How to find frequency of given signal?

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Shanmuka
Shanmuka on 10 Jan 2023
Commented: Paul on 10 Jan 2023
fs=2400;
fo=50;
t=0:100;
xp=sin(2*pi*(49.98/fs)*t)+sin(2*pi*(50.01/fs)*t)+sin(2*pi*(49.99/fs)*t)+sin(2*pi*(50.01/fs)*t);
How to find frequency and rate of change of frequency?

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Answers (2)

Walter Roberson
Walter Roberson on 10 Jan 2023
Ran in:
The frequency is the reciprocal of the time needed for all of the components to first complete an integer number of cycles simultaneously:
format long g
fs = 2400
fs =
2400
time_for_one_cycle = lcm(lcm(lcm(lcm(4998, 5001), 4999), 5001), fs*100)
time_for_one_cycle =
1.66599993336e+15
frequency = 1/time_for_one_cycle
frequency =
6.0024012004802e-16
[49.98/fs, 50.01/fs, 49.99/fs, 50.01/fs] * time_for_one_cycle
ans = 1×4
1.0e+00 * 34694448612222 34715273611389 34701390278611 34715273611389
That last line shows that at that time, the different frequencies have indeed completed an integer number of cycles.
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Walter Roberson
Walter Roberson on 10 Jan 2023
Also note that the units for the xcorr is "lag" (number of signal points) and the units for the other two lines is "seconds".
Paul
Paul on 10 Jan 2023
Ran in:
@Walter Roberson
I got a different answer (Reference)
fs = sym(2400);
syms t real
%fo=50;
%t=0:100;
T = fs./[49.98 50.01 49.99 50.01];
xp(t) = sum(sin(2*pi./T*t));
Ratios of T1/Tj
ratios = simplifyFraction(T(1)./T(2:end))
ratios = 
They are rational, so xp(t) is periodic
Get the LCM of the denominators
[~,den] = numden(ratios);
K = lcm(den);
The fundamental period of xp(t) is (i.e., smallest value of T that satisfies x(t) = x(t + T) )
Txp = K*T(1)
Txp = 
240000
Verify that xp(t) has period Txp
simplify(xp(t) - xp(t + Txp))
ans = 
0
Your solution is a period in that it satisfies the defintion of a periodic signal, but its not the fundamental period
time_for_one_cycle = lcm([4998, 5001, 4999, 5001,fs*100])
time_for_one_cycle = 
1665999933360000
simplify(xp(t) - xp(t + time_for_one_cycle))
ans = 
0

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Image Analyst
Image Analyst on 10 Jan 2023
What do you mean by frequency? That signal has several frequencies in it, not just one. From Fourier theory, any signal can be thought of as a sum of all frequencies. In general you can find out the relative power in all frequencies in a signal by using fft or pwelch
  1 Comment
Walter Roberson
Walter Roberson on 10 Jan 2023
When frequency is considered to be the number of complete cycles per second, then you need to figure out the length of a complete cycle. Which I do in my Answer... it's pretty long. And the answer is different than the average number of pairs of zero crossings per second.

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