scipy.signal.
findfreqs#
- scipy.signal.findfreqs(num, den, N, kind='ba')[source]#
Find array of frequencies for computing the response of an analog filter.
- Parameters:
- num, denarray_like, 1-D
The polynomial coefficients of the numerator and denominator of the transfer function of the filter or LTI system, where the coefficients are ordered from highest to lowest degree. Or, the roots of the transfer function numerator and denominator (i.e., zeroes and poles).
- Nint
The length of the array to be computed.
- kindstr {βbaβ, βzpβ}, optional
Specifies whether the numerator and denominator are specified by their polynomial coefficients (βbaβ), or their roots (βzpβ).
- Returns:
- w(N,) ndarray
A 1-D array of frequencies, logarithmically spaced.
Examples
Find a set of nine frequencies that span the βinteresting partβ of the frequency response for the filter with the transfer function
H(s) = s / (s^2 + 8s + 25)
>>> from scipy import signal >>> signal.findfreqs([1, 0], [1, 8, 25], N=9) array([ 1.00000000e-02, 3.16227766e-02, 1.00000000e-01, 3.16227766e-01, 1.00000000e+00, 3.16227766e+00, 1.00000000e+01, 3.16227766e+01, 1.00000000e+02])