scipy.signal.firwin¶
- scipy.signal.firwin(numtaps, cutoff, width=None, window='hamming', pass_zero=True, scale=True, nyq=1.0)[source]¶
FIR filter design using the window method.
This function computes the coefficients of a finite impulse response filter. The filter will have linear phase; it will be Type I if numtaps is odd and Type II if numtaps is even.
Type II filters always have zero response at the Nyquist rate, so a ValueError exception is raised if firwin is called with numtaps even and having a passband whose right end is at the Nyquist rate.
Parameters : numtaps : int
Length of the filter (number of coefficients, i.e. the filter order + 1). numtaps must be even if a passband includes the Nyquist frequency.
cutoff : float or 1D array_like
Cutoff frequency of filter (expressed in the same units as nyq) OR an array of cutoff frequencies (that is, band edges). In the latter case, the frequencies in cutoff should be positive and monotonically increasing between 0 and nyq. The values 0 and nyq must not be included in cutoff.
width : float or None
If width is not None, then assume it is the approximate width of the transition region (expressed in the same units as nyq) for use in Kaiser FIR filter design. In this case, the window argument is ignored.
window : string or tuple of string and parameter values
Desired window to use. See scipy.signal.get_window for a list of windows and required parameters.
pass_zero : bool
If True, the gain at the frequency 0 (i.e. the “DC gain”) is 1. Otherwise the DC gain is 0.
scale : bool
Set to True to scale the coefficients so that the frequency response is exactly unity at a certain frequency. That frequency is either:
- 0 (DC) if the first passband starts at 0 (i.e. pass_zero is True)
- nyq (the Nyquist rate) if the first passband ends at nyq (i.e the filter is a single band highpass filter); center of first passband otherwise
nyq : float
Nyquist frequency. Each frequency in cutoff must be between 0 and nyq.
Returns : h : (numtaps,) ndarray
Coefficients of length numtaps FIR filter.
Raises : ValueError
If any value in cutoff is less than or equal to 0 or greater than or equal to nyq, if the values in cutoff are not strictly monotonically increasing, or if numtaps is even but a passband includes the Nyquist frequency.
See also
Examples
Low-pass from 0 to f:
>>> from scipy import signal >>> signal.firwin(numtaps, f)
Use a specific window function:
>>> signal.firwin(numtaps, f, window='nuttall')
High-pass (‘stop’ from 0 to f):
>>> signal.firwin(numtaps, f, pass_zero=False)
Band-pass:
>>> signal.firwin(numtaps, [f1, f2], pass_zero=False)
Band-stop:
>>> signal.firwin(numtaps, [f1, f2])
Multi-band (passbands are [0, f1], [f2, f3] and [f4, 1]):
>>> signal.firwin(numtaps, [f1, f2, f3, f4])
Multi-band (passbands are [f1, f2] and [f3,f4]):
>>> signal.firwin(numtaps, [f1, f2, f3, f4], pass_zero=False)