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signal processing - Area under the peak of a FFT in Python

I'm trying to do some tests before I proceed analyzing some real dataset via FFT, and I've found the following problem.

First, I create a signal as the sum of two cosines and then use rfft to to the transformation (since it has only real values):

import numpy as np
import matplotlib.pyplot as plt
from scipy.fft import rfft, rfftfreq

# Number of sample points
N = 800
# Sample spacing
T = 1.0 / 800.0

x = np.linspace(0.0, N*T, N)
y = 0.5*np.cos(10*2*np.pi*x) + 0.5*np.cos(200*2*np.pi*x)

# FFT
yf = rfft(y)
xf = rfftfreq(N, T)

fig, ax = plt.subplots(1,2,figsize=(15,5))
ax[0].plot(x,y)
ax[1].plot(xf, 2.0/N*np.abs(yf))

As it can be seen from the definition of the signal, I have two oscillations with amplitude 0.5 and frequency 10 and 200. Now, I would expect the FFT spectrum to be something like two deltas at those points, but apparently increasing the frequency broadens the peaks:

FFT

From the first peak it can be infered that the amplitude is 0.5, but not for the second. I've tryied to obtain the area under the peak using np.trapz and use that as an estimate for the amplitude, but as it is close to a dirac delta it's very sensitive to the interval I choose. My problem is that I need to get the amplitude as exact as possible for my data analysis.

EDIT: As it seems to be something related with the number of points, I decided to increment (now that I can) the sample frequency. This seems to solve the problem, as it can be seen in the figure:

FFT with more points

However, it still seems strange that for a certain number of points and sample frequency, the high frequency peaks broaden...

question from:https://stackoverflow.com/questions/65908820/area-under-the-peak-of-a-fft-in-python

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It is not strange , you have leakage of the frequency bins. When you discretize the signal (sampling) needed for the Fourier transfrom , frequency bins are created which are frequency intervals where the the amplitude is calculated. And each bin has wide which is given by the sample_rate / num_points . So , the less the number of bins the more difficult is to assign precise amplitudes to every frequency. Other problems in choosing the best sampling rate exist such as the shannon-nyquist theorem to prevent aliasing. https://en.wikipedia.org/wiki/Nyquist%E2%80%93Shannon_sampling_theorem . But depending on the problem sometimes there some custom rates used for sampling. E.g. when dealing with audio a sampling rate of 44,100 Hz is widely used , cause is based on the limits of the human hearing. So it depends also on nature of the data you want to perform analysis as you wrote. Anyway , since this question has also theoretical value , you can also check https://dsp.stackexchange.com for some useful info.


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