Fourier Series Example Script
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Sampled Fourier Series
This is a script that plots a few terms of the Fourier series of a square wave and then plots some samples of it in red *'s. You can copy this and paste it into your editor and run it from octave or just paste it into an octave window to see the plot.
% This script plots a Fourier Series for a Square Wave clf; t=0:.01:10; T=2.5 M=50 sum1=0; for m=1:2:M, sum1 = sum1+4/m/pi*sin(m*pi/2)*cos(2*pi*m*t/T); end plot(t,sum1,'b-',t(1:10:end),sum1(1:10:end),'r*') title('Fourier Series Representation of a Square Wave') xlabel('time (seconds)') ylabel('Function') grid on; axis([0,10,-2,2]) legend('Five Terms','Five Terms Sampled') print("squarewave.png","-dpng") % Prints the plot to a png file called squarewave.png
Fourier Series Solution for Sinusoidal Steady State Response of a Low Pass Filter
This goes with the class notes for October 1, 2010.
clf; t=0:.01:10; T=pi; R=2; C=1; M=101; vin=0; current =0; for n=1:2:M, vin = vin+1./(n.*pi).*(3.*sin(pi.*n./2)-sin(3.*n.*pi. /2)).*cos(2.*pi.*n.*t./T); current = current+1./(sqrt(R.^2+1./... ((2.*pi.*n./T).^2*C.^2))).*1./(n.*pi).*(3.*sin(pi.*n./2)... -sin(3.*n.*pi./2)).*cos(2.*pi.*n.*t./T-atan2(-1,2*pi*n/T*R*C)); end vout=vin-R.*current; plot(t,vin,'b-',t,vout) title('Fourier Series Representation of a Square Wave') xlabel('time (seconds)') ylabel('Function') grid on; axis([0,10,-2,2]) legend('Input Voltage','Output Voltage') print("LowPass.png","-dpng") % Prints the plot to a png file called squarewave.png
The output produces a nice plot.