ex082400.m

Digital signal processing using Matlab一書之範例程式

% Chapter 8: Example 8.24
%            Elliptic Lowpass Filter Design:
%                Use of the ELLIP function
%
% Digital Filter Specifications:
wp = 0.2*pi;                         %digital Passband freq in Hz
ws = 0.3*pi;                         %digital Stopband freq in Hz
Rp = 1;                              %Passband ripple in dB
As = 15;                             %Stopband attenuation in dB

% Analog Prototype Specifications:
T = 1;                               %Set T=1
OmegaP = (2/T)*tan(wp/2);            %Prewarp Prototype Passband freq
OmegaS = (2/T)*tan(ws/2);            %Prewarp Prototype Stopband freq
ep = sqrt(10^(Rp/10)-1);             % Passband Ripple parameter
Ripple = sqrt(1/(1+ep*ep));          % Passband Ripple
Attn = 1/(10^(As/20));               % Stopband Attenuation

% Analog Elliptic Filter order calculations:
ep = sqrt(10^(Rp/10)-1);             %Passband Ripple Factor
A = 10^(As/20);                      %Stopband Attenuation Factor
OmegaC = OmegaP;                     %Analog Prototype Cutoff freq
k = OmegaP/OmegaS;                   %Analog Prototype Transition Ratio;
k1 = ep/sqrt(A*A-1);                 %Analog Prototype Intermediate cal.
capk = ellipke([k.^2 1-k.^2]);
capk1 = ellipke([(k1 .^2) 1-(k1 .^2)]);
N = ceil(capk(1)*capk1(2)/(capk(2)*capk1(1)));
fprintf('\n*** Elliptic Filter Order = %2.0f \n',N)
%%*** Elliptic Filter Order =  3 

% Digital Elliptic Filter Design:
wn = wp/pi;                          %Digital Passband freq in pi units
[b,a]=ellip(N,Rp,As,wn);
[b0,B,A] = dir2cas(b,a)
%%b0 = 0.1214
%%B = 1.0000   -1.4211    1.0000
%%    1.0000    1.0000         0
%%A = 1.0000   -1.4928    0.8612
%%    1.0000   -0.6183         0