Table Of Contents
Window Properties (By Name) (G Dataflow)
Computes the coherent gain and equivalent noise bandwidth of a window according to the window type.
size
Window size.
size must be greater than 0.
Default: 0
window type
Type of window for calculating the properties.
| Name | Value | Description |
|---|---|---|
| Rectangle | 0 | Applies a rectangle window. |
| Hanning | 1 | Applies a Hanning window. |
| Hamming | 2 | Applies a Hamming window. |
| Blackman-Harris | 3 | Applies a Blackman-Harris window. |
| Exact Blackman | 4 | Applies an Exact Blackman window. |
| Blackman | 5 | Applies a Blackman window. |
| Flat Top | 6 | Applies a Flat Top window. |
| 4 Term B-Harris | 7 | Applies a 4 Term B-Harris window. |
| 7 Term B-Harris | 8 | Applies a 7 Term B-Harris window. |
| Low Sidelobe | 9 | Applies a Low Sidelobe window. |
| Blackman Nutall | 11 | Applies a Blackman Nutall window. |
| Cosine Tapered | 12 | Applies a Cosine Tapered window. |
| Triangle | 30 | Applies a Triangle window. |
| Bartlett-Hanning | 31 | Applies a Bartlett-Hanning window. |
| Bohman | 32 | Applies a Bohman window. |
| Parzen | 33 | Applies a Parzen window. |
| Welch | 34 | Applies a Welch window. |
| Kaiser | 60 | Applies a Kaiser window. |
| Dolph-Chebyshev | 61 | Applies a Dolph-Chebyshev window. |
| Gaussian | 62 | Applies a Gaussian window. |
| Force | 64 | Applies a Force window. |
| Exponential | 65 | Applies an Exponential window. |
Default: Rectangle
error in
Error conditions that occur before this node runs.
The node responds to this input according to standard error behavior.
Standard Error Behavior
Many nodes provide an error in input and an error out output so that the node can respond to and communicate errors that occur while code is running. The value of error in specifies whether an error occurred before the node runs. Most nodes respond to values of error in in a standard, predictable way.
Default: No error
window parameter
A value that affects the output coefficients when window type is Kaiser, Gaussian, or Dolph-Chebyshev.
If window type is any other type of window, this node ignores this input.
This input represents the following information for each type of window:
- Kaiser—Beta parameter
- Gaussian—Standard deviation
- Dolph-Chebyshev—The ratio of the main lobe to the side lobe, s, expressed in decibels
Default: NaN—Causes this node to set beta to 0 for a Kaiser window, the standard deviation to 0.2 for a Gaussian window, and s to 60 dB for a Dolph-Chebyshev window
eq noise bw
Equivalent noise bandwidth of the window defined by the window type.
coherent gain
Coherent gain of the window defined by the window type.
error out
Error information.
The node produces this output according to standard error behavior.
Standard Error Behavior
Many nodes provide an error in input and an error out output so that the node can respond to and communicate errors that occur while code is running. The value of error in specifies whether an error occurred before the node runs. Most nodes respond to values of error in in a standard, predictable way.
Algorithm for Window Properties
The following equations define the coherent gain (CG) and equivalent noise bandwidth (ENBW) of a given window:
where w i are the window coefficients and n is the number of coefficients.
Where This Node Can Run:
Desktop OS: Windows
FPGA: Not supported
Web Server: Not supported in VIs that run in a web application