Windows VIs (Not in Base Package)
Owning Palette: Signal Processing VIs
Use the Windows VIs to implement smoothing windows and to perform data windowing. Example
The VIs on this palette can return general LabVIEW error codes or specific signal processing error codes.
| Palette Object | Description |
|---|---|
| Blackman-Harris Window | Applies a three-term, Blackman-Harris window to the input signal X. The data type you wire to the X input determines the polymorphic instance to use. |
| Blackman-Nuttall Window | Applies a Blackman-Nuttall window to the input sequence X. The data type you wire to the X input determines the polymorphic instance to use. |
| Blackman Window | Applies a Blackman window to the input signal X. The data type you wire to the X input determines the polymorphic instance to use. |
| Bohman Window | Applies a Bohman window to the input signal X. The data type you wire to the X input determines the polymorphic instance to use. |
| Chebyshev Window | Applies an asymmetrical Dolph-Chebyshev window to the input sequence X. The data type you wire to the X input determines the polymorphic instance to use. |
| Cosine Tapered Window | Applies a cosine tapered window to the input sequence X. The data type you wire to the X input determines the polymorphic instance to use. |
| Exact Blackman Window | Applies an Exact Blackman window to the input signal X. The data type you wire to the X input determines the polymorphic instance to use. |
| Exponential Window | Applies an exponential window to the input signal X. The data type you wire to the X input determines the polymorphic instance to use. |
| Flat Top Window | Applies a flat top window to the input sequence X. The data type you wire to the X input determines the polymorphic instance to use. |
| Force Window | Applies a force window to the input signal X. The data type you wire to the X input determines the polymorphic instance to use. |
| Gaussian Window | Applies an asymmetrical Gaussian window to the input sequence X. The data type you wire to the X input determines the polymorphic instance to use. |
| General Cosine Window | Applies a general cosine window to the input signal X. The data type you wire to the X input determines the polymorphic instance to use. |
| Hamming Window | Applies a Hamming window to the input signal X. The data type you wire to the X input determines the polymorphic instance to use. |
| Hanning Window | Applies a Hanning window to the input signal X. The data type you wire to the X input determines the polymorphic instance to use. |
| Kaiser-Bessel Window | Applies a Kaiser-Bessel window to the input sequence X. The data type you wire to the X input determines the polymorphic instance to use. |
| Modified Bartlett-Hanning Window | Applies a modified Bartlett-Hanning window to the input signal X. The data type you wire to the X input determines the polymorphic instance to use. |
| Parzen Window | Applies a Parzen window to the input signal X. The data type you wire to the X input determines the polymorphic instance to use. |
| Scaled Time Domain Window | Applies a scaled window to the input sequence X. The data type you wire to the X input determines the polymorphic instance to use. |
| Symmetric Window | Applies a symmetric window to the input sequence X. The data type you wire to the X input determines the polymorphic instance to use. |
| Triangle Window | Applies a triangular window (Bartlett Window) to the input signal X. The data type you wire to the X input determines the polymorphic instance to use. |
| Welch Window | Applies a Welch window to the input signal X. The data type you wire to the X input determines the polymorphic instance to use. |
| Window Properties | Computes the coherent gain and equivalent noise bandwidth of a window. |
Example
Refer to the labview\examples\analysis\windxmpl.llb for examples of using the Windows VIs.
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