代码搜索结果
找到约 10,000 项符合
Raspberry Pi 的代码
ex072500.m
% Chapter 7 Example 7.25
% Highpass filter design using PM algorithm
%
ws = 0.6*pi; wp = 0.75*pi; Rp = 0.5; As = 50;
delta1 = (10^(Rp/20)-1)/(10^(Rp/20)+1);
delta2 = (1+delta1)*(10^(-As
ex070300.m
% Chapter 7: Example 7.3 Amplitude vs Magnitude response
%
h = [1,1,1];
w = [0:500]*pi/500;
H = freqz(h,1,w);
magH = abs(H); phaH = angle(H);
ampH = ones(1,501)+2*cos(w); angH = -w;
subplot(1,1
ex071900.m
% Chapter 7: Example 7.19
% Freq. Samp. Tech.: Differentiator
%
M = 33; alpha = (M-1)/2; Dw = 2*pi/M;
l = 0:M-1; wl = Dw*l;
k1 = 0:floor((M-1)/2); k2 = floor((M-1)/2)+1:M-1;
Hrs = [j*
ex07150a.m
% Chapter 7: Example 7.15
% Freq. Samp. Tech.: Lowpass,Optimum method
%
% (a) T1 = 0.5
M = 40; alpha = (M-1)/2; l = 0:M-1; wl = (2*pi/M)*l;
Hrs = [ones(1,5),0.5,zeros(1,29),0.5,ones(1,
errorfun.m
% Chapter 7 Figure mfile:
% Mfile to draw figures on equiripplr amplitude response,
% error function, and weighted error function.
% a) equiripple amplitude response
figu
ex030400.m
% Chapter 3: Example 3.4:
% DTFT of finite duration seq using mat-vec operation
%
n = -1:3; x = 1:5; % sequence x(n)
k = 0:500; w = (pi/500)*k; % [0, pi] axis divided in
ex030600.m
subplot(1,1,1)
n = -5:5; x = (-0.9).^n;
k = -200:200; w = (pi/100)*k;
X = x * (exp(-j*pi/100)) .^ (n'*k);
magX = abs(X); angX =angle(X);
subplot(2,1,1); plot(w/pi,magX);grid
axis([-2,2,0,15])
x
ex030900.m
n = 0:100; x = cos(pi*n/2);
k = -100:100; w = (pi/100)*k; % frequency between -pi and +pi
X = x * (exp(-j*pi/100)).^(n'*k); % DTFT of x
%
y = exp(j*pi*n/4).*x; % signal mu
ex030300.m
w = [0:1:500]*pi/500; % [0, pi] axis divided into 501 points.
X = exp(j*w) ./ (exp(j*w) - 0.5*ones(1,501));
magX = abs(X); angX = angle(X);
realX = real(X); imagX = imag(X);
subplot(2,2,1); plot(
ex039900.m
w = [-100:100]*pi/100; % frequency between -pi and +pi
N = 5;
X1 = sin((w+eps)*N/2)./sin((w+eps)/2);
N = 15;
X2 = sin((w+eps)*N/2)./sin((w+eps)/2);
N = 25;
X3 = sin((w+eps)*N/2)./sin((w+eps)/2);