Rectangular function generator
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Transcript of Rectangular function generator
Rectangular function generatory=[];for x=-T:T/1000:Tz=(-T/2<x&x<T/2);y=[y z];endx=-T:T/1000:T;plot(x,y)
Triangular function generator
y=[];for x=-T:T/1000:Tz=(-T/2<x&x<0)*(2/T*x+1)+(0<x&x<T/2)*(-2/T*x+1)+(x==0);y=[y z];endx=-T:T/1000:T;plot(x,y)
Finding fourier coefficients of rectangular pulse train
x=[];for v=-(N-1)/2:(N-1)/2 a=1/T*int(exp(-i*v*2*pi/T*b),b,-T/4,T/4); x=[x a];endx
Finding fourier coefficients of triangular pulse train
x=[];for v=-(N-1)/2:(N-1)/2 a=1/T*(int((2/T*b+1)*exp(-i*v*2*pi/T*b),b,-T/2,0)+int((-2/T*b+1)*exp(-i*v*2*pi/T*b),b,0,T/2)); x=[x a];endx
Plotting reconstructed signal for a given number of Fourier coefficients
function z=time(x,T);y=0;g=[];n=(length(x)-1)/2;for t=-T:T/1000:T; y=0; for k=1:(2*n+1); m=x(k)*exp(j*(k-n-1)*2*pi/T*t); y=y+m;endg=[g y];endt=-T:T/1000:T;plot(t,g)
Part 2 (N=7)
Part 2(N=9)
Part 2 (N=11)
Part2(N=21)
Part 2(N=51)
Part1(N=7)
Part1(N=9)
Part1(N=11)
Part 1(N=21)
Part 3(N=11)
Part 3(N=21)
function z=delay(x)
y=[];for n=1:length(x) g=x(n)*exp(-j*2*pi/5*2.5*(n-1-(length(x)-1)/2)) y=[y g];endy
Part4 (N=51)
function z=diff(x)y=[];for n=1:length(x) g=x(n)*(j*2*pi/5*(n-1-(length(x)-1)/2)) y=[y g];endy