NVGate Time windows

From OROS Wiki
Revision as of 07:58, 25 September 2020 by Lmagimel (talk | contribs)
Jump to navigation Jump to search

Used to define time weighting windows that can be applied to FFT blocks.

Force time.png
Filter builder 08.png
Video tutorial

Force

This setting is generally used to set up a uniform time window around the interesting part of the signal such as hammer impact, for example.

  • Window Start: Starting point of the window as a percentage of the triggered block size of the plug-in using the window. The block size is the plug-in resolution setting value multiplied by 2.56. ex: for 401 lines resolution the triggered block size is 401*2.56 = 1024 samples.
  • Window Stop: Stopping point of the window in percentage of the triggered block size of the plug-in using the window. The block size is the plug-in resolution setting value multiplied by 2.56. ex: for 401 lines resolution the triggered block size is 401*2.56 = 1024 samples.

Note: it is possible to adjust the start and stop values graphically by using drag and drop on the graph.

Response

This setting is generally used to set up a uniform time window around the interesting part of the signal such as the response of an accelerometer after a hammer impact, for example.

  • Window Stop: Stopping point of the window as a percentage of the triggered block size of the plug-in using the window. The block size is the plug-in resolution setting value multiplied by 2.56. ex: for 401 lines resolution the triggered block size is 401*2.56 = 1024 samples.
  • Flat top Start: Starting point of the window flat top as percentage of the triggered block size of the plug-in using the window. The block size is the plug-in resolution setting value multiplied by 2.56. ex: for 401 lines resolution the triggered block size is 401*2.56 = 1024 samples.
  • Flat top Stop: Stopping point of the window flat top as a percentage of the triggered block size of the plug-in using the window. The block size is the plug-in resolution setting value multiplied by 2.56. ex: for 401 lines resolution the triggered block size is 401*2.56 = 1024 samples.
  • Decreasing point X: Abscissa of the intermediate point that determines the decreasing coefficient of the exponential function as a percentage of the triggered block size of the plug-in using the window. The block size is the plug-in resolution setting value multiplied by 2.56. ex: for 401 lines resolution the triggered block size is 401*2.56 = 1024 samples.
  • Decreasing 'point Y': Ordinate of the intermediate point that determines the decreasing coefficient of the exponential function as a percentage of the value of the signal.
  • Exponential coefficient: this coefficient is calculated with the coordinates of Decreasing point Y and Decreasing point X.

In this example, it then gives

Note: a time window can be applied to several plug-in analyzer channels. The modification of the time window values will be applied to all the channels the time window is active.

Note: it is possible to adjust the values graphically by using drag and drop on the graph.