I have the following MATLAB code to compute the PSD of a signal:

```
x = linspace(0, 10, 100001);
dt = x(2) - x(1);
Fs = 1 / dt;
a1 = 1;
f1 = 500;
a2 = 10;
f2 = 2000;
y = a1 * sin(2*pi*f1*x) + a2 * sin(2*pi*f2*x);
nblock=1024;
overlap=128;
windowsel=hann(nblock);
[Pxx,f]=pwelch(y,windowsel,overlap,nblock,Fs,'onesided');
figure()
semilogy(f,Pxx, '-o')
```

I have tried to reproduce the same calculation using `welch`

in `scipy.signal`

. However, for low frequency, the behavior is clearly not the same. I have checked that the hanning window is the same in both. What other parameter can I change in order to reproduce the results?

```
import numpy as np
import matplotlib.pyplot as plt
from scipy.signal import welch, hanning
x = np.linspace(0, 10, 100001)
dt = x[1] - x[0]
fs = 1 / dt
a1 = 1
f1 = 500
a2 = 10
f2 = 2000
y = a1 * np.sin(2*np.pi*f1*x) + a2 * np.sin(2*np.pi*f2*x)
datos = y
nblock = 1024
overlap = 128
win = hanning(nblock, True)
f, Pxxf = welch(datos, fs, window=win, noverlap=overlap, nfft=nblock, return_onesided=True)
plt.semilogy(f, Pxxf, '-o')
plt.grid()
plt.show()
```

MATLAB: