + +% Equiripple Bandpass filter designed using the FIRPM function. + +% All frequency values are in Hz. +Fs = 8000; % Sampling Frequency + +Fstop1 = 355; % First Stopband Frequency +Fpass1 = 415; % First Passband Frequency +Fpass2 = 1200; % Second Passband Frequency +Fstop2 = 1270; % Second Stopband Frequency +Dstop1 = 0.0039810717055; % First Stopband Attenuation +Dpass = 0.028774368332; % Passband Ripple +Dstop2 = 0.0039810717055; % Second Stopband Attenuation +dens = 20; % Density Factor + +% Calculate the order from the parameters using FIRPMORD. +[N, Fo, Ao, W] = firpmord([Fstop1 Fpass1 Fpass2 Fstop2]/(Fs/2), [0 1 ... + 0], [Dstop1 Dpass Dstop2]); + +% Calculate the coefficients using the FIRPM function. +Hd = firpm(N, Fo, Ao, W, {dens}); + +% [EOF] -- cgit