OROS Wiki - User contributions [en]

Sound Power Install

2022-05-05T06:57:43Z

Credaelli: /* Equipment required for the installation */

''The Sound Power Solution is meant to work in combination with its associated Analyzer software '''NVGATE'''''''®''''. In this way, the full power of the '''NVGATE'''''''® ''''platform and associated multi channel '''INSTRUMENT HARDWARE''' is made fully available for your one clear objective: measuring Sound Power.''

This "'''INSTALLATION GUIDE"''' will guide you through the installation of the Sound Power software and help you run it for the first time. It will explain in particular the way the installation should be done in parallel to NVGATE® and to the Instrument Hardware.

==First Check==
====Recommended PC configuration====

See [[PC Requirement]] page.

====Equipment required for the installation====
* [https://orossas.sharepoint.com/:u:/g/support/EYPSdEUDfC5CpuonjSUXYGYBwalc8ph7me0QbEo7Od_gDA?e=6ve46p OROS Sound Power V3.20.2] september 2021 working with NVGate 2021 (V14.00.004) or upper.

* A NVGate dongle that is OROS Sound Power authorized.

==Installation==
===Installation of the NVGate software===
[[NVGate_Installation_and_Connection|'''NVGate'''''' ''' '''must be installed''']] properly on the PC before starting the installation of Sound Power.

===Installation of the Sound Power Solution===
Ensure NVGate is installed and running on the PC before starting the installation of Sound Power.

Run the "setup.exe" program, and the following window is displayed:

[[Image:SP install 1.png|border|none|500px]]

Click on "Next <nowiki>></nowiki>", and the following window is displayed:

[[Image:SP install 2.png|border|none|500px]]

Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\Sound Power. Installing Sound Power in the NVGate directory (as it is by default) enables links between the Sound Power Online Help and the NVGate Online Help.

Click on “Install” to begin the installation, and wait until the following window is displayed:

[[File:image_2021-05-10_113928.png|500px]]

Click on “Finish”, and the following window is displayed:

[[Image:SP install 3.png|border|none|500px]]

If NVGate is installed on the same PC:

* Choose "Local" and indicate the path for "NVGate.exe". By default, it is: "C:\OROS\Programs\NVGate\NVGate.exe".

If you are using NVGate from another PC:

* Choose "Remote" and indicate the IP address of this second PC.

If later you want to change the Sound Power configuration:

* Launch SoundPowerConfig.exe" from "C:\OROS\Programs\Sound Power".

At this stage:

Plug in the '''Dongle''' to use Sound Power in '''Office Mode'''

Plug in the '''Hardware''' to use Sound Power in the '''Connected Mode'''.

And then, run "Sound Power".

The following window is displayed:

[[Image:SP start.png|border|none|500px]]

You can create a new setup by choosing the Standard, the Surface type and the Number of positions of your experiment or you can load a setup that is already created.

Click on "OK".

If NVGate has not been started previously, the following window is first displayed:

[[Image:SP operator manager.png|border|none|300px]]

Choose to start as operator or manager using a password.

''Notice'''': The access level for the first user has to be "full".''

Then, the following window is displayed:

[[Image:SP NVGate connection window.png|border|none|500px]]

Choose to start Sound Power in "Connection to hardware" or in "Office mode".

===Updating the Software version===
'''Uninstall the previous version of Sound Power''' installed on the PC. Then '''Start the installation of the new version'''. Please follow the procedure described above.

----

===Troubleshooting===

''Sound Power may not start. In this case, one of the following error messages is returned:''

'''« File Sound Power.ini not found ! »'''

{|border="0" cellspacing="2" width="100%"

|''Run the Sound Power configuration program (Launch "SoundPowerConfig.exe" from "C:\OROS\Programs\Sound Power")''

|}
'''« File Sound Power.ini not valid ! »'''

{|border="0" cellspacing="2" width="100%"
|''Run the Sound Power configuration program (Launch "SoundPowerConfig.exe" from "C:\OROS\Programs\Sound Power")''

|}

'''« Couldn<nowiki>'</nowiki>t start NVGate ! »'''

* ''Check the path of "NVGate.exe" in the Sound Power configuration program (Launch "SoundPowerConfig.exe" from "C:\OROS\Programs\Sound Power")''
'''« Connection to NVGate has failed ! »'''

1. If the NVGate location is = Local:

* ''Check that NVGate is running. If not, escape from Sound Power and run it ''again''.
* ''Check that NVGate can start on its side.''

2. If NVGate location is = Remote:

* ''Check that NVGate is running on the remote PC.''
* ''Check that the IP address of the remote PC is correct in the Sound Power configuration program (Launch "SoundPowerConfig.exe" from "C:\OROS\Programs\Sound Power").''
'''« You don<nowiki>'</nowiki>t have the permission to use OROS Sound Power ! »'''

* ''Ensure that you are using a dongle that is configured for Sound Power''
* ''Contact your OROS Agent''
'''« Sound Power project not found ! »'''
* ''Check the path of "NVGATE.EXE" in the Sound Power configuration program (Launch "SoundPowerConfig.exe" from "C:\OROS\Programs\Sound Power") and validate (press "OK) in Local. If you are operating Sound Power in a Remote location, copy the "Sound Power" directory from the folder of installation of Sound Power into the default base.''

Sound Power 3 20

2022-05-05T06:56:21Z

Credaelli: /* Download */

=Download=
Sound Power version 3.20 can be downloaded [[Sound_Power_Install|here]]. 
Compatibility with NVGate V14.00.004 or upper.

=New functions=

==New commands available==

New commands are available to customize the start of Sound Power. They can be used in cmd (right after the commande SoundPower.exe) or also changing the Sound Power shortcut properties:

[[File:SP_shortcut_properties.jpg|400px]]

All the commands can be combined together, for example:
SoundPower.exe -project=myProjectName -setup="C:\OROS\Sound Power data\Setups\mySetup.xls" -nvgarg="online -ListHardIpAddr=223.255.253.50 -silent"

The commands are detailed in the following sections.

===Start SP with a predefined project===
-project=myProjectName

===Start SP with a predefined setup===
-setup="C:\OROS\Sound Power data\Setups\mySetup.xls"

===Start SP directly in the connected mode===
-nvgarg="online -ListHardIpAddr=223.255.253.50 -silent"

With this command the NVGate start window is skipped. Sound Power will start NVGate directly in the connected mode. The analyzer's IP address must be mentioned.
With the optional argument -silent, NVGate splash screen will not be displayed.

The same command can be used to start SP in office mode:
-nvgarg="office"

===Allow OROS Drive===
-orosdrive=4006 
Orosdrive enables the use of further commands to drive SoundPower with an external program. Contact OROS Customer Care for more information.

==User identification==

It is possible to skip the user identification: the SoundPower.usr file has to be modified for that. You can download a modified SoundPower.usr file [https://orossas.sharepoint.com/:u:/g/support/EY0od4QCRf5Bg-mf8jvWp3QB4wXC4Hu12abArYeYZxivNA?e=3xUdmb here]. It should be placed in both NVGate and SoundPower folders.

===How to modify SoundPower.usr?===

In NVGate folder, rename SoundPower.usr in NVGate.usr. Start NVGate. In the General preferences, activate "Skip user identification". Close NVGate. Rename NVGate.usr in SoundPower.usr. Copy SoundPower.usr in the Sound Power folder.

Restricted mode: SP operator cannot save the changes made in an existing setup. If any changes are made in the setup, they will not be saved when leaving SoundPower. This is thought to secure the setup and avoid any overwriting issues by mistake. It is anyway possible to switch user during the SoundPower session (click on user/change...). If you switch to the user SP manager, you then have the possibility to save the setup.

==Frequency range for the overall level==
The new function of NVGate 2021, allowing the user to choose the low and high frequencies for the overall level computation in OCT Plug-in has been integrated in Sound Power.

===How to benefit from this function?===
- This function is compatible with OR3X TW analyzers only. V1 and V2 hardware series (including OR34) are not compatible. 
- Make sure to use a compatible Sound Power project. This project is installed automatically for a first installation of Sound Power. If a previous version was installed on your computer, replace the "Sound Power" project under C:\OROS\NVGate data\Projects with [https://orossas.sharepoint.com/:f:/g/support/Eg_Ca475o49NvznR5yf6S0MBe9fKoopdlj-5DZ6Px6z-dA?e=wfW5EA this one]. 
- The low and high frequencies used for the computation of the overall level can be found in the Setup Browser, under K correction / Frequency range / Sound Power level. If you are using a setup built with a previous version, the settings cannot be modified but the measurements can be performed anyway. Contact OROS Customer Care to adjust the setup to enable the modification of the frequency range. 

Note: If your analyzer is not compatible with ths function, it is necessary to use the [https://orossas.sharepoint.com/:f:/g/support/EkP5WKb37FhIqvyZu2dNBKgBAlFe-XcrpcRKJLwgMDpxNw?e=Vq9kpT following Sound Power project].

=Update of the Excel templates=
The Sound Power templates delivered with Sound Power software have been updated: 
- previously, the K2 max value was 2. To comply with ISO 3744:2010, K2 max value is now 4. 
- addition of the absolute criteria for the background noise (ISO 3744:2010, Section 4.2.2). If the background noise measured in the room is lower or equal to the spectrum given in the standard and the source level is above this spectrum at each frequency band, the background noise condition is fulfilled.

Sound Power 3 20

2022-05-05T06:55:06Z

Credaelli: /* Download */

=Download=
Sound Power version 3.20 can be downloaded [[Sound_Power_Install|here]]
compatibility : NVGate V14.00.004 or upper

=New functions=

==New commands available==

New commands are available to customize the start of Sound Power. They can be used in cmd (right after the commande SoundPower.exe) or also changing the Sound Power shortcut properties:

[[File:SP_shortcut_properties.jpg|400px]]

All the commands can be combined together, for example:
SoundPower.exe -project=myProjectName -setup="C:\OROS\Sound Power data\Setups\mySetup.xls" -nvgarg="online -ListHardIpAddr=223.255.253.50 -silent"

The commands are detailed in the following sections.

===Start SP with a predefined project===
-project=myProjectName

===Start SP with a predefined setup===
-setup="C:\OROS\Sound Power data\Setups\mySetup.xls"

===Start SP directly in the connected mode===
-nvgarg="online -ListHardIpAddr=223.255.253.50 -silent"

With this command the NVGate start window is skipped. Sound Power will start NVGate directly in the connected mode. The analyzer's IP address must be mentioned.
With the optional argument -silent, NVGate splash screen will not be displayed.

The same command can be used to start SP in office mode:
-nvgarg="office"

===Allow OROS Drive===
-orosdrive=4006 
Orosdrive enables the use of further commands to drive SoundPower with an external program. Contact OROS Customer Care for more information.

==User identification==

It is possible to skip the user identification: the SoundPower.usr file has to be modified for that. You can download a modified SoundPower.usr file [https://orossas.sharepoint.com/:u:/g/support/EY0od4QCRf5Bg-mf8jvWp3QB4wXC4Hu12abArYeYZxivNA?e=3xUdmb here]. It should be placed in both NVGate and SoundPower folders.

===How to modify SoundPower.usr?===

In NVGate folder, rename SoundPower.usr in NVGate.usr. Start NVGate. In the General preferences, activate "Skip user identification". Close NVGate. Rename NVGate.usr in SoundPower.usr. Copy SoundPower.usr in the Sound Power folder.

Restricted mode: SP operator cannot save the changes made in an existing setup. If any changes are made in the setup, they will not be saved when leaving SoundPower. This is thought to secure the setup and avoid any overwriting issues by mistake. It is anyway possible to switch user during the SoundPower session (click on user/change...). If you switch to the user SP manager, you then have the possibility to save the setup.

==Frequency range for the overall level==
The new function of NVGate 2021, allowing the user to choose the low and high frequencies for the overall level computation in OCT Plug-in has been integrated in Sound Power.

===How to benefit from this function?===
- This function is compatible with OR3X TW analyzers only. V1 and V2 hardware series (including OR34) are not compatible. 
- Make sure to use a compatible Sound Power project. This project is installed automatically for a first installation of Sound Power. If a previous version was installed on your computer, replace the "Sound Power" project under C:\OROS\NVGate data\Projects with [https://orossas.sharepoint.com/:f:/g/support/Eg_Ca475o49NvznR5yf6S0MBe9fKoopdlj-5DZ6Px6z-dA?e=wfW5EA this one]. 
- The low and high frequencies used for the computation of the overall level can be found in the Setup Browser, under K correction / Frequency range / Sound Power level. If you are using a setup built with a previous version, the settings cannot be modified but the measurements can be performed anyway. Contact OROS Customer Care to adjust the setup to enable the modification of the frequency range. 

Note: If your analyzer is not compatible with ths function, it is necessary to use the [https://orossas.sharepoint.com/:f:/g/support/EkP5WKb37FhIqvyZu2dNBKgBAlFe-XcrpcRKJLwgMDpxNw?e=Vq9kpT following Sound Power project].

=Update of the Excel templates=
The Sound Power templates delivered with Sound Power software have been updated: 
- previously, the K2 max value was 2. To comply with ISO 3744:2010, K2 max value is now 4. 
- addition of the absolute criteria for the background noise (ISO 3744:2010, Section 4.2.2). If the background noise measured in the room is lower or equal to the spectrum given in the standard and the source level is above this spectrum at each frequency band, the background noise condition is fulfilled.

NVGate Tools: EditSignal

2022-04-19T13:56:33Z

Credaelli: /* Package composition installation */

The "Edit Signal" allows a user to edit part of time signal. It does not affect the initial signal file data. It creates a new file according to the requested modification.

===Package composition installation===
Download : [https://orossas.sharepoint.com/:f:/g/support/Egriw5nHJ25IpcnIv8wIAj4BGazn5QTE-Z2ZMHsq4MeIDA?e=L5otOE Here]
* NVGate add-on tool "Edit Signal": ''EditSignal.exe''
* It is advised to put the Add-on tool within the NVGate Link Directory "C:\OROS\NVGate data\Links"
* Compatible with NVgate V12.00 or later.

==Video Presentation==
<youtube>https://youtu.be/ljGK0Fh3Jo4</youtube>
==Edit Signal Overview==

The "Edit Signal" allows a user to edit part of time signal. It does not affect the initial signal file data, and creates a new file according to the requested modification.

Edit signal should be done according to this step by step procedure:

1- Load and preview signal, only the signal window should be opened

2- Start the "Edit Signal" Add on, from Link

3- Select a mode from Edit Signal

* Zero : Remove all data, set to "zero" for selected part of current track
* Zero All : Remove all data, set to "zero" for selected part of all tracks
* Mean : Interpolate data from selected part of current track
* Cut all : Remove a selected part for all tracks
4- Apply "Free Marker"

5- Compute new Signal

It is possible to affect several parts of signal with loop on steps "3-4" before computing a new signal.

==How To Use==
'''Step by step overview'''

Edit signal should be done according to the step by step procedure:

1- Load and preview signal, only the signal window should be opened:
[[Image:EditSignal_05.png|framed|none]]

2- Start the "Edit Signal" Add on, from Link toolbar:

[[Image:EditSignal_06.png|framed|none]]

3- Select mode from Edit Signal:

[[Image:EditSignal_02.png]]

4- Apply "Free Marker" to select area to "cut":
[[File:part4.png|framed|none]]

5- "Generate Signal"

[[Image:EditSignal_03.png|framed|none]]

A new file is generated within the same project as the original signal file. For example, signal file "FRF200_3_out" has been created after cutting selected part of signal "FRF200_3"

==Edit Signal Options==
'''"Zero"'''

Remove all data : set to "zero" for selected part of current track

[[Image:EditSignal_07.png|framed|none]]

'''"Zero All"'''

Remove all data: set to "zero" for selected part of all tracks

[[Image:EditSignal_08.png|framed|none]]

'''"Mean"'''

Interpolate data for selected part of current track

[[Image:EditSignal_09.png|framed|none]]

This option is useful for track with DC component

'''"Cut all"'''

Remove a selected part for all tracks

[[Image:EditSignal_10.png|framed|none]]

'''Features'''

Current Edit Signal" tool has the following features:

* All tracks within the signal file must be in the same sampling rate
* This tool can not manage Ext-Sync tracks
* Size of edit file depends on available RAM of the PC

Note : Does not work with tachometer records as Ext synch.

NVGate

2022-04-13T14:39:45Z

Credaelli: /* NVGate Add on */

{{#seo:
|title=NVGate Noise and vibration software
|keywords= NVgate manual, nois and vibration soft<are, FFT analyzer software
|description=How to use NVGate acoutsic and vibration software ? Official and complete documentation on this page.
}}
{{Software
|Logo= [[image:general-B-256.png|90px]]
|Name= NVGate Software
|Screenshot=[[File:nvGate 7 550pxls.jpg|120px]]
|Developers= [http://www.OROS.com Oros SA]
|Type= [https://en.wikipedia.org/wiki/Data_acquisition Data Acquisition], [https://en.wikipedia.org/wiki/Signal_processing Signal processing], [https://en.wikipedia.org/wiki/Noise Noise] and [https://en.wikipedia.org/wiki/Vibration Vibration], [https://en.wikipedia.org/wiki/Spectrum_analyzer spectrum analyser]
|First release= 2001

|Latest Version= NVGate 2022 - February 2022
|Download= [[NVGate_2022:_Install_Process|Here]]
|Update=
|Operating system= Windows 10 - Windows 11 - (and W7) ([[PC_Requirements|see PC requirements]])
|Language= English, [https://www.toyo.co.jp/mecha/products/detail/oros-fft.html Japanese], Russian
|Licence = Proprietery
|website=[http://www.oros.com oros.com]; [[FFT Spectrum Analyzer Multipurpose#Full technical support|Contact support]] and here!
}}

+========================='''<big>NVGate 2022 now available !</big>'''======================+
==Install NVGate 2022==

[[NVGate_2022:_Install_Process|Update to the latest version]] 

[[NVGate 2022: Release note|Release note NVGate 2022]]

[[NVGate Installation and Connection|First Installation and Connection]] 

==First step==
[[FFT_Spectrum_Analyzer_Multipurpose|OROS analyzer overview]]

[[NVGate_Software_overview|First Start With NVGate]] 

<youtube>https://youtu.be/MRGE2-VLBFg?t=30</youtube>

[https://www.oros.com/services/tutorial-videos/ NVGate Video Tutorial] 
 

== Complete documentation ==

<div><ul>
<li style="display: inline-table;">
{| class="wikitable"
|+
|-
! [[NVGate Ribbons: Home Tab|Home]]
|-
| [[File:GoToR.png|link=http://wiki.oros.com/wiki/index.php/NVGate_GoToResult]][[NVGate_GoToResult|Start GoToResult]]
|-
| [[File:PA_icone.png|25px]] [[NVGate Post Analysis|Post Analyze]]
|-
|[[File:Save_i.png|25px]][[NVGate_Ribbons:_Home_Tab#Save_group|Save setup]]
|}</li>

<li style="display: inline-table;">
{| class="wikitable"
! [[NVGate Ribbons: Acquisition Tab|Acquisition]]
|-
|[[File:connect_wiz.png|25px]][[NVGate_Connection_Wizard|Connect Inputs]]
|-
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Player|Player]]
|-
|
|-
| [[File:Reports_Tools_Ribbons_255.png|25px]] [[NVGate_Transducer_and_Calibration|Transducer and Calibration]]
|-
|[[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Virtual Input|Virtual Input]]
|-
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate Output Signals|Output Signals]]
|-
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Event_definition|Event definition]]
|-
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Filter_Builder|Filter]]
|-
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Tachometer|Tachometer]]
|} </li>

<li style="display: inline-table;">
{| class="wikitable"
! [[NVGate Ribbons: Analysis Tab|Analysis]]
|-
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Front_End|Front End]]
|-
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Recorder|Recorder]]
|-
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT|FFT]]
|-
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Synchronous_Order_Analysis|Synchronous Order Analysis (SOA)]]
|-
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Time_Domain_Analysis|Time Domain Analysis (TDA)]]
|-
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Octave_Analyzer|1/n Octave Analyzer]]
|-
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Overall_Acoustic_-_Sound_Level_meter|Overall Acoustic (OVA)]]
|-
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate Monitor Plug In|Monitor]]
|-
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall|Waterfall]]
|-
|[[NVGate_Time_windows|Force / response windows]]
|-
|[[NVGate Torsional|Torsional Analysis]]
|} </li>

<li style="display: inline-table;">
{| class="wikitable"
! [[NVGate Ribbons: Data|Data]]
|-
| [[File:dataset_i.png|25px]][[NVGate dataset management|Dataset management]]
|-
| [[File:edit_icone.png|25px]] [[NVGate_Edit_Measurement|Edit Measurement]]
|-
| [[File:Data_download_2022.PNG|25px]] [[Disk(Hard-drive)_management|Disk management]]
|-
| [[File:Reports_Tools_Ribbons_503.jpg|25px]] [[NVGate_Export/import|Export/Import file]]
|-
| [[File:OR10_stand_alone.png|25px]] [[NVGate_OR10_Stand_alone|OR10 Stand Alone]]
|-
| [[NVGate D-Rec|D-Rec : record without PC]]
|}</li>

<li style="display: inline-table;">
{| class="wikitable"
! [[NVGate_Ribbons:_Display|Display]]
|-
|[[File:ADD_re.png|25px]] [[NVGate Ribbons: Display|Add/remove windows]]
|-
|[[File:Reports_Tools_Ribbons_467.png|25px]] [[NVGate Marker|Marker]]
|-
|[[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall#Waterfall_Display|Waterfall Display]]
|-
|} </li>

<li style="display: inline-table;">
{| class="wikitable"
! [[NVGate_Report|Report]]
|-
|} </li>
<li style="display: inline-table;">
{| class="wikitable"
! [[NVGate_Ribbons:_Automation|Automation]]
|-
|[[File:Reports_Tools_Ribbons_71.jpg|25px]] [[NVGate Macro|Macro]]
|-
|[[File:Reports_Tools_Ribbons_134.png|25px]] [[NVGate_Sequence|Sequencer]]
|-
|[[File:CP.png|25px]][[NVGate_Control_Panel|Control Panel]]
|-
| [[File:Reports_Tools_Ribbons_162.png|25px]] [[NVGate_Mask_And_Alarm|Mask And Alarm]]
|-
|} </li>
<li style="display: inline-table;">
{| class="wikitable"
! [[NVGate_Ribbons:_Preferences|Preferences]]
|-
| [[File:preference.png|25px]] [[NVGate User Preferences|User Preferences]]
|-
| [[File:properties.png|25px]] [[NVGate:_Properties|Properties]]
|}</li>
</ul></div>

<div><ul>
<li style="display: inline-table;">
{| class="wikitable"
|+
|-
! Workspace View
|-
| [[NVGate_Architecture|Architecture]]
|-
| [[File:ASB_.png|link=NVGate_Analyzer_Setting_Browser_(ASB)]]
|-
| [[File:Control_pannel.png|link=NVGate_Control_Panel]]
|-
| [[File:Project manager.png|link=NVGate_Project_manager]]
|-
|
|-
|}</li>

<li style="display: inline-table;">
{| class="wikitable"
! style="padding: 5px" |Display - windows - Trace
|-
|[[NVGate Display|Display Overview]]
|-
| [[NVGate Integrate - Differentiate - Unit|Integrate/Differentiate - Unit (RMS, pk, PSD...)]]

|-
|[[NVGate_Operator|Graphical Operator]]
|-
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Zoomed signal|Player Zoomed signal]]
|} </li>

<li style="display: inline-table;">
{| class="wikitable"
! style="padding: 5px" |Signal processing note
|-
|[[NVGate CBT principle and settings|CBT principle and settings]]
|-
|[[NVGate_SOA_and_CBT_techniques|SOA vs CBT]]
|-
|[[NVGate_Envelope_analysis|Envelope Analysis]]
|-
|[[NVGate_time_shift_resampling|Ext synch: time shift resampling]]
|-
|[[User_note:_FFT_averaging|FFT Averaging]]
|-
|[[NVGate: How do I|NVGate: How do I?]]
|-
|} </li>

<li style="display: inline-table;">
{| class="wikitable"
! style="padding: 5px" |Appendix:
|-
|[[NVGate_Formula_Computation|NVGate FFT Computation]]
|-
|[[NVGate_filter_formula_appendix|Filter: curve and formula]]
|-
|[[NVGate_Weighting_Windows_appendix|Weighting Windows]]
|-
|[[NVGate_time_shift_resampling|Ext synch: time shift resampling]]
|-
|[[NVGate Specification]]
|-
|[[NVGate Shortcuts|Shortcuts]]
|-
|[[NVGate_Glossary|Glossary]]
|} </li>

{| class="wikitable"
|-
| [[NVGate_Status_bar|Status bar]]
|}

==NVGate Add on==

<li style="display: inline-table;">
{| class="wikitable"
! style="padding: 5px" |Add ons
|-
|[[External_Tools:_TachTool|TachTool : Extract tach]]
|-
|[[NVGate_BatchPostProcess_tool|BatchPostProcess]]
|-
|[[External tools: Rosette computation|Rosette computation]]
|-
|[[RT60_Calculator|RT60 calculator]]
|-
|[[NVGate_Tools:_AutoReport|Automatic production test report]]
|-
|[[NVGate_Tools:_EditSignal|Edit Time Signal]]
|-
|[[NVGate_Tools:_CanBus_Import_.dbc|CanBus Import .dbc files]]
|-
|[[NVGate_IRIG_Marker|IRIG Marker]]
|-
|[[NVGate_HP_Spectrum_Analyzer|HP Spectrum Analyzer Model]]
|-
|[[NVGate_DC_Simulated_Manager#GPS|GPS]]
|-
|[[NVGate_DC_Simulated_Manager#GPS|Display Torsion ODS]]
|-
|[[NVGate_DC_Simulated_Manager#Weather_station|Weather station]]
|-
| [[Human Vibration]]
|-
|[[Addons:PV_Diagram|PV(Pressure-Volume) diagram]]
|-
|} </li>

NVGate Time Domain Analysis

2022-03-31T08:03:50Z

Credaelli:

[[category:NVGate]]
The TDA plug-in is designed to get the most from the time domain signal completing the frequency/order analyses. This plug-in offers flexible signal overview and statistical extraction in parallel.
[[File:TDA_3.png|500px|right]]
[[Image:TDA_ASB.png|framed|right]]
This TDA plug-in provides 2 types of results:

* Time views and associated extracted results. It<nowiki>’</nowiki>s an oscilloscope-like function, to view the time domain series. This does not record the time signal, only their statistical content.
* Statistical scalar result. The TDA computes the statistical content of the connected input on a specific time and average basis. '''These scalars levels are available as view meter or profiles''' (using the [https://wiki.oros.com/wiki/index.php/NVGate_Waterfall Waterfall Plug-in]).

=== Connect channels===
Click on connect inputs and drag and drop the channels on TDA plug in.
[[File:TDA_1.png|600px|none]]

===Available results:===

The results can be display using the add remove windows:

[[File:TDA_2.png|700px|none]]
 
{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="50%" align="center"
|'''Type'''
|'''Size'''
|'''Dimension'''
|'''Domain'''
|'''Save'''

|-
|DC
|1pt
|1D
| 
| Yes

|-
|RMS
|1pt
|1D
| 
| Yes

|-
|Min level
|1pt
|1D
| 
| Yes

|-
|Max level
|1pt
|1D
| 
| Yes

|-
|Peak
|1pt
|1D
| 
| Yes

|-
|Peak-Peak
|1pt
|1D
| 
| Yes

|-
|Crest Factor
|1pt
|1D
| 
| Yes

|-
|Kurtosis
|1pt
|1D
| 
| Yes

|-
|Time View
|2048 pt max
|Compressed Time
|time
| Yes

|} 

* '''DC''': the average DC value of the time signal
* '''RMS''': the RMS value of the time signal (DC being removed)
* '''Min''': the minimum level of time signal
* '''Max''': the maximum level of time signal
* '''Peak''': the absolute value of Min level and Max level.
* '''Peak-Peak''': displays the difference between Min level and max level. Peak-Peak level ≥ 0.

* '''Crest factor''': displays the ratio Peak level/RMS level. Characteristics of the Crest Factor:
[[File:Analysis_plug_TDA_02.png]]
* '''Kurtosis''': the kurtosis value (4th order moment) of the time signal
* '''Time View'''

Profiles of scalar values (Max, Peak-Peak,...) can be displayed using the [[NVGate Waterfall|Waterfall Plug-in]].

====Display====
The ''Time view'' is an oscilloscope-like view of the time domain series which scrolls the signal on a user define duration. The duration of the viewed signal is independent for each channel. That is to say it allows monitoring the same signal on different durations.

[[Image:Analysis_plug_TDA_03.png|700px|none]]

It<nowiki>’</nowiki>s possible to display several TDA channels in same window even if the durations are different. The windows size will be set according to the larger duration.

X zoom is not available at Time View, display is fixed to multi graph.

This window handles 3 cursors:

* Main cursor where is retrieved the values displayed at infotrace
* Cursors 1-2 used for selection. The scalar values displayed in the infotrace are computed according to this selection.

[[Image:Display_Graphs_Traces_97.png|700px|none]]

Scalar table may be setup to add / remove scalar that may be displayed:

Content of Scalar Table could be copy to export to another application.

[[Image:Display_Graphs_Traces_98.png|none]]

The setup of the monitored duration determines the analysis steps. These steps are indicated in the ''Time base ''states. The ''Time base ''is the time interval for each new point in the ''Time view ''signal. The time view duration is settable from 320 ms to 100 000 s (27 hours) with a 20 kHz bandwidth.

The minimum duration depends on the plug-in bandwidth. For example at 20 kHz with a duration of 10.24 sec, the ''Time base ''is set at 5 ms. A new point in the ''Time view ''will occur each 5 ms and the maximum number of points in the graph will be 2048.

The X axis can be either absolute (real date/time) or relative (in buffer duration). It can be changed during acquisition. The default type is relative; it may be changed through the user<nowiki>’</nowiki>s preferences.

In addition to the signal overview, the ''Time view'' provides statistic extraction of a part of the displayed signal. The extraction takes into account the signal defined in the selected area (reverse video). The results of this extraction are available in the info trace. The following levels are computed in the selected area:

* DC
* RMS (root min square)
* Min. (minimum) lowest amplitude
* Max (maximum) highest amplitude
* Ktsis (kurtosis) 3rd order moment
* Pk (peak) absolute value of the largest amplitude
* Pk-Pk (peak-peak) largest excursion
* CrFact (crest factor) Pk-Pk/RMS
* Kurtosis

[[Image:Analysis_plug_TDA_04.png|700px|none]]

===Settings===
[[File:TDA_4.png|500px|right]]
[[Image:TDA_ASB.png|right]]

* '''Synchronization:''' Controls the plug-in synchronization with the general analyzer status:
* '''Linked to run:''' The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
* '''Free run:''' The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing
* '''Range:''' Setup the analysis range for the plug-in. This value is maximized by the front-end sampling frequency divided by 2.56. Note: Each plug-in feature an independent bandwidth.
* '''Average:''' Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''
* '''Average duration:''' Setup the average duration. In Exponential mode it specifies the non decayed part of the signal. In linear mode, it specifies the complete duration. In Linear repeated mode, it specifies the short duration.
=====Channel=====
Contains the settings related to the source input.

* '''Source''': input source to be analyzed. It may come from the input Front-end or from the Player in the post analysis mode (see the post analysis chapter). In the post analysis mode, the tracks with a signal bandwidth lower than the range of the TDA cannot be plugged.
* '''Input filter''': filter to be used for filtering the source before analysis. The Filters that are not compatible with the TDA range cannot be selected (see the Filter builder chapter).
* '''Duration:''' duration of the viewed signal. Minimum value depends on TDA frequency range analysis (360ms for 20kHz bandwidth analysis) whereas maximal value can be up to 100000s. The duration of the viewed signal is independent for each channel.
This setting affects only the Time View, not the scalar results.

* '''Time Base: '''this read-only setting is the duration of one displayed point in the time view. Time view display is set to a fixed size of 2048 points. Time base is evaluated according to the formula:

{|border="0" cellspacing="2" width="100%"
| 
| 
|Time Base = Duration / 2048

|-
| 
|colspan = "2"|For a duration of 10 s , Time Base corresponds to 4.882812 m.

|}

=====Analysis=====
*'''Autobandwidth''': manages the analysis and recording bandwidths automatically. The Inputs selection window allows the use of 2 different sampling rates for the dynamic inputs. It gathers inputs with the same physical quantity into groups, maintaining the same sampling into each group. When inputs are associated with the analysis plug-in, it adjusts its analysis bandwidth to match the inputs ones. Mixing input bandwidths in one analysis plug-in lead to set its bandwidth to the lowest one. Autobandwidth is set by default . When it is enabled in the plug-in, these settings "switch to informative status"

*'''Range: '''the TDA plug-in frequency range. The analyzer sampling frequency divided by 2.56 limits this range, and the minimum is obtained by dividing this limit by 50000. For example, if the analyzer sampling frequency is 51,2kS/s, then the max range is 20 kHz and the min is 400mHz. In post analysis mode, the Max Bandwidth setting from the Player plug-in provides the analyzer sampling frequency by multiplying the value by 2.56 (ex: if max bandwidth = 20 kHz then the analyzer sampling frequency is 51.2kS/s), otherwise, the analyzer sampling frequency is provided by the input sampling setting from the Front end plug-in input setting sub-module.

=====Average=====

* '''Average:''' Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''

* '''Type:''' The method of averaging the signal. There are four different averaging modes: Linear, Exponential, Peak hold, and Referenced Peak hold.

{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="94%" align="center"
|'''Type'''
|'''Description'''

|-
|Linear
|Linear averaging of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|-
|Exponential
|In this mode of computation, averaging is continuously updated each 256 samples. All scalar results DC, RMS, Min, Max, Peak, Peak-Peak, Kurtosis, are reset with a periodicity equal to the duration of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|} 

event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.

* '''Duration''': The duration of the signal used to compute the scalar results available as result. Results are delivered each 256 samples.:This setting affects only the Time View, not the scalar results.

=====Trigger=====

* '''Synchronization''': Controls the plug-in synchronization with the general analyzer status:
** '''Linked to run:''' The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
** '''Free run:''' The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing. In Free Run mode, the average is forced to Exponential.
* '''Start:''' defines the event to start the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Start" condition.
* '''Stop:''' defines the event to stop the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.
* '''Repeat:''' this setting is used to select a condition for the TDA plug-in to be restarted. If an event is selected as a Start event, the option "New start" is available, and when this mode is selected each Start event restarts the plug-in. The "End of averaging" mode is available when the value of the ''TDA /Analysis/Type'' is equal to "Linear" mode. This restarts the plug-in when the averaging is finished. For linear average when it is set to "End of averaging", the "Avg duration" gives the periodicity of the average restart. By default the Repeat mode is set to "Off".
* '''Start Delay:''' time delay applied to the time the start event occurs. The Start Delay could be a negative values to act as a pre-trigger. At default setting of 20kHz analysis, the minimum value for Start Delay is -635ms. The maximum value is 360000s.

===TDA status===
All statuses are available for the control panel. Statuses are refreshed all the time at roughly 10 Hz.


[[Image:Analysis_plug_TDA_05.png|none]]


[[Image:Analysis_plug_TDA_06.png|none]]

The current plug-in status is synthesized in a special progress-bar. This progress bar is automatically displayed in the bottom area when the plug-in is active (i.e. as soon as at least 1 input is connected to the TDA plug-in). This status is called <nowiki>’</nowiki>TDA<nowiki>’</nowiki> and it is available in the status ASB tree (see customize control panel).

This status displays the status and current time, the plug-in state and the real-time status.

* '''Run:''' the TDA plug-in is computing data and average it
* '''Stop:''' The TDA plug-in is stopped.
* '''Trig:''' The TDA plug-in is waiting for next block; i.e. next trigger event (block triggering) or first start event (triggering)
* '''Pause: '''The TDA plug-in averaging is paused
*
'''Notes''': in exponential averaging mode the average counts stops increasing as soon as the set value is reached.

The way the status bar is displayed, depends on the type of averaging selected:

* '''<nowiki>’</nowiki>Linear<nowiki>’</nowiki>: '''the progress bar is filled from left to right.
* '''<nowiki>’</nowiki>Exponential<nowiki>’</nowiki>''': the progress bar is filled from right to left with a flashing until the end of the acquisition.

The color of the background bar and of the text depends on real-time status:

* ''Green background and white or black text'': acquisition in real-time.
* ''Red background and white or black text'': the current acquisition is not real-time (current block is not analyzed).
* ''Green background and red text'': the current acquisition is real-time, but since start not all the blocks were analyzed.

[[Image:Analysis_plug_TDA_07.png|none]]

This status displays the progression of the measurement in duration

'''Trigger State'''

The following scheme describes the basic statuses evolution of the TDA measurement:

[[Image:Analysis_plug_TDA_08.png|none]]

By default the trigger state is on <nowiki>’</nowiki>Stop<nowiki>’</nowiki> and waiting for a <nowiki>’</nowiki>Run<nowiki>’</nowiki> (start or trigger). Then the state become <nowiki>’</nowiki>Triggering<nowiki>’</nowiki> and is waiting for a start event, the states become <nowiki>’</nowiki>Running<nowiki>’</nowiki>.

The TDA plug-in can run either in the standard plug-in synchronization or totally free run (see Synchronization setting in the TDA settings). While running in the free run mode, the TDA remain in the running mode (not displayed in the status) until the synchronization is changed.

======Count======
This status displays the averaging duration processed. This status is expressed in seconds.

======Real-time======
This status displays if the averaging is in real-time or not (i.e. the current block is analyzed or not). If the corresponding signal were not available at this time, the acquisition is not real-time. That means that the treatment is longer than the acquisition.

There are 3 values for this state:

* '''<nowiki>’</nowiki>OK<nowiki>’</nowiki>''': The acquisition is real-time (all block have been processed and averaged)
* '''<nowiki>’</nowiki>No<nowiki>’</nowiki>''': Acquisition was not real-time (some previous blocks are missing in the average).
* '''<nowiki>’</nowiki>-<nowiki>’</nowiki>''': The acquisition is currently not real-time (current block is not analyzed an averaged).
======Block overload======
This status corresponds to the instantaneous overload indication for TDA plug-in current block, for instance amplitude overload occurred in the current analyzed block.

======Analysis overload======
This status corresponds to overload indication over the measurement period. It means that during the whole measurement period there was (or not) an overload. It memorizes block overloaded.

=====Properties=====

[[Image:Display_Graphs_Traces_99.png|none]]

* Trace color
* Number: selects the trace number for color modification.
* Color box: click on this box to modify the color of the selected trace.

* X Axis
* Absolute time: displays the time from windows format.
* Relative time: displays the duration of the record. The beginning of the record is set to 0.
* Auto: selects absolute or relative time depending on the duration of the record. For records smaller than 2s, the relative time is displayed, for others, the absolute time is chosen.

NVGate Time Domain Analysis

2022-03-31T07:52:35Z

Credaelli:

[[category:NVGate]]
The TDA plug-in is designed to get the most from the time domain signal completing the frequency/order analyses. This plug-in offers flexible signal overview and statistical extraction in parallel.
[[File:TDA_3.png|500px|right]]
[[Image:TDA_ASB.png|framed|right]]
This TDA plug-in provides 2 types of results:

* Time views and associated extracted results. It<nowiki>’</nowiki>s an oscilloscope-like function, to view the time domain series. This does not record the time signal, only their statistical content.
* Statistical scalar result. The TDA computes the statistical content of the connected input on a specific time and average basis. '''These scalars levels are available as view meter or profiles''' (using the [https://wiki.oros.com/wiki/index.php/NVGate_Waterfall Waterfall Plug-in]).

=== Connect channels===
Click on connect inputs and drag and drop the channels on TDA plug in.
[[File:TDA_1.png|600px|none]]

===Available results:===

The results can be display using the add remove windows:

[[File:TDA_2.png|700px|none]]
 
{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="50%" align="center"
|'''Type'''
|'''Size'''
|'''Dimension'''
|'''Domain'''
|'''Save'''

|-
|DC
|1pt
|1D
| 
| Yes

|-
|RMS
|1pt
|1D
| 
| Yes

|-
|Min level
|1pt
|1D
| 
| Yes

|-
|Max level
|1pt
|1D
| 
| Yes

|-
|Peak
|1pt
|1D
| 
| Yes

|-
|Peak-Peak
|1pt
|1D
| 
| Yes

|-
|Crest Factor
|1pt
|1D
| 
| Yes

|-
|Kurtosis
|1pt
|1D
| 
| Yes

|-
|Time View
|2048 pt max
|Compressed Time
|time
| Yes

|} 

* '''DC''': the average DC value of the time signal
* '''RMS''': the RMS value of the time signal (DC being removed)
* '''Min''': the minimum level of time signal
* '''Max''': the maximum level of time signal
* '''Peak''': the absolute value of Min level and Max level.
* '''Peak-Peak''': displays the difference between Min level and max level. Peak-Peak level ≥ 0.

* '''Crest factor''': displays the ratio Peak level/RMS level. Characteristics of the Crest Factor:
[[File:Analysis_plug_TDA_02.png]]
* '''Kurtosis''': the kurtosis value (4th order moment) of the time signal
* '''Time View'''

====Display====
The ''Time view'' is an oscilloscope-like view of the time domain series which scrolls the signal on a user define duration. The duration of the viewed signal is independent for each channel. That is to say it allows monitoring the same signal on different durations.

[[Image:Analysis_plug_TDA_03.png|700px|none]]

It<nowiki>’</nowiki>s possible to display several TDA channels in same window even if the durations are different. The windows size will be set according to the larger duration.

X zoom is not available at Time View, display is fixed to multi graph.

This window handles 3 cursors:

* Main cursor where is retrieved the values displayed at infotrace
* Cursors 1-2 used for selection. The scalar values displayed in the info trace are computed according to this selection.

[[Image:Display_Graphs_Traces_97.png|700px|none]]

Scalar table may be setup to add / remove scalar that may be displayed:

Content of Scalar Table could be copy to export to another application.

[[Image:Display_Graphs_Traces_98.png|none]]

The setup of the monitored duration determines the analysis steps. These steps are indicated in the ''Time base ''states. The ''Time base ''is the time interval for each new point in the ''Time view ''signal. The time view duration is settable from 320 ms to 100 000 s (27 hours) with a 20 kHz bandwidth.

The minimum duration depends on the plug-in bandwidth. For example at 20 kHz with a duration of 10.24 sec, the ''Time base ''is set at 5 ms. A new point in the ''Time view ''will occur each 5 ms and the maximum number of points in the graph will be 2048.

The X axis can be either absolute (real date/time) or relative (in buffer duration). It can be changed during acquisition. The default type is relative; it may be changed through the user<nowiki>’</nowiki>s preferences.

In addition to the signal overview, the ''Time view'' provides statistic extraction of a part of the displayed signal. The extraction takes into account the signal defined in the selected area (reverse video). The results of this extraction are available in the info trace. The following levels are computed in the selected area:

* DC
* RMS (root min square)
* Min. (minimum) lowest amplitude
* Max (maximum) highest amplitude
* Ktsis (kurtosis) 3rd order moment
* Pk (peak) absolute value of the largest amplitude
* Pk-Pk (peak-peak) largest excursion
* CrFact (crest factor) Pk-Pk/RMS
* Kurtosis

[[Image:Analysis_plug_TDA_04.png|700px|none]]

===Settings===
[[File:TDA_4.png|500px|right]]
[[Image:TDA_ASB.png|right]]

* '''Synchronization:''' Controls the plug-in synchronization with the general analyzer status:
* '''Linked to run:''' The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
* '''Free run:''' The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing
* '''Range:''' Setup the analysis range for the plug-in. This value is maximized by the front-end sampling frequency divided by 2.56. Note: Each plug-in feature an independent bandwidth.
* '''Average:''' Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''
* '''Average duration:''' Setup the average duration. In Exponential mode it specifies the non decayed part of the signal. In linear mode, it specifies the complete duration. In Linear repeated mode, it specifies the short duration.
=====Channel=====
Contains the settings related to the source input.

* '''Source''': input source to be analyzed. It may come from the input Front-end or from the Player in the post analysis mode (see the post analysis chapter). In the post analysis mode, the tracks with a signal bandwidth lower than the range of the TDA cannot be plugged.
* '''Input filter''': filter to be used for filtering the source before analysis. The Filters that are not compatible with the TDA range cannot be selected (see the Filter builder chapter).
* '''Duration:''' duration of the viewed signal. Minimum value depends on TDA frequency range analysis (360ms for 20kHz bandwidth analysis) whereas maximal value can be up to 100000s. The duration of the viewed signal is independent for each channel.
This setting affects only the Time View, not the scalar results.

* '''Time Base: '''this read-only setting is the duration of one displayed point in the time view. Time view display is set to a fixed size of 2048 points. Time base is evaluated according to the formula:

{|border="0" cellspacing="2" width="100%"
| 
| 
|Time Base = Duration / 2048

|-
| 
|colspan = "2"|For a duration of 10 s , Time Base corresponds to 4.882812 m.

|}

=====Analysis=====
*'''Autobandwidth''': manages the analysis and recording bandwidths automatically. The Inputs selection window allows the use of 2 different sampling rates for the dynamic inputs. It gathers inputs with the same physical quantity into groups, maintaining the same sampling into each group. When inputs are associated with the analysis plug-in, it adjusts its analysis bandwidth to match the inputs ones. Mixing input bandwidths in one analysis plug-in lead to set its bandwidth to the lowest one. Autobandwidth is set by default . When it is enabled in the plug-in, these settings "switch to informative status"

*'''Range: '''the TDA plug-in frequency range. The analyzer sampling frequency divided by 2.56 limits this range, and the minimum is obtained by dividing this limit by 50000. For example, if the analyzer sampling frequency is 51,2kS/s, then the max range is 20 kHz and the min is 400mHz. In post analysis mode, the Max Bandwidth setting from the Player plug-in provides the analyzer sampling frequency by multiplying the value by 2.56 (ex: if max bandwidth = 20 kHz then the analyzer sampling frequency is 51.2kS/s), otherwise, the analyzer sampling frequency is provided by the input sampling setting from the Front end plug-in input setting sub-module.

=====Average=====

* '''Average:''' Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''

* '''Type:''' The method of averaging the signal. There are four different averaging modes: Linear, Exponential, Peak hold, and Referenced Peak hold.

{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="94%" align="center"
|'''Type'''
|'''Description'''

|-
|Linear
|Linear averaging of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|-
|Exponential
|In this mode of computation, averaging is continuously updated each 256 samples. All scalar results DC, RMS, Min, Max, Peak, Peak-Peak, Kurtosis, are reset with a periodicity equal to the duration of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|} 

event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.

* '''Duration''': The duration of the signal used to compute the scalar results available as result. Results are delivered each 256 samples.:This setting affects only the Time View, not the scalar results.

=====Trigger=====

* '''Synchronization''': Controls the plug-in synchronization with the general analyzer status:
** '''Linked to run:''' The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
** '''Free run:''' The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing. In Free Run mode, the average is forced to Exponential.
* '''Start:''' defines the event to start the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Start" condition.
* '''Stop:''' defines the event to stop the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.
* '''Repeat:''' this setting is used to select a condition for the TDA plug-in to be restarted. If an event is selected as a Start event, the option "New start" is available, and when this mode is selected each Start event restarts the plug-in. The "End of averaging" mode is available when the value of the ''TDA /Analysis/Type'' is equal to "Linear" mode. This restarts the plug-in when the averaging is finished. For linear average when it is set to "End of averaging", the "Avg duration" gives the periodicity of the average restart. By default the Repeat mode is set to "Off".
* '''Start Delay:''' time delay applied to the time the start event occurs. The Start Delay could be a negative values to act as a pre-trigger. At default setting of 20kHz analysis, the minimum value for Start Delay is -635ms. The maximum value is 360000s.

===TDA status===
All statuses are available for the control panel. Statuses are refreshed all the time at roughly 10 Hz.


[[Image:Analysis_plug_TDA_05.png|none]]


[[Image:Analysis_plug_TDA_06.png|none]]

The current plug-in status is synthesized in a special progress-bar. This progress bar is automatically displayed in the bottom area when the plug-in is active (i.e. as soon as at least 1 input is connected to the TDA plug-in). This status is called <nowiki>’</nowiki>TDA<nowiki>’</nowiki> and it is available in the status ASB tree (see customize control panel).

This status displays the status and current time, the plug-in state and the real-time status.

* '''Run:''' the TDA plug-in is computing data and average it
* '''Stop:''' The TDA plug-in is stopped.
* '''Trig:''' The TDA plug-in is waiting for next block; i.e. next trigger event (block triggering) or first start event (triggering)
* '''Pause: '''The TDA plug-in averaging is paused
*
'''Notes''': in exponential averaging mode the average counts stops increasing as soon as the set value is reached.

The way the status bar is displayed, depends on the type of averaging selected:

* '''<nowiki>’</nowiki>Linear<nowiki>’</nowiki>: '''the progress bar is filled from left to right.
* '''<nowiki>’</nowiki>Exponential<nowiki>’</nowiki>''': the progress bar is filled from right to left with a flashing until the end of the acquisition.

The color of the background bar and of the text depends on real-time status:

* ''Green background and white or black text'': acquisition in real-time.
* ''Red background and white or black text'': the current acquisition is not real-time (current block is not analyzed).
* ''Green background and red text'': the current acquisition is real-time, but since start not all the blocks were analyzed.

[[Image:Analysis_plug_TDA_07.png|none]]

This status displays the progression of the measurement in duration

'''Trigger State'''

The following scheme describes the basic statuses evolution of the TDA measurement:

[[Image:Analysis_plug_TDA_08.png|none]]

By default the trigger state is on <nowiki>’</nowiki>Stop<nowiki>’</nowiki> and waiting for a <nowiki>’</nowiki>Run<nowiki>’</nowiki> (start or trigger). Then the state become <nowiki>’</nowiki>Triggering<nowiki>’</nowiki> and is waiting for a start event, the states become <nowiki>’</nowiki>Running<nowiki>’</nowiki>.

The TDA plug-in can run either in the standard plug-in synchronization or totally free run (see Synchronization setting in the TDA settings). While running in the free run mode, the TDA remain in the running mode (not displayed in the status) until the synchronization is changed.

======Count======
This status displays the averaging duration processed. This status is expressed in seconds.

======Real-time======
This status displays if the averaging is in real-time or not (i.e. the current block is analyzed or not). If the corresponding signal were not available at this time, the acquisition is not real-time. That means that the treatment is longer than the acquisition.

There are 3 values for this state:

* '''<nowiki>’</nowiki>OK<nowiki>’</nowiki>''': The acquisition is real-time (all block have been processed and averaged)
* '''<nowiki>’</nowiki>No<nowiki>’</nowiki>''': Acquisition was not real-time (some previous blocks are missing in the average).
* '''<nowiki>’</nowiki>-<nowiki>’</nowiki>''': The acquisition is currently not real-time (current block is not analyzed an averaged).
======Block overload======
This status corresponds to the instantaneous overload indication for TDA plug-in current block, for instance amplitude overload occurred in the current analyzed block.

======Analysis overload======
This status corresponds to overload indication over the measurement period. It means that during the whole measurement period there was (or not) an overload. It memorizes block overloaded.

=====Properties=====

[[Image:Display_Graphs_Traces_99.png|none]]

* Trace color
* Number: selects the trace number for color modification.
* Color box: click on this box to modify the color of the selected trace.

* X Axis
* Absolute time: displays the time from windows format.
* Relative time: displays the duration of the record. The beginning of the record is set to 0.
* Auto: selects absolute or relative time depending on the duration of the record. For records smaller than 2s, the relative time is displayed, for others, the absolute time is chosen.

NVGate Time Domain Analysis

2022-03-28T11:32:10Z

Credaelli: /* Settings */

[[category:NVGate]]
The TDA plug-in is designed to get the most from the time domain signal completing the frequency/order analyses. This plug-in offers flexible signal overview and statistical extraction in parallel.
[[File:TDA_3.png|500px|right]]
[[Image:TDA_ASB.png|framed|right]]
This TDA plug-in provides 2 types of results:

* Time views and associated extracted results. It<nowiki>’</nowiki>s an oscilloscope-like function, to view the time domain series. This does not record the time signal, only their statistical content.
* Statistical scalar result. The TDA computes the statistical content of the connected input on a specific time and average basis. These scalars levels are available as view meter or profiles (using waterfall).

=== Connect channels===
Click on connect inputs and drag and drop the channels on TDA plug in.
[[File:TDA_1.png|600px|none]]

===Available results:===

The results can be display using the add remove windows:

[[File:TDA_2.png|700px|none]]
 
{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="50%" align="center"
|'''Type'''
|'''Size'''
|'''Dimension'''
|'''Domain'''
|'''Save'''

|-
|DC
|1pt
|1D
| 
| Yes

|-
|RMS
|1pt
|1D
| 
| Yes

|-
|Min level
|1pt
|1D
| 
| Yes

|-
|Max level
|1pt
|1D
| 
| Yes

|-
|Peak
|1pt
|1D
| 
| Yes

|-
|Peak-Peak
|1pt
|1D
| 
| Yes

|-
|Crest Factor
|1pt
|1D
| 
| Yes

|-
|Kurtosis
|1pt
|1D
| 
| Yes

|-
|Time View
|2048 pt max
|Compressed Time
|time
| Yes

|} 

* '''DC''': the average DC value of the time signal
* '''RMS''': the RMS value of the time signal (DC being removed)
* '''Min''': the minimum level of time signal
* '''Max''': the maximum level of time signal
* '''Peak''': the absolute value of Min level and Max level.
* '''Peak-Peak''': displays the difference between Min level and max level. Peak-Peak level ≥ 0.

* '''Crest factor''': displays the ratio Peak level/RMS level. Characteristics of the Crest Factor:

[[Image:Analysis_plug_TDA_02.png|framed|none]]

* '''Kurtosis''': the kurtosis value (4th order moment) of the time signal
* '''Time View'''

====Display====
The ''Time view''is an oscilloscope-like view of the time domain series which scrolls the signal on a user define duration. The duration of the viewed signal is independent for each channel. That is to say it allows monitoring the same signal on different durations.

[[Image:Analysis_plug_TDA_03.png|700px|none]]

It<nowiki>’</nowiki>s possible to display several TDA channels in same window even if the durations are different. The windows size will be set according to the larger duration.

X zoom is not available at Time View, display is fixed to multi graph.

This window handles 3 cursors:

* Main cursor where is retrieved the values displayed at infortrace
* Cursors 1-2 used for selection. The scalar values displayed in the info trace are computed according to this selection.

[[Image:Display_Graphs_Traces_97.png|700px|none]]

Scalar table may be setup to add / remove scalar that may be displayed:

Content of Scalar Table could be copy to export to another application.

[[Image:Display_Graphs_Traces_98.png|none]]

The setup of the monitored duration determines the analysis steps. These steps are indicated in the ''Time base ''states. The ''Time base ''is the time interval for each new point in the ''Time view ''signal. The time view duration is settable from 320 ms to 100 000 s (27 hours) with a 20 kHz bandwidth.

The minimum duration depends on the plug-in bandwidth. For example at 20 kHz with a duration of 10.24 sec, the ''Time base ''is set at 5 ms. A new point in the ''Time view ''will occur each 5 ms and the maximum number of points in the graph will be 2048.

The X axis can be either absolute (real date/time) or relative (in buffer duration). It can be changed during acquisition. The default type is relative; it may be changed through the user<nowiki>’</nowiki>s preferences.

In addition to the signal overview, the ''Time view'' provides statistic extraction of a part of the displayed signal. The extraction takes into account the signal defined in the selected area (reverse video). The results of this extraction are available in the info trace. The following levels are computed in the selected area:

* DC
* RMS (root min square)
* Min. (minimum) lowest amplitude
* Max (maximum) highest amplitude
* Ktsis (kurtosis) 3rd order moment
* Pk (peak) absolute value of the largest amplitude
* Pk-Pk (peak-peak) largest excursion
* CrFact (crest factor) Pk-Pk/RMS
* Kurtosis

[[Image:Analysis_plug_TDA_04.png|700px|none]]

===Settings===
[[File:TDA_4.png|500px|right]]
[[Image:TDA_ASB.png|right]]

* '''Synchronization:''' Controls the plug-in synchronization with the general analyzer status:
* '''Linked to run:''' The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
* '''Free run:''' The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing
* '''Range:''' Setup the analysis range for the plug-in. This value is maximized by the front-end sampling frequency divided by 2.56. Note: Each plug-in feature an independent bandwidth.
* '''Average:''' Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''
* '''Average duration:''' Setup the average duration. In Exponential mode it specifies the non decayed part of the signal. In linear mode, it specifies the complete duration. In Linear repeated mode, it specifies the short duration.
=====Channel=====
Contains the settings related to the source input.

* '''Source''': input source to be analyzed. It may come from the input Front-end or from the Player in the post analysis mode (see the post analysis chapter). In the post analysis mode, the tracks with a signal bandwidth lower than the range of the TDA cannot be plugged.
* '''Input filter''': filter to be used for filtering the source before analysis. The Filters that are not compatible with the TDA range cannot be selected (see the Filter builder chapter).
* '''Duration:''' duration of the viewed signal. Minimum value depends on TDA frequency range analysis (360ms for 20kHz bandwidth analysis) whereas maximal value can be up to 100000s. The duration of the viewed signal is independent for each channel.
This setting affects only the Time View, not the scalar results.

* '''Time Base: '''this read-only setting is the duration of one displayed point in the time view. Time view display is set to a fixed size of 2048 points. Time base is evaluated according to the formula:

{|border="0" cellspacing="2" width="100%"
| 
| 
|Time Base = Duration / 2048

|-
| 
|colspan = "2"|For a duration of 10 s , Time Base corresponds to 4.882812 m.

|}

=====Analysis=====
*'''Autobandwidth''': manages the analysis and recording bandwidths automatically. The Inputs selection window allows the use of 2 different sampling rates for the dynamic inputs. It gathers inputs with the same physical quantity into groups, maintaining the same sampling into each group. When inputs are associated with the analysis plug-in, it adjusts its analysis bandwidth to match the inputs ones. Mixing input bandwidths in one analysis plug-in lead to set its bandwidth to the lowest one. Autobandwidth is set by default . When it is enabled in the plug-in, these settings "switch to informative status"

*'''Range: '''the TDA plug-in frequency range. The analyzer sampling frequency divided by 2.56 limits this range, and the minimum is obtained by dividing this limit by 50000. For example, if the analyzer sampling frequency is 51,2kS/s, then the max range is 20 kHz and the min is 400mHz. In post analysis mode, the Max Bandwidth setting from the Player plug-in provides the analyzer sampling frequency by multiplying the value by 2.56 (ex: if max bandwidth = 20 kHz then the analyzer sampling frequency is 51.2kS/s), otherwise, the analyzer sampling frequency is provided by the input sampling setting from the Front end plug-in input setting sub-module.

=====Average=====

* '''Average:''' Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''

* '''Type:''' The method of averaging the signal. There are four different averaging modes: Linear, Exponential, Peak hold, and Referenced Peak hold.

{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="94%" align="center"
|'''Type'''
|'''Description'''

|-
|Linear
|Linear averaging of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|-
|Exponential
|In this mode of computation, averaging is continuously updated each 256 samples. All scalar results DC, RMS, Min, Max, Peak, Peak-Peak, Kurtosis, are reset with a periodicity equal to the duration of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|} 

event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.

* '''Duration''': The duration of the signal used to compute the scalar results available as result. Results are delivered each 256 samples.:This setting affects only the Time View, not the scalar results.

=====Trigger=====

* '''Synchronization''': Controls the plug-in synchronization with the general analyzer status:
** '''Linked to run:''' The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
** '''Free run:''' The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing. In Free Run mode, the average is forced to Exponential.
* '''Start:''' defines the event to start the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Start" condition.
* '''Stop:''' defines the event to stop the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.
* '''Repeat:''' this setting is used to select a condition for the TDA plug-in to be restarted. If an event is selected as a Start event, the option "New start" is available, and when this mode is selected each Start event restarts the plug-in. The "End of averaging" mode is available when the value of the ''TDA /Analysis/Type'' is equal to "Linear" mode. This restarts the plug-in when the averaging is finished. For linear average when it is set to "End of averaging", the "Avg duration" gives the periodicity of the average restart. By default the Repeat mode is set to "Off".
* '''Start Delay:''' time delay applied to the time the start event occurs. The Start Delay could be a negative values to act as a pre-trigger. At default setting of 20kHz analysis, the minimum value for Start Delay is -635ms. The maximum value is 360000s.

===TDA status===
All statuses are available for the control panel. Statuses are refreshed all the time at roughly 10 Hz.


[[Image:Analysis_plug_TDA_05.png|none]]


[[Image:Analysis_plug_TDA_06.png|none]]

The current plug-in status is synthesized in a special progress-bar. This progress bar is automatically displayed in the bottom area when the plug-in is active (i.e. as soon as at least 1 input is connected to the TDA plug-in). This status is called <nowiki>’</nowiki>TDA<nowiki>’</nowiki> and it is available in the status ASB tree (see customize control panel).

This status displays the status and current time, the plug-in state and the real-time status.

* '''Run:''' the TDA plug-in is computing data and average it
* '''Stop:''' The TDA plug-in is stopped.
* '''Trig:''' The TDA plug-in is waiting for next block; i.e. next trigger event (block triggering) or first start event (triggering)
* '''Pause: '''The TDA plug-in averaging is paused
*
'''Notes''': in exponential averaging mode the average counts stops increasing as soon as the set value is reached.

The way the status bar is displayed, depends on the type of averaging selected:

* '''<nowiki>’</nowiki>Linear<nowiki>’</nowiki>: '''the progress bar is filled from left to right.
* '''<nowiki>’</nowiki>Exponential<nowiki>’</nowiki>''': the progress bar is filled from right to left with a flashing until the end of the acquisition.

The color of the background bar and of the text depends on real-time status:

* ''Green background and white or black text'': acquisition in real-time.
* ''Red background and white or black text'': the current acquisition is not real-time (current block is not analyzed).
* ''Green background and red text'': the current acquisition is real-time, but since start not all the blocks were analyzed.

[[Image:Analysis_plug_TDA_07.png|none]]

This status displays the progression of the measurement in duration

'''Trigger State'''

The following scheme describes the basic statuses evolution of the TDA measurement:

[[Image:Analysis_plug_TDA_08.png|none]]

By default the trigger state is on <nowiki>’</nowiki>Stop<nowiki>’</nowiki> and waiting for a <nowiki>’</nowiki>Run<nowiki>’</nowiki> (start or trigger). Then the state become <nowiki>’</nowiki>Triggering<nowiki>’</nowiki> and is waiting for a start event, the states become <nowiki>’</nowiki>Running<nowiki>’</nowiki>.

The TDA plug-in can run either in the standard plug-in synchronization or totally free run (see Synchronization setting in the TDA settings). While running in the free run mode, the TDA remain in the running mode (not displayed in the status) until the synchronization is changed.

======Count======
This status displays the averaging duration processed. This status is expressed in seconds.

======Real-time======
This status displays if the averaging is in real-time or not (i.e. the current block is analyzed or not). If the corresponding signal were not available at this time, the acquisition is not real-time. That means that the treatment is longer than the acquisition.

There are 3 values for this state:

* '''<nowiki>’</nowiki>OK<nowiki>’</nowiki>''': The acquisition is real-time (all block have been processed and averaged)
* '''<nowiki>’</nowiki>No<nowiki>’</nowiki>''': Acquisition was not real-time (some previous blocks are missing in the average).
* '''<nowiki>’</nowiki>-<nowiki>’</nowiki>''': The acquisition is currently not real-time (current block is not analyzed an averaged).
======Block overload======
This status corresponds to the instantaneous overload indication for TDA plug-in current block, for instance amplitude overload occurred in the current analyzed block.

======Analysis overload======
This status corresponds to overload indication over the measurement period. It means that during the whole measurement period there was (or not) an overload. It memorizes block overloaded.

=====Properties=====

[[Image:Display_Graphs_Traces_99.png|none]]

* Trace color
* Number: selects the trace number for color modification.
* Color box: click on this box to modify the color of the selected trace.

* X Axis
* Absolute time: displays the time from windows format.
* Relative time: displays the duration of the record. The beginning of the record is set to 0.
* Auto: selects absolute or relative time depending on the duration of the record. For records smaller than 2s, the relative time is displayed, for others, the absolute time is chosen.

NVGate Time Domain Analysis

2022-03-28T11:31:44Z

Credaelli: /* TDA status */

[[category:NVGate]]
The TDA plug-in is designed to get the most from the time domain signal completing the frequency/order analyses. This plug-in offers flexible signal overview and statistical extraction in parallel.
[[File:TDA_3.png|500px|right]]
[[Image:TDA_ASB.png|framed|right]]
This TDA plug-in provides 2 types of results:

* Time views and associated extracted results. It<nowiki>’</nowiki>s an oscilloscope-like function, to view the time domain series. This does not record the time signal, only their statistical content.
* Statistical scalar result. The TDA computes the statistical content of the connected input on a specific time and average basis. These scalars levels are available as view meter or profiles (using waterfall).

=== Connect channels===
Click on connect inputs and drag and drop the channels on TDA plug in.
[[File:TDA_1.png|600px|none]]

===Available results:===

The results can be display using the add remove windows:

[[File:TDA_2.png|700px|none]]
 
{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="50%" align="center"
|'''Type'''
|'''Size'''
|'''Dimension'''
|'''Domain'''
|'''Save'''

|-
|DC
|1pt
|1D
| 
| Yes

|-
|RMS
|1pt
|1D
| 
| Yes

|-
|Min level
|1pt
|1D
| 
| Yes

|-
|Max level
|1pt
|1D
| 
| Yes

|-
|Peak
|1pt
|1D
| 
| Yes

|-
|Peak-Peak
|1pt
|1D
| 
| Yes

|-
|Crest Factor
|1pt
|1D
| 
| Yes

|-
|Kurtosis
|1pt
|1D
| 
| Yes

|-
|Time View
|2048 pt max
|Compressed Time
|time
| Yes

|} 

* '''DC''': the average DC value of the time signal
* '''RMS''': the RMS value of the time signal (DC being removed)
* '''Min''': the minimum level of time signal
* '''Max''': the maximum level of time signal
* '''Peak''': the absolute value of Min level and Max level.
* '''Peak-Peak''': displays the difference between Min level and max level. Peak-Peak level ≥ 0.

* '''Crest factor''': displays the ratio Peak level/RMS level. Characteristics of the Crest Factor:

[[Image:Analysis_plug_TDA_02.png|framed|none]]

* '''Kurtosis''': the kurtosis value (4th order moment) of the time signal
* '''Time View'''

====Display====
The ''Time view''is an oscilloscope-like view of the time domain series which scrolls the signal on a user define duration. The duration of the viewed signal is independent for each channel. That is to say it allows monitoring the same signal on different durations.

[[Image:Analysis_plug_TDA_03.png|700px|none]]

It<nowiki>’</nowiki>s possible to display several TDA channels in same window even if the durations are different. The windows size will be set according to the larger duration.

X zoom is not available at Time View, display is fixed to multi graph.

This window handles 3 cursors:

* Main cursor where is retrieved the values displayed at infortrace
* Cursors 1-2 used for selection. The scalar values displayed in the info trace are computed according to this selection.

[[Image:Display_Graphs_Traces_97.png|700px|none]]

Scalar table may be setup to add / remove scalar that may be displayed:

Content of Scalar Table could be copy to export to another application.

[[Image:Display_Graphs_Traces_98.png|none]]

The setup of the monitored duration determines the analysis steps. These steps are indicated in the ''Time base ''states. The ''Time base ''is the time interval for each new point in the ''Time view ''signal. The time view duration is settable from 320 ms to 100 000 s (27 hours) with a 20 kHz bandwidth.

The minimum duration depends on the plug-in bandwidth. For example at 20 kHz with a duration of 10.24 sec, the ''Time base ''is set at 5 ms. A new point in the ''Time view ''will occur each 5 ms and the maximum number of points in the graph will be 2048.

The X axis can be either absolute (real date/time) or relative (in buffer duration). It can be changed during acquisition. The default type is relative; it may be changed through the user<nowiki>’</nowiki>s preferences.

In addition to the signal overview, the ''Time view'' provides statistic extraction of a part of the displayed signal. The extraction takes into account the signal defined in the selected area (reverse video). The results of this extraction are available in the info trace. The following levels are computed in the selected area:

* DC
* RMS (root min square)
* Min. (minimum) lowest amplitude
* Max (maximum) highest amplitude
* Ktsis (kurtosis) 3rd order moment
* Pk (peak) absolute value of the largest amplitude
* Pk-Pk (peak-peak) largest excursion
* CrFact (crest factor) Pk-Pk/RMS
* Kurtosis

[[Image:Analysis_plug_TDA_04.png|700px|none]]

===Settings===
[[File:TDA_4.png|500px|right]]
[[Image:TDA_ASB.png|framed|right]]

* '''Synchronization:''' Controls the plug-in synchronization with the general analyzer status:
* '''Linked to run:''' The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
* '''Free run:''' The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing
* '''Range:''' Setup the analysis range for the plug-in. This value is maximized by the front-end sampling frequency divided by 2.56. Note: Each plug-in feature an independent bandwidth.
* '''Average:''' Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''
* '''Average duration:''' Setup the average duration. In Exponential mode it specifies the non decayed part of the signal. In linear mode, it specifies the complete duration. In Linear repeated mode, it specifies the short duration.
=====Channel=====
Contains the settings related to the source input.

* '''Source''': input source to be analyzed. It may come from the input Front-end or from the Player in the post analysis mode (see the post analysis chapter). In the post analysis mode, the tracks with a signal bandwidth lower than the range of the TDA cannot be plugged.
* '''Input filter''': filter to be used for filtering the source before analysis. The Filters that are not compatible with the TDA range cannot be selected (see the Filter builder chapter).
* '''Duration:''' duration of the viewed signal. Minimum value depends on TDA frequency range analysis (360ms for 20kHz bandwidth analysis) whereas maximal value can be up to 100000s. The duration of the viewed signal is independent for each channel.
This setting affects only the Time View, not the scalar results.

* '''Time Base: '''this read-only setting is the duration of one displayed point in the time view. Time view display is set to a fixed size of 2048 points. Time base is evaluated according to the formula:

{|border="0" cellspacing="2" width="100%"
| 
| 
|Time Base = Duration / 2048

|-
| 
|colspan = "2"|For a duration of 10 s , Time Base corresponds to 4.882812 m.

|}

=====Analysis=====
*'''Autobandwidth''': manages the analysis and recording bandwidths automatically. The Inputs selection window allows the use of 2 different sampling rates for the dynamic inputs. It gathers inputs with the same physical quantity into groups, maintaining the same sampling into each group. When inputs are associated with the analysis plug-in, it adjusts its analysis bandwidth to match the inputs ones. Mixing input bandwidths in one analysis plug-in lead to set its bandwidth to the lowest one. Autobandwidth is set by default . When it is enabled in the plug-in, these settings "switch to informative status"

*'''Range: '''the TDA plug-in frequency range. The analyzer sampling frequency divided by 2.56 limits this range, and the minimum is obtained by dividing this limit by 50000. For example, if the analyzer sampling frequency is 51,2kS/s, then the max range is 20 kHz and the min is 400mHz. In post analysis mode, the Max Bandwidth setting from the Player plug-in provides the analyzer sampling frequency by multiplying the value by 2.56 (ex: if max bandwidth = 20 kHz then the analyzer sampling frequency is 51.2kS/s), otherwise, the analyzer sampling frequency is provided by the input sampling setting from the Front end plug-in input setting sub-module.

=====Average=====

* '''Average:''' Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''

* '''Type:''' The method of averaging the signal. There are four different averaging modes: Linear, Exponential, Peak hold, and Referenced Peak hold.

{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="94%" align="center"
|'''Type'''
|'''Description'''

|-
|Linear
|Linear averaging of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|-
|Exponential
|In this mode of computation, averaging is continuously updated each 256 samples. All scalar results DC, RMS, Min, Max, Peak, Peak-Peak, Kurtosis, are reset with a periodicity equal to the duration of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|} 

event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.

* '''Duration''': The duration of the signal used to compute the scalar results available as result. Results are delivered each 256 samples.:This setting affects only the Time View, not the scalar results.

=====Trigger=====

* '''Synchronization''': Controls the plug-in synchronization with the general analyzer status:
** '''Linked to run:''' The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
** '''Free run:''' The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing. In Free Run mode, the average is forced to Exponential.
* '''Start:''' defines the event to start the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Start" condition.
* '''Stop:''' defines the event to stop the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.
* '''Repeat:''' this setting is used to select a condition for the TDA plug-in to be restarted. If an event is selected as a Start event, the option "New start" is available, and when this mode is selected each Start event restarts the plug-in. The "End of averaging" mode is available when the value of the ''TDA /Analysis/Type'' is equal to "Linear" mode. This restarts the plug-in when the averaging is finished. For linear average when it is set to "End of averaging", the "Avg duration" gives the periodicity of the average restart. By default the Repeat mode is set to "Off".
* '''Start Delay:''' time delay applied to the time the start event occurs. The Start Delay could be a negative values to act as a pre-trigger. At default setting of 20kHz analysis, the minimum value for Start Delay is -635ms. The maximum value is 360000s.

===TDA status===
All statuses are available for the control panel. Statuses are refreshed all the time at roughly 10 Hz.


[[Image:Analysis_plug_TDA_05.png|none]]


[[Image:Analysis_plug_TDA_06.png|none]]

The current plug-in status is synthesized in a special progress-bar. This progress bar is automatically displayed in the bottom area when the plug-in is active (i.e. as soon as at least 1 input is connected to the TDA plug-in). This status is called <nowiki>’</nowiki>TDA<nowiki>’</nowiki> and it is available in the status ASB tree (see customize control panel).

This status displays the status and current time, the plug-in state and the real-time status.

* '''Run:''' the TDA plug-in is computing data and average it
* '''Stop:''' The TDA plug-in is stopped.
* '''Trig:''' The TDA plug-in is waiting for next block; i.e. next trigger event (block triggering) or first start event (triggering)
* '''Pause: '''The TDA plug-in averaging is paused
*
'''Notes''': in exponential averaging mode the average counts stops increasing as soon as the set value is reached.

The way the status bar is displayed, depends on the type of averaging selected:

* '''<nowiki>’</nowiki>Linear<nowiki>’</nowiki>: '''the progress bar is filled from left to right.
* '''<nowiki>’</nowiki>Exponential<nowiki>’</nowiki>''': the progress bar is filled from right to left with a flashing until the end of the acquisition.

The color of the background bar and of the text depends on real-time status:

* ''Green background and white or black text'': acquisition in real-time.
* ''Red background and white or black text'': the current acquisition is not real-time (current block is not analyzed).
* ''Green background and red text'': the current acquisition is real-time, but since start not all the blocks were analyzed.

[[Image:Analysis_plug_TDA_07.png|none]]

This status displays the progression of the measurement in duration

'''Trigger State'''

The following scheme describes the basic statuses evolution of the TDA measurement:

[[Image:Analysis_plug_TDA_08.png|none]]

By default the trigger state is on <nowiki>’</nowiki>Stop<nowiki>’</nowiki> and waiting for a <nowiki>’</nowiki>Run<nowiki>’</nowiki> (start or trigger). Then the state become <nowiki>’</nowiki>Triggering<nowiki>’</nowiki> and is waiting for a start event, the states become <nowiki>’</nowiki>Running<nowiki>’</nowiki>.

The TDA plug-in can run either in the standard plug-in synchronization or totally free run (see Synchronization setting in the TDA settings). While running in the free run mode, the TDA remain in the running mode (not displayed in the status) until the synchronization is changed.

======Count======
This status displays the averaging duration processed. This status is expressed in seconds.

======Real-time======
This status displays if the averaging is in real-time or not (i.e. the current block is analyzed or not). If the corresponding signal were not available at this time, the acquisition is not real-time. That means that the treatment is longer than the acquisition.

There are 3 values for this state:

* '''<nowiki>’</nowiki>OK<nowiki>’</nowiki>''': The acquisition is real-time (all block have been processed and averaged)
* '''<nowiki>’</nowiki>No<nowiki>’</nowiki>''': Acquisition was not real-time (some previous blocks are missing in the average).
* '''<nowiki>’</nowiki>-<nowiki>’</nowiki>''': The acquisition is currently not real-time (current block is not analyzed an averaged).
======Block overload======
This status corresponds to the instantaneous overload indication for TDA plug-in current block, for instance amplitude overload occurred in the current analyzed block.

======Analysis overload======
This status corresponds to overload indication over the measurement period. It means that during the whole measurement period there was (or not) an overload. It memorizes block overloaded.

=====Properties=====

[[Image:Display_Graphs_Traces_99.png|none]]

* Trace color
* Number: selects the trace number for color modification.
* Color box: click on this box to modify the color of the selected trace.

* X Axis
* Absolute time: displays the time from windows format.
* Relative time: displays the duration of the record. The beginning of the record is set to 0.
* Auto: selects absolute or relative time depending on the duration of the record. For records smaller than 2s, the relative time is displayed, for others, the absolute time is chosen.

NVGate Time Domain Analysis

2022-03-28T11:31:00Z

Credaelli: /* Average */

[[category:NVGate]]
The TDA plug-in is designed to get the most from the time domain signal completing the frequency/order analyses. This plug-in offers flexible signal overview and statistical extraction in parallel.
[[File:TDA_3.png|500px|right]]
[[Image:TDA_ASB.png|framed|right]]
This TDA plug-in provides 2 types of results:

* Time views and associated extracted results. It<nowiki>’</nowiki>s an oscilloscope-like function, to view the time domain series. This does not record the time signal, only their statistical content.
* Statistical scalar result. The TDA computes the statistical content of the connected input on a specific time and average basis. These scalars levels are available as view meter or profiles (using waterfall).

=== Connect channels===
Click on connect inputs and drag and drop the channels on TDA plug in.
[[File:TDA_1.png|600px|none]]

===Available results:===

The results can be display using the add remove windows:

[[File:TDA_2.png|700px|none]]
 
{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="50%" align="center"
|'''Type'''
|'''Size'''
|'''Dimension'''
|'''Domain'''
|'''Save'''

|-
|DC
|1pt
|1D
| 
| Yes

|-
|RMS
|1pt
|1D
| 
| Yes

|-
|Min level
|1pt
|1D
| 
| Yes

|-
|Max level
|1pt
|1D
| 
| Yes

|-
|Peak
|1pt
|1D
| 
| Yes

|-
|Peak-Peak
|1pt
|1D
| 
| Yes

|-
|Crest Factor
|1pt
|1D
| 
| Yes

|-
|Kurtosis
|1pt
|1D
| 
| Yes

|-
|Time View
|2048 pt max
|Compressed Time
|time
| Yes

|} 

* '''DC''': the average DC value of the time signal
* '''RMS''': the RMS value of the time signal (DC being removed)
* '''Min''': the minimum level of time signal
* '''Max''': the maximum level of time signal
* '''Peak''': the absolute value of Min level and Max level.
* '''Peak-Peak''': displays the difference between Min level and max level. Peak-Peak level ≥ 0.

* '''Crest factor''': displays the ratio Peak level/RMS level. Characteristics of the Crest Factor:

[[Image:Analysis_plug_TDA_02.png|framed|none]]

* '''Kurtosis''': the kurtosis value (4th order moment) of the time signal
* '''Time View'''

====Display====
The ''Time view''is an oscilloscope-like view of the time domain series which scrolls the signal on a user define duration. The duration of the viewed signal is independent for each channel. That is to say it allows monitoring the same signal on different durations.

[[Image:Analysis_plug_TDA_03.png|700px|none]]

It<nowiki>’</nowiki>s possible to display several TDA channels in same window even if the durations are different. The windows size will be set according to the larger duration.

X zoom is not available at Time View, display is fixed to multi graph.

This window handles 3 cursors:

* Main cursor where is retrieved the values displayed at infortrace
* Cursors 1-2 used for selection. The scalar values displayed in the info trace are computed according to this selection.

[[Image:Display_Graphs_Traces_97.png|700px|none]]

Scalar table may be setup to add / remove scalar that may be displayed:

Content of Scalar Table could be copy to export to another application.

[[Image:Display_Graphs_Traces_98.png|none]]

The setup of the monitored duration determines the analysis steps. These steps are indicated in the ''Time base ''states. The ''Time base ''is the time interval for each new point in the ''Time view ''signal. The time view duration is settable from 320 ms to 100 000 s (27 hours) with a 20 kHz bandwidth.

The minimum duration depends on the plug-in bandwidth. For example at 20 kHz with a duration of 10.24 sec, the ''Time base ''is set at 5 ms. A new point in the ''Time view ''will occur each 5 ms and the maximum number of points in the graph will be 2048.

The X axis can be either absolute (real date/time) or relative (in buffer duration). It can be changed during acquisition. The default type is relative; it may be changed through the user<nowiki>’</nowiki>s preferences.

In addition to the signal overview, the ''Time view'' provides statistic extraction of a part of the displayed signal. The extraction takes into account the signal defined in the selected area (reverse video). The results of this extraction are available in the info trace. The following levels are computed in the selected area:

* DC
* RMS (root min square)
* Min. (minimum) lowest amplitude
* Max (maximum) highest amplitude
* Ktsis (kurtosis) 3rd order moment
* Pk (peak) absolute value of the largest amplitude
* Pk-Pk (peak-peak) largest excursion
* CrFact (crest factor) Pk-Pk/RMS
* Kurtosis

[[Image:Analysis_plug_TDA_04.png|700px|none]]

===Settings===
[[File:TDA_4.png|500px|right]]
[[Image:TDA_ASB.png|framed|right]]

* '''Synchronization:''' Controls the plug-in synchronization with the general analyzer status:
* '''Linked to run:''' The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
* '''Free run:''' The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing
* '''Range:''' Setup the analysis range for the plug-in. This value is maximized by the front-end sampling frequency divided by 2.56. Note: Each plug-in feature an independent bandwidth.
* '''Average:''' Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''
* '''Average duration:''' Setup the average duration. In Exponential mode it specifies the non decayed part of the signal. In linear mode, it specifies the complete duration. In Linear repeated mode, it specifies the short duration.
=====Channel=====
Contains the settings related to the source input.

* '''Source''': input source to be analyzed. It may come from the input Front-end or from the Player in the post analysis mode (see the post analysis chapter). In the post analysis mode, the tracks with a signal bandwidth lower than the range of the TDA cannot be plugged.
* '''Input filter''': filter to be used for filtering the source before analysis. The Filters that are not compatible with the TDA range cannot be selected (see the Filter builder chapter).
* '''Duration:''' duration of the viewed signal. Minimum value depends on TDA frequency range analysis (360ms for 20kHz bandwidth analysis) whereas maximal value can be up to 100000s. The duration of the viewed signal is independent for each channel.
This setting affects only the Time View, not the scalar results.

* '''Time Base: '''this read-only setting is the duration of one displayed point in the time view. Time view display is set to a fixed size of 2048 points. Time base is evaluated according to the formula:

{|border="0" cellspacing="2" width="100%"
| 
| 
|Time Base = Duration / 2048

|-
| 
|colspan = "2"|For a duration of 10 s , Time Base corresponds to 4.882812 m.

|}

=====Analysis=====
*'''Autobandwidth''': manages the analysis and recording bandwidths automatically. The Inputs selection window allows the use of 2 different sampling rates for the dynamic inputs. It gathers inputs with the same physical quantity into groups, maintaining the same sampling into each group. When inputs are associated with the analysis plug-in, it adjusts its analysis bandwidth to match the inputs ones. Mixing input bandwidths in one analysis plug-in lead to set its bandwidth to the lowest one. Autobandwidth is set by default . When it is enabled in the plug-in, these settings "switch to informative status"

*'''Range: '''the TDA plug-in frequency range. The analyzer sampling frequency divided by 2.56 limits this range, and the minimum is obtained by dividing this limit by 50000. For example, if the analyzer sampling frequency is 51,2kS/s, then the max range is 20 kHz and the min is 400mHz. In post analysis mode, the Max Bandwidth setting from the Player plug-in provides the analyzer sampling frequency by multiplying the value by 2.56 (ex: if max bandwidth = 20 kHz then the analyzer sampling frequency is 51.2kS/s), otherwise, the analyzer sampling frequency is provided by the input sampling setting from the Front end plug-in input setting sub-module.

=====Average=====

* '''Average:''' Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''

* '''Type:''' The method of averaging the signal. There are four different averaging modes: Linear, Exponential, Peak hold, and Referenced Peak hold.

{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="94%" align="center"
|'''Type'''
|'''Description'''

|-
|Linear
|Linear averaging of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|-
|Exponential
|In this mode of computation, averaging is continuously updated each 256 samples. All scalar results DC, RMS, Min, Max, Peak, Peak-Peak, Kurtosis, are reset with a periodicity equal to the duration of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|} 

event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.

* '''Duration''': The duration of the signal used to compute the scalar results available as result. Results are delivered each 256 samples.:This setting affects only the Time View, not the scalar results.

=====Trigger=====

* '''Synchronization''': Controls the plug-in synchronization with the general analyzer status:
** '''Linked to run:''' The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
** '''Free run:''' The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing. In Free Run mode, the average is forced to Exponential.
* '''Start:''' defines the event to start the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Start" condition.
* '''Stop:''' defines the event to stop the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.
* '''Repeat:''' this setting is used to select a condition for the TDA plug-in to be restarted. If an event is selected as a Start event, the option "New start" is available, and when this mode is selected each Start event restarts the plug-in. The "End of averaging" mode is available when the value of the ''TDA /Analysis/Type'' is equal to "Linear" mode. This restarts the plug-in when the averaging is finished. For linear average when it is set to "End of averaging", the "Avg duration" gives the periodicity of the average restart. By default the Repeat mode is set to "Off".
* '''Start Delay:''' time delay applied to the time the start event occurs. The Start Delay could be a negative values to act as a pre-trigger. At default setting of 20kHz analysis, the minimum value for Start Delay is -635ms. The maximum value is 360000s.

===TDA status===
All statuses are available for the control panel. Statuses are refreshed all the time at roughly 10 Hz.


[[Image:Analysis_plug_TDA_05.png|framed|none]]


[[Image:Analysis_plug_TDA_06.png|framed|none]]

The current plug-in status is synthesized in a special progress-bar. This progress bar is automatically displayed in the bottom area when the plug-in is active (i.e. as soon as at least 1 input is connected to the TDA plug-in). This status is called <nowiki>’</nowiki>TDA<nowiki>’</nowiki> and it is available in the status ASB tree (see customize control panel).

This status displays the status and current time, the plug-in state and the real-time status.

* '''Run:''' the TDA plug-in is computing data and average it
* '''Stop:''' The TDA plug-in is stopped.
* '''Trig:''' The TDA plug-in is waiting for next block; i.e. next trigger event (block triggering) or first start event (triggering)
* '''Pause: '''The TDA plug-in averaging is paused
*
'''Notes''': in exponential averaging mode the average counts stops increasing as soon as the set value is reached.

The way the status bar is displayed, depends on the type of averaging selected:

* '''<nowiki>’</nowiki>Linear<nowiki>’</nowiki>: '''the progress bar is filled from left to right.
* '''<nowiki>’</nowiki>Exponential<nowiki>’</nowiki>''': the progress bar is filled from right to left with a flashing until the end of the acquisition.

The color of the background bar and of the text depends on real-time status:

* ''Green background and white or black text'': acquisition in real-time.
* ''Red background and white or black text'': the current acquisition is not real-time (current block is not analyzed).
* ''Green background and red text'': the current acquisition is real-time, but since start not all the blocks were analyzed.

[[Image:Analysis_plug_TDA_07.png|framed|none]]

This status displays the progression of the measurement in duration

'''Trigger State'''

The following scheme describes the basic statuses evolution of the TDA measurement:

[[Image:Analysis_plug_TDA_08.png|framed|none]]

By default the trigger state is on <nowiki>’</nowiki>Stop<nowiki>’</nowiki> and waiting for a <nowiki>’</nowiki>Run<nowiki>’</nowiki> (start or trigger). Then the state become <nowiki>’</nowiki>Triggering<nowiki>’</nowiki> and is waiting for a start event, the states become <nowiki>’</nowiki>Running<nowiki>’</nowiki>.

The TDA plug-in can run either in the standard plug-in synchronization or totally free run (see Synchronization setting in the TDA settings). While running in the free run mode, the TDA remain in the running mode (not displayed in the status) until the synchronization is changed.

======Count======
This status displays the averaging duration processed. This status is expressed in seconds.

======Real-time======
This status displays if the averaging is in real-time or not (i.e. the current block is analyzed or not). If the corresponding signal were not available at this time, the acquisition is not real-time. That means that the treatment is longer than the acquisition.

There are 3 values for this state:

* '''<nowiki>’</nowiki>OK<nowiki>’</nowiki>''': The acquisition is real-time (all block have been processed and averaged)
* '''<nowiki>’</nowiki>No<nowiki>’</nowiki>''': Acquisition was not real-time (some previous blocks are missing in the average).
* '''<nowiki>’</nowiki>-<nowiki>’</nowiki>''': The acquisition is currently not real-time (current block is not analyzed an averaged).
======Block overload======
This status corresponds to the instantaneous overload indication for TDA plug-in current block, for instance amplitude overload occurred in the current analyzed block.

======Analysis overload======
This status corresponds to overload indication over the measurement period. It means that during the whole measurement period there was (or not) an overload. It memorizes block overloaded.

=====Properties=====

[[Image:Display_Graphs_Traces_99.png|framed|none]]

* Trace color
* Number: selects the trace number for color modification.
* Color box: click on this box to modify the color of the selected trace.

* X Axis
* Absolute time: displays the time from windows format.
* Relative time: displays the duration of the record. The beginning of the record is set to 0.
* Auto: selects absolute or relative time depending on the duration of the record. For records smaller than 2s, the relative time is displayed, for others, the absolute time is chosen.

NVGate Time Domain Analysis

2022-03-28T11:30:37Z

Credaelli: /* Display */

[[category:NVGate]]
The TDA plug-in is designed to get the most from the time domain signal completing the frequency/order analyses. This plug-in offers flexible signal overview and statistical extraction in parallel.
[[File:TDA_3.png|500px|right]]
[[Image:TDA_ASB.png|framed|right]]
This TDA plug-in provides 2 types of results:

* Time views and associated extracted results. It<nowiki>’</nowiki>s an oscilloscope-like function, to view the time domain series. This does not record the time signal, only their statistical content.
* Statistical scalar result. The TDA computes the statistical content of the connected input on a specific time and average basis. These scalars levels are available as view meter or profiles (using waterfall).

=== Connect channels===
Click on connect inputs and drag and drop the channels on TDA plug in.
[[File:TDA_1.png|600px|none]]

===Available results:===

The results can be display using the add remove windows:

[[File:TDA_2.png|700px|none]]
 
{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="50%" align="center"
|'''Type'''
|'''Size'''
|'''Dimension'''
|'''Domain'''
|'''Save'''

|-
|DC
|1pt
|1D
| 
| Yes

|-
|RMS
|1pt
|1D
| 
| Yes

|-
|Min level
|1pt
|1D
| 
| Yes

|-
|Max level
|1pt
|1D
| 
| Yes

|-
|Peak
|1pt
|1D
| 
| Yes

|-
|Peak-Peak
|1pt
|1D
| 
| Yes

|-
|Crest Factor
|1pt
|1D
| 
| Yes

|-
|Kurtosis
|1pt
|1D
| 
| Yes

|-
|Time View
|2048 pt max
|Compressed Time
|time
| Yes

|} 

* '''DC''': the average DC value of the time signal
* '''RMS''': the RMS value of the time signal (DC being removed)
* '''Min''': the minimum level of time signal
* '''Max''': the maximum level of time signal
* '''Peak''': the absolute value of Min level and Max level.
* '''Peak-Peak''': displays the difference between Min level and max level. Peak-Peak level ≥ 0.

* '''Crest factor''': displays the ratio Peak level/RMS level. Characteristics of the Crest Factor:

[[Image:Analysis_plug_TDA_02.png|framed|none]]

* '''Kurtosis''': the kurtosis value (4th order moment) of the time signal
* '''Time View'''

====Display====
The ''Time view''is an oscilloscope-like view of the time domain series which scrolls the signal on a user define duration. The duration of the viewed signal is independent for each channel. That is to say it allows monitoring the same signal on different durations.

[[Image:Analysis_plug_TDA_03.png|700px|none]]

It<nowiki>’</nowiki>s possible to display several TDA channels in same window even if the durations are different. The windows size will be set according to the larger duration.

X zoom is not available at Time View, display is fixed to multi graph.

This window handles 3 cursors:

* Main cursor where is retrieved the values displayed at infortrace
* Cursors 1-2 used for selection. The scalar values displayed in the info trace are computed according to this selection.

[[Image:Display_Graphs_Traces_97.png|700px|none]]

Scalar table may be setup to add / remove scalar that may be displayed:

Content of Scalar Table could be copy to export to another application.

[[Image:Display_Graphs_Traces_98.png|none]]

The setup of the monitored duration determines the analysis steps. These steps are indicated in the ''Time base ''states. The ''Time base ''is the time interval for each new point in the ''Time view ''signal. The time view duration is settable from 320 ms to 100 000 s (27 hours) with a 20 kHz bandwidth.

The minimum duration depends on the plug-in bandwidth. For example at 20 kHz with a duration of 10.24 sec, the ''Time base ''is set at 5 ms. A new point in the ''Time view ''will occur each 5 ms and the maximum number of points in the graph will be 2048.

The X axis can be either absolute (real date/time) or relative (in buffer duration). It can be changed during acquisition. The default type is relative; it may be changed through the user<nowiki>’</nowiki>s preferences.

In addition to the signal overview, the ''Time view'' provides statistic extraction of a part of the displayed signal. The extraction takes into account the signal defined in the selected area (reverse video). The results of this extraction are available in the info trace. The following levels are computed in the selected area:

* DC
* RMS (root min square)
* Min. (minimum) lowest amplitude
* Max (maximum) highest amplitude
* Ktsis (kurtosis) 3rd order moment
* Pk (peak) absolute value of the largest amplitude
* Pk-Pk (peak-peak) largest excursion
* CrFact (crest factor) Pk-Pk/RMS
* Kurtosis

[[Image:Analysis_plug_TDA_04.png|700px|none]]

===Settings===
[[File:TDA_4.png|500px|right]]
[[Image:TDA_ASB.png|framed|right]]

* '''Synchronization:''' Controls the plug-in synchronization with the general analyzer status:
* '''Linked to run:''' The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
* '''Free run:''' The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing
* '''Range:''' Setup the analysis range for the plug-in. This value is maximized by the front-end sampling frequency divided by 2.56. Note: Each plug-in feature an independent bandwidth.
* '''Average:''' Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''
* '''Average duration:''' Setup the average duration. In Exponential mode it specifies the non decayed part of the signal. In linear mode, it specifies the complete duration. In Linear repeated mode, it specifies the short duration.
=====Channel=====
Contains the settings related to the source input.

* '''Source''': input source to be analyzed. It may come from the input Front-end or from the Player in the post analysis mode (see the post analysis chapter). In the post analysis mode, the tracks with a signal bandwidth lower than the range of the TDA cannot be plugged.
* '''Input filter''': filter to be used for filtering the source before analysis. The Filters that are not compatible with the TDA range cannot be selected (see the Filter builder chapter).
* '''Duration:''' duration of the viewed signal. Minimum value depends on TDA frequency range analysis (360ms for 20kHz bandwidth analysis) whereas maximal value can be up to 100000s. The duration of the viewed signal is independent for each channel.
This setting affects only the Time View, not the scalar results.

* '''Time Base: '''this read-only setting is the duration of one displayed point in the time view. Time view display is set to a fixed size of 2048 points. Time base is evaluated according to the formula:

{|border="0" cellspacing="2" width="100%"
| 
| 
|Time Base = Duration / 2048

|-
| 
|colspan = "2"|For a duration of 10 s , Time Base corresponds to 4.882812 m.

|}

=====Analysis=====
*'''Autobandwidth''': manages the analysis and recording bandwidths automatically. The Inputs selection window allows the use of 2 different sampling rates for the dynamic inputs. It gathers inputs with the same physical quantity into groups, maintaining the same sampling into each group. When inputs are associated with the analysis plug-in, it adjusts its analysis bandwidth to match the inputs ones. Mixing input bandwidths in one analysis plug-in lead to set its bandwidth to the lowest one. Autobandwidth is set by default . When it is enabled in the plug-in, these settings "switch to informative status"

*'''Range: '''the TDA plug-in frequency range. The analyzer sampling frequency divided by 2.56 limits this range, and the minimum is obtained by dividing this limit by 50000. For example, if the analyzer sampling frequency is 51,2kS/s, then the max range is 20 kHz and the min is 400mHz. In post analysis mode, the Max Bandwidth setting from the Player plug-in provides the analyzer sampling frequency by multiplying the value by 2.56 (ex: if max bandwidth = 20 kHz then the analyzer sampling frequency is 51.2kS/s), otherwise, the analyzer sampling frequency is provided by the input sampling setting from the Front end plug-in input setting sub-module.

=====Average=====

* '''Average:''' Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''

* '''Type:''' The method of averaging the signal. There are four different averaging modes: Linear, Exponential, Peak hold, and Referenced Peak hold.

{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="94%" align="center"
|'''Type'''
|'''Description'''

|-
|Linear
|Linear averaging of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|-
|Exponential
|In this mode of computation, averaging is continuously updated each 256 samples. All scalar results DC, RMS, Min, Max, Peak, Peak-Peak, Kurtosis, are reset with a periodicity equal to the duration of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|} 

event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.

* [[Image:Reports_Tools_Ribbons_390.png]]'''Duration''': The duration of the signal used to compute the scalar results available as result. Results are delivered each 256 samples.:This setting affects only the Time View, not the scalar results.

=====Trigger=====

* '''Synchronization''': Controls the plug-in synchronization with the general analyzer status:
** '''Linked to run:''' The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
** '''Free run:''' The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing. In Free Run mode, the average is forced to Exponential.
* '''Start:''' defines the event to start the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Start" condition.
* '''Stop:''' defines the event to stop the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.
* '''Repeat:''' this setting is used to select a condition for the TDA plug-in to be restarted. If an event is selected as a Start event, the option "New start" is available, and when this mode is selected each Start event restarts the plug-in. The "End of averaging" mode is available when the value of the ''TDA /Analysis/Type'' is equal to "Linear" mode. This restarts the plug-in when the averaging is finished. For linear average when it is set to "End of averaging", the "Avg duration" gives the periodicity of the average restart. By default the Repeat mode is set to "Off".
* '''Start Delay:''' time delay applied to the time the start event occurs. The Start Delay could be a negative values to act as a pre-trigger. At default setting of 20kHz analysis, the minimum value for Start Delay is -635ms. The maximum value is 360000s.

===TDA status===
All statuses are available for the control panel. Statuses are refreshed all the time at roughly 10 Hz.


[[Image:Analysis_plug_TDA_05.png|framed|none]]


[[Image:Analysis_plug_TDA_06.png|framed|none]]

The current plug-in status is synthesized in a special progress-bar. This progress bar is automatically displayed in the bottom area when the plug-in is active (i.e. as soon as at least 1 input is connected to the TDA plug-in). This status is called <nowiki>’</nowiki>TDA<nowiki>’</nowiki> and it is available in the status ASB tree (see customize control panel).

This status displays the status and current time, the plug-in state and the real-time status.

* '''Run:''' the TDA plug-in is computing data and average it
* '''Stop:''' The TDA plug-in is stopped.
* '''Trig:''' The TDA plug-in is waiting for next block; i.e. next trigger event (block triggering) or first start event (triggering)
* '''Pause: '''The TDA plug-in averaging is paused
*
'''Notes''': in exponential averaging mode the average counts stops increasing as soon as the set value is reached.

The way the status bar is displayed, depends on the type of averaging selected:

* '''<nowiki>’</nowiki>Linear<nowiki>’</nowiki>: '''the progress bar is filled from left to right.
* '''<nowiki>’</nowiki>Exponential<nowiki>’</nowiki>''': the progress bar is filled from right to left with a flashing until the end of the acquisition.

The color of the background bar and of the text depends on real-time status:

* ''Green background and white or black text'': acquisition in real-time.
* ''Red background and white or black text'': the current acquisition is not real-time (current block is not analyzed).
* ''Green background and red text'': the current acquisition is real-time, but since start not all the blocks were analyzed.

[[Image:Analysis_plug_TDA_07.png|framed|none]]

This status displays the progression of the measurement in duration

'''Trigger State'''

The following scheme describes the basic statuses evolution of the TDA measurement:

[[Image:Analysis_plug_TDA_08.png|framed|none]]

By default the trigger state is on <nowiki>’</nowiki>Stop<nowiki>’</nowiki> and waiting for a <nowiki>’</nowiki>Run<nowiki>’</nowiki> (start or trigger). Then the state become <nowiki>’</nowiki>Triggering<nowiki>’</nowiki> and is waiting for a start event, the states become <nowiki>’</nowiki>Running<nowiki>’</nowiki>.

The TDA plug-in can run either in the standard plug-in synchronization or totally free run (see Synchronization setting in the TDA settings). While running in the free run mode, the TDA remain in the running mode (not displayed in the status) until the synchronization is changed.

======Count======
This status displays the averaging duration processed. This status is expressed in seconds.

======Real-time======
This status displays if the averaging is in real-time or not (i.e. the current block is analyzed or not). If the corresponding signal were not available at this time, the acquisition is not real-time. That means that the treatment is longer than the acquisition.

There are 3 values for this state:

* '''<nowiki>’</nowiki>OK<nowiki>’</nowiki>''': The acquisition is real-time (all block have been processed and averaged)
* '''<nowiki>’</nowiki>No<nowiki>’</nowiki>''': Acquisition was not real-time (some previous blocks are missing in the average).
* '''<nowiki>’</nowiki>-<nowiki>’</nowiki>''': The acquisition is currently not real-time (current block is not analyzed an averaged).
======Block overload======
This status corresponds to the instantaneous overload indication for TDA plug-in current block, for instance amplitude overload occurred in the current analyzed block.

======Analysis overload======
This status corresponds to overload indication over the measurement period. It means that during the whole measurement period there was (or not) an overload. It memorizes block overloaded.

=====Properties=====

[[Image:Display_Graphs_Traces_99.png|framed|none]]

* Trace color
* Number: selects the trace number for color modification.
* Color box: click on this box to modify the color of the selected trace.

* X Axis
* Absolute time: displays the time from windows format.
* Relative time: displays the duration of the record. The beginning of the record is set to 0.
* Auto: selects absolute or relative time depending on the duration of the record. For records smaller than 2s, the relative time is displayed, for others, the absolute time is chosen.

NVGate Time Domain Analysis

2022-03-28T11:29:53Z

Credaelli:

[[category:NVGate]]
The TDA plug-in is designed to get the most from the time domain signal completing the frequency/order analyses. This plug-in offers flexible signal overview and statistical extraction in parallel.
[[File:TDA_3.png|500px|right]]
[[Image:TDA_ASB.png|framed|right]]
This TDA plug-in provides 2 types of results:

* Time views and associated extracted results. It<nowiki>’</nowiki>s an oscilloscope-like function, to view the time domain series. This does not record the time signal, only their statistical content.
* Statistical scalar result. The TDA computes the statistical content of the connected input on a specific time and average basis. These scalars levels are available as view meter or profiles (using waterfall).

=== Connect channels===
Click on connect inputs and drag and drop the channels on TDA plug in.
[[File:TDA_1.png|600px|none]]

===Available results:===

The results can be display using the add remove windows:

[[File:TDA_2.png|700px|none]]
 
{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="50%" align="center"
|'''Type'''
|'''Size'''
|'''Dimension'''
|'''Domain'''
|'''Save'''

|-
|DC
|1pt
|1D
| 
| Yes

|-
|RMS
|1pt
|1D
| 
| Yes

|-
|Min level
|1pt
|1D
| 
| Yes

|-
|Max level
|1pt
|1D
| 
| Yes

|-
|Peak
|1pt
|1D
| 
| Yes

|-
|Peak-Peak
|1pt
|1D
| 
| Yes

|-
|Crest Factor
|1pt
|1D
| 
| Yes

|-
|Kurtosis
|1pt
|1D
| 
| Yes

|-
|Time View
|2048 pt max
|Compressed Time
|time
| Yes

|} 

* '''DC''': the average DC value of the time signal
* '''RMS''': the RMS value of the time signal (DC being removed)
* '''Min''': the minimum level of time signal
* '''Max''': the maximum level of time signal
* '''Peak''': the absolute value of Min level and Max level.
* '''Peak-Peak''': displays the difference between Min level and max level. Peak-Peak level ≥ 0.

* '''Crest factor''': displays the ratio Peak level/RMS level. Characteristics of the Crest Factor:

[[Image:Analysis_plug_TDA_02.png|framed|none]]

* '''Kurtosis''': the kurtosis value (4th order moment) of the time signal
* '''Time View'''

====Display====
The ''Time view''is an oscilloscope-like view of the time domain series which scrolls the signal on a user define duration. The duration of the viewed signal is independent for each channel. That is to say it allows monitoring the same signal on different durations.

[[Image:Analysis_plug_TDA_03.png|700px|none]]

It<nowiki>’</nowiki>s possible to display several TDA channels in same window even if the durations are different. The windows size will be set according to the larger duration.

X zoom is not available at Time View, display is fixed to multi graph.

This window handles 3 cursors:

* Main cursor where is retrieved the values displayed at infortrace
* Cursors 1-2 used for selection. The scalar values displayed in the info trace are computed according to this selection.

[[Image:Display_Graphs_Traces_97.png|700px|none]]

Scalar table may be setup to add / remove scalar that may be displayed:

Content of Scalar Table could be copy to export to another application.

{|class="wikitable" style="background:white" border="0" cellspacing="2" width="100%"
|
[[Image:Display_Graphs_Traces_98.png|framed|none]]

| 

|}

The setup of the monitored duration determines the analysis steps. These steps are indicated in the ''Time base ''states. The ''Time base ''is the time interval for each new point in the ''Time view ''signal. The time view duration is settable from 320 ms to 100 000 s (27 hours) with a 20 kHz bandwidth.

The minimum duration depends on the plug-in bandwidth. For example at 20 kHz with a duration of 10.24 sec, the ''Time base ''is set at 5 ms. A new point in the ''Time view ''will occur each 5 ms and the maximum number of points in the graph will be 2048.

The X axis can be either absolute (real date/time) or relative (in buffer duration). It can be changed during acquisition. The default type is relative; it may be changed through the user<nowiki>’</nowiki>s preferences.

In addition to the signal overview, the ''Time view'' provides statistic extraction of a part of the displayed signal. The extraction takes into account the signal defined in the selected area (reverse video). The results of this extraction are available in the info trace. The following levels are computed in the selected area:

* DC
* RMS (root min square)
* Min. (minimum) lowest amplitude
* Max (maximum) highest amplitude
* Ktsis (kurtosis) 3rd order moment
* Pk (peak) absolute value of the largest amplitude
* Pk-Pk (peak-peak) largest excursion
* CrFact (crest factor) Pk-Pk/RMS
* Kurtosis

[[Image:Analysis_plug_TDA_04.png|700px|none]]

===Settings===
[[File:TDA_4.png|500px|right]]
[[Image:TDA_ASB.png|framed|right]]

* '''Synchronization:''' Controls the plug-in synchronization with the general analyzer status:
* '''Linked to run:''' The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
* '''Free run:''' The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing
* '''Range:''' Setup the analysis range for the plug-in. This value is maximized by the front-end sampling frequency divided by 2.56. Note: Each plug-in feature an independent bandwidth.
* '''Average:''' Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''
* '''Average duration:''' Setup the average duration. In Exponential mode it specifies the non decayed part of the signal. In linear mode, it specifies the complete duration. In Linear repeated mode, it specifies the short duration.
=====Channel=====
Contains the settings related to the source input.

* '''Source''': input source to be analyzed. It may come from the input Front-end or from the Player in the post analysis mode (see the post analysis chapter). In the post analysis mode, the tracks with a signal bandwidth lower than the range of the TDA cannot be plugged.
* '''Input filter''': filter to be used for filtering the source before analysis. The Filters that are not compatible with the TDA range cannot be selected (see the Filter builder chapter).
* '''Duration:''' duration of the viewed signal. Minimum value depends on TDA frequency range analysis (360ms for 20kHz bandwidth analysis) whereas maximal value can be up to 100000s. The duration of the viewed signal is independent for each channel.
This setting affects only the Time View, not the scalar results.

* '''Time Base: '''this read-only setting is the duration of one displayed point in the time view. Time view display is set to a fixed size of 2048 points. Time base is evaluated according to the formula:

{|border="0" cellspacing="2" width="100%"
| 
| 
|Time Base = Duration / 2048

|-
| 
|colspan = "2"|For a duration of 10 s , Time Base corresponds to 4.882812 m.

|}

=====Analysis=====
*'''Autobandwidth''': manages the analysis and recording bandwidths automatically. The Inputs selection window allows the use of 2 different sampling rates for the dynamic inputs. It gathers inputs with the same physical quantity into groups, maintaining the same sampling into each group. When inputs are associated with the analysis plug-in, it adjusts its analysis bandwidth to match the inputs ones. Mixing input bandwidths in one analysis plug-in lead to set its bandwidth to the lowest one. Autobandwidth is set by default . When it is enabled in the plug-in, these settings "switch to informative status"

*'''Range: '''the TDA plug-in frequency range. The analyzer sampling frequency divided by 2.56 limits this range, and the minimum is obtained by dividing this limit by 50000. For example, if the analyzer sampling frequency is 51,2kS/s, then the max range is 20 kHz and the min is 400mHz. In post analysis mode, the Max Bandwidth setting from the Player plug-in provides the analyzer sampling frequency by multiplying the value by 2.56 (ex: if max bandwidth = 20 kHz then the analyzer sampling frequency is 51.2kS/s), otherwise, the analyzer sampling frequency is provided by the input sampling setting from the Front end plug-in input setting sub-module.

=====Average=====

* '''Average:''' Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''

* '''Type:''' The method of averaging the signal. There are four different averaging modes: Linear, Exponential, Peak hold, and Referenced Peak hold.

{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="94%" align="center"
|'''Type'''
|'''Description'''

|-
|Linear
|Linear averaging of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|-
|Exponential
|In this mode of computation, averaging is continuously updated each 256 samples. All scalar results DC, RMS, Min, Max, Peak, Peak-Peak, Kurtosis, are reset with a periodicity equal to the duration of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|} 

event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.

* [[Image:Reports_Tools_Ribbons_390.png]]'''Duration''': The duration of the signal used to compute the scalar results available as result. Results are delivered each 256 samples.:This setting affects only the Time View, not the scalar results.

=====Trigger=====

* '''Synchronization''': Controls the plug-in synchronization with the general analyzer status:
** '''Linked to run:''' The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
** '''Free run:''' The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing. In Free Run mode, the average is forced to Exponential.
* '''Start:''' defines the event to start the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Start" condition.
* '''Stop:''' defines the event to stop the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.
* '''Repeat:''' this setting is used to select a condition for the TDA plug-in to be restarted. If an event is selected as a Start event, the option "New start" is available, and when this mode is selected each Start event restarts the plug-in. The "End of averaging" mode is available when the value of the ''TDA /Analysis/Type'' is equal to "Linear" mode. This restarts the plug-in when the averaging is finished. For linear average when it is set to "End of averaging", the "Avg duration" gives the periodicity of the average restart. By default the Repeat mode is set to "Off".
* '''Start Delay:''' time delay applied to the time the start event occurs. The Start Delay could be a negative values to act as a pre-trigger. At default setting of 20kHz analysis, the minimum value for Start Delay is -635ms. The maximum value is 360000s.

===TDA status===
All statuses are available for the control panel. Statuses are refreshed all the time at roughly 10 Hz.


[[Image:Analysis_plug_TDA_05.png|framed|none]]


[[Image:Analysis_plug_TDA_06.png|framed|none]]

The current plug-in status is synthesized in a special progress-bar. This progress bar is automatically displayed in the bottom area when the plug-in is active (i.e. as soon as at least 1 input is connected to the TDA plug-in). This status is called <nowiki>’</nowiki>TDA<nowiki>’</nowiki> and it is available in the status ASB tree (see customize control panel).

This status displays the status and current time, the plug-in state and the real-time status.

* '''Run:''' the TDA plug-in is computing data and average it
* '''Stop:''' The TDA plug-in is stopped.
* '''Trig:''' The TDA plug-in is waiting for next block; i.e. next trigger event (block triggering) or first start event (triggering)
* '''Pause: '''The TDA plug-in averaging is paused
*
'''Notes''': in exponential averaging mode the average counts stops increasing as soon as the set value is reached.

The way the status bar is displayed, depends on the type of averaging selected:

* '''<nowiki>’</nowiki>Linear<nowiki>’</nowiki>: '''the progress bar is filled from left to right.
* '''<nowiki>’</nowiki>Exponential<nowiki>’</nowiki>''': the progress bar is filled from right to left with a flashing until the end of the acquisition.

The color of the background bar and of the text depends on real-time status:

* ''Green background and white or black text'': acquisition in real-time.
* ''Red background and white or black text'': the current acquisition is not real-time (current block is not analyzed).
* ''Green background and red text'': the current acquisition is real-time, but since start not all the blocks were analyzed.

[[Image:Analysis_plug_TDA_07.png|framed|none]]

This status displays the progression of the measurement in duration

'''Trigger State'''

The following scheme describes the basic statuses evolution of the TDA measurement:

[[Image:Analysis_plug_TDA_08.png|framed|none]]

By default the trigger state is on <nowiki>’</nowiki>Stop<nowiki>’</nowiki> and waiting for a <nowiki>’</nowiki>Run<nowiki>’</nowiki> (start or trigger). Then the state become <nowiki>’</nowiki>Triggering<nowiki>’</nowiki> and is waiting for a start event, the states become <nowiki>’</nowiki>Running<nowiki>’</nowiki>.

The TDA plug-in can run either in the standard plug-in synchronization or totally free run (see Synchronization setting in the TDA settings). While running in the free run mode, the TDA remain in the running mode (not displayed in the status) until the synchronization is changed.

======Count======
This status displays the averaging duration processed. This status is expressed in seconds.

======Real-time======
This status displays if the averaging is in real-time or not (i.e. the current block is analyzed or not). If the corresponding signal were not available at this time, the acquisition is not real-time. That means that the treatment is longer than the acquisition.

There are 3 values for this state:

* '''<nowiki>’</nowiki>OK<nowiki>’</nowiki>''': The acquisition is real-time (all block have been processed and averaged)
* '''<nowiki>’</nowiki>No<nowiki>’</nowiki>''': Acquisition was not real-time (some previous blocks are missing in the average).
* '''<nowiki>’</nowiki>-<nowiki>’</nowiki>''': The acquisition is currently not real-time (current block is not analyzed an averaged).
======Block overload======
This status corresponds to the instantaneous overload indication for TDA plug-in current block, for instance amplitude overload occurred in the current analyzed block.

======Analysis overload======
This status corresponds to overload indication over the measurement period. It means that during the whole measurement period there was (or not) an overload. It memorizes block overloaded.

=====Properties=====

[[Image:Display_Graphs_Traces_99.png|framed|none]]

* Trace color
* Number: selects the trace number for color modification.
* Color box: click on this box to modify the color of the selected trace.

* X Axis
* Absolute time: displays the time from windows format.
* Relative time: displays the duration of the record. The beginning of the record is set to 0.
* Auto: selects absolute or relative time depending on the duration of the record. For records smaller than 2s, the relative time is displayed, for others, the absolute time is chosen.

File:TDA 4.png

2022-03-28T11:25:49Z

Credaelli: File uploaded with MsUpload

File uploaded with MsUpload

NVGate Time Domain Analysis

2022-03-28T11:25:27Z

Credaelli:

[[category:NVGate]]
The TDA plug-in is designed to get the most from the time domain signal completing the frequency/order analyses. This plug-in offers flexible signal overview and statistical extraction in parallel.
[[File:TDA_3.png|500px|right]]
[[Image:TDA_ASB.png|framed|right]]
This TDA plug-in provides 2 types of results:

* Time views and associated extracted results. It<nowiki>’</nowiki>s an oscilloscope-like function, to view the time domain series. This does not record the time signal, only their statistical content.
* Statistical scalar result. The TDA computes the statistical content of the connected input on a specific time and average basis. These scalars levels are available as view meter or profiles (using waterfall).

=== Connect channels===
Click on connect inputs and drag and drop the channels on TDA plug in.
[[File:TDA_1.png|600px|none]]

===Available results:===

The results can be display using the add remove windows:

[[File:TDA_2.png|700px|none]]
 
{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="50%" align="center"
|'''Type'''
|'''Size'''
|'''Dimension'''
|'''Domain'''
|'''Save'''

|-
|DC
|1pt
|1D
| 
| Yes

|-
|RMS
|1pt
|1D
| 
| Yes

|-
|Min level
|1pt
|1D
| 
| Yes

|-
|Max level
|1pt
|1D
| 
| Yes

|-
|Peak
|1pt
|1D
| 
| Yes

|-
|Peak-Peak
|1pt
|1D
| 
| Yes

|-
|Crest Factor
|1pt
|1D
| 
| Yes

|-
|Kurtosis
|1pt
|1D
| 
| Yes

|-
|Time View
|2048 pt max
|Compressed Time
|time
| Yes

|} 

* '''DC''': the average DC value of the time signal
* '''RMS''': the RMS value of the time signal (DC being removed)
* '''Min''': the minimum level of time signal
* '''Max''': the maximum level of time signal
* '''Peak''': the absolute value of Min level and Max level.
* '''Peak-Peak''': displays the difference between Min level and max level. Peak-Peak level ≥ 0.

* '''Crest factor''': displays the ratio Peak level/RMS level. Characteristics of the Crest Factor:

[[Image:Analysis_plug_TDA_02.png|framed|none]]

* '''Kurtosis''': the kurtosis value (4th order moment) of the time signal
* '''Time View'''

====Display====
The ''Time view''is an oscilloscope-like view of the time domain series which scrolls the signal on a user define duration. The duration of the viewed signal is independent for each channel. That is to say it allows monitoring the same signal on different durations.

[[Image:Analysis_plug_TDA_03.png|700px|none]]

It<nowiki>’</nowiki>s possible to display several TDA channels in same window even if the durations are different. The windows size will be set according to the larger duration.

X zoom is not available at Time View, display is fixed to multi graph.

This window handles 3 cursors:

* Main cursor where is retrieved the values displayed at infortrace
* Cursors 1-2 used for selection. The scalar values displayed in the info trace are computed according to this selection.

[[Image:Display_Graphs_Traces_97.png|700px|none]]

Scalar table may be setup to add / remove scalar that may be displayed:

Content of Scalar Table could be copy to export to another application.

{|class="wikitable" style="background:white" border="0" cellspacing="2" width="100%"
|
[[Image:Display_Graphs_Traces_98.png|framed|none]]

| 

|}

The setup of the monitored duration determines the analysis steps. These steps are indicated in the ''Time base ''states. The ''Time base ''is the time interval for each new point in the ''Time view ''signal. The time view duration is settable from 320 ms to 100 000 s (27 hours) with a 20 kHz bandwidth.

The minimum duration depends on the plug-in bandwidth. For example at 20 kHz with a duration of 10.24 sec, the ''Time base ''is set at 5 ms. A new point in the ''Time view ''will occur each 5 ms and the maximum number of points in the graph will be 2048.

The X axis can be either absolute (real date/time) or relative (in buffer duration). It can be changed during acquisition. The default type is relative; it may be changed through the user<nowiki>’</nowiki>s preferences.

In addition to the signal overview, the ''Time view'' provides statistic extraction of a part of the displayed signal. The extraction takes into account the signal defined in the selected area (reverse video). The results of this extraction are available in the info trace. The following levels are computed in the selected area:

* DC
* RMS (root min square)
* Min. (minimum) lowest amplitude
* Max (maximum) highest amplitude
* Ktsis (kurtosis) 3rd order moment
* Pk (peak) absolute value of the largest amplitude
* Pk-Pk (peak-peak) largest excursion
* CrFact (crest factor) Pk-Pk/RMS
* Kurtosis

[[Image:Analysis_plug_TDA_04.png|700px|none]]

===Settings===
[[Image:TDA plugin.png|framed|right]]
[[Image:TDA_ASB.png|framed|right]]

* Synchronization: Controls the plug-in synchronization with the general analyzer status:
* [[Image:Reports_Tools_Ribbons_386.png]]Linked to run: The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
* [[Image:Reports_Tools_Ribbons_387.png]]Free run: The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing
* [[Image:Reports_Tools_Ribbons_388.png]]Range: Setup the analysis range for the plug-in. This value is maximized by the front-end sampling frequency divided by 2.56. Note: Each plug-in feature an independent bandwidth.
* [[Image:Reports_Tools_Ribbons_389.png]]Average: Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''
* [[Image:Reports_Tools_Ribbons_390.png]]Average duration: Setup the average duration. In Exponential mode it specifies the non decayed part of the signal. In linear mode, it specifies the complete duration. In Linear repeated mode, it specifies the short duration.
=====Channel=====
Contains the settings related to the source input.

* '''Source''': input source to be analyzed. It may come from the input Front-end or from the Player in the post analysis mode (see the post analysis chapter). In the post analysis mode, the tracks with a signal bandwidth lower than the range of the TDA cannot be plugged.
* '''Input filter''': filter to be used for filtering the source before analysis. The Filters that are not compatible with the TDA range cannot be selected (see the Filter builder chapter).
* '''Duration:''' duration of the viewed signal. Minimum value depends on TDA frequency range analysis (360ms for 20kHz bandwidth analysis) whereas maximal value can be up to 100000s. The duration of the viewed signal is independent for each channel.
This setting affects only the Time View, not the scalar results.

* '''Time Base: '''this read-only setting is the duration of one displayed point in the time view. Time view display is set to a fixed size of 2048 points. Time base is evaluated according to the formula:

{|border="0" cellspacing="2" width="100%"
| 
| 
|Time Base = Duration / 2048

|-
| 
|colspan = "2"|For a duration of 10 s , Time Base corresponds to 4.882812 m.

|}

=====Analysis=====
*'''Autobandwidth''': manages the analysis and recording bandwidths automatically. The Inputs selection window allows the use of 2 different sampling rates for the dynamic inputs. It gathers inputs with the same physical quantity into groups, maintaining the same sampling into each group. When inputs are associated with the analysis plug-in, it adjusts its analysis bandwidth to match the inputs ones. Mixing input bandwidths in one analysis plug-in lead to set its bandwidth to the lowest one. Autobandwidth is set by default . When it is enabled in the plug-in, these settings "switch to informative status"

*'''Range: '''the TDA plug-in frequency range. The analyzer sampling frequency divided by 2.56 limits this range, and the minimum is obtained by dividing this limit by 50000. For example, if the analyzer sampling frequency is 51,2kS/s, then the max range is 20 kHz and the min is 400mHz. In post analysis mode, the Max Bandwidth setting from the Player plug-in provides the analyzer sampling frequency by multiplying the value by 2.56 (ex: if max bandwidth = 20 kHz then the analyzer sampling frequency is 51.2kS/s), otherwise, the analyzer sampling frequency is provided by the input sampling setting from the Front end plug-in input setting sub-module.

=====Average=====

* [[Image:Reports_Tools_Ribbons_389.png]]Average: Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''

* '''Type''': The method of averaging the signal. There are four different averaging modes: Linear, Exponential, Peak hold, and Referenced Peak hold.

{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="94%" align="center"
|'''Type'''
|'''Description'''

|-
|Linear
|Linear averaging of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|-
|Exponential
|In this mode of computation, averaging is continuously updated each 256 samples. All scalar results DC, RMS, Min, Max, Peak, Peak-Peak, Kurtosis, are reset with a periodicity equal to the duration of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|} 

event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.

* [[Image:Reports_Tools_Ribbons_390.png]]'''Duration''': The duration of the signal used to compute the scalar results available as result. Results are delivered each 256 samples.:This setting affects only the Time View, not the scalar results.

=====Trigger=====

* '''Synchronization''': Controls the plug-in synchronization with the general analyzer status:
** [[Image:Reports_Tools_Ribbons_386.png]]Linked to run: The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
** [[Image:Reports_Tools_Ribbons_387.png]]Free run: The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing. In Free Run mode, the average is forced to Exponential.
* '''Start''': defines the event to start the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Start" condition.
* '''Stop''': defines the event to stop the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.
* '''Repeat''': this setting is used to select a condition for the TDA plug-in to be restarted. If an event is selected as a Start event, the option "New start" is available, and when this mode is selected each Start event restarts the plug-in. The "End of averaging" mode is available when the value of the ''TDA /Analysis/Type'' is equal to "Linear" mode. This restarts the plug-in when the averaging is finished. For linear average when it is set to "End of averaging", the "Avg duration" gives the periodicity of the average restart. By default the Repeat mode is set to "Off".
* '''Start Delay''': time delay applied to the time the start event occurs. The Start Delay could be a negative values to act as a pre-trigger. At default setting of 20kHz analysis, the minimum value for Start Delay is -635ms. The maximum value is 360000s.

===TDA status===
All statuses are available for the control panel. Statuses are refreshed all the time at roughly 10 Hz.


[[Image:Analysis_plug_TDA_05.png|framed|none]]


[[Image:Analysis_plug_TDA_06.png|framed|none]]

The current plug-in status is synthesized in a special progress-bar. This progress bar is automatically displayed in the bottom area when the plug-in is active (i.e. as soon as at least 1 input is connected to the TDA plug-in). This status is called <nowiki>’</nowiki>TDA<nowiki>’</nowiki> and it is available in the status ASB tree (see customize control panel).

This status displays the status and current time, the plug-in state and the real-time status.

* '''Run:''' the TDA plug-in is computing data and average it
* '''Stop:''' The TDA plug-in is stopped.
* '''Trig:''' The TDA plug-in is waiting for next block; i.e. next trigger event (block triggering) or first start event (triggering)
* '''Pause: '''The TDA plug-in averaging is paused
*
'''Notes''': in exponential averaging mode the average counts stops increasing as soon as the set value is reached.

The way the status bar is displayed, depends on the type of averaging selected:

* '''<nowiki>’</nowiki>Linear<nowiki>’</nowiki>: '''the progress bar is filled from left to right.
* '''<nowiki>’</nowiki>Exponential<nowiki>’</nowiki>''': the progress bar is filled from right to left with a flashing until the end of the acquisition.

The color of the background bar and of the text depends on real-time status:

* ''Green background and white or black text'': acquisition in real-time.
* ''Red background and white or black text'': the current acquisition is not real-time (current block is not analyzed).
* ''Green background and red text'': the current acquisition is real-time, but since start not all the blocks were analyzed.

[[Image:Analysis_plug_TDA_07.png|framed|none]]

This status displays the progression of the measurement in duration

'''Trigger State'''

The following scheme describes the basic statuses evolution of the TDA measurement:

[[Image:Analysis_plug_TDA_08.png|framed|none]]

By default the trigger state is on <nowiki>’</nowiki>Stop<nowiki>’</nowiki> and waiting for a <nowiki>’</nowiki>Run<nowiki>’</nowiki> (start or trigger). Then the state become <nowiki>’</nowiki>Triggering<nowiki>’</nowiki> and is waiting for a start event, the states become <nowiki>’</nowiki>Running<nowiki>’</nowiki>.

The TDA plug-in can run either in the standard plug-in synchronization or totally free run (see Synchronization setting in the TDA settings). While running in the free run mode, the TDA remain in the running mode (not displayed in the status) until the synchronization is changed.

======Count======
This status displays the averaging duration processed. This status is expressed in seconds.

======Real-time======
This status displays if the averaging is in real-time or not (i.e. the current block is analyzed or not). If the corresponding signal were not available at this time, the acquisition is not real-time. That means that the treatment is longer than the acquisition.

There are 3 values for this state:

* '''<nowiki>’</nowiki>OK<nowiki>’</nowiki>''': The acquisition is real-time (all block have been processed and averaged)
* '''<nowiki>’</nowiki>No<nowiki>’</nowiki>''': Acquisition was not real-time (some previous blocks are missing in the average).
* '''<nowiki>’</nowiki>-<nowiki>’</nowiki>''': The acquisition is currently not real-time (current block is not analyzed an averaged).
======Block overload======
This status corresponds to the instantaneous overload indication for TDA plug-in current block, for instance amplitude overload occurred in the current analyzed block.

======Analysis overload======
This status corresponds to overload indication over the measurement period. It means that during the whole measurement period there was (or not) an overload. It memorizes block overloaded.

=====Properties=====

[[Image:Display_Graphs_Traces_99.png|framed|none]]

* Trace color
* Number: selects the trace number for color modification.
* Color box: click on this box to modify the color of the selected trace.

* X Axis
* Absolute time: displays the time from windows format.
* Relative time: displays the duration of the record. The beginning of the record is set to 0.
* Auto: selects absolute or relative time depending on the duration of the record. For records smaller than 2s, the relative time is displayed, for others, the absolute time is chosen.

File:TDA 3.png

2022-03-28T11:19:42Z

Credaelli: File uploaded with MsUpload

File uploaded with MsUpload

NVGate Time Domain Analysis

2022-03-28T11:15:21Z

Credaelli: /* Available results: */

[[category:NVGate]]
The TDA plug-in is designed to get the most from the time domain signal completing the frequency/order analyses. This plug-in offers flexible signal overview and statistical extraction in parallel.
[[Image:TDA plugin.png|framed|right]]
[[Image:TDA_ASB.png|framed|right]]
This TDA plug-in provides 2 types of results:

* Time views and associated extracted results. It<nowiki>’</nowiki>s an oscilloscope-like function, to view the time domain series. This does not record the time signal, only their statistical content.
* Statistical scalar result. The TDA computes the statistical content of the connected input on a specific time and average basis. These scalars levels are available as view meter or profiles (using waterfall).

=== Connect channels===
Click on connect inputs and drag and drop the channels on TDA plug in.
[[File:TDA_1.png|600px|none]]

===Available results:===

The results can be display using the add remove windows:

[[File:TDA_2.png|700px|none]]
 
{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="100%" align="center"
|'''Type'''
|'''Size'''
|'''Dimension'''
|'''Domain'''
|'''Save'''

|-
|DC
|1pt
|1D
| 
| Yes

|-
|RMS
|1pt
|1D
| 
| Yes

|-
|Min level
|1pt
|1D
| 
| Yes

|-
|Max level
|1pt
|1D
| 
| Yes

|-
|Peak
|1pt
|1D
| 
| Yes

|-
|Peak-Peak
|1pt
|1D
| 
| Yes

|-
|Crest Factor
|1pt
|1D
| 
| Yes

|-
|Kurtosis
|1pt
|1D
| 
| Yes

|-
|Time View
|2048 pt max
|Compressed Time
|time
| Yes

|} 

* '''DC''': the average DC value of the time signal
* '''RMS''': the RMS value of the time signal (DC being removed)
* '''Min''': the minimum level of time signal
* '''Max''': the maximum level of time signal
* '''Peak''': the absolute value of Min level and Max level.
* '''Peak-Peak''': displays the difference between Min level and max level. Peak-Peak level ≥ 0.

* '''Crest factor''': displays the ratio Peak level/RMS level. Characteristics of the Crest Factor:

[[Image:Analysis_plug_TDA_02.png|framed|none]]

* '''Kurtosis''': the kurtosis value (4th order moment) of the time signal
* '''Time View'''

====Display====
The ''Time view''is an oscilloscope-like view of the time domain series which scrolls the signal on a user define duration. The duration of the viewed signal is independent for each channel. That is to say it allows monitoring the same signal on different durations.

[[Image:Analysis_plug_TDA_03.png|700px|none]]

It<nowiki>’</nowiki>s possible to display several TDA channels in same window even if the durations are different. The windows size will be set according to the larger duration.

X zoom is not available at Time View, display is fixed to multi graph.

This window handles 3 cursors:

* Main cursor where is retrieved the values displayed at infortrace
* Cursors 1-2 used for selection. The scalar values displayed in the info trace are computed according to this selection.

[[Image:Display_Graphs_Traces_97.png|700px|none]]

Scalar table may be setup to add / remove scalar that may be displayed:

Content of Scalar Table could be copy to export to another application.

{|class="wikitable" style="background:white" border="0" cellspacing="2" width="100%"
|
[[Image:Display_Graphs_Traces_98.png|framed|none]]

| 

|}

The setup of the monitored duration determines the analysis steps. These steps are indicated in the ''Time base ''states. The ''Time base ''is the time interval for each new point in the ''Time view ''signal. The time view duration is settable from 320 ms to 100 000 s (27 hours) with a 20 kHz bandwidth.

The minimum duration depends on the plug-in bandwidth. For example at 20 kHz with a duration of 10.24 sec, the ''Time base ''is set at 5 ms. A new point in the ''Time view ''will occur each 5 ms and the maximum number of points in the graph will be 2048.

The X axis can be either absolute (real date/time) or relative (in buffer duration). It can be changed during acquisition. The default type is relative; it may be changed through the user<nowiki>’</nowiki>s preferences.

In addition to the signal overview, the ''Time view'' provides statistic extraction of a part of the displayed signal. The extraction takes into account the signal defined in the selected area (reverse video). The results of this extraction are available in the info trace. The following levels are computed in the selected area:

* DC
* RMS (root min square)
* Min. (minimum) lowest amplitude
* Max (maximum) highest amplitude
* Ktsis (kurtosis) 3rd order moment
* Pk (peak) absolute value of the largest amplitude
* Pk-Pk (peak-peak) largest excursion
* CrFact (crest factor) Pk-Pk/RMS
* Kurtosis

[[Image:Analysis_plug_TDA_04.png|700px|none]]

===Settings===
[[Image:TDA plugin.png|framed|right]]
[[Image:TDA_ASB.png|framed|right]]

* Synchronization: Controls the plug-in synchronization with the general analyzer status:
* [[Image:Reports_Tools_Ribbons_386.png]]Linked to run: The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
* [[Image:Reports_Tools_Ribbons_387.png]]Free run: The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing
* [[Image:Reports_Tools_Ribbons_388.png]]Range: Setup the analysis range for the plug-in. This value is maximized by the front-end sampling frequency divided by 2.56. Note: Each plug-in feature an independent bandwidth.
* [[Image:Reports_Tools_Ribbons_389.png]]Average: Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''
* [[Image:Reports_Tools_Ribbons_390.png]]Average duration: Setup the average duration. In Exponential mode it specifies the non decayed part of the signal. In linear mode, it specifies the complete duration. In Linear repeated mode, it specifies the short duration.
=====Channel=====
Contains the settings related to the source input.

* '''Source''': input source to be analyzed. It may come from the input Front-end or from the Player in the post analysis mode (see the post analysis chapter). In the post analysis mode, the tracks with a signal bandwidth lower than the range of the TDA cannot be plugged.
* '''Input filter''': filter to be used for filtering the source before analysis. The Filters that are not compatible with the TDA range cannot be selected (see the Filter builder chapter).
* '''Duration:''' duration of the viewed signal. Minimum value depends on TDA frequency range analysis (360ms for 20kHz bandwidth analysis) whereas maximal value can be up to 100000s. The duration of the viewed signal is independent for each channel.
This setting affects only the Time View, not the scalar results.

* '''Time Base: '''this read-only setting is the duration of one displayed point in the time view. Time view display is set to a fixed size of 2048 points. Time base is evaluated according to the formula:

{|border="0" cellspacing="2" width="100%"
| 
| 
|Time Base = Duration / 2048

|-
| 
|colspan = "2"|For a duration of 10 s , Time Base corresponds to 4.882812 m.

|}

=====Analysis=====
*'''Autobandwidth''': manages the analysis and recording bandwidths automatically. The Inputs selection window allows the use of 2 different sampling rates for the dynamic inputs. It gathers inputs with the same physical quantity into groups, maintaining the same sampling into each group. When inputs are associated with the analysis plug-in, it adjusts its analysis bandwidth to match the inputs ones. Mixing input bandwidths in one analysis plug-in lead to set its bandwidth to the lowest one. Autobandwidth is set by default . When it is enabled in the plug-in, these settings "switch to informative status"

*'''Range: '''the TDA plug-in frequency range. The analyzer sampling frequency divided by 2.56 limits this range, and the minimum is obtained by dividing this limit by 50000. For example, if the analyzer sampling frequency is 51,2kS/s, then the max range is 20 kHz and the min is 400mHz. In post analysis mode, the Max Bandwidth setting from the Player plug-in provides the analyzer sampling frequency by multiplying the value by 2.56 (ex: if max bandwidth = 20 kHz then the analyzer sampling frequency is 51.2kS/s), otherwise, the analyzer sampling frequency is provided by the input sampling setting from the Front end plug-in input setting sub-module.

=====Average=====

* [[Image:Reports_Tools_Ribbons_389.png]]Average: Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''

* '''Type''': The method of averaging the signal. There are four different averaging modes: Linear, Exponential, Peak hold, and Referenced Peak hold.

{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="94%" align="center"
|'''Type'''
|'''Description'''

|-
|Linear
|Linear averaging of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|-
|Exponential
|In this mode of computation, averaging is continuously updated each 256 samples. All scalar results DC, RMS, Min, Max, Peak, Peak-Peak, Kurtosis, are reset with a periodicity equal to the duration of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|} 

event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.

* [[Image:Reports_Tools_Ribbons_390.png]]'''Duration''': The duration of the signal used to compute the scalar results available as result. Results are delivered each 256 samples.:This setting affects only the Time View, not the scalar results.

=====Trigger=====

* '''Synchronization''': Controls the plug-in synchronization with the general analyzer status:
** [[Image:Reports_Tools_Ribbons_386.png]]Linked to run: The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
** [[Image:Reports_Tools_Ribbons_387.png]]Free run: The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing. In Free Run mode, the average is forced to Exponential.
* '''Start''': defines the event to start the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Start" condition.
* '''Stop''': defines the event to stop the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.
* '''Repeat''': this setting is used to select a condition for the TDA plug-in to be restarted. If an event is selected as a Start event, the option "New start" is available, and when this mode is selected each Start event restarts the plug-in. The "End of averaging" mode is available when the value of the ''TDA /Analysis/Type'' is equal to "Linear" mode. This restarts the plug-in when the averaging is finished. For linear average when it is set to "End of averaging", the "Avg duration" gives the periodicity of the average restart. By default the Repeat mode is set to "Off".
* '''Start Delay''': time delay applied to the time the start event occurs. The Start Delay could be a negative values to act as a pre-trigger. At default setting of 20kHz analysis, the minimum value for Start Delay is -635ms. The maximum value is 360000s.

===TDA status===
All statuses are available for the control panel. Statuses are refreshed all the time at roughly 10 Hz.


[[Image:Analysis_plug_TDA_05.png|framed|none]]


[[Image:Analysis_plug_TDA_06.png|framed|none]]

The current plug-in status is synthesized in a special progress-bar. This progress bar is automatically displayed in the bottom area when the plug-in is active (i.e. as soon as at least 1 input is connected to the TDA plug-in). This status is called <nowiki>’</nowiki>TDA<nowiki>’</nowiki> and it is available in the status ASB tree (see customize control panel).

This status displays the status and current time, the plug-in state and the real-time status.

* '''Run:''' the TDA plug-in is computing data and average it
* '''Stop:''' The TDA plug-in is stopped.
* '''Trig:''' The TDA plug-in is waiting for next block; i.e. next trigger event (block triggering) or first start event (triggering)
* '''Pause: '''The TDA plug-in averaging is paused
*
'''Notes''': in exponential averaging mode the average counts stops increasing as soon as the set value is reached.

The way the status bar is displayed, depends on the type of averaging selected:

* '''<nowiki>’</nowiki>Linear<nowiki>’</nowiki>: '''the progress bar is filled from left to right.
* '''<nowiki>’</nowiki>Exponential<nowiki>’</nowiki>''': the progress bar is filled from right to left with a flashing until the end of the acquisition.

The color of the background bar and of the text depends on real-time status:

* ''Green background and white or black text'': acquisition in real-time.
* ''Red background and white or black text'': the current acquisition is not real-time (current block is not analyzed).
* ''Green background and red text'': the current acquisition is real-time, but since start not all the blocks were analyzed.

[[Image:Analysis_plug_TDA_07.png|framed|none]]

This status displays the progression of the measurement in duration

'''Trigger State'''

The following scheme describes the basic statuses evolution of the TDA measurement:

[[Image:Analysis_plug_TDA_08.png|framed|none]]

By default the trigger state is on <nowiki>’</nowiki>Stop<nowiki>’</nowiki> and waiting for a <nowiki>’</nowiki>Run<nowiki>’</nowiki> (start or trigger). Then the state become <nowiki>’</nowiki>Triggering<nowiki>’</nowiki> and is waiting for a start event, the states become <nowiki>’</nowiki>Running<nowiki>’</nowiki>.

The TDA plug-in can run either in the standard plug-in synchronization or totally free run (see Synchronization setting in the TDA settings). While running in the free run mode, the TDA remain in the running mode (not displayed in the status) until the synchronization is changed.

======Count======
This status displays the averaging duration processed. This status is expressed in seconds.

======Real-time======
This status displays if the averaging is in real-time or not (i.e. the current block is analyzed or not). If the corresponding signal were not available at this time, the acquisition is not real-time. That means that the treatment is longer than the acquisition.

There are 3 values for this state:

* '''<nowiki>’</nowiki>OK<nowiki>’</nowiki>''': The acquisition is real-time (all block have been processed and averaged)
* '''<nowiki>’</nowiki>No<nowiki>’</nowiki>''': Acquisition was not real-time (some previous blocks are missing in the average).
* '''<nowiki>’</nowiki>-<nowiki>’</nowiki>''': The acquisition is currently not real-time (current block is not analyzed an averaged).
======Block overload======
This status corresponds to the instantaneous overload indication for TDA plug-in current block, for instance amplitude overload occurred in the current analyzed block.

======Analysis overload======
This status corresponds to overload indication over the measurement period. It means that during the whole measurement period there was (or not) an overload. It memorizes block overloaded.

=====Properties=====

[[Image:Display_Graphs_Traces_99.png|framed|none]]

* Trace color
* Number: selects the trace number for color modification.
* Color box: click on this box to modify the color of the selected trace.

* X Axis
* Absolute time: displays the time from windows format.
* Relative time: displays the duration of the record. The beginning of the record is set to 0.
* Auto: selects absolute or relative time depending on the duration of the record. For records smaller than 2s, the relative time is displayed, for others, the absolute time is chosen.

NVGate Time Domain Analysis

2022-03-28T11:14:56Z

Credaelli: /* Available results: */

[[category:NVGate]]
The TDA plug-in is designed to get the most from the time domain signal completing the frequency/order analyses. This plug-in offers flexible signal overview and statistical extraction in parallel.
[[Image:TDA plugin.png|framed|right]]
[[Image:TDA_ASB.png|framed|right]]
This TDA plug-in provides 2 types of results:

* Time views and associated extracted results. It<nowiki>’</nowiki>s an oscilloscope-like function, to view the time domain series. This does not record the time signal, only their statistical content.
* Statistical scalar result. The TDA computes the statistical content of the connected input on a specific time and average basis. These scalars levels are available as view meter or profiles (using waterfall).

=== Connect channels===
Click on connect inputs and drag and drop the channels on TDA plug in.
[[File:TDA_1.png|600px|none]]

===Available results:===

The results can be display using the add remove windows:

[[File:TDA_2.png|600px|none]]
 
{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="100%" align="center"
|'''Type'''
|'''Size'''
|'''Dimension'''
|'''Domain'''
|'''Save'''

|-
|DC
|1pt
|1D
| 
| Yes

|-
|RMS
|1pt
|1D
| 
| Yes

|-
|Min level
|1pt
|1D
| 
| Yes

|-
|Max level
|1pt
|1D
| 
| Yes

|-
|Peak
|1pt
|1D
| 
| Yes

|-
|Peak-Peak
|1pt
|1D
| 
| Yes

|-
|Crest Factor
|1pt
|1D
| 
| Yes

|-
|Kurtosis
|1pt
|1D
| 
| Yes

|-
|Time View
|2048 pt max
|Compressed Time
|time
| Yes

|} 

* '''DC''': the average DC value of the time signal
* '''RMS''': the RMS value of the time signal (DC being removed)
* '''Min''': the minimum level of time signal
* '''Max''': the maximum level of time signal
* '''Peak''': the absolute value of Min level and Max level.
* '''Peak-Peak''': displays the difference between Min level and max level. Peak-Peak level ≥ 0.

* '''Crest factor''': displays the ratio Peak level/RMS level. Characteristics of the Crest Factor:

[[Image:Analysis_plug_TDA_02.png|framed|none]]

* '''Kurtosis''': the kurtosis value (4th order moment) of the time signal
* '''Time View'''

====Display====
The ''Time view''is an oscilloscope-like view of the time domain series which scrolls the signal on a user define duration. The duration of the viewed signal is independent for each channel. That is to say it allows monitoring the same signal on different durations.

[[Image:Analysis_plug_TDA_03.png|700px|none]]

It<nowiki>’</nowiki>s possible to display several TDA channels in same window even if the durations are different. The windows size will be set according to the larger duration.

X zoom is not available at Time View, display is fixed to multi graph.

This window handles 3 cursors:

* Main cursor where is retrieved the values displayed at infortrace
* Cursors 1-2 used for selection. The scalar values displayed in the info trace are computed according to this selection.

[[Image:Display_Graphs_Traces_97.png|700px|none]]

Scalar table may be setup to add / remove scalar that may be displayed:

Content of Scalar Table could be copy to export to another application.

{|class="wikitable" style="background:white" border="0" cellspacing="2" width="100%"
|
[[Image:Display_Graphs_Traces_98.png|framed|none]]

| 

|}

The setup of the monitored duration determines the analysis steps. These steps are indicated in the ''Time base ''states. The ''Time base ''is the time interval for each new point in the ''Time view ''signal. The time view duration is settable from 320 ms to 100 000 s (27 hours) with a 20 kHz bandwidth.

The minimum duration depends on the plug-in bandwidth. For example at 20 kHz with a duration of 10.24 sec, the ''Time base ''is set at 5 ms. A new point in the ''Time view ''will occur each 5 ms and the maximum number of points in the graph will be 2048.

The X axis can be either absolute (real date/time) or relative (in buffer duration). It can be changed during acquisition. The default type is relative; it may be changed through the user<nowiki>’</nowiki>s preferences.

In addition to the signal overview, the ''Time view'' provides statistic extraction of a part of the displayed signal. The extraction takes into account the signal defined in the selected area (reverse video). The results of this extraction are available in the info trace. The following levels are computed in the selected area:

* DC
* RMS (root min square)
* Min. (minimum) lowest amplitude
* Max (maximum) highest amplitude
* Ktsis (kurtosis) 3rd order moment
* Pk (peak) absolute value of the largest amplitude
* Pk-Pk (peak-peak) largest excursion
* CrFact (crest factor) Pk-Pk/RMS
* Kurtosis

[[Image:Analysis_plug_TDA_04.png|700px|none]]

===Settings===
[[Image:TDA plugin.png|framed|right]]
[[Image:TDA_ASB.png|framed|right]]

* Synchronization: Controls the plug-in synchronization with the general analyzer status:
* [[Image:Reports_Tools_Ribbons_386.png]]Linked to run: The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
* [[Image:Reports_Tools_Ribbons_387.png]]Free run: The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing
* [[Image:Reports_Tools_Ribbons_388.png]]Range: Setup the analysis range for the plug-in. This value is maximized by the front-end sampling frequency divided by 2.56. Note: Each plug-in feature an independent bandwidth.
* [[Image:Reports_Tools_Ribbons_389.png]]Average: Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''
* [[Image:Reports_Tools_Ribbons_390.png]]Average duration: Setup the average duration. In Exponential mode it specifies the non decayed part of the signal. In linear mode, it specifies the complete duration. In Linear repeated mode, it specifies the short duration.
=====Channel=====
Contains the settings related to the source input.

* '''Source''': input source to be analyzed. It may come from the input Front-end or from the Player in the post analysis mode (see the post analysis chapter). In the post analysis mode, the tracks with a signal bandwidth lower than the range of the TDA cannot be plugged.
* '''Input filter''': filter to be used for filtering the source before analysis. The Filters that are not compatible with the TDA range cannot be selected (see the Filter builder chapter).
* '''Duration:''' duration of the viewed signal. Minimum value depends on TDA frequency range analysis (360ms for 20kHz bandwidth analysis) whereas maximal value can be up to 100000s. The duration of the viewed signal is independent for each channel.
This setting affects only the Time View, not the scalar results.

* '''Time Base: '''this read-only setting is the duration of one displayed point in the time view. Time view display is set to a fixed size of 2048 points. Time base is evaluated according to the formula:

{|border="0" cellspacing="2" width="100%"
| 
| 
|Time Base = Duration / 2048

|-
| 
|colspan = "2"|For a duration of 10 s , Time Base corresponds to 4.882812 m.

|}

=====Analysis=====
*'''Autobandwidth''': manages the analysis and recording bandwidths automatically. The Inputs selection window allows the use of 2 different sampling rates for the dynamic inputs. It gathers inputs with the same physical quantity into groups, maintaining the same sampling into each group. When inputs are associated with the analysis plug-in, it adjusts its analysis bandwidth to match the inputs ones. Mixing input bandwidths in one analysis plug-in lead to set its bandwidth to the lowest one. Autobandwidth is set by default . When it is enabled in the plug-in, these settings "switch to informative status"

*'''Range: '''the TDA plug-in frequency range. The analyzer sampling frequency divided by 2.56 limits this range, and the minimum is obtained by dividing this limit by 50000. For example, if the analyzer sampling frequency is 51,2kS/s, then the max range is 20 kHz and the min is 400mHz. In post analysis mode, the Max Bandwidth setting from the Player plug-in provides the analyzer sampling frequency by multiplying the value by 2.56 (ex: if max bandwidth = 20 kHz then the analyzer sampling frequency is 51.2kS/s), otherwise, the analyzer sampling frequency is provided by the input sampling setting from the Front end plug-in input setting sub-module.

=====Average=====

* [[Image:Reports_Tools_Ribbons_389.png]]Average: Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''

* '''Type''': The method of averaging the signal. There are four different averaging modes: Linear, Exponential, Peak hold, and Referenced Peak hold.

{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="94%" align="center"
|'''Type'''
|'''Description'''

|-
|Linear
|Linear averaging of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|-
|Exponential
|In this mode of computation, averaging is continuously updated each 256 samples. All scalar results DC, RMS, Min, Max, Peak, Peak-Peak, Kurtosis, are reset with a periodicity equal to the duration of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|} 

event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.

* [[Image:Reports_Tools_Ribbons_390.png]]'''Duration''': The duration of the signal used to compute the scalar results available as result. Results are delivered each 256 samples.:This setting affects only the Time View, not the scalar results.

=====Trigger=====

* '''Synchronization''': Controls the plug-in synchronization with the general analyzer status:
** [[Image:Reports_Tools_Ribbons_386.png]]Linked to run: The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
** [[Image:Reports_Tools_Ribbons_387.png]]Free run: The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing. In Free Run mode, the average is forced to Exponential.
* '''Start''': defines the event to start the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Start" condition.
* '''Stop''': defines the event to stop the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.
* '''Repeat''': this setting is used to select a condition for the TDA plug-in to be restarted. If an event is selected as a Start event, the option "New start" is available, and when this mode is selected each Start event restarts the plug-in. The "End of averaging" mode is available when the value of the ''TDA /Analysis/Type'' is equal to "Linear" mode. This restarts the plug-in when the averaging is finished. For linear average when it is set to "End of averaging", the "Avg duration" gives the periodicity of the average restart. By default the Repeat mode is set to "Off".
* '''Start Delay''': time delay applied to the time the start event occurs. The Start Delay could be a negative values to act as a pre-trigger. At default setting of 20kHz analysis, the minimum value for Start Delay is -635ms. The maximum value is 360000s.

===TDA status===
All statuses are available for the control panel. Statuses are refreshed all the time at roughly 10 Hz.


[[Image:Analysis_plug_TDA_05.png|framed|none]]


[[Image:Analysis_plug_TDA_06.png|framed|none]]

The current plug-in status is synthesized in a special progress-bar. This progress bar is automatically displayed in the bottom area when the plug-in is active (i.e. as soon as at least 1 input is connected to the TDA plug-in). This status is called <nowiki>’</nowiki>TDA<nowiki>’</nowiki> and it is available in the status ASB tree (see customize control panel).

This status displays the status and current time, the plug-in state and the real-time status.

* '''Run:''' the TDA plug-in is computing data and average it
* '''Stop:''' The TDA plug-in is stopped.
* '''Trig:''' The TDA plug-in is waiting for next block; i.e. next trigger event (block triggering) or first start event (triggering)
* '''Pause: '''The TDA plug-in averaging is paused
*
'''Notes''': in exponential averaging mode the average counts stops increasing as soon as the set value is reached.

The way the status bar is displayed, depends on the type of averaging selected:

* '''<nowiki>’</nowiki>Linear<nowiki>’</nowiki>: '''the progress bar is filled from left to right.
* '''<nowiki>’</nowiki>Exponential<nowiki>’</nowiki>''': the progress bar is filled from right to left with a flashing until the end of the acquisition.

The color of the background bar and of the text depends on real-time status:

* ''Green background and white or black text'': acquisition in real-time.
* ''Red background and white or black text'': the current acquisition is not real-time (current block is not analyzed).
* ''Green background and red text'': the current acquisition is real-time, but since start not all the blocks were analyzed.

[[Image:Analysis_plug_TDA_07.png|framed|none]]

This status displays the progression of the measurement in duration

'''Trigger State'''

The following scheme describes the basic statuses evolution of the TDA measurement:

[[Image:Analysis_plug_TDA_08.png|framed|none]]

By default the trigger state is on <nowiki>’</nowiki>Stop<nowiki>’</nowiki> and waiting for a <nowiki>’</nowiki>Run<nowiki>’</nowiki> (start or trigger). Then the state become <nowiki>’</nowiki>Triggering<nowiki>’</nowiki> and is waiting for a start event, the states become <nowiki>’</nowiki>Running<nowiki>’</nowiki>.

The TDA plug-in can run either in the standard plug-in synchronization or totally free run (see Synchronization setting in the TDA settings). While running in the free run mode, the TDA remain in the running mode (not displayed in the status) until the synchronization is changed.

======Count======
This status displays the averaging duration processed. This status is expressed in seconds.

======Real-time======
This status displays if the averaging is in real-time or not (i.e. the current block is analyzed or not). If the corresponding signal were not available at this time, the acquisition is not real-time. That means that the treatment is longer than the acquisition.

There are 3 values for this state:

* '''<nowiki>’</nowiki>OK<nowiki>’</nowiki>''': The acquisition is real-time (all block have been processed and averaged)
* '''<nowiki>’</nowiki>No<nowiki>’</nowiki>''': Acquisition was not real-time (some previous blocks are missing in the average).
* '''<nowiki>’</nowiki>-<nowiki>’</nowiki>''': The acquisition is currently not real-time (current block is not analyzed an averaged).
======Block overload======
This status corresponds to the instantaneous overload indication for TDA plug-in current block, for instance amplitude overload occurred in the current analyzed block.

======Analysis overload======
This status corresponds to overload indication over the measurement period. It means that during the whole measurement period there was (or not) an overload. It memorizes block overloaded.

=====Properties=====

[[Image:Display_Graphs_Traces_99.png|framed|none]]

* Trace color
* Number: selects the trace number for color modification.
* Color box: click on this box to modify the color of the selected trace.

* X Axis
* Absolute time: displays the time from windows format.
* Relative time: displays the duration of the record. The beginning of the record is set to 0.
* Auto: selects absolute or relative time depending on the duration of the record. For records smaller than 2s, the relative time is displayed, for others, the absolute time is chosen.

NVGate Time Domain Analysis

2022-03-28T11:14:06Z

Credaelli: /* Connect channels */

[[category:NVGate]]
The TDA plug-in is designed to get the most from the time domain signal completing the frequency/order analyses. This plug-in offers flexible signal overview and statistical extraction in parallel.
[[Image:TDA plugin.png|framed|right]]
[[Image:TDA_ASB.png|framed|right]]
This TDA plug-in provides 2 types of results:

* Time views and associated extracted results. It<nowiki>’</nowiki>s an oscilloscope-like function, to view the time domain series. This does not record the time signal, only their statistical content.
* Statistical scalar result. The TDA computes the statistical content of the connected input on a specific time and average basis. These scalars levels are available as view meter or profiles (using waterfall).

=== Connect channels===
Click on connect inputs and drag and drop the channels on TDA plug in.
[[File:TDA_1.png|600px|none]]

===Available results:===

The results can be display using the add remove windows:
[[File:TDA_display.png|700px|none]]
 
{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="100%" align="center"
|'''Type'''
|'''Size'''
|'''Dimension'''
|'''Domain'''
|'''Save'''

|-
|DC
|1pt
|1D
| 
| Yes

|-
|RMS
|1pt
|1D
| 
| Yes

|-
|Min level
|1pt
|1D
| 
| Yes

|-
|Max level
|1pt
|1D
| 
| Yes

|-
|Peak
|1pt
|1D
| 
| Yes

|-
|Peak-Peak
|1pt
|1D
| 
| Yes

|-
|Crest Factor
|1pt
|1D
| 
| Yes

|-
|Kurtosis
|1pt
|1D
| 
| Yes

|-
|Time View
|2048 pt max
|Compressed Time
|time
| Yes

|} 

* '''DC''': the average DC value of the time signal
* '''RMS''': the RMS value of the time signal (DC being removed)
* '''Min''': the minimum level of time signal
* '''Max''': the maximum level of time signal
* '''Peak''': the absolute value of Min level and Max level.
* '''Peak-Peak''': displays the difference between Min level and max level. Peak-Peak level ≥ 0.

* '''Crest factor''': displays the ratio Peak level/RMS level. Characteristics of the Crest Factor:

[[Image:Analysis_plug_TDA_02.png|framed|none]]

* '''Kurtosis''': the kurtosis value (4th order moment) of the time signal
* '''Time View'''

====Display====
The ''Time view''is an oscilloscope-like view of the time domain series which scrolls the signal on a user define duration. The duration of the viewed signal is independent for each channel. That is to say it allows monitoring the same signal on different durations.

[[Image:Analysis_plug_TDA_03.png|700px|none]]

It<nowiki>’</nowiki>s possible to display several TDA channels in same window even if the durations are different. The windows size will be set according to the larger duration.

X zoom is not available at Time View, display is fixed to multi graph.

This window handles 3 cursors:

* Main cursor where is retrieved the values displayed at infortrace
* Cursors 1-2 used for selection. The scalar values displayed in the info trace are computed according to this selection.

[[Image:Display_Graphs_Traces_97.png|700px|none]]

Scalar table may be setup to add / remove scalar that may be displayed:

Content of Scalar Table could be copy to export to another application.

{|class="wikitable" style="background:white" border="0" cellspacing="2" width="100%"
|
[[Image:Display_Graphs_Traces_98.png|framed|none]]

| 

|}

The setup of the monitored duration determines the analysis steps. These steps are indicated in the ''Time base ''states. The ''Time base ''is the time interval for each new point in the ''Time view ''signal. The time view duration is settable from 320 ms to 100 000 s (27 hours) with a 20 kHz bandwidth.

The minimum duration depends on the plug-in bandwidth. For example at 20 kHz with a duration of 10.24 sec, the ''Time base ''is set at 5 ms. A new point in the ''Time view ''will occur each 5 ms and the maximum number of points in the graph will be 2048.

The X axis can be either absolute (real date/time) or relative (in buffer duration). It can be changed during acquisition. The default type is relative; it may be changed through the user<nowiki>’</nowiki>s preferences.

In addition to the signal overview, the ''Time view'' provides statistic extraction of a part of the displayed signal. The extraction takes into account the signal defined in the selected area (reverse video). The results of this extraction are available in the info trace. The following levels are computed in the selected area:

* DC
* RMS (root min square)
* Min. (minimum) lowest amplitude
* Max (maximum) highest amplitude
* Ktsis (kurtosis) 3rd order moment
* Pk (peak) absolute value of the largest amplitude
* Pk-Pk (peak-peak) largest excursion
* CrFact (crest factor) Pk-Pk/RMS
* Kurtosis

[[Image:Analysis_plug_TDA_04.png|700px|none]]

===Settings===
[[Image:TDA plugin.png|framed|right]]
[[Image:TDA_ASB.png|framed|right]]

* Synchronization: Controls the plug-in synchronization with the general analyzer status:
* [[Image:Reports_Tools_Ribbons_386.png]]Linked to run: The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
* [[Image:Reports_Tools_Ribbons_387.png]]Free run: The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing
* [[Image:Reports_Tools_Ribbons_388.png]]Range: Setup the analysis range for the plug-in. This value is maximized by the front-end sampling frequency divided by 2.56. Note: Each plug-in feature an independent bandwidth.
* [[Image:Reports_Tools_Ribbons_389.png]]Average: Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''
* [[Image:Reports_Tools_Ribbons_390.png]]Average duration: Setup the average duration. In Exponential mode it specifies the non decayed part of the signal. In linear mode, it specifies the complete duration. In Linear repeated mode, it specifies the short duration.
=====Channel=====
Contains the settings related to the source input.

* '''Source''': input source to be analyzed. It may come from the input Front-end or from the Player in the post analysis mode (see the post analysis chapter). In the post analysis mode, the tracks with a signal bandwidth lower than the range of the TDA cannot be plugged.
* '''Input filter''': filter to be used for filtering the source before analysis. The Filters that are not compatible with the TDA range cannot be selected (see the Filter builder chapter).
* '''Duration:''' duration of the viewed signal. Minimum value depends on TDA frequency range analysis (360ms for 20kHz bandwidth analysis) whereas maximal value can be up to 100000s. The duration of the viewed signal is independent for each channel.
This setting affects only the Time View, not the scalar results.

* '''Time Base: '''this read-only setting is the duration of one displayed point in the time view. Time view display is set to a fixed size of 2048 points. Time base is evaluated according to the formula:

{|border="0" cellspacing="2" width="100%"
| 
| 
|Time Base = Duration / 2048

|-
| 
|colspan = "2"|For a duration of 10 s , Time Base corresponds to 4.882812 m.

|}

=====Analysis=====
*'''Autobandwidth''': manages the analysis and recording bandwidths automatically. The Inputs selection window allows the use of 2 different sampling rates for the dynamic inputs. It gathers inputs with the same physical quantity into groups, maintaining the same sampling into each group. When inputs are associated with the analysis plug-in, it adjusts its analysis bandwidth to match the inputs ones. Mixing input bandwidths in one analysis plug-in lead to set its bandwidth to the lowest one. Autobandwidth is set by default . When it is enabled in the plug-in, these settings "switch to informative status"

*'''Range: '''the TDA plug-in frequency range. The analyzer sampling frequency divided by 2.56 limits this range, and the minimum is obtained by dividing this limit by 50000. For example, if the analyzer sampling frequency is 51,2kS/s, then the max range is 20 kHz and the min is 400mHz. In post analysis mode, the Max Bandwidth setting from the Player plug-in provides the analyzer sampling frequency by multiplying the value by 2.56 (ex: if max bandwidth = 20 kHz then the analyzer sampling frequency is 51.2kS/s), otherwise, the analyzer sampling frequency is provided by the input sampling setting from the Front end plug-in input setting sub-module.

=====Average=====

* [[Image:Reports_Tools_Ribbons_389.png]]Average: Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''

* '''Type''': The method of averaging the signal. There are four different averaging modes: Linear, Exponential, Peak hold, and Referenced Peak hold.

{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="94%" align="center"
|'''Type'''
|'''Description'''

|-
|Linear
|Linear averaging of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|-
|Exponential
|In this mode of computation, averaging is continuously updated each 256 samples. All scalar results DC, RMS, Min, Max, Peak, Peak-Peak, Kurtosis, are reset with a periodicity equal to the duration of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|} 

event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.

* [[Image:Reports_Tools_Ribbons_390.png]]'''Duration''': The duration of the signal used to compute the scalar results available as result. Results are delivered each 256 samples.:This setting affects only the Time View, not the scalar results.

=====Trigger=====

* '''Synchronization''': Controls the plug-in synchronization with the general analyzer status:
** [[Image:Reports_Tools_Ribbons_386.png]]Linked to run: The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
** [[Image:Reports_Tools_Ribbons_387.png]]Free run: The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing. In Free Run mode, the average is forced to Exponential.
* '''Start''': defines the event to start the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Start" condition.
* '''Stop''': defines the event to stop the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.
* '''Repeat''': this setting is used to select a condition for the TDA plug-in to be restarted. If an event is selected as a Start event, the option "New start" is available, and when this mode is selected each Start event restarts the plug-in. The "End of averaging" mode is available when the value of the ''TDA /Analysis/Type'' is equal to "Linear" mode. This restarts the plug-in when the averaging is finished. For linear average when it is set to "End of averaging", the "Avg duration" gives the periodicity of the average restart. By default the Repeat mode is set to "Off".
* '''Start Delay''': time delay applied to the time the start event occurs. The Start Delay could be a negative values to act as a pre-trigger. At default setting of 20kHz analysis, the minimum value for Start Delay is -635ms. The maximum value is 360000s.

===TDA status===
All statuses are available for the control panel. Statuses are refreshed all the time at roughly 10 Hz.


[[Image:Analysis_plug_TDA_05.png|framed|none]]


[[Image:Analysis_plug_TDA_06.png|framed|none]]

The current plug-in status is synthesized in a special progress-bar. This progress bar is automatically displayed in the bottom area when the plug-in is active (i.e. as soon as at least 1 input is connected to the TDA plug-in). This status is called <nowiki>’</nowiki>TDA<nowiki>’</nowiki> and it is available in the status ASB tree (see customize control panel).

This status displays the status and current time, the plug-in state and the real-time status.

* '''Run:''' the TDA plug-in is computing data and average it
* '''Stop:''' The TDA plug-in is stopped.
* '''Trig:''' The TDA plug-in is waiting for next block; i.e. next trigger event (block triggering) or first start event (triggering)
* '''Pause: '''The TDA plug-in averaging is paused
*
'''Notes''': in exponential averaging mode the average counts stops increasing as soon as the set value is reached.

The way the status bar is displayed, depends on the type of averaging selected:

* '''<nowiki>’</nowiki>Linear<nowiki>’</nowiki>: '''the progress bar is filled from left to right.
* '''<nowiki>’</nowiki>Exponential<nowiki>’</nowiki>''': the progress bar is filled from right to left with a flashing until the end of the acquisition.

The color of the background bar and of the text depends on real-time status:

* ''Green background and white or black text'': acquisition in real-time.
* ''Red background and white or black text'': the current acquisition is not real-time (current block is not analyzed).
* ''Green background and red text'': the current acquisition is real-time, but since start not all the blocks were analyzed.

[[Image:Analysis_plug_TDA_07.png|framed|none]]

This status displays the progression of the measurement in duration

'''Trigger State'''

The following scheme describes the basic statuses evolution of the TDA measurement:

[[Image:Analysis_plug_TDA_08.png|framed|none]]

By default the trigger state is on <nowiki>’</nowiki>Stop<nowiki>’</nowiki> and waiting for a <nowiki>’</nowiki>Run<nowiki>’</nowiki> (start or trigger). Then the state become <nowiki>’</nowiki>Triggering<nowiki>’</nowiki> and is waiting for a start event, the states become <nowiki>’</nowiki>Running<nowiki>’</nowiki>.

The TDA plug-in can run either in the standard plug-in synchronization or totally free run (see Synchronization setting in the TDA settings). While running in the free run mode, the TDA remain in the running mode (not displayed in the status) until the synchronization is changed.

======Count======
This status displays the averaging duration processed. This status is expressed in seconds.

======Real-time======
This status displays if the averaging is in real-time or not (i.e. the current block is analyzed or not). If the corresponding signal were not available at this time, the acquisition is not real-time. That means that the treatment is longer than the acquisition.

There are 3 values for this state:

* '''<nowiki>’</nowiki>OK<nowiki>’</nowiki>''': The acquisition is real-time (all block have been processed and averaged)
* '''<nowiki>’</nowiki>No<nowiki>’</nowiki>''': Acquisition was not real-time (some previous blocks are missing in the average).
* '''<nowiki>’</nowiki>-<nowiki>’</nowiki>''': The acquisition is currently not real-time (current block is not analyzed an averaged).
======Block overload======
This status corresponds to the instantaneous overload indication for TDA plug-in current block, for instance amplitude overload occurred in the current analyzed block.

======Analysis overload======
This status corresponds to overload indication over the measurement period. It means that during the whole measurement period there was (or not) an overload. It memorizes block overloaded.

=====Properties=====

[[Image:Display_Graphs_Traces_99.png|framed|none]]

* Trace color
* Number: selects the trace number for color modification.
* Color box: click on this box to modify the color of the selected trace.

* X Axis
* Absolute time: displays the time from windows format.
* Relative time: displays the duration of the record. The beginning of the record is set to 0.
* Auto: selects absolute or relative time depending on the duration of the record. For records smaller than 2s, the relative time is displayed, for others, the absolute time is chosen.

NVGate Time Domain Analysis

2022-03-28T11:12:57Z

Credaelli: /* Connect channels */

[[category:NVGate]]
The TDA plug-in is designed to get the most from the time domain signal completing the frequency/order analyses. This plug-in offers flexible signal overview and statistical extraction in parallel.
[[Image:TDA plugin.png|framed|right]]
[[Image:TDA_ASB.png|framed|right]]
This TDA plug-in provides 2 types of results:

* Time views and associated extracted results. It<nowiki>’</nowiki>s an oscilloscope-like function, to view the time domain series. This does not record the time signal, only their statistical content.
* Statistical scalar result. The TDA computes the statistical content of the connected input on a specific time and average basis. These scalars levels are available as view meter or profiles (using waterfall).

=== Connect channels===
Click on connect inputs and drag and drop the channels on TDA plug in.
[[File:TDA_1.png|400px]|none]]

===Available results:===

The results can be display using the add remove windows:
[[File:TDA_display.png|700px|none]]
 
{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="100%" align="center"
|'''Type'''
|'''Size'''
|'''Dimension'''
|'''Domain'''
|'''Save'''

|-
|DC
|1pt
|1D
| 
| Yes

|-
|RMS
|1pt
|1D
| 
| Yes

|-
|Min level
|1pt
|1D
| 
| Yes

|-
|Max level
|1pt
|1D
| 
| Yes

|-
|Peak
|1pt
|1D
| 
| Yes

|-
|Peak-Peak
|1pt
|1D
| 
| Yes

|-
|Crest Factor
|1pt
|1D
| 
| Yes

|-
|Kurtosis
|1pt
|1D
| 
| Yes

|-
|Time View
|2048 pt max
|Compressed Time
|time
| Yes

|} 

* '''DC''': the average DC value of the time signal
* '''RMS''': the RMS value of the time signal (DC being removed)
* '''Min''': the minimum level of time signal
* '''Max''': the maximum level of time signal
* '''Peak''': the absolute value of Min level and Max level.
* '''Peak-Peak''': displays the difference between Min level and max level. Peak-Peak level ≥ 0.

* '''Crest factor''': displays the ratio Peak level/RMS level. Characteristics of the Crest Factor:

[[Image:Analysis_plug_TDA_02.png|framed|none]]

* '''Kurtosis''': the kurtosis value (4th order moment) of the time signal
* '''Time View'''

====Display====
The ''Time view''is an oscilloscope-like view of the time domain series which scrolls the signal on a user define duration. The duration of the viewed signal is independent for each channel. That is to say it allows monitoring the same signal on different durations.

[[Image:Analysis_plug_TDA_03.png|700px|none]]

It<nowiki>’</nowiki>s possible to display several TDA channels in same window even if the durations are different. The windows size will be set according to the larger duration.

X zoom is not available at Time View, display is fixed to multi graph.

This window handles 3 cursors:

* Main cursor where is retrieved the values displayed at infortrace
* Cursors 1-2 used for selection. The scalar values displayed in the info trace are computed according to this selection.

[[Image:Display_Graphs_Traces_97.png|700px|none]]

Scalar table may be setup to add / remove scalar that may be displayed:

Content of Scalar Table could be copy to export to another application.

{|class="wikitable" style="background:white" border="0" cellspacing="2" width="100%"
|
[[Image:Display_Graphs_Traces_98.png|framed|none]]

| 

|}

The setup of the monitored duration determines the analysis steps. These steps are indicated in the ''Time base ''states. The ''Time base ''is the time interval for each new point in the ''Time view ''signal. The time view duration is settable from 320 ms to 100 000 s (27 hours) with a 20 kHz bandwidth.

The minimum duration depends on the plug-in bandwidth. For example at 20 kHz with a duration of 10.24 sec, the ''Time base ''is set at 5 ms. A new point in the ''Time view ''will occur each 5 ms and the maximum number of points in the graph will be 2048.

The X axis can be either absolute (real date/time) or relative (in buffer duration). It can be changed during acquisition. The default type is relative; it may be changed through the user<nowiki>’</nowiki>s preferences.

In addition to the signal overview, the ''Time view'' provides statistic extraction of a part of the displayed signal. The extraction takes into account the signal defined in the selected area (reverse video). The results of this extraction are available in the info trace. The following levels are computed in the selected area:

* DC
* RMS (root min square)
* Min. (minimum) lowest amplitude
* Max (maximum) highest amplitude
* Ktsis (kurtosis) 3rd order moment
* Pk (peak) absolute value of the largest amplitude
* Pk-Pk (peak-peak) largest excursion
* CrFact (crest factor) Pk-Pk/RMS
* Kurtosis

[[Image:Analysis_plug_TDA_04.png|700px|none]]

===Settings===
[[Image:TDA plugin.png|framed|right]]
[[Image:TDA_ASB.png|framed|right]]

* Synchronization: Controls the plug-in synchronization with the general analyzer status:
* [[Image:Reports_Tools_Ribbons_386.png]]Linked to run: The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
* [[Image:Reports_Tools_Ribbons_387.png]]Free run: The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing
* [[Image:Reports_Tools_Ribbons_388.png]]Range: Setup the analysis range for the plug-in. This value is maximized by the front-end sampling frequency divided by 2.56. Note: Each plug-in feature an independent bandwidth.
* [[Image:Reports_Tools_Ribbons_389.png]]Average: Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''
* [[Image:Reports_Tools_Ribbons_390.png]]Average duration: Setup the average duration. In Exponential mode it specifies the non decayed part of the signal. In linear mode, it specifies the complete duration. In Linear repeated mode, it specifies the short duration.
=====Channel=====
Contains the settings related to the source input.

* '''Source''': input source to be analyzed. It may come from the input Front-end or from the Player in the post analysis mode (see the post analysis chapter). In the post analysis mode, the tracks with a signal bandwidth lower than the range of the TDA cannot be plugged.
* '''Input filter''': filter to be used for filtering the source before analysis. The Filters that are not compatible with the TDA range cannot be selected (see the Filter builder chapter).
* '''Duration:''' duration of the viewed signal. Minimum value depends on TDA frequency range analysis (360ms for 20kHz bandwidth analysis) whereas maximal value can be up to 100000s. The duration of the viewed signal is independent for each channel.
This setting affects only the Time View, not the scalar results.

* '''Time Base: '''this read-only setting is the duration of one displayed point in the time view. Time view display is set to a fixed size of 2048 points. Time base is evaluated according to the formula:

{|border="0" cellspacing="2" width="100%"
| 
| 
|Time Base = Duration / 2048

|-
| 
|colspan = "2"|For a duration of 10 s , Time Base corresponds to 4.882812 m.

|}

=====Analysis=====
*'''Autobandwidth''': manages the analysis and recording bandwidths automatically. The Inputs selection window allows the use of 2 different sampling rates for the dynamic inputs. It gathers inputs with the same physical quantity into groups, maintaining the same sampling into each group. When inputs are associated with the analysis plug-in, it adjusts its analysis bandwidth to match the inputs ones. Mixing input bandwidths in one analysis plug-in lead to set its bandwidth to the lowest one. Autobandwidth is set by default . When it is enabled in the plug-in, these settings "switch to informative status"

*'''Range: '''the TDA plug-in frequency range. The analyzer sampling frequency divided by 2.56 limits this range, and the minimum is obtained by dividing this limit by 50000. For example, if the analyzer sampling frequency is 51,2kS/s, then the max range is 20 kHz and the min is 400mHz. In post analysis mode, the Max Bandwidth setting from the Player plug-in provides the analyzer sampling frequency by multiplying the value by 2.56 (ex: if max bandwidth = 20 kHz then the analyzer sampling frequency is 51.2kS/s), otherwise, the analyzer sampling frequency is provided by the input sampling setting from the Front end plug-in input setting sub-module.

=====Average=====

* [[Image:Reports_Tools_Ribbons_389.png]]Average: Setup Average type for the statistic extraction. It can be exponential with a sliding decay or linear. Multiple linear averaging are obtained by setting the ''TDA/Trigger/Repeat to : End of averaging''

* '''Type''': The method of averaging the signal. There are four different averaging modes: Linear, Exponential, Peak hold, and Referenced Peak hold.

{|class="wikitable" style="background:white" border="2" cellspacing="0" cellpadding="4" width="94%" align="center"
|'''Type'''
|'''Description'''

|-
|Linear
|Linear averaging of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|-
|Exponential
|In this mode of computation, averaging is continuously updated each 256 samples. All scalar results DC, RMS, Min, Max, Peak, Peak-Peak, Kurtosis, are reset with a periodicity equal to the duration of results is carried out on the value of the Duration from the same sub-module. The TDA plug-in automatically stops when the duration is reached.

|} 

event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.

* [[Image:Reports_Tools_Ribbons_390.png]]'''Duration''': The duration of the signal used to compute the scalar results available as result. Results are delivered each 256 samples.:This setting affects only the Time View, not the scalar results.

=====Trigger=====

* '''Synchronization''': Controls the plug-in synchronization with the general analyzer status:
** [[Image:Reports_Tools_Ribbons_386.png]]Linked to run: The plug-in is controlled by the general Run / Pause / Stop controls. It operates synchronously with the Other plug-in (except the Monitor)
** [[Image:Reports_Tools_Ribbons_387.png]]Free run: The plug-in runs continuously independently from the general Run/Pause/Stop. Note: The start/stop trigger continue to control the plug-in processing. In Free Run mode, the average is forced to Exponential.
* '''Start''': defines the event to start the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Start" condition.
* '''Stop''': defines the event to stop the analysis. The user can choose any event among the list of defined events. By default only the Free run and Manual events are available. The user can define another event in the "Event Definition" shared resources and then use this event for the "Stop" condition.
* '''Repeat''': this setting is used to select a condition for the TDA plug-in to be restarted. If an event is selected as a Start event, the option "New start" is available, and when this mode is selected each Start event restarts the plug-in. The "End of averaging" mode is available when the value of the ''TDA /Analysis/Type'' is equal to "Linear" mode. This restarts the plug-in when the averaging is finished. For linear average when it is set to "End of averaging", the "Avg duration" gives the periodicity of the average restart. By default the Repeat mode is set to "Off".
* '''Start Delay''': time delay applied to the time the start event occurs. The Start Delay could be a negative values to act as a pre-trigger. At default setting of 20kHz analysis, the minimum value for Start Delay is -635ms. The maximum value is 360000s.

===TDA status===
All statuses are available for the control panel. Statuses are refreshed all the time at roughly 10 Hz.


[[Image:Analysis_plug_TDA_05.png|framed|none]]


[[Image:Analysis_plug_TDA_06.png|framed|none]]

The current plug-in status is synthesized in a special progress-bar. This progress bar is automatically displayed in the bottom area when the plug-in is active (i.e. as soon as at least 1 input is connected to the TDA plug-in). This status is called <nowiki>’</nowiki>TDA<nowiki>’</nowiki> and it is available in the status ASB tree (see customize control panel).

This status displays the status and current time, the plug-in state and the real-time status.

* '''Run:''' the TDA plug-in is computing data and average it
* '''Stop:''' The TDA plug-in is stopped.
* '''Trig:''' The TDA plug-in is waiting for next block; i.e. next trigger event (block triggering) or first start event (triggering)
* '''Pause: '''The TDA plug-in averaging is paused
*
'''Notes''': in exponential averaging mode the average counts stops increasing as soon as the set value is reached.

The way the status bar is displayed, depends on the type of averaging selected:

* '''<nowiki>’</nowiki>Linear<nowiki>’</nowiki>: '''the progress bar is filled from left to right.
* '''<nowiki>’</nowiki>Exponential<nowiki>’</nowiki>''': the progress bar is filled from right to left with a flashing until the end of the acquisition.

The color of the background bar and of the text depends on real-time status:

* ''Green background and white or black text'': acquisition in real-time.
* ''Red background and white or black text'': the current acquisition is not real-time (current block is not analyzed).
* ''Green background and red text'': the current acquisition is real-time, but since start not all the blocks were analyzed.

[[Image:Analysis_plug_TDA_07.png|framed|none]]

This status displays the progression of the measurement in duration

'''Trigger State'''

The following scheme describes the basic statuses evolution of the TDA measurement:

[[Image:Analysis_plug_TDA_08.png|framed|none]]

By default the trigger state is on <nowiki>’</nowiki>Stop<nowiki>’</nowiki> and waiting for a <nowiki>’</nowiki>Run<nowiki>’</nowiki> (start or trigger). Then the state become <nowiki>’</nowiki>Triggering<nowiki>’</nowiki> and is waiting for a start event, the states become <nowiki>’</nowiki>Running<nowiki>’</nowiki>.

The TDA plug-in can run either in the standard plug-in synchronization or totally free run (see Synchronization setting in the TDA settings). While running in the free run mode, the TDA remain in the running mode (not displayed in the status) until the synchronization is changed.

======Count======
This status displays the averaging duration processed. This status is expressed in seconds.

======Real-time======
This status displays if the averaging is in real-time or not (i.e. the current block is analyzed or not). If the corresponding signal were not available at this time, the acquisition is not real-time. That means that the treatment is longer than the acquisition.

There are 3 values for this state:

* '''<nowiki>’</nowiki>OK<nowiki>’</nowiki>''': The acquisition is real-time (all block have been processed and averaged)
* '''<nowiki>’</nowiki>No<nowiki>’</nowiki>''': Acquisition was not real-time (some previous blocks are missing in the average).
* '''<nowiki>’</nowiki>-<nowiki>’</nowiki>''': The acquisition is currently not real-time (current block is not analyzed an averaged).
======Block overload======
This status corresponds to the instantaneous overload indication for TDA plug-in current block, for instance amplitude overload occurred in the current analyzed block.

======Analysis overload======
This status corresponds to overload indication over the measurement period. It means that during the whole measurement period there was (or not) an overload. It memorizes block overloaded.

=====Properties=====

[[Image:Display_Graphs_Traces_99.png|framed|none]]

* Trace color
* Number: selects the trace number for color modification.
* Color box: click on this box to modify the color of the selected trace.

* X Axis
* Absolute time: displays the time from windows format.
* Relative time: displays the duration of the record. The beginning of the record is set to 0.
* Auto: selects absolute or relative time depending on the duration of the record. For records smaller than 2s, the relative time is displayed, for others, the absolute time is chosen.

File:TDA 2.png

2022-03-28T11:11:54Z

Credaelli: File uploaded with MsUpload

File uploaded with MsUpload

File:TDA 1.png

2022-03-28T11:11:44Z

Credaelli: File uploaded with MsUpload

File uploaded with MsUpload

NVGate 2022: Release note de

2022-03-14T17:17:30Z

Credaelli: /* 70px Triple shaft order analysis : 3 parallel real time SOA analysis */

[[category:NVGate2022]]

OROS ist bestrebt, nah bei den Anwendern zu sein und aufmerksam auf die Bedürfnisse und das Feedback aus der Praxis zu achten. Darauf aufbauend werden regelmäßig neue Versionen veröffentlicht.

[[File:Splash_screen2022.png|500px]]

 
Die Hauptversion von NVGate® 2022 ist seit Januar 2022 verfügbar. Diese Version der Softwareplattform der Analysatoren der OROS 3-Serie bringt zusätzliche Funktionen und signifikante Leistungsverbesserungen. Nachfolgend finden Sie eine Zusammenfassung der wichtigsten Verbesserungen Ihres NVGate-Erlebnisses: 

'''>> 3''' Hauptgründe, um Ihre '''TEAMWORK Effizienz''' auf das Maximum zu bringen. 

{| class="wikitable" |
|-
! style="background: white;|[[File:READER.png|70px]] 
Erkunden der Daten einfach & frei, ohne jede Lizenz!
! style="background: white;|[[File:Ergonomics.png|70px]] 
Weniger Klicks und größere Effizienz fürs Team
! style="background: white;|[[File:W11.png|70px]] 
Mit den Entwicklungen Schritt halten: die Windows 11 Kompatibilität ist sichergestellt.
|-
| Start von '''NVGate in READER-Modus''' ohne Lizenz und arbeiten Sie mit den Daten bis zum Report. Teilen der Daten mit dem Team oder Partnern: Sie werden in der Lage sein Daten zu sammeln, zu untersuchen, anzuzeigen und zu bearbeiten, und das ohne Lizenz.[[NVGate_2022:_Release_note#NVGate_READER_:_Share_.26_Explore_your_data_Simply_.26_FREEly_.21|>>]] ||
Erleben Sie verbesserte Ergonomie und Intuition dank der optimierten neuen Ribbons und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks,[[NVGate_2022:_Release_note#Enhanced_ERGONOMICS_:_Save_more_clicks_and_push_teams_efficiency_to_the_limits|>>]]

|| Das neue '''Windows 11''' ist veröffentlicht und NVGate 2022 passt sich an, um eine vollständige '''Kompatibilität''' mit der modernen Umgebung sicherzustellen.
|}

'''>> 4''' Hauptmerkmale, um weiterhin die höchste Leistung in der ROTATING-Analyse vorzuschlagen 

{| class="wikitable"
|-
! style="background: white;|[[File:3shaftordertracking.png| 70px]]
3Fache Ordnungsanalyse!
! style="background: white;|[[File:FracTach.png|70px]] Mehreren Wellen mit nur einem Tacho: Virtual tach mit Getriebeverhältnis bis zu 100!
! style="background: white;|[[File:PV.png|70px]] PV Diagramm für Antriebe.
! style="background: white;|[[File:orbigate.png|70px]] Kombinieren Sie Ihre ORBIGate-Systeme: Rotordynamik Messungen mit kaskadierten Systemen.
|-
| Unabhängig davon, ob Ihre Messung an einem Getriebe, einem Kompressor oder sonstigen Maschine mit mehreren Wellen durchgeführt wird, bietet NVGate nun '''3 parallele Ordnungsanalysen''' sowohl im Online- als auch im Office Modus.
| Die Messung von Vibrationen an Maschinen mit mehreren Wellen wie Getrieben kann mehrere Drehzahlmesser erfordern. NVGate 2022 bietet nun größere Übersetzungen für die integrierte virtuelle Tachometerfunktion mit einem '''Verhältnis von bis zu 100''' zwischen schneller und langsamer Welle.
| Das PV-Diagramm ermöglicht es Druck und Volumen gegenüber zu stellen. Das '''PV-Diagramm''' ist als ein neues Add-on verfügbar.
| ORBIGate entwickelt sich weiter. Insbesondere die Rotordynamiklösung kann ebenfalls mit Daisy-Chain-Systemen eingesetzt werden.
|}

Diese Release Note beschreibt den Inhalt der Version mit Betriebsdetails.
 
Um NVGate 2022 herunterzuladen und zu installieren, [[NVGate_2022:_Install_Process|lesen Sie diese Seite]].
 

Kompatibilität: NVGate 2022 ist mit allen OROS-Instrumenten (OR34 V1 - OR35 V1 - OR36 V2 und TW - OR38 V2 und TW-OR10) kompatibel, die nicht abgekündigt wurden. Abhängig von den Hardwareoptionen und der Version können einige Instrumentenfunktionen verfügbar sein oder nicht.

== [[File:READER.png|70px]] NVGate Reader: Erkunden der Daten einfach & frei, ohne jede Lizenz! ==

Starten Sie NVGate im READER-Modus von überall und arbeiten Sie sich bis zum Bericht vor. Ihre Teams und Partner können Ihre Daten einfach und ohne Softwarelizenz erkunden: einfach KOSTENLOS!
Dies ist der allererste Schritt, den Sie tun können, um die Möglichkeiten von OROS und NVGate zu entdecken: unabhängig davon, ob Sie Erfahrung mit Schall und Schwingungen haben oder nicht.

<youtube>https://youtu.be/xfEEQaCxaI4</youtube>

Wenn NVGate 2022 gestartet wird, ohne dass eine Lizenz erkannt wird, wird es im READER-Modus gestartet. Das folgende Dialogfenster wird angezeigt: 
[[File:READER START.png|200px]]
'''Mit dem READER-Modus: '''
* - Verwalten Sie die Daten: [[NVGate_dataset_management#Share_and_collate_dataset|Collate & share data]], filtern und sortieren Sie Daten basierend auf Eigenschaften: so nutzen Sie die Kraft von [[NVGate_dataset_management#Dataset_management|Dataset Management]] 
[[File:reader.PNG|500px]]
* - Zeigen Sie die Daten unabhängig vom Anzeigetyp an 
* - Verwenden Sie die Anzeige- und Analysewerkzeuge: Zoomen, Skalieren, Cursor und Marker zum Lesen der Ergebniswerte 
[[File:DISPLAY.png|400px]]
* - Veröffentlichen Sie automatisierte oder manuelle Berichte 

'''Wie geht es weiter?''' 
Nur Daten, die von einer NVGate 2022-Version erstellt oder geteilt werden, sind mit dem NVGate 2022 READER kompatibel: 
- Für Teams, die eine lizenzierte Version von NVGate verwenden, werden mit NVGate 2022 generierte Daten im Projektmanager gespeichert und sind '''einfach lesbar''', wenn sie im READER-Modus starten 
- Für READER-Benutzer ohne lizenzierte Version von NVGate können die von Ihrem Teammitglied oder Partner GETEILTEN Daten mit der Funktion "[[NVGate_dataset_management#Collate_Datasets|COLLATE]]" importiert werden. 
- Eingebettete Beispiele, die mit der Version installiert werden, sind '''für das Selbsttraining verfügbar''' und können mit der Funktion "[[NVGate_Edit_Measurement|EDIT MEASUREMENT]]" angezeigt werden. 

- Für Benutzer, die Ihre Daten mit Reader-Benutzern [[NVGate_dataset_management#Share_Dataset|TEILEN]] möchten: sie können es mit der [[NVGate_dataset_management#Share_Dataset|"SHARE"]] Funktion tun. 

- In allen Fällen werden gemeinsam genutzte DATEN zunächst auf einer lizenzierten NVGate-Version erstellt, entweder in Echtzeit, wenn sie mit einem OROS-Instrument verbunden ist, oder aus einer Postanalyse basierend auf einem aufgezeichneten Signal 

== Optimierte ERGONOMIE : Weniger Klicks und größere Effizienz fürs Team ==

Erleben Sie die verbesserte Feldergonomie und Intuition dank der optimierten '''neuen Ribbon Tabs''' und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks auf Knopfdruck.

Die Benutzeroberfläche fasst die Funktionen des Analysators in einfachen, übersichtlichen und leicht zu identifizierenden Registerkarten zusammen, die nach den Hauptoperationen organisiert sind (Home, Acquisition, Analysis, Data, Display, Report, Automation, Preferences).

<youtube>https://youtu.be/MRGE2-VLBFg</youtube>

===Tab: neue Anordnung der Buttons===

Die Hauptfunktionen wurden durch eine Benutzeroberfläche hervorgehoben, die die Benutzer zur besten Verwendung ihres Analysators der OROS 3-Serie führt.
Die Softwareeinträge sind in einer logischen Operationsweise organisiert. Es gibt 8 verschiedene Tabs, die dem Hauptoperationstyp entsprechen:

====Home====

[[File:home3.PNG|800px]]

Das Ziel des „Home“ Tab ist es, einen benutzerfreundlichen Tab zum Durchführen einer Messung zu erstellen.
Sie können ein Projekt laden, ein Setup erstellen (über die Gruppe "Go To Results"), eine Erfassung starten, Ihre Daten und den Speicherplatz einsehen und den Benutzer ändern.
Tatsächlich können Sie für viele alltägliche Anwendungen auf diesem Tab bleiben, ohne die andere zu überprüfen.

Wir haben auch haben die Attachement Funktion hervorgehoben [[File:home_attachment_2022.PNG|30px]].

'''Attachment''': Ermöglicht es, schnell zu erkennen, ob Dateien (Berichte, Bilder, Videos ....) an das aktuelle Projekt angehängt sind. Klicken Sie auf diesen Button, um den Attachment-Ordner zu erstellen und/oder zu öffnen.

''Hinweis: Wenn das „Default project“ aktiv ist, ist der Button „Attachment“ ausgegraut.
{|border="0" cellspacing="0" cellpadding="4" width="50%" align="left"
|-
|[[File:home_attachment_2022.PNG|30px]]
| Der „Attachment“ Ordner des aktives Projekts ist leer oder existiert nicht.
|-
|[[File:home_attachment_file_2022.PNG|30px]]
| Datei(en) befinden sich im „Attachment“ -Ordner des aktives Projekts.
|} 

====Acquisition====

Dieser Tab enthält alle notwendigen Einträge, um das Frontend und die Verwendung beliebiger Kanäle im Detail einzurichten. Es trennt die Einrichtung der Eingangskanäle von den Ausgängen, der Triggerung, dem Tachometer und den Filtern.

[[File:Acquisition3.PNG|750px]]

====Analysis====

Auf diesem Tab sammelt die Software die Bedienelemente für Frontend, Recorder und Analyse. Jeder Button entspricht einem Plug-in-Analyzer. Der Inhalt dieses Tabs hängt von den erworbenen optionalen Plug-Ins ab. 
[[File:Analysis3.PNG|700px]]

====Data====

Dieser Tab bietet Funktionen zum Verwalten aller Ihrer Daten, zum Übertragen von Projekten, Messungen, Modellen, zum Exportieren und Importieren Ihrer Daten und zum Filtern des Project Manager.
[[File:Data3.PNG|500px]]

====Display====
Dieser Tab umfasst die Steuerung der Ergebnisanzeige. Es ermöglicht das Erstellen, Ausfüllen, Anordnen und Anzeigen der Fenster und Layouts. Es steuert die Skalierung, Einheiten, Gewichtung und Datenoperationen aller Diagramme, verwaltet die Wasserfälle und Extraktionsdiagramme sowie die Markers.

[[File:display3.PNG|700px]]

Der display Tab wurde mit NVGate 2022 vollständig durchdacht und verbessert. Einige Funktionen wurden hervorgehoben: Einfrieren, Zoomen, Layout hinzufügen.
Der Mausmodus wurde ebenfalls verbessert (Cursor, Marker, Zoom, Move, Rotate). Ein Modus kann jetzt mit einem Klick ausgewählt werden. Außerdem ist der Standard-Mausmodus jetzt immer der Cursormodus, wenn Sie also einen Modus abwählen, kehrt er direkt zum Cursormodus zurück.

====Preferences====

Dieser Tab bietet direkten Zugriff auf die Auswahl des Benutzers, die Benutzereinstellungen und die Sensordatenbank.

[[File:Preference3.PNG|500px]]

====Post analysis Button auf dem Status bar====

[[File:PA_Status.png]]

Auf dem Status bar haben Sie jetzt einen direkten Zugriff zum "online to post analysis" Modus.

|[[File:Home_online_to_PA.PNG|30px]]
| '''Online to Post-analysis''': dieser Button wird verwendet, um vom Online-Modus in den Post-Analyse-Modus zu wechseln. Dadurch wird das Fenster „Signal auswählen“ geöffnet, das alle verfügbaren aufgezeichneten Signale auflistet. Das ausgewählte Signal wird dann wiedergegeben und kann in einen beliebigen Plug-In-Analysator (Monitor, FFT, 1/n Oktave ...) erneut eingespeist werden. Es ist auch möglich, ein aufgezeichnetes Signal während der Online-Analyse über den Ausgang wiederzugeben.

Lesen Sie die [[NVGate_Player|Player-Seite]] für mehr Details.

====Automation====
Der Automation Tab enthält leistungsstarke und hilfreiche Tools zur Automatisierung sich wiederholender Aufgaben, die mit den Analysatoren durchgeführt werden.
[[File:Automation.PNG|700px]]

=== Go to results: Ein-Klick Buttons===

Für mehr Benutzerfreundlichkeit wurde eine neue „Ein-Klick“-Funktion zu den Ergebnissen hinzugefügt.

[[File:gotoresults3.PNG|400px]]

* [[File:viwe recording.PNG|50px]]view recording: öffnet das Signalmonitoring-Fenster über dem aktuellen Layout. Falls dieses Fenster bereits in einem anderen Layout geöffnet ist, wechselt es zu diesem Layout.

* [[File:Add__layout.PNG|40px]] Add Layout: Erstellt ein neues Layout. Durch Klicken auf den Button wird ein Dialogfeld zum Benennen des neuen Layouts angezeigt. Ein neuen Tab wird erstellt und ausgewählt, die dem neuen Layout entspricht.

* [[File:waterfall settings.PNG|150px]] Öffnet den Waterfall-Trigger-Dialog. Dieser Dialog ermöglicht die Auswahl des Auslösers durch das Waterfall-Plug-in (nur auf den Tab „Profil“ und „Wasserfall“ verfügbar).

=== RPM Button erstellt automatische Events===

[[File:auto_rpm.PNG|200px]] Der RPM-Button wurde jetzt komplett neu gestaltet. Durch Anwenden dieser Schaltfläche wird der Waterfall-Trigger automatisch auf Delta-RPM oder periodic gesetzt.
Dadurch wird die Einrichtung von NVGate für eine rotierende oder hochgefahrene Anwendung viel einfacher. (nur im Profil- oder Waterfall-Tab verfügbar).

Im Detail wird dieser Button:

* einen Delta RPM event erstellen, source = the one activated in the "Tach.". Delta velocity: 10 RPM.
* einen Periodic event erstellen (0.5 sec)
* einen Combined event erstellen: "Delta RPM ODER Periodic 1"
* den Waterfall Trigger auf Combined event setzen
* einen RPM event erstellen (source = the one activated in the tach field)

=== Neue Standardeinstellungen===

Die Standardeinstellungen in NVGate wurden auf die untenstehenden aktualisiert. Mit diesen Standardeinstellungen können Sie direkt eine Rotationsanalysemessung durchführen.
Beachten Sie, dass die Einstellungen nicht betroffen sind, wenn Sie ein bestehendes Projekt laden. Sie können diese Einstellungen auch einfach ändern.

FFT Overlap: 66%

FFT lines: 3200

FFT Overall low freq : 2 Hz

SOA resolution: 1/8

SOA overlap: 5

SOA OVL lower order: 0.2

Event Delta RPM: Delta velocity 10 rpm

Waterfall Depth: 1000

Tachometer/RPM Profiles/Duration: 120 sec

== Neue Einheiten verfügbar ==

[[File:unit.PNG]] Neue Einheiten wurden hinzugefügt:

Angular velocity: Hertz

Pressure: Pascal und Bar

Torsional velocity: RPM

== [[File:FracTach.png|70px]] Mehreren Wellen mit nur einem Tacho: Virtual tach mit Getriebeverhältnis bis zu 100! ==

[[Image:Reports_Tools_Ribbons_356.png]]: Fractional tachometer: berechnet die Drehzahl für eine nicht zugängliche Welle anhand des Getriebeverhältnis. Das Verhältnis kann jetzt auf 100 eingestellt werden! (früher waren es 2).

[[Image:tacho_ratio.png|500px]]

*'''Tach ratio''': dies ist das Verhältnis zwischen der Ausgangswinkelgeschwindigkeit und der Eingangswinkelgeschwindigkeit. Diese Einstellung wird durch das Produkt zweier Brüche definiert: N1/D1 * N2/D2, wobei N1, D1, N2 und D2 ganzzahlige Werte sind. Der Maximalwert des Tach.1 / Tach.2-Verhältnisses kann auf 100 eingestellt werden.
[[File:le100.png|600px]]

== [[File:3shaftordertracking.png| 70px]] 3 parallele Ordnungsanalysen ==

Unabhängig davon, ob Ihr Test an einem Getriebe, einem Getriebekompressor oder einer anderen rotierenden Maschine mit mehreren Wellen durchgeführt wird, NVGate bietet jetzt die Möglichkeit, '''3 parallele Ordnungsanalysen''' gleichzeitig sowohl im Online- als auch im Office-Modus durchzuführen .

OROS, führend in der Rotationsschwingungsanalyse, ist weltweit das einzige Unternehmen, mit dem Sie eine solche Leistung erzielen können.

[[File:3SOA.PNG]]

== [[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines ==

A [https://en.wikipedia.org/wiki/Pressure%E2%80%93volume_diagram pressure–volume diagram] (or PV diagram, or volume–pressure loop) is used to describe corresponding changes in volume and pressure in a system.

[[File:Indicator_diagram_steam_admission.png|400px]]

The diagram records the pressure of steam versus the volume of steam in a cylinder, throughout a piston's cycle of motion in a steam engine. The diagram enables calculation of the work performed and thus can provide a measure of the power produced by the engine.

To exactly calculate the work done by the system it is necessary to calculate the integral of the pressure with respect to volume. One can often quickly calculate this using the PV diagram as it is simply the area enclosed by the cycle.

Download: [[Addons:PV_Diagram#Download| Check the PV diagram page]]

How to use :

[[File:PVdiagram2022.PNG|600px]]

*Define one (or more) channel as a pressure.
*Add this channel into Sync. order (SOA) plug in.
*On SOA plug in , average, domain, select: "Angular"
*Open PV_Diagram.exe
*Click on refresh (right click) in available results if you do not see anything.
*Select the input.
*Compute once will display the PV diagram base once based the last triggerd block.
*"background computation, will continuously compute the diagram.

== [[File:W11.png|70px]]Windows 11 compatibility==

[[File:Windows_11_logo.svg.png|400px]]

This version is compatible and fully tested with the last version of Microsoft Windows 10 and new Microsoft version Windows 11.

== Teamviewer V15 quick support ==

If you have any question for using your OROS analyzer, Teamviewer is a power full tool to take control of your PC and check together your question.
NVGate 2022 include a the new version V15 of teamviwer .

[[File:teamviwer.PNG|200px]]

This version is available on your computer foler here: C:\OROS\NVGate data\Links\TeamViewerQS.exe . You can also donwload using this specific link : https://get.teamviewer.com/orosTV

== NVDrive ==

NVGate software can be fully remote-controlled using an external software package. The commands required for controlling each analyzer function are listed in the NVDrive®library.

=== Toolkit refresh ===

NVDrive toolkit has been refreshed with new examples, new print screen, new tree structure, .dll have been updated for beeing more clear and highlight the python language.
Also we have now only one reference on the price list "ORNV-TOOLKIT" which includes the full toolkit (NVdrive, Matdrive, .oxf, python.).

===New commands: Read Write NVGate user properties (Project / Measurement)===

NVDrive allows you to take control of the analyzer with command lines.
New NVDrive commands have been added on the NVDrive toolkit to read, write and delete the user properties of projects and measurements.

[[File:NVdrive.PNG|500px]]

== New car cigaret lighter plug ==

For OR36 and OR38 analyzer, OROS has designed a new cigaret lighter for beeing able to deliver 24.5V.
You can plug it on 10V-35V cigaret lighter and it will deliver 24.5V on output to power supply OR36 and OR38 analyzer and charge the battery.

It can be ordered with the reference : OR36-8TW-DCCL

[[File:cigaretlightercable.png|500px]]

(Cigaret lighter power supply for OR35, OR34 and OR10 remain available.)

== [[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing ==

ORBIgate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can '''now be used on daisy chained systems''' as NVGate. 
In addition, measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors: 
On top of that ORBIGate features as well an extension of the ratio for the '''Fractional tach feature up to a 100'''.

== New Sound Power V3.20 ==

OROS SOUND POWER Solution has been designed to let you achieve that type of test in the most efficient and accurate way.

This new version includes the following improvements:
* New command to start directly the software on your pre-configured setup
* Option to modify the limit of overall octave filter
* Excel templates fully updated to the last standard
* Full compatibility with NVGate 2022.

Read the dedicated [[Sound Power 3 20|Sound Power 3.20 release note]] for more info.

== Bug fixing ==

* 14133: Record with DC inputs doesn't work for some frequency samplings.
* 14112: Double filter with HP @10HZ in TDA in post analyse: nothing is displayed.
* 14102: Christmas tree with OR35TW is reproduce in a specific configuration.
* 14166: Delete the last value from calibration history.
* 14187: History transducer database can not be display on a japanese windows 10 PC.
* 14190: Random Burst on Block Event.
* 14130: "result selection windows": Lissajous graph is not display .
* 14184: Wrong display of TDA table after copy graph .
* 14210: OCT not possible to set a time constant below 20 ms.
* 14219: Autorange is "Saving the working results".
* 14286: Octave limited range of CPB filter is working strangely.
* 14194: Octave LimitedRange And Reduce SamplingFreq crash NVGate
* 14399: Impossible to compute EVHV Spatiogramme.
* 14290: several Lissajous graphics - cursors are not linked together.
* 14437: Error on NVDrive "NVGS_GetTrackNumberOfSample" Function with SBL > 2GB

NVGate 2022: Release note de

2022-03-14T17:14:48Z

Credaelli: /* 70px Measure all your shafts with 1 tach sensor: virtual tach gear ratio to 100 */

[[category:NVGate2022]]

OROS ist bestrebt, nah bei den Anwendern zu sein und aufmerksam auf die Bedürfnisse und das Feedback aus der Praxis zu achten. Darauf aufbauend werden regelmäßig neue Versionen veröffentlicht.

[[File:Splash_screen2022.png|500px]]

 
Die Hauptversion von NVGate® 2022 ist seit Januar 2022 verfügbar. Diese Version der Softwareplattform der Analysatoren der OROS 3-Serie bringt zusätzliche Funktionen und signifikante Leistungsverbesserungen. Nachfolgend finden Sie eine Zusammenfassung der wichtigsten Verbesserungen Ihres NVGate-Erlebnisses: 

'''>> 3''' Hauptgründe, um Ihre '''TEAMWORK Effizienz''' auf das Maximum zu bringen. 

{| class="wikitable" |
|-
! style="background: white;|[[File:READER.png|70px]] 
Erkunden der Daten einfach & frei, ohne jede Lizenz!
! style="background: white;|[[File:Ergonomics.png|70px]] 
Weniger Klicks und größere Effizienz fürs Team
! style="background: white;|[[File:W11.png|70px]] 
Mit den Entwicklungen Schritt halten: die Windows 11 Kompatibilität ist sichergestellt.
|-
| Start von '''NVGate in READER-Modus''' ohne Lizenz und arbeiten Sie mit den Daten bis zum Report. Teilen der Daten mit dem Team oder Partnern: Sie werden in der Lage sein Daten zu sammeln, zu untersuchen, anzuzeigen und zu bearbeiten, und das ohne Lizenz.[[NVGate_2022:_Release_note#NVGate_READER_:_Share_.26_Explore_your_data_Simply_.26_FREEly_.21|>>]] ||
Erleben Sie verbesserte Ergonomie und Intuition dank der optimierten neuen Ribbons und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks,[[NVGate_2022:_Release_note#Enhanced_ERGONOMICS_:_Save_more_clicks_and_push_teams_efficiency_to_the_limits|>>]]

|| Das neue '''Windows 11''' ist veröffentlicht und NVGate 2022 passt sich an, um eine vollständige '''Kompatibilität''' mit der modernen Umgebung sicherzustellen.
|}

'''>> 4''' Hauptmerkmale, um weiterhin die höchste Leistung in der ROTATING-Analyse vorzuschlagen 

{| class="wikitable"
|-
! style="background: white;|[[File:3shaftordertracking.png| 70px]]
3Fache Ordnungsanalyse!
! style="background: white;|[[File:FracTach.png|70px]] Mehreren Wellen mit nur einem Tacho: Virtual tach mit Getriebeverhältnis bis zu 100!
! style="background: white;|[[File:PV.png|70px]] PV Diagramm für Antriebe.
! style="background: white;|[[File:orbigate.png|70px]] Kombinieren Sie Ihre ORBIGate-Systeme: Rotordynamik Messungen mit kaskadierten Systemen.
|-
| Unabhängig davon, ob Ihre Messung an einem Getriebe, einem Kompressor oder sonstigen Maschine mit mehreren Wellen durchgeführt wird, bietet NVGate nun '''3 parallele Ordnungsanalysen''' sowohl im Online- als auch im Office Modus.
| Die Messung von Vibrationen an Maschinen mit mehreren Wellen wie Getrieben kann mehrere Drehzahlmesser erfordern. NVGate 2022 bietet nun größere Übersetzungen für die integrierte virtuelle Tachometerfunktion mit einem '''Verhältnis von bis zu 100''' zwischen schneller und langsamer Welle.
| Das PV-Diagramm ermöglicht es Druck und Volumen gegenüber zu stellen. Das '''PV-Diagramm''' ist als ein neues Add-on verfügbar.
| ORBIGate entwickelt sich weiter. Insbesondere die Rotordynamiklösung kann ebenfalls mit Daisy-Chain-Systemen eingesetzt werden.
|}

Diese Release Note beschreibt den Inhalt der Version mit Betriebsdetails.
 
Um NVGate 2022 herunterzuladen und zu installieren, [[NVGate_2022:_Install_Process|lesen Sie diese Seite]].
 

Kompatibilität: NVGate 2022 ist mit allen OROS-Instrumenten (OR34 V1 - OR35 V1 - OR36 V2 und TW - OR38 V2 und TW-OR10) kompatibel, die nicht abgekündigt wurden. Abhängig von den Hardwareoptionen und der Version können einige Instrumentenfunktionen verfügbar sein oder nicht.

== [[File:READER.png|70px]] NVGate Reader: Erkunden der Daten einfach & frei, ohne jede Lizenz! ==

Starten Sie NVGate im READER-Modus von überall und arbeiten Sie sich bis zum Bericht vor. Ihre Teams und Partner können Ihre Daten einfach und ohne Softwarelizenz erkunden: einfach KOSTENLOS!
Dies ist der allererste Schritt, den Sie tun können, um die Möglichkeiten von OROS und NVGate zu entdecken: unabhängig davon, ob Sie Erfahrung mit Schall und Schwingungen haben oder nicht.

<youtube>https://youtu.be/xfEEQaCxaI4</youtube>

Wenn NVGate 2022 gestartet wird, ohne dass eine Lizenz erkannt wird, wird es im READER-Modus gestartet. Das folgende Dialogfenster wird angezeigt: 
[[File:READER START.png|200px]]
'''Mit dem READER-Modus: '''
* - Verwalten Sie die Daten: [[NVGate_dataset_management#Share_and_collate_dataset|Collate & share data]], filtern und sortieren Sie Daten basierend auf Eigenschaften: so nutzen Sie die Kraft von [[NVGate_dataset_management#Dataset_management|Dataset Management]] 
[[File:reader.PNG|500px]]
* - Zeigen Sie die Daten unabhängig vom Anzeigetyp an 
* - Verwenden Sie die Anzeige- und Analysewerkzeuge: Zoomen, Skalieren, Cursor und Marker zum Lesen der Ergebniswerte 
[[File:DISPLAY.png|400px]]
* - Veröffentlichen Sie automatisierte oder manuelle Berichte 

'''Wie geht es weiter?''' 
Nur Daten, die von einer NVGate 2022-Version erstellt oder geteilt werden, sind mit dem NVGate 2022 READER kompatibel: 
- Für Teams, die eine lizenzierte Version von NVGate verwenden, werden mit NVGate 2022 generierte Daten im Projektmanager gespeichert und sind '''einfach lesbar''', wenn sie im READER-Modus starten 
- Für READER-Benutzer ohne lizenzierte Version von NVGate können die von Ihrem Teammitglied oder Partner GETEILTEN Daten mit der Funktion "[[NVGate_dataset_management#Collate_Datasets|COLLATE]]" importiert werden. 
- Eingebettete Beispiele, die mit der Version installiert werden, sind '''für das Selbsttraining verfügbar''' und können mit der Funktion "[[NVGate_Edit_Measurement|EDIT MEASUREMENT]]" angezeigt werden. 

- Für Benutzer, die Ihre Daten mit Reader-Benutzern [[NVGate_dataset_management#Share_Dataset|TEILEN]] möchten: sie können es mit der [[NVGate_dataset_management#Share_Dataset|"SHARE"]] Funktion tun. 

- In allen Fällen werden gemeinsam genutzte DATEN zunächst auf einer lizenzierten NVGate-Version erstellt, entweder in Echtzeit, wenn sie mit einem OROS-Instrument verbunden ist, oder aus einer Postanalyse basierend auf einem aufgezeichneten Signal 

== Optimierte ERGONOMIE : Weniger Klicks und größere Effizienz fürs Team ==

Erleben Sie die verbesserte Feldergonomie und Intuition dank der optimierten '''neuen Ribbon Tabs''' und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks auf Knopfdruck.

Die Benutzeroberfläche fasst die Funktionen des Analysators in einfachen, übersichtlichen und leicht zu identifizierenden Registerkarten zusammen, die nach den Hauptoperationen organisiert sind (Home, Acquisition, Analysis, Data, Display, Report, Automation, Preferences).

<youtube>https://youtu.be/MRGE2-VLBFg</youtube>

===Tab: neue Anordnung der Buttons===

Die Hauptfunktionen wurden durch eine Benutzeroberfläche hervorgehoben, die die Benutzer zur besten Verwendung ihres Analysators der OROS 3-Serie führt.
Die Softwareeinträge sind in einer logischen Operationsweise organisiert. Es gibt 8 verschiedene Tabs, die dem Hauptoperationstyp entsprechen:

====Home====

[[File:home3.PNG|800px]]

Das Ziel des „Home“ Tab ist es, einen benutzerfreundlichen Tab zum Durchführen einer Messung zu erstellen.
Sie können ein Projekt laden, ein Setup erstellen (über die Gruppe "Go To Results"), eine Erfassung starten, Ihre Daten und den Speicherplatz einsehen und den Benutzer ändern.
Tatsächlich können Sie für viele alltägliche Anwendungen auf diesem Tab bleiben, ohne die andere zu überprüfen.

Wir haben auch haben die Attachement Funktion hervorgehoben [[File:home_attachment_2022.PNG|30px]].

'''Attachment''': Ermöglicht es, schnell zu erkennen, ob Dateien (Berichte, Bilder, Videos ....) an das aktuelle Projekt angehängt sind. Klicken Sie auf diesen Button, um den Attachment-Ordner zu erstellen und/oder zu öffnen.

''Hinweis: Wenn das „Default project“ aktiv ist, ist der Button „Attachment“ ausgegraut.
{|border="0" cellspacing="0" cellpadding="4" width="50%" align="left"
|-
|[[File:home_attachment_2022.PNG|30px]]
| Der „Attachment“ Ordner des aktives Projekts ist leer oder existiert nicht.
|-
|[[File:home_attachment_file_2022.PNG|30px]]
| Datei(en) befinden sich im „Attachment“ -Ordner des aktives Projekts.
|} 

====Acquisition====

Dieser Tab enthält alle notwendigen Einträge, um das Frontend und die Verwendung beliebiger Kanäle im Detail einzurichten. Es trennt die Einrichtung der Eingangskanäle von den Ausgängen, der Triggerung, dem Tachometer und den Filtern.

[[File:Acquisition3.PNG|750px]]

====Analysis====

Auf diesem Tab sammelt die Software die Bedienelemente für Frontend, Recorder und Analyse. Jeder Button entspricht einem Plug-in-Analyzer. Der Inhalt dieses Tabs hängt von den erworbenen optionalen Plug-Ins ab. 
[[File:Analysis3.PNG|700px]]

====Data====

Dieser Tab bietet Funktionen zum Verwalten aller Ihrer Daten, zum Übertragen von Projekten, Messungen, Modellen, zum Exportieren und Importieren Ihrer Daten und zum Filtern des Project Manager.
[[File:Data3.PNG|500px]]

====Display====
Dieser Tab umfasst die Steuerung der Ergebnisanzeige. Es ermöglicht das Erstellen, Ausfüllen, Anordnen und Anzeigen der Fenster und Layouts. Es steuert die Skalierung, Einheiten, Gewichtung und Datenoperationen aller Diagramme, verwaltet die Wasserfälle und Extraktionsdiagramme sowie die Markers.

[[File:display3.PNG|700px]]

Der display Tab wurde mit NVGate 2022 vollständig durchdacht und verbessert. Einige Funktionen wurden hervorgehoben: Einfrieren, Zoomen, Layout hinzufügen.
Der Mausmodus wurde ebenfalls verbessert (Cursor, Marker, Zoom, Move, Rotate). Ein Modus kann jetzt mit einem Klick ausgewählt werden. Außerdem ist der Standard-Mausmodus jetzt immer der Cursormodus, wenn Sie also einen Modus abwählen, kehrt er direkt zum Cursormodus zurück.

====Preferences====

Dieser Tab bietet direkten Zugriff auf die Auswahl des Benutzers, die Benutzereinstellungen und die Sensordatenbank.

[[File:Preference3.PNG|500px]]

====Post analysis Button auf dem Status bar====

[[File:PA_Status.png]]

Auf dem Status bar haben Sie jetzt einen direkten Zugriff zum "online to post analysis" Modus.

|[[File:Home_online_to_PA.PNG|30px]]
| '''Online to Post-analysis''': dieser Button wird verwendet, um vom Online-Modus in den Post-Analyse-Modus zu wechseln. Dadurch wird das Fenster „Signal auswählen“ geöffnet, das alle verfügbaren aufgezeichneten Signale auflistet. Das ausgewählte Signal wird dann wiedergegeben und kann in einen beliebigen Plug-In-Analysator (Monitor, FFT, 1/n Oktave ...) erneut eingespeist werden. Es ist auch möglich, ein aufgezeichnetes Signal während der Online-Analyse über den Ausgang wiederzugeben.

Lesen Sie die [[NVGate_Player|Player-Seite]] für mehr Details.

====Automation====
Der Automation Tab enthält leistungsstarke und hilfreiche Tools zur Automatisierung sich wiederholender Aufgaben, die mit den Analysatoren durchgeführt werden.
[[File:Automation.PNG|700px]]

=== Go to results: Ein-Klick Buttons===

Für mehr Benutzerfreundlichkeit wurde eine neue „Ein-Klick“-Funktion zu den Ergebnissen hinzugefügt.

[[File:gotoresults3.PNG|400px]]

* [[File:viwe recording.PNG|50px]]view recording: öffnet das Signalmonitoring-Fenster über dem aktuellen Layout. Falls dieses Fenster bereits in einem anderen Layout geöffnet ist, wechselt es zu diesem Layout.

* [[File:Add__layout.PNG|40px]] Add Layout: Erstellt ein neues Layout. Durch Klicken auf den Button wird ein Dialogfeld zum Benennen des neuen Layouts angezeigt. Ein neuen Tab wird erstellt und ausgewählt, die dem neuen Layout entspricht.

* [[File:waterfall settings.PNG|150px]] Öffnet den Waterfall-Trigger-Dialog. Dieser Dialog ermöglicht die Auswahl des Auslösers durch das Waterfall-Plug-in (nur auf den Tab „Profil“ und „Wasserfall“ verfügbar).

=== RPM Button erstellt automatische Events===

[[File:auto_rpm.PNG|200px]] Der RPM-Button wurde jetzt komplett neu gestaltet. Durch Anwenden dieser Schaltfläche wird der Waterfall-Trigger automatisch auf Delta-RPM oder periodic gesetzt.
Dadurch wird die Einrichtung von NVGate für eine rotierende oder hochgefahrene Anwendung viel einfacher. (nur im Profil- oder Waterfall-Tab verfügbar).

Im Detail wird dieser Button:

* einen Delta RPM event erstellen, source = the one activated in the "Tach.". Delta velocity: 10 RPM.
* einen Periodic event erstellen (0.5 sec)
* einen Combined event erstellen: "Delta RPM ODER Periodic 1"
* den Waterfall Trigger auf Combined event setzen
* einen RPM event erstellen (source = the one activated in the tach field)

=== Neue Standardeinstellungen===

Die Standardeinstellungen in NVGate wurden auf die untenstehenden aktualisiert. Mit diesen Standardeinstellungen können Sie direkt eine Rotationsanalysemessung durchführen.
Beachten Sie, dass die Einstellungen nicht betroffen sind, wenn Sie ein bestehendes Projekt laden. Sie können diese Einstellungen auch einfach ändern.

FFT Overlap: 66%

FFT lines: 3200

FFT Overall low freq : 2 Hz

SOA resolution: 1/8

SOA overlap: 5

SOA OVL lower order: 0.2

Event Delta RPM: Delta velocity 10 rpm

Waterfall Depth: 1000

Tachometer/RPM Profiles/Duration: 120 sec

== Neue Einheiten verfügbar ==

[[File:unit.PNG]] Neue Einheiten wurden hinzugefügt:

Angular velocity: Hertz

Pressure: Pascal und Bar

Torsional velocity: RPM

== [[File:FracTach.png|70px]] Mehreren Wellen mit nur einem Tacho: Virtual tach mit Getriebeverhältnis bis zu 100! ==

[[Image:Reports_Tools_Ribbons_356.png]]: Fractional tachometer: berechnet die Drehzahl für eine nicht zugängliche Welle anhand des Getriebeverhältnis. Das Verhältnis kann jetzt auf 100 eingestellt werden! (früher waren es 2).

[[Image:tacho_ratio.png|500px]]

*'''Tach ratio''': dies ist das Verhältnis zwischen der Ausgangswinkelgeschwindigkeit und der Eingangswinkelgeschwindigkeit. Diese Einstellung wird durch das Produkt zweier Brüche definiert: N1/D1 * N2/D2, wobei N1, D1, N2 und D2 ganzzahlige Werte sind. Der Maximalwert des Tach.1 / Tach.2-Verhältnisses kann auf 100 eingestellt werden.
[[File:le100.png|600px]]

== [[File:3shaftordertracking.png| 70px]] Triple shaft order analysis : 3 parallel real time SOA analysis ==

Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.

OROS, leader on rotating vibration analysis, is the only one in the world to let you achieve such a performance.

[[File:3SOA.PNG]]

== [[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines ==

A [https://en.wikipedia.org/wiki/Pressure%E2%80%93volume_diagram pressure–volume diagram] (or PV diagram, or volume–pressure loop) is used to describe corresponding changes in volume and pressure in a system.

[[File:Indicator_diagram_steam_admission.png|400px]]

The diagram records the pressure of steam versus the volume of steam in a cylinder, throughout a piston's cycle of motion in a steam engine. The diagram enables calculation of the work performed and thus can provide a measure of the power produced by the engine.

To exactly calculate the work done by the system it is necessary to calculate the integral of the pressure with respect to volume. One can often quickly calculate this using the PV diagram as it is simply the area enclosed by the cycle.

Download: [[Addons:PV_Diagram#Download| Check the PV diagram page]]

How to use :

[[File:PVdiagram2022.PNG|600px]]

*Define one (or more) channel as a pressure.
*Add this channel into Sync. order (SOA) plug in.
*On SOA plug in , average, domain, select: "Angular"
*Open PV_Diagram.exe
*Click on refresh (right click) in available results if you do not see anything.
*Select the input.
*Compute once will display the PV diagram base once based the last triggerd block.
*"background computation, will continuously compute the diagram.

== [[File:W11.png|70px]]Windows 11 compatibility==

[[File:Windows_11_logo.svg.png|400px]]

This version is compatible and fully tested with the last version of Microsoft Windows 10 and new Microsoft version Windows 11.

== Teamviewer V15 quick support ==

If you have any question for using your OROS analyzer, Teamviewer is a power full tool to take control of your PC and check together your question.
NVGate 2022 include a the new version V15 of teamviwer .

[[File:teamviwer.PNG|200px]]

This version is available on your computer foler here: C:\OROS\NVGate data\Links\TeamViewerQS.exe . You can also donwload using this specific link : https://get.teamviewer.com/orosTV

== NVDrive ==

NVGate software can be fully remote-controlled using an external software package. The commands required for controlling each analyzer function are listed in the NVDrive®library.

=== Toolkit refresh ===

NVDrive toolkit has been refreshed with new examples, new print screen, new tree structure, .dll have been updated for beeing more clear and highlight the python language.
Also we have now only one reference on the price list "ORNV-TOOLKIT" which includes the full toolkit (NVdrive, Matdrive, .oxf, python.).

===New commands: Read Write NVGate user properties (Project / Measurement)===

NVDrive allows you to take control of the analyzer with command lines.
New NVDrive commands have been added on the NVDrive toolkit to read, write and delete the user properties of projects and measurements.

[[File:NVdrive.PNG|500px]]

== New car cigaret lighter plug ==

For OR36 and OR38 analyzer, OROS has designed a new cigaret lighter for beeing able to deliver 24.5V.
You can plug it on 10V-35V cigaret lighter and it will deliver 24.5V on output to power supply OR36 and OR38 analyzer and charge the battery.

It can be ordered with the reference : OR36-8TW-DCCL

[[File:cigaretlightercable.png|500px]]

(Cigaret lighter power supply for OR35, OR34 and OR10 remain available.)

== [[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing ==

ORBIgate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can '''now be used on daisy chained systems''' as NVGate. 
In addition, measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors: 
On top of that ORBIGate features as well an extension of the ratio for the '''Fractional tach feature up to a 100'''.

== New Sound Power V3.20 ==

OROS SOUND POWER Solution has been designed to let you achieve that type of test in the most efficient and accurate way.

This new version includes the following improvements:
* New command to start directly the software on your pre-configured setup
* Option to modify the limit of overall octave filter
* Excel templates fully updated to the last standard
* Full compatibility with NVGate 2022.

Read the dedicated [[Sound Power 3 20|Sound Power 3.20 release note]] for more info.

== Bug fixing ==

* 14133: Record with DC inputs doesn't work for some frequency samplings.
* 14112: Double filter with HP @10HZ in TDA in post analyse: nothing is displayed.
* 14102: Christmas tree with OR35TW is reproduce in a specific configuration.
* 14166: Delete the last value from calibration history.
* 14187: History transducer database can not be display on a japanese windows 10 PC.
* 14190: Random Burst on Block Event.
* 14130: "result selection windows": Lissajous graph is not display .
* 14184: Wrong display of TDA table after copy graph .
* 14210: OCT not possible to set a time constant below 20 ms.
* 14219: Autorange is "Saving the working results".
* 14286: Octave limited range of CPB filter is working strangely.
* 14194: Octave LimitedRange And Reduce SamplingFreq crash NVGate
* 14399: Impossible to compute EVHV Spatiogramme.
* 14290: several Lissajous graphics - cursors are not linked together.
* 14437: Error on NVDrive "NVGS_GetTrackNumberOfSample" Function with SBL > 2GB

NVGate 2022: Release note de

2022-03-14T17:06:23Z

Credaelli: /* New units available */

[[category:NVGate2022]]

OROS ist bestrebt, nah bei den Anwendern zu sein und aufmerksam auf die Bedürfnisse und das Feedback aus der Praxis zu achten. Darauf aufbauend werden regelmäßig neue Versionen veröffentlicht.

[[File:Splash_screen2022.png|500px]]

 
Die Hauptversion von NVGate® 2022 ist seit Januar 2022 verfügbar. Diese Version der Softwareplattform der Analysatoren der OROS 3-Serie bringt zusätzliche Funktionen und signifikante Leistungsverbesserungen. Nachfolgend finden Sie eine Zusammenfassung der wichtigsten Verbesserungen Ihres NVGate-Erlebnisses: 

'''>> 3''' Hauptgründe, um Ihre '''TEAMWORK Effizienz''' auf das Maximum zu bringen. 

{| class="wikitable" |
|-
! style="background: white;|[[File:READER.png|70px]] 
Erkunden der Daten einfach & frei, ohne jede Lizenz!
! style="background: white;|[[File:Ergonomics.png|70px]] 
Weniger Klicks und größere Effizienz fürs Team
! style="background: white;|[[File:W11.png|70px]] 
Mit den Entwicklungen Schritt halten: die Windows 11 Kompatibilität ist sichergestellt.
|-
| Start von '''NVGate in READER-Modus''' ohne Lizenz und arbeiten Sie mit den Daten bis zum Report. Teilen der Daten mit dem Team oder Partnern: Sie werden in der Lage sein Daten zu sammeln, zu untersuchen, anzuzeigen und zu bearbeiten, und das ohne Lizenz.[[NVGate_2022:_Release_note#NVGate_READER_:_Share_.26_Explore_your_data_Simply_.26_FREEly_.21|>>]] ||
Erleben Sie verbesserte Ergonomie und Intuition dank der optimierten neuen Ribbons und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks,[[NVGate_2022:_Release_note#Enhanced_ERGONOMICS_:_Save_more_clicks_and_push_teams_efficiency_to_the_limits|>>]]

|| Das neue '''Windows 11''' ist veröffentlicht und NVGate 2022 passt sich an, um eine vollständige '''Kompatibilität''' mit der modernen Umgebung sicherzustellen.
|}

'''>> 4''' Hauptmerkmale, um weiterhin die höchste Leistung in der ROTATING-Analyse vorzuschlagen 

{| class="wikitable"
|-
! style="background: white;|[[File:3shaftordertracking.png| 70px]]
3Fache Ordnungsanalyse!
! style="background: white;|[[File:FracTach.png|70px]] Mehreren Wellen mit nur einem Tacho: Virtual tach mit Getriebeverhältnis bis zu 100!
! style="background: white;|[[File:PV.png|70px]] PV Diagramm für Antriebe.
! style="background: white;|[[File:orbigate.png|70px]] Kombinieren Sie Ihre ORBIGate-Systeme: Rotordynamik Messungen mit kaskadierten Systemen.
|-
| Unabhängig davon, ob Ihre Messung an einem Getriebe, einem Kompressor oder sonstigen Maschine mit mehreren Wellen durchgeführt wird, bietet NVGate nun '''3 parallele Ordnungsanalysen''' sowohl im Online- als auch im Office Modus.
| Die Messung von Vibrationen an Maschinen mit mehreren Wellen wie Getrieben kann mehrere Drehzahlmesser erfordern. NVGate 2022 bietet nun größere Übersetzungen für die integrierte virtuelle Tachometerfunktion mit einem '''Verhältnis von bis zu 100''' zwischen schneller und langsamer Welle.
| Das PV-Diagramm ermöglicht es Druck und Volumen gegenüber zu stellen. Das '''PV-Diagramm''' ist als ein neues Add-on verfügbar.
| ORBIGate entwickelt sich weiter. Insbesondere die Rotordynamiklösung kann ebenfalls mit Daisy-Chain-Systemen eingesetzt werden.
|}

Diese Release Note beschreibt den Inhalt der Version mit Betriebsdetails.
 
Um NVGate 2022 herunterzuladen und zu installieren, [[NVGate_2022:_Install_Process|lesen Sie diese Seite]].
 

Kompatibilität: NVGate 2022 ist mit allen OROS-Instrumenten (OR34 V1 - OR35 V1 - OR36 V2 und TW - OR38 V2 und TW-OR10) kompatibel, die nicht abgekündigt wurden. Abhängig von den Hardwareoptionen und der Version können einige Instrumentenfunktionen verfügbar sein oder nicht.

== [[File:READER.png|70px]] NVGate Reader: Erkunden der Daten einfach & frei, ohne jede Lizenz! ==

Starten Sie NVGate im READER-Modus von überall und arbeiten Sie sich bis zum Bericht vor. Ihre Teams und Partner können Ihre Daten einfach und ohne Softwarelizenz erkunden: einfach KOSTENLOS!
Dies ist der allererste Schritt, den Sie tun können, um die Möglichkeiten von OROS und NVGate zu entdecken: unabhängig davon, ob Sie Erfahrung mit Schall und Schwingungen haben oder nicht.

<youtube>https://youtu.be/xfEEQaCxaI4</youtube>

Wenn NVGate 2022 gestartet wird, ohne dass eine Lizenz erkannt wird, wird es im READER-Modus gestartet. Das folgende Dialogfenster wird angezeigt: 
[[File:READER START.png|200px]]
'''Mit dem READER-Modus: '''
* - Verwalten Sie die Daten: [[NVGate_dataset_management#Share_and_collate_dataset|Collate & share data]], filtern und sortieren Sie Daten basierend auf Eigenschaften: so nutzen Sie die Kraft von [[NVGate_dataset_management#Dataset_management|Dataset Management]] 
[[File:reader.PNG|500px]]
* - Zeigen Sie die Daten unabhängig vom Anzeigetyp an 
* - Verwenden Sie die Anzeige- und Analysewerkzeuge: Zoomen, Skalieren, Cursor und Marker zum Lesen der Ergebniswerte 
[[File:DISPLAY.png|400px]]
* - Veröffentlichen Sie automatisierte oder manuelle Berichte 

'''Wie geht es weiter?''' 
Nur Daten, die von einer NVGate 2022-Version erstellt oder geteilt werden, sind mit dem NVGate 2022 READER kompatibel: 
- Für Teams, die eine lizenzierte Version von NVGate verwenden, werden mit NVGate 2022 generierte Daten im Projektmanager gespeichert und sind '''einfach lesbar''', wenn sie im READER-Modus starten 
- Für READER-Benutzer ohne lizenzierte Version von NVGate können die von Ihrem Teammitglied oder Partner GETEILTEN Daten mit der Funktion "[[NVGate_dataset_management#Collate_Datasets|COLLATE]]" importiert werden. 
- Eingebettete Beispiele, die mit der Version installiert werden, sind '''für das Selbsttraining verfügbar''' und können mit der Funktion "[[NVGate_Edit_Measurement|EDIT MEASUREMENT]]" angezeigt werden. 

- Für Benutzer, die Ihre Daten mit Reader-Benutzern [[NVGate_dataset_management#Share_Dataset|TEILEN]] möchten: sie können es mit der [[NVGate_dataset_management#Share_Dataset|"SHARE"]] Funktion tun. 

- In allen Fällen werden gemeinsam genutzte DATEN zunächst auf einer lizenzierten NVGate-Version erstellt, entweder in Echtzeit, wenn sie mit einem OROS-Instrument verbunden ist, oder aus einer Postanalyse basierend auf einem aufgezeichneten Signal 

== Optimierte ERGONOMIE : Weniger Klicks und größere Effizienz fürs Team ==

Erleben Sie die verbesserte Feldergonomie und Intuition dank der optimierten '''neuen Ribbon Tabs''' und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks auf Knopfdruck.

Die Benutzeroberfläche fasst die Funktionen des Analysators in einfachen, übersichtlichen und leicht zu identifizierenden Registerkarten zusammen, die nach den Hauptoperationen organisiert sind (Home, Acquisition, Analysis, Data, Display, Report, Automation, Preferences).

<youtube>https://youtu.be/MRGE2-VLBFg</youtube>

===Tab: neue Anordnung der Buttons===

Die Hauptfunktionen wurden durch eine Benutzeroberfläche hervorgehoben, die die Benutzer zur besten Verwendung ihres Analysators der OROS 3-Serie führt.
Die Softwareeinträge sind in einer logischen Operationsweise organisiert. Es gibt 8 verschiedene Tabs, die dem Hauptoperationstyp entsprechen:

====Home====

[[File:home3.PNG|800px]]

Das Ziel des „Home“ Tab ist es, einen benutzerfreundlichen Tab zum Durchführen einer Messung zu erstellen.
Sie können ein Projekt laden, ein Setup erstellen (über die Gruppe "Go To Results"), eine Erfassung starten, Ihre Daten und den Speicherplatz einsehen und den Benutzer ändern.
Tatsächlich können Sie für viele alltägliche Anwendungen auf diesem Tab bleiben, ohne die andere zu überprüfen.

Wir haben auch haben die Attachement Funktion hervorgehoben [[File:home_attachment_2022.PNG|30px]].

'''Attachment''': Ermöglicht es, schnell zu erkennen, ob Dateien (Berichte, Bilder, Videos ....) an das aktuelle Projekt angehängt sind. Klicken Sie auf diesen Button, um den Attachment-Ordner zu erstellen und/oder zu öffnen.

''Hinweis: Wenn das „Default project“ aktiv ist, ist der Button „Attachment“ ausgegraut.
{|border="0" cellspacing="0" cellpadding="4" width="50%" align="left"
|-
|[[File:home_attachment_2022.PNG|30px]]
| Der „Attachment“ Ordner des aktives Projekts ist leer oder existiert nicht.
|-
|[[File:home_attachment_file_2022.PNG|30px]]
| Datei(en) befinden sich im „Attachment“ -Ordner des aktives Projekts.
|} 

====Acquisition====

Dieser Tab enthält alle notwendigen Einträge, um das Frontend und die Verwendung beliebiger Kanäle im Detail einzurichten. Es trennt die Einrichtung der Eingangskanäle von den Ausgängen, der Triggerung, dem Tachometer und den Filtern.

[[File:Acquisition3.PNG|750px]]

====Analysis====

Auf diesem Tab sammelt die Software die Bedienelemente für Frontend, Recorder und Analyse. Jeder Button entspricht einem Plug-in-Analyzer. Der Inhalt dieses Tabs hängt von den erworbenen optionalen Plug-Ins ab. 
[[File:Analysis3.PNG|700px]]

====Data====

Dieser Tab bietet Funktionen zum Verwalten aller Ihrer Daten, zum Übertragen von Projekten, Messungen, Modellen, zum Exportieren und Importieren Ihrer Daten und zum Filtern des Project Manager.
[[File:Data3.PNG|500px]]

====Display====
Dieser Tab umfasst die Steuerung der Ergebnisanzeige. Es ermöglicht das Erstellen, Ausfüllen, Anordnen und Anzeigen der Fenster und Layouts. Es steuert die Skalierung, Einheiten, Gewichtung und Datenoperationen aller Diagramme, verwaltet die Wasserfälle und Extraktionsdiagramme sowie die Markers.

[[File:display3.PNG|700px]]

Der display Tab wurde mit NVGate 2022 vollständig durchdacht und verbessert. Einige Funktionen wurden hervorgehoben: Einfrieren, Zoomen, Layout hinzufügen.
Der Mausmodus wurde ebenfalls verbessert (Cursor, Marker, Zoom, Move, Rotate). Ein Modus kann jetzt mit einem Klick ausgewählt werden. Außerdem ist der Standard-Mausmodus jetzt immer der Cursormodus, wenn Sie also einen Modus abwählen, kehrt er direkt zum Cursormodus zurück.

====Preferences====

Dieser Tab bietet direkten Zugriff auf die Auswahl des Benutzers, die Benutzereinstellungen und die Sensordatenbank.

[[File:Preference3.PNG|500px]]

====Post analysis Button auf dem Status bar====

[[File:PA_Status.png]]

Auf dem Status bar haben Sie jetzt einen direkten Zugriff zum "online to post analysis" Modus.

|[[File:Home_online_to_PA.PNG|30px]]
| '''Online to Post-analysis''': dieser Button wird verwendet, um vom Online-Modus in den Post-Analyse-Modus zu wechseln. Dadurch wird das Fenster „Signal auswählen“ geöffnet, das alle verfügbaren aufgezeichneten Signale auflistet. Das ausgewählte Signal wird dann wiedergegeben und kann in einen beliebigen Plug-In-Analysator (Monitor, FFT, 1/n Oktave ...) erneut eingespeist werden. Es ist auch möglich, ein aufgezeichnetes Signal während der Online-Analyse über den Ausgang wiederzugeben.

Lesen Sie die [[NVGate_Player|Player-Seite]] für mehr Details.

====Automation====
Der Automation Tab enthält leistungsstarke und hilfreiche Tools zur Automatisierung sich wiederholender Aufgaben, die mit den Analysatoren durchgeführt werden.
[[File:Automation.PNG|700px]]

=== Go to results: Ein-Klick Buttons===

Für mehr Benutzerfreundlichkeit wurde eine neue „Ein-Klick“-Funktion zu den Ergebnissen hinzugefügt.

[[File:gotoresults3.PNG|400px]]

* [[File:viwe recording.PNG|50px]]view recording: öffnet das Signalmonitoring-Fenster über dem aktuellen Layout. Falls dieses Fenster bereits in einem anderen Layout geöffnet ist, wechselt es zu diesem Layout.

* [[File:Add__layout.PNG|40px]] Add Layout: Erstellt ein neues Layout. Durch Klicken auf den Button wird ein Dialogfeld zum Benennen des neuen Layouts angezeigt. Ein neuen Tab wird erstellt und ausgewählt, die dem neuen Layout entspricht.

* [[File:waterfall settings.PNG|150px]] Öffnet den Waterfall-Trigger-Dialog. Dieser Dialog ermöglicht die Auswahl des Auslösers durch das Waterfall-Plug-in (nur auf den Tab „Profil“ und „Wasserfall“ verfügbar).

=== RPM Button erstellt automatische Events===

[[File:auto_rpm.PNG|200px]] Der RPM-Button wurde jetzt komplett neu gestaltet. Durch Anwenden dieser Schaltfläche wird der Waterfall-Trigger automatisch auf Delta-RPM oder periodic gesetzt.
Dadurch wird die Einrichtung von NVGate für eine rotierende oder hochgefahrene Anwendung viel einfacher. (nur im Profil- oder Waterfall-Tab verfügbar).

Im Detail wird dieser Button:

* einen Delta RPM event erstellen, source = the one activated in the "Tach.". Delta velocity: 10 RPM.
* einen Periodic event erstellen (0.5 sec)
* einen Combined event erstellen: "Delta RPM ODER Periodic 1"
* den Waterfall Trigger auf Combined event setzen
* einen RPM event erstellen (source = the one activated in the tach field)

=== Neue Standardeinstellungen===

Die Standardeinstellungen in NVGate wurden auf die untenstehenden aktualisiert. Mit diesen Standardeinstellungen können Sie direkt eine Rotationsanalysemessung durchführen.
Beachten Sie, dass die Einstellungen nicht betroffen sind, wenn Sie ein bestehendes Projekt laden. Sie können diese Einstellungen auch einfach ändern.

FFT Overlap: 66%

FFT lines: 3200

FFT Overall low freq : 2 Hz

SOA resolution: 1/8

SOA overlap: 5

SOA OVL lower order: 0.2

Event Delta RPM: Delta velocity 10 rpm

Waterfall Depth: 1000

Tachometer/RPM Profiles/Duration: 120 sec

== Neue Einheiten verfügbar ==

[[File:unit.PNG]] Neue Einheiten wurden hinzugefügt:

Angular velocity: Hertz

Pressure: Pascal und Bar

Torsional velocity: RPM

== [[File:FracTach.png|70px]] Measure all your shafts with 1 tach sensor: virtual tach gear ratio to 100 ==

[[Image:Reports_Tools_Ribbons_356.png]]: Fractional tachometer: computes RPM speed for a non accessible shaft by using gear ratio setting: adapted for gear boxes and transmissions. The ratio can now be set up to 100! (it used to be 2).

-> Used to define up to 4 fractional tachs using data from the tach or the Ext Tach.

[[Image:tacho_ratio.png|500px]]

*'''Tach ratio''': this is the ratio between the output angular speed and the input angular speed. This setting is defined by the product of 2 fractions: N1/D1 * N2/D2 where N1, D1, N2 and D2 are integer values. Tach.1 / Tach.2 ratio maximum value can be set up to 100.
[[File:le100.png|600px]]

== [[File:3shaftordertracking.png| 70px]] Triple shaft order analysis : 3 parallel real time SOA analysis ==

Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.

OROS, leader on rotating vibration analysis, is the only one in the world to let you achieve such a performance.

[[File:3SOA.PNG]]

== [[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines ==

A [https://en.wikipedia.org/wiki/Pressure%E2%80%93volume_diagram pressure–volume diagram] (or PV diagram, or volume–pressure loop) is used to describe corresponding changes in volume and pressure in a system.

[[File:Indicator_diagram_steam_admission.png|400px]]

The diagram records the pressure of steam versus the volume of steam in a cylinder, throughout a piston's cycle of motion in a steam engine. The diagram enables calculation of the work performed and thus can provide a measure of the power produced by the engine.

To exactly calculate the work done by the system it is necessary to calculate the integral of the pressure with respect to volume. One can often quickly calculate this using the PV diagram as it is simply the area enclosed by the cycle.

Download: [[Addons:PV_Diagram#Download| Check the PV diagram page]]

How to use :

[[File:PVdiagram2022.PNG|600px]]

*Define one (or more) channel as a pressure.
*Add this channel into Sync. order (SOA) plug in.
*On SOA plug in , average, domain, select: "Angular"
*Open PV_Diagram.exe
*Click on refresh (right click) in available results if you do not see anything.
*Select the input.
*Compute once will display the PV diagram base once based the last triggerd block.
*"background computation, will continuously compute the diagram.

== [[File:W11.png|70px]]Windows 11 compatibility==

[[File:Windows_11_logo.svg.png|400px]]

This version is compatible and fully tested with the last version of Microsoft Windows 10 and new Microsoft version Windows 11.

== Teamviewer V15 quick support ==

If you have any question for using your OROS analyzer, Teamviewer is a power full tool to take control of your PC and check together your question.
NVGate 2022 include a the new version V15 of teamviwer .

[[File:teamviwer.PNG|200px]]

This version is available on your computer foler here: C:\OROS\NVGate data\Links\TeamViewerQS.exe . You can also donwload using this specific link : https://get.teamviewer.com/orosTV

== NVDrive ==

NVGate software can be fully remote-controlled using an external software package. The commands required for controlling each analyzer function are listed in the NVDrive®library.

=== Toolkit refresh ===

NVDrive toolkit has been refreshed with new examples, new print screen, new tree structure, .dll have been updated for beeing more clear and highlight the python language.
Also we have now only one reference on the price list "ORNV-TOOLKIT" which includes the full toolkit (NVdrive, Matdrive, .oxf, python.).

===New commands: Read Write NVGate user properties (Project / Measurement)===

NVDrive allows you to take control of the analyzer with command lines.
New NVDrive commands have been added on the NVDrive toolkit to read, write and delete the user properties of projects and measurements.

[[File:NVdrive.PNG|500px]]

== New car cigaret lighter plug ==

For OR36 and OR38 analyzer, OROS has designed a new cigaret lighter for beeing able to deliver 24.5V.
You can plug it on 10V-35V cigaret lighter and it will deliver 24.5V on output to power supply OR36 and OR38 analyzer and charge the battery.

It can be ordered with the reference : OR36-8TW-DCCL

[[File:cigaretlightercable.png|500px]]

(Cigaret lighter power supply for OR35, OR34 and OR10 remain available.)

== [[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing ==

ORBIgate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can '''now be used on daisy chained systems''' as NVGate. 
In addition, measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors: 
On top of that ORBIGate features as well an extension of the ratio for the '''Fractional tach feature up to a 100'''.

== New Sound Power V3.20 ==

OROS SOUND POWER Solution has been designed to let you achieve that type of test in the most efficient and accurate way.

This new version includes the following improvements:
* New command to start directly the software on your pre-configured setup
* Option to modify the limit of overall octave filter
* Excel templates fully updated to the last standard
* Full compatibility with NVGate 2022.

Read the dedicated [[Sound Power 3 20|Sound Power 3.20 release note]] for more info.

== Bug fixing ==

* 14133: Record with DC inputs doesn't work for some frequency samplings.
* 14112: Double filter with HP @10HZ in TDA in post analyse: nothing is displayed.
* 14102: Christmas tree with OR35TW is reproduce in a specific configuration.
* 14166: Delete the last value from calibration history.
* 14187: History transducer database can not be display on a japanese windows 10 PC.
* 14190: Random Burst on Block Event.
* 14130: "result selection windows": Lissajous graph is not display .
* 14184: Wrong display of TDA table after copy graph .
* 14210: OCT not possible to set a time constant below 20 ms.
* 14219: Autorange is "Saving the working results".
* 14286: Octave limited range of CPB filter is working strangely.
* 14194: Octave LimitedRange And Reduce SamplingFreq crash NVGate
* 14399: Impossible to compute EVHV Spatiogramme.
* 14290: several Lissajous graphics - cursors are not linked together.
* 14437: Error on NVDrive "NVGS_GetTrackNumberOfSample" Function with SBL > 2GB

NVGate 2022: Release note de

2022-03-14T17:05:32Z

Credaelli: /* New default settings */

[[category:NVGate2022]]

OROS ist bestrebt, nah bei den Anwendern zu sein und aufmerksam auf die Bedürfnisse und das Feedback aus der Praxis zu achten. Darauf aufbauend werden regelmäßig neue Versionen veröffentlicht.

[[File:Splash_screen2022.png|500px]]

 
Die Hauptversion von NVGate® 2022 ist seit Januar 2022 verfügbar. Diese Version der Softwareplattform der Analysatoren der OROS 3-Serie bringt zusätzliche Funktionen und signifikante Leistungsverbesserungen. Nachfolgend finden Sie eine Zusammenfassung der wichtigsten Verbesserungen Ihres NVGate-Erlebnisses: 

'''>> 3''' Hauptgründe, um Ihre '''TEAMWORK Effizienz''' auf das Maximum zu bringen. 

{| class="wikitable" |
|-
! style="background: white;|[[File:READER.png|70px]] 
Erkunden der Daten einfach & frei, ohne jede Lizenz!
! style="background: white;|[[File:Ergonomics.png|70px]] 
Weniger Klicks und größere Effizienz fürs Team
! style="background: white;|[[File:W11.png|70px]] 
Mit den Entwicklungen Schritt halten: die Windows 11 Kompatibilität ist sichergestellt.
|-
| Start von '''NVGate in READER-Modus''' ohne Lizenz und arbeiten Sie mit den Daten bis zum Report. Teilen der Daten mit dem Team oder Partnern: Sie werden in der Lage sein Daten zu sammeln, zu untersuchen, anzuzeigen und zu bearbeiten, und das ohne Lizenz.[[NVGate_2022:_Release_note#NVGate_READER_:_Share_.26_Explore_your_data_Simply_.26_FREEly_.21|>>]] ||
Erleben Sie verbesserte Ergonomie und Intuition dank der optimierten neuen Ribbons und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks,[[NVGate_2022:_Release_note#Enhanced_ERGONOMICS_:_Save_more_clicks_and_push_teams_efficiency_to_the_limits|>>]]

|| Das neue '''Windows 11''' ist veröffentlicht und NVGate 2022 passt sich an, um eine vollständige '''Kompatibilität''' mit der modernen Umgebung sicherzustellen.
|}

'''>> 4''' Hauptmerkmale, um weiterhin die höchste Leistung in der ROTATING-Analyse vorzuschlagen 

{| class="wikitable"
|-
! style="background: white;|[[File:3shaftordertracking.png| 70px]]
3Fache Ordnungsanalyse!
! style="background: white;|[[File:FracTach.png|70px]] Mehreren Wellen mit nur einem Tacho: Virtual tach mit Getriebeverhältnis bis zu 100!
! style="background: white;|[[File:PV.png|70px]] PV Diagramm für Antriebe.
! style="background: white;|[[File:orbigate.png|70px]] Kombinieren Sie Ihre ORBIGate-Systeme: Rotordynamik Messungen mit kaskadierten Systemen.
|-
| Unabhängig davon, ob Ihre Messung an einem Getriebe, einem Kompressor oder sonstigen Maschine mit mehreren Wellen durchgeführt wird, bietet NVGate nun '''3 parallele Ordnungsanalysen''' sowohl im Online- als auch im Office Modus.
| Die Messung von Vibrationen an Maschinen mit mehreren Wellen wie Getrieben kann mehrere Drehzahlmesser erfordern. NVGate 2022 bietet nun größere Übersetzungen für die integrierte virtuelle Tachometerfunktion mit einem '''Verhältnis von bis zu 100''' zwischen schneller und langsamer Welle.
| Das PV-Diagramm ermöglicht es Druck und Volumen gegenüber zu stellen. Das '''PV-Diagramm''' ist als ein neues Add-on verfügbar.
| ORBIGate entwickelt sich weiter. Insbesondere die Rotordynamiklösung kann ebenfalls mit Daisy-Chain-Systemen eingesetzt werden.
|}

Diese Release Note beschreibt den Inhalt der Version mit Betriebsdetails.
 
Um NVGate 2022 herunterzuladen und zu installieren, [[NVGate_2022:_Install_Process|lesen Sie diese Seite]].
 

Kompatibilität: NVGate 2022 ist mit allen OROS-Instrumenten (OR34 V1 - OR35 V1 - OR36 V2 und TW - OR38 V2 und TW-OR10) kompatibel, die nicht abgekündigt wurden. Abhängig von den Hardwareoptionen und der Version können einige Instrumentenfunktionen verfügbar sein oder nicht.

== [[File:READER.png|70px]] NVGate Reader: Erkunden der Daten einfach & frei, ohne jede Lizenz! ==

Starten Sie NVGate im READER-Modus von überall und arbeiten Sie sich bis zum Bericht vor. Ihre Teams und Partner können Ihre Daten einfach und ohne Softwarelizenz erkunden: einfach KOSTENLOS!
Dies ist der allererste Schritt, den Sie tun können, um die Möglichkeiten von OROS und NVGate zu entdecken: unabhängig davon, ob Sie Erfahrung mit Schall und Schwingungen haben oder nicht.

<youtube>https://youtu.be/xfEEQaCxaI4</youtube>

Wenn NVGate 2022 gestartet wird, ohne dass eine Lizenz erkannt wird, wird es im READER-Modus gestartet. Das folgende Dialogfenster wird angezeigt: 
[[File:READER START.png|200px]]
'''Mit dem READER-Modus: '''
* - Verwalten Sie die Daten: [[NVGate_dataset_management#Share_and_collate_dataset|Collate & share data]], filtern und sortieren Sie Daten basierend auf Eigenschaften: so nutzen Sie die Kraft von [[NVGate_dataset_management#Dataset_management|Dataset Management]] 
[[File:reader.PNG|500px]]
* - Zeigen Sie die Daten unabhängig vom Anzeigetyp an 
* - Verwenden Sie die Anzeige- und Analysewerkzeuge: Zoomen, Skalieren, Cursor und Marker zum Lesen der Ergebniswerte 
[[File:DISPLAY.png|400px]]
* - Veröffentlichen Sie automatisierte oder manuelle Berichte 

'''Wie geht es weiter?''' 
Nur Daten, die von einer NVGate 2022-Version erstellt oder geteilt werden, sind mit dem NVGate 2022 READER kompatibel: 
- Für Teams, die eine lizenzierte Version von NVGate verwenden, werden mit NVGate 2022 generierte Daten im Projektmanager gespeichert und sind '''einfach lesbar''', wenn sie im READER-Modus starten 
- Für READER-Benutzer ohne lizenzierte Version von NVGate können die von Ihrem Teammitglied oder Partner GETEILTEN Daten mit der Funktion "[[NVGate_dataset_management#Collate_Datasets|COLLATE]]" importiert werden. 
- Eingebettete Beispiele, die mit der Version installiert werden, sind '''für das Selbsttraining verfügbar''' und können mit der Funktion "[[NVGate_Edit_Measurement|EDIT MEASUREMENT]]" angezeigt werden. 

- Für Benutzer, die Ihre Daten mit Reader-Benutzern [[NVGate_dataset_management#Share_Dataset|TEILEN]] möchten: sie können es mit der [[NVGate_dataset_management#Share_Dataset|"SHARE"]] Funktion tun. 

- In allen Fällen werden gemeinsam genutzte DATEN zunächst auf einer lizenzierten NVGate-Version erstellt, entweder in Echtzeit, wenn sie mit einem OROS-Instrument verbunden ist, oder aus einer Postanalyse basierend auf einem aufgezeichneten Signal 

== Optimierte ERGONOMIE : Weniger Klicks und größere Effizienz fürs Team ==

Erleben Sie die verbesserte Feldergonomie und Intuition dank der optimierten '''neuen Ribbon Tabs''' und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks auf Knopfdruck.

Die Benutzeroberfläche fasst die Funktionen des Analysators in einfachen, übersichtlichen und leicht zu identifizierenden Registerkarten zusammen, die nach den Hauptoperationen organisiert sind (Home, Acquisition, Analysis, Data, Display, Report, Automation, Preferences).

<youtube>https://youtu.be/MRGE2-VLBFg</youtube>

===Tab: neue Anordnung der Buttons===

Die Hauptfunktionen wurden durch eine Benutzeroberfläche hervorgehoben, die die Benutzer zur besten Verwendung ihres Analysators der OROS 3-Serie führt.
Die Softwareeinträge sind in einer logischen Operationsweise organisiert. Es gibt 8 verschiedene Tabs, die dem Hauptoperationstyp entsprechen:

====Home====

[[File:home3.PNG|800px]]

Das Ziel des „Home“ Tab ist es, einen benutzerfreundlichen Tab zum Durchführen einer Messung zu erstellen.
Sie können ein Projekt laden, ein Setup erstellen (über die Gruppe "Go To Results"), eine Erfassung starten, Ihre Daten und den Speicherplatz einsehen und den Benutzer ändern.
Tatsächlich können Sie für viele alltägliche Anwendungen auf diesem Tab bleiben, ohne die andere zu überprüfen.

Wir haben auch haben die Attachement Funktion hervorgehoben [[File:home_attachment_2022.PNG|30px]].

'''Attachment''': Ermöglicht es, schnell zu erkennen, ob Dateien (Berichte, Bilder, Videos ....) an das aktuelle Projekt angehängt sind. Klicken Sie auf diesen Button, um den Attachment-Ordner zu erstellen und/oder zu öffnen.

''Hinweis: Wenn das „Default project“ aktiv ist, ist der Button „Attachment“ ausgegraut.
{|border="0" cellspacing="0" cellpadding="4" width="50%" align="left"
|-
|[[File:home_attachment_2022.PNG|30px]]
| Der „Attachment“ Ordner des aktives Projekts ist leer oder existiert nicht.
|-
|[[File:home_attachment_file_2022.PNG|30px]]
| Datei(en) befinden sich im „Attachment“ -Ordner des aktives Projekts.
|} 

====Acquisition====

Dieser Tab enthält alle notwendigen Einträge, um das Frontend und die Verwendung beliebiger Kanäle im Detail einzurichten. Es trennt die Einrichtung der Eingangskanäle von den Ausgängen, der Triggerung, dem Tachometer und den Filtern.

[[File:Acquisition3.PNG|750px]]

====Analysis====

Auf diesem Tab sammelt die Software die Bedienelemente für Frontend, Recorder und Analyse. Jeder Button entspricht einem Plug-in-Analyzer. Der Inhalt dieses Tabs hängt von den erworbenen optionalen Plug-Ins ab. 
[[File:Analysis3.PNG|700px]]

====Data====

Dieser Tab bietet Funktionen zum Verwalten aller Ihrer Daten, zum Übertragen von Projekten, Messungen, Modellen, zum Exportieren und Importieren Ihrer Daten und zum Filtern des Project Manager.
[[File:Data3.PNG|500px]]

====Display====
Dieser Tab umfasst die Steuerung der Ergebnisanzeige. Es ermöglicht das Erstellen, Ausfüllen, Anordnen und Anzeigen der Fenster und Layouts. Es steuert die Skalierung, Einheiten, Gewichtung und Datenoperationen aller Diagramme, verwaltet die Wasserfälle und Extraktionsdiagramme sowie die Markers.

[[File:display3.PNG|700px]]

Der display Tab wurde mit NVGate 2022 vollständig durchdacht und verbessert. Einige Funktionen wurden hervorgehoben: Einfrieren, Zoomen, Layout hinzufügen.
Der Mausmodus wurde ebenfalls verbessert (Cursor, Marker, Zoom, Move, Rotate). Ein Modus kann jetzt mit einem Klick ausgewählt werden. Außerdem ist der Standard-Mausmodus jetzt immer der Cursormodus, wenn Sie also einen Modus abwählen, kehrt er direkt zum Cursormodus zurück.

====Preferences====

Dieser Tab bietet direkten Zugriff auf die Auswahl des Benutzers, die Benutzereinstellungen und die Sensordatenbank.

[[File:Preference3.PNG|500px]]

====Post analysis Button auf dem Status bar====

[[File:PA_Status.png]]

Auf dem Status bar haben Sie jetzt einen direkten Zugriff zum "online to post analysis" Modus.

|[[File:Home_online_to_PA.PNG|30px]]
| '''Online to Post-analysis''': dieser Button wird verwendet, um vom Online-Modus in den Post-Analyse-Modus zu wechseln. Dadurch wird das Fenster „Signal auswählen“ geöffnet, das alle verfügbaren aufgezeichneten Signale auflistet. Das ausgewählte Signal wird dann wiedergegeben und kann in einen beliebigen Plug-In-Analysator (Monitor, FFT, 1/n Oktave ...) erneut eingespeist werden. Es ist auch möglich, ein aufgezeichnetes Signal während der Online-Analyse über den Ausgang wiederzugeben.

Lesen Sie die [[NVGate_Player|Player-Seite]] für mehr Details.

====Automation====
Der Automation Tab enthält leistungsstarke und hilfreiche Tools zur Automatisierung sich wiederholender Aufgaben, die mit den Analysatoren durchgeführt werden.
[[File:Automation.PNG|700px]]

=== Go to results: Ein-Klick Buttons===

Für mehr Benutzerfreundlichkeit wurde eine neue „Ein-Klick“-Funktion zu den Ergebnissen hinzugefügt.

[[File:gotoresults3.PNG|400px]]

* [[File:viwe recording.PNG|50px]]view recording: öffnet das Signalmonitoring-Fenster über dem aktuellen Layout. Falls dieses Fenster bereits in einem anderen Layout geöffnet ist, wechselt es zu diesem Layout.

* [[File:Add__layout.PNG|40px]] Add Layout: Erstellt ein neues Layout. Durch Klicken auf den Button wird ein Dialogfeld zum Benennen des neuen Layouts angezeigt. Ein neuen Tab wird erstellt und ausgewählt, die dem neuen Layout entspricht.

* [[File:waterfall settings.PNG|150px]] Öffnet den Waterfall-Trigger-Dialog. Dieser Dialog ermöglicht die Auswahl des Auslösers durch das Waterfall-Plug-in (nur auf den Tab „Profil“ und „Wasserfall“ verfügbar).

=== RPM Button erstellt automatische Events===

[[File:auto_rpm.PNG|200px]] Der RPM-Button wurde jetzt komplett neu gestaltet. Durch Anwenden dieser Schaltfläche wird der Waterfall-Trigger automatisch auf Delta-RPM oder periodic gesetzt.
Dadurch wird die Einrichtung von NVGate für eine rotierende oder hochgefahrene Anwendung viel einfacher. (nur im Profil- oder Waterfall-Tab verfügbar).

Im Detail wird dieser Button:

* einen Delta RPM event erstellen, source = the one activated in the "Tach.". Delta velocity: 10 RPM.
* einen Periodic event erstellen (0.5 sec)
* einen Combined event erstellen: "Delta RPM ODER Periodic 1"
* den Waterfall Trigger auf Combined event setzen
* einen RPM event erstellen (source = the one activated in the tach field)

=== Neue Standardeinstellungen===

Die Standardeinstellungen in NVGate wurden auf die untenstehenden aktualisiert. Mit diesen Standardeinstellungen können Sie direkt eine Rotationsanalysemessung durchführen.
Beachten Sie, dass die Einstellungen nicht betroffen sind, wenn Sie ein bestehendes Projekt laden. Sie können diese Einstellungen auch einfach ändern.

FFT Overlap: 66%

FFT lines: 3200

FFT Overall low freq : 2 Hz

SOA resolution: 1/8

SOA overlap: 5

SOA OVL lower order: 0.2

Event Delta RPM: Delta velocity 10 rpm

Waterfall Depth: 1000

Tachometer/RPM Profiles/Duration: 120 sec

== New units available ==

[[File:unit.PNG]] New units have been added:

Angular velocity: Hertz

Pressure: Pascal and Bar

Torsionnal velocity: RPM

== [[File:FracTach.png|70px]] Measure all your shafts with 1 tach sensor: virtual tach gear ratio to 100 ==

[[Image:Reports_Tools_Ribbons_356.png]]: Fractional tachometer: computes RPM speed for a non accessible shaft by using gear ratio setting: adapted for gear boxes and transmissions. The ratio can now be set up to 100! (it used to be 2).

-> Used to define up to 4 fractional tachs using data from the tach or the Ext Tach.

[[Image:tacho_ratio.png|500px]]

*'''Tach ratio''': this is the ratio between the output angular speed and the input angular speed. This setting is defined by the product of 2 fractions: N1/D1 * N2/D2 where N1, D1, N2 and D2 are integer values. Tach.1 / Tach.2 ratio maximum value can be set up to 100.
[[File:le100.png|600px]]

== [[File:3shaftordertracking.png| 70px]] Triple shaft order analysis : 3 parallel real time SOA analysis ==

Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.

OROS, leader on rotating vibration analysis, is the only one in the world to let you achieve such a performance.

[[File:3SOA.PNG]]

== [[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines ==

A [https://en.wikipedia.org/wiki/Pressure%E2%80%93volume_diagram pressure–volume diagram] (or PV diagram, or volume–pressure loop) is used to describe corresponding changes in volume and pressure in a system.

[[File:Indicator_diagram_steam_admission.png|400px]]

The diagram records the pressure of steam versus the volume of steam in a cylinder, throughout a piston's cycle of motion in a steam engine. The diagram enables calculation of the work performed and thus can provide a measure of the power produced by the engine.

To exactly calculate the work done by the system it is necessary to calculate the integral of the pressure with respect to volume. One can often quickly calculate this using the PV diagram as it is simply the area enclosed by the cycle.

Download: [[Addons:PV_Diagram#Download| Check the PV diagram page]]

How to use :

[[File:PVdiagram2022.PNG|600px]]

*Define one (or more) channel as a pressure.
*Add this channel into Sync. order (SOA) plug in.
*On SOA plug in , average, domain, select: "Angular"
*Open PV_Diagram.exe
*Click on refresh (right click) in available results if you do not see anything.
*Select the input.
*Compute once will display the PV diagram base once based the last triggerd block.
*"background computation, will continuously compute the diagram.

== [[File:W11.png|70px]]Windows 11 compatibility==

[[File:Windows_11_logo.svg.png|400px]]

This version is compatible and fully tested with the last version of Microsoft Windows 10 and new Microsoft version Windows 11.

== Teamviewer V15 quick support ==

If you have any question for using your OROS analyzer, Teamviewer is a power full tool to take control of your PC and check together your question.
NVGate 2022 include a the new version V15 of teamviwer .

[[File:teamviwer.PNG|200px]]

This version is available on your computer foler here: C:\OROS\NVGate data\Links\TeamViewerQS.exe . You can also donwload using this specific link : https://get.teamviewer.com/orosTV

== NVDrive ==

NVGate software can be fully remote-controlled using an external software package. The commands required for controlling each analyzer function are listed in the NVDrive®library.

=== Toolkit refresh ===

NVDrive toolkit has been refreshed with new examples, new print screen, new tree structure, .dll have been updated for beeing more clear and highlight the python language.
Also we have now only one reference on the price list "ORNV-TOOLKIT" which includes the full toolkit (NVdrive, Matdrive, .oxf, python.).

===New commands: Read Write NVGate user properties (Project / Measurement)===

NVDrive allows you to take control of the analyzer with command lines.
New NVDrive commands have been added on the NVDrive toolkit to read, write and delete the user properties of projects and measurements.

[[File:NVdrive.PNG|500px]]

== New car cigaret lighter plug ==

For OR36 and OR38 analyzer, OROS has designed a new cigaret lighter for beeing able to deliver 24.5V.
You can plug it on 10V-35V cigaret lighter and it will deliver 24.5V on output to power supply OR36 and OR38 analyzer and charge the battery.

It can be ordered with the reference : OR36-8TW-DCCL

[[File:cigaretlightercable.png|500px]]

(Cigaret lighter power supply for OR35, OR34 and OR10 remain available.)

== [[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing ==

ORBIgate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can '''now be used on daisy chained systems''' as NVGate. 
In addition, measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors: 
On top of that ORBIGate features as well an extension of the ratio for the '''Fractional tach feature up to a 100'''.

== New Sound Power V3.20 ==

OROS SOUND POWER Solution has been designed to let you achieve that type of test in the most efficient and accurate way.

This new version includes the following improvements:
* New command to start directly the software on your pre-configured setup
* Option to modify the limit of overall octave filter
* Excel templates fully updated to the last standard
* Full compatibility with NVGate 2022.

Read the dedicated [[Sound Power 3 20|Sound Power 3.20 release note]] for more info.

== Bug fixing ==

* 14133: Record with DC inputs doesn't work for some frequency samplings.
* 14112: Double filter with HP @10HZ in TDA in post analyse: nothing is displayed.
* 14102: Christmas tree with OR35TW is reproduce in a specific configuration.
* 14166: Delete the last value from calibration history.
* 14187: History transducer database can not be display on a japanese windows 10 PC.
* 14190: Random Burst on Block Event.
* 14130: "result selection windows": Lissajous graph is not display .
* 14184: Wrong display of TDA table after copy graph .
* 14210: OCT not possible to set a time constant below 20 ms.
* 14219: Autorange is "Saving the working results".
* 14286: Octave limited range of CPB filter is working strangely.
* 14194: Octave LimitedRange And Reduce SamplingFreq crash NVGate
* 14399: Impossible to compute EVHV Spatiogramme.
* 14290: several Lissajous graphics - cursors are not linked together.
* 14437: Error on NVDrive "NVGS_GetTrackNumberOfSample" Function with SBL > 2GB

NVGate 2022: Release note de

2022-03-14T17:04:25Z

Credaelli: /* RPM buttons create automatic events */

[[category:NVGate2022]]

OROS ist bestrebt, nah bei den Anwendern zu sein und aufmerksam auf die Bedürfnisse und das Feedback aus der Praxis zu achten. Darauf aufbauend werden regelmäßig neue Versionen veröffentlicht.

[[File:Splash_screen2022.png|500px]]

 
Die Hauptversion von NVGate® 2022 ist seit Januar 2022 verfügbar. Diese Version der Softwareplattform der Analysatoren der OROS 3-Serie bringt zusätzliche Funktionen und signifikante Leistungsverbesserungen. Nachfolgend finden Sie eine Zusammenfassung der wichtigsten Verbesserungen Ihres NVGate-Erlebnisses: 

'''>> 3''' Hauptgründe, um Ihre '''TEAMWORK Effizienz''' auf das Maximum zu bringen. 

{| class="wikitable" |
|-
! style="background: white;|[[File:READER.png|70px]] 
Erkunden der Daten einfach & frei, ohne jede Lizenz!
! style="background: white;|[[File:Ergonomics.png|70px]] 
Weniger Klicks und größere Effizienz fürs Team
! style="background: white;|[[File:W11.png|70px]] 
Mit den Entwicklungen Schritt halten: die Windows 11 Kompatibilität ist sichergestellt.
|-
| Start von '''NVGate in READER-Modus''' ohne Lizenz und arbeiten Sie mit den Daten bis zum Report. Teilen der Daten mit dem Team oder Partnern: Sie werden in der Lage sein Daten zu sammeln, zu untersuchen, anzuzeigen und zu bearbeiten, und das ohne Lizenz.[[NVGate_2022:_Release_note#NVGate_READER_:_Share_.26_Explore_your_data_Simply_.26_FREEly_.21|>>]] ||
Erleben Sie verbesserte Ergonomie und Intuition dank der optimierten neuen Ribbons und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks,[[NVGate_2022:_Release_note#Enhanced_ERGONOMICS_:_Save_more_clicks_and_push_teams_efficiency_to_the_limits|>>]]

|| Das neue '''Windows 11''' ist veröffentlicht und NVGate 2022 passt sich an, um eine vollständige '''Kompatibilität''' mit der modernen Umgebung sicherzustellen.
|}

'''>> 4''' Hauptmerkmale, um weiterhin die höchste Leistung in der ROTATING-Analyse vorzuschlagen 

{| class="wikitable"
|-
! style="background: white;|[[File:3shaftordertracking.png| 70px]]
3Fache Ordnungsanalyse!
! style="background: white;|[[File:FracTach.png|70px]] Mehreren Wellen mit nur einem Tacho: Virtual tach mit Getriebeverhältnis bis zu 100!
! style="background: white;|[[File:PV.png|70px]] PV Diagramm für Antriebe.
! style="background: white;|[[File:orbigate.png|70px]] Kombinieren Sie Ihre ORBIGate-Systeme: Rotordynamik Messungen mit kaskadierten Systemen.
|-
| Unabhängig davon, ob Ihre Messung an einem Getriebe, einem Kompressor oder sonstigen Maschine mit mehreren Wellen durchgeführt wird, bietet NVGate nun '''3 parallele Ordnungsanalysen''' sowohl im Online- als auch im Office Modus.
| Die Messung von Vibrationen an Maschinen mit mehreren Wellen wie Getrieben kann mehrere Drehzahlmesser erfordern. NVGate 2022 bietet nun größere Übersetzungen für die integrierte virtuelle Tachometerfunktion mit einem '''Verhältnis von bis zu 100''' zwischen schneller und langsamer Welle.
| Das PV-Diagramm ermöglicht es Druck und Volumen gegenüber zu stellen. Das '''PV-Diagramm''' ist als ein neues Add-on verfügbar.
| ORBIGate entwickelt sich weiter. Insbesondere die Rotordynamiklösung kann ebenfalls mit Daisy-Chain-Systemen eingesetzt werden.
|}

Diese Release Note beschreibt den Inhalt der Version mit Betriebsdetails.
 
Um NVGate 2022 herunterzuladen und zu installieren, [[NVGate_2022:_Install_Process|lesen Sie diese Seite]].
 

Kompatibilität: NVGate 2022 ist mit allen OROS-Instrumenten (OR34 V1 - OR35 V1 - OR36 V2 und TW - OR38 V2 und TW-OR10) kompatibel, die nicht abgekündigt wurden. Abhängig von den Hardwareoptionen und der Version können einige Instrumentenfunktionen verfügbar sein oder nicht.

== [[File:READER.png|70px]] NVGate Reader: Erkunden der Daten einfach & frei, ohne jede Lizenz! ==

Starten Sie NVGate im READER-Modus von überall und arbeiten Sie sich bis zum Bericht vor. Ihre Teams und Partner können Ihre Daten einfach und ohne Softwarelizenz erkunden: einfach KOSTENLOS!
Dies ist der allererste Schritt, den Sie tun können, um die Möglichkeiten von OROS und NVGate zu entdecken: unabhängig davon, ob Sie Erfahrung mit Schall und Schwingungen haben oder nicht.

<youtube>https://youtu.be/xfEEQaCxaI4</youtube>

Wenn NVGate 2022 gestartet wird, ohne dass eine Lizenz erkannt wird, wird es im READER-Modus gestartet. Das folgende Dialogfenster wird angezeigt: 
[[File:READER START.png|200px]]
'''Mit dem READER-Modus: '''
* - Verwalten Sie die Daten: [[NVGate_dataset_management#Share_and_collate_dataset|Collate & share data]], filtern und sortieren Sie Daten basierend auf Eigenschaften: so nutzen Sie die Kraft von [[NVGate_dataset_management#Dataset_management|Dataset Management]] 
[[File:reader.PNG|500px]]
* - Zeigen Sie die Daten unabhängig vom Anzeigetyp an 
* - Verwenden Sie die Anzeige- und Analysewerkzeuge: Zoomen, Skalieren, Cursor und Marker zum Lesen der Ergebniswerte 
[[File:DISPLAY.png|400px]]
* - Veröffentlichen Sie automatisierte oder manuelle Berichte 

'''Wie geht es weiter?''' 
Nur Daten, die von einer NVGate 2022-Version erstellt oder geteilt werden, sind mit dem NVGate 2022 READER kompatibel: 
- Für Teams, die eine lizenzierte Version von NVGate verwenden, werden mit NVGate 2022 generierte Daten im Projektmanager gespeichert und sind '''einfach lesbar''', wenn sie im READER-Modus starten 
- Für READER-Benutzer ohne lizenzierte Version von NVGate können die von Ihrem Teammitglied oder Partner GETEILTEN Daten mit der Funktion "[[NVGate_dataset_management#Collate_Datasets|COLLATE]]" importiert werden. 
- Eingebettete Beispiele, die mit der Version installiert werden, sind '''für das Selbsttraining verfügbar''' und können mit der Funktion "[[NVGate_Edit_Measurement|EDIT MEASUREMENT]]" angezeigt werden. 

- Für Benutzer, die Ihre Daten mit Reader-Benutzern [[NVGate_dataset_management#Share_Dataset|TEILEN]] möchten: sie können es mit der [[NVGate_dataset_management#Share_Dataset|"SHARE"]] Funktion tun. 

- In allen Fällen werden gemeinsam genutzte DATEN zunächst auf einer lizenzierten NVGate-Version erstellt, entweder in Echtzeit, wenn sie mit einem OROS-Instrument verbunden ist, oder aus einer Postanalyse basierend auf einem aufgezeichneten Signal 

== Optimierte ERGONOMIE : Weniger Klicks und größere Effizienz fürs Team ==

Erleben Sie die verbesserte Feldergonomie und Intuition dank der optimierten '''neuen Ribbon Tabs''' und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks auf Knopfdruck.

Die Benutzeroberfläche fasst die Funktionen des Analysators in einfachen, übersichtlichen und leicht zu identifizierenden Registerkarten zusammen, die nach den Hauptoperationen organisiert sind (Home, Acquisition, Analysis, Data, Display, Report, Automation, Preferences).

<youtube>https://youtu.be/MRGE2-VLBFg</youtube>

===Tab: neue Anordnung der Buttons===

Die Hauptfunktionen wurden durch eine Benutzeroberfläche hervorgehoben, die die Benutzer zur besten Verwendung ihres Analysators der OROS 3-Serie führt.
Die Softwareeinträge sind in einer logischen Operationsweise organisiert. Es gibt 8 verschiedene Tabs, die dem Hauptoperationstyp entsprechen:

====Home====

[[File:home3.PNG|800px]]

Das Ziel des „Home“ Tab ist es, einen benutzerfreundlichen Tab zum Durchführen einer Messung zu erstellen.
Sie können ein Projekt laden, ein Setup erstellen (über die Gruppe "Go To Results"), eine Erfassung starten, Ihre Daten und den Speicherplatz einsehen und den Benutzer ändern.
Tatsächlich können Sie für viele alltägliche Anwendungen auf diesem Tab bleiben, ohne die andere zu überprüfen.

Wir haben auch haben die Attachement Funktion hervorgehoben [[File:home_attachment_2022.PNG|30px]].

'''Attachment''': Ermöglicht es, schnell zu erkennen, ob Dateien (Berichte, Bilder, Videos ....) an das aktuelle Projekt angehängt sind. Klicken Sie auf diesen Button, um den Attachment-Ordner zu erstellen und/oder zu öffnen.

''Hinweis: Wenn das „Default project“ aktiv ist, ist der Button „Attachment“ ausgegraut.
{|border="0" cellspacing="0" cellpadding="4" width="50%" align="left"
|-
|[[File:home_attachment_2022.PNG|30px]]
| Der „Attachment“ Ordner des aktives Projekts ist leer oder existiert nicht.
|-
|[[File:home_attachment_file_2022.PNG|30px]]
| Datei(en) befinden sich im „Attachment“ -Ordner des aktives Projekts.
|} 

====Acquisition====

Dieser Tab enthält alle notwendigen Einträge, um das Frontend und die Verwendung beliebiger Kanäle im Detail einzurichten. Es trennt die Einrichtung der Eingangskanäle von den Ausgängen, der Triggerung, dem Tachometer und den Filtern.

[[File:Acquisition3.PNG|750px]]

====Analysis====

Auf diesem Tab sammelt die Software die Bedienelemente für Frontend, Recorder und Analyse. Jeder Button entspricht einem Plug-in-Analyzer. Der Inhalt dieses Tabs hängt von den erworbenen optionalen Plug-Ins ab. 
[[File:Analysis3.PNG|700px]]

====Data====

Dieser Tab bietet Funktionen zum Verwalten aller Ihrer Daten, zum Übertragen von Projekten, Messungen, Modellen, zum Exportieren und Importieren Ihrer Daten und zum Filtern des Project Manager.
[[File:Data3.PNG|500px]]

====Display====
Dieser Tab umfasst die Steuerung der Ergebnisanzeige. Es ermöglicht das Erstellen, Ausfüllen, Anordnen und Anzeigen der Fenster und Layouts. Es steuert die Skalierung, Einheiten, Gewichtung und Datenoperationen aller Diagramme, verwaltet die Wasserfälle und Extraktionsdiagramme sowie die Markers.

[[File:display3.PNG|700px]]

Der display Tab wurde mit NVGate 2022 vollständig durchdacht und verbessert. Einige Funktionen wurden hervorgehoben: Einfrieren, Zoomen, Layout hinzufügen.
Der Mausmodus wurde ebenfalls verbessert (Cursor, Marker, Zoom, Move, Rotate). Ein Modus kann jetzt mit einem Klick ausgewählt werden. Außerdem ist der Standard-Mausmodus jetzt immer der Cursormodus, wenn Sie also einen Modus abwählen, kehrt er direkt zum Cursormodus zurück.

====Preferences====

Dieser Tab bietet direkten Zugriff auf die Auswahl des Benutzers, die Benutzereinstellungen und die Sensordatenbank.

[[File:Preference3.PNG|500px]]

====Post analysis Button auf dem Status bar====

[[File:PA_Status.png]]

Auf dem Status bar haben Sie jetzt einen direkten Zugriff zum "online to post analysis" Modus.

|[[File:Home_online_to_PA.PNG|30px]]
| '''Online to Post-analysis''': dieser Button wird verwendet, um vom Online-Modus in den Post-Analyse-Modus zu wechseln. Dadurch wird das Fenster „Signal auswählen“ geöffnet, das alle verfügbaren aufgezeichneten Signale auflistet. Das ausgewählte Signal wird dann wiedergegeben und kann in einen beliebigen Plug-In-Analysator (Monitor, FFT, 1/n Oktave ...) erneut eingespeist werden. Es ist auch möglich, ein aufgezeichnetes Signal während der Online-Analyse über den Ausgang wiederzugeben.

Lesen Sie die [[NVGate_Player|Player-Seite]] für mehr Details.

====Automation====
Der Automation Tab enthält leistungsstarke und hilfreiche Tools zur Automatisierung sich wiederholender Aufgaben, die mit den Analysatoren durchgeführt werden.
[[File:Automation.PNG|700px]]

=== Go to results: Ein-Klick Buttons===

Für mehr Benutzerfreundlichkeit wurde eine neue „Ein-Klick“-Funktion zu den Ergebnissen hinzugefügt.

[[File:gotoresults3.PNG|400px]]

* [[File:viwe recording.PNG|50px]]view recording: öffnet das Signalmonitoring-Fenster über dem aktuellen Layout. Falls dieses Fenster bereits in einem anderen Layout geöffnet ist, wechselt es zu diesem Layout.

* [[File:Add__layout.PNG|40px]] Add Layout: Erstellt ein neues Layout. Durch Klicken auf den Button wird ein Dialogfeld zum Benennen des neuen Layouts angezeigt. Ein neuen Tab wird erstellt und ausgewählt, die dem neuen Layout entspricht.

* [[File:waterfall settings.PNG|150px]] Öffnet den Waterfall-Trigger-Dialog. Dieser Dialog ermöglicht die Auswahl des Auslösers durch das Waterfall-Plug-in (nur auf den Tab „Profil“ und „Wasserfall“ verfügbar).

=== RPM Button erstellt automatische Events===

[[File:auto_rpm.PNG|200px]] Der RPM-Button wurde jetzt komplett neu gestaltet. Durch Anwenden dieser Schaltfläche wird der Waterfall-Trigger automatisch auf Delta-RPM oder periodic gesetzt.
Dadurch wird die Einrichtung von NVGate für eine rotierende oder hochgefahrene Anwendung viel einfacher. (nur im Profil- oder Waterfall-Tab verfügbar).

Im Detail wird dieser Button:

* einen Delta RPM event erstellen, source = the one activated in the "Tach.". Delta velocity: 10 RPM.
* einen Periodic event erstellen (0.5 sec)
* einen Combined event erstellen: "Delta RPM ODER Periodic 1"
* den Waterfall Trigger auf Combined event setzen
* einen RPM event erstellen (source = the one activated in the tach field)

=== New default settings===

The default settings in NVGate have been updated to the ones below. With these default settings, you can do rotating analysis measurement directly.
Be aware that if you load an exiting project, the settings will not be affected. You can also easily change these settings.

FFT Overlap: 66%

FFT lines: 3200

FFT Overall low freq : 2 Hz

SOA resolution: 1/8

SOA overlap: 5

SOA OVL lower order: 0.2

Event Delta RPM: Delta velocity 10 rpm

Waterfall Depth: 1000

Tachometer/RPM Profiles/Duration: 120 sec

== New units available ==

[[File:unit.PNG]] New units have been added:

Angular velocity: Hertz

Pressure: Pascal and Bar

Torsionnal velocity: RPM

== [[File:FracTach.png|70px]] Measure all your shafts with 1 tach sensor: virtual tach gear ratio to 100 ==

[[Image:Reports_Tools_Ribbons_356.png]]: Fractional tachometer: computes RPM speed for a non accessible shaft by using gear ratio setting: adapted for gear boxes and transmissions. The ratio can now be set up to 100! (it used to be 2).

-> Used to define up to 4 fractional tachs using data from the tach or the Ext Tach.

[[Image:tacho_ratio.png|500px]]

*'''Tach ratio''': this is the ratio between the output angular speed and the input angular speed. This setting is defined by the product of 2 fractions: N1/D1 * N2/D2 where N1, D1, N2 and D2 are integer values. Tach.1 / Tach.2 ratio maximum value can be set up to 100.
[[File:le100.png|600px]]

== [[File:3shaftordertracking.png| 70px]] Triple shaft order analysis : 3 parallel real time SOA analysis ==

Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.

OROS, leader on rotating vibration analysis, is the only one in the world to let you achieve such a performance.

[[File:3SOA.PNG]]

== [[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines ==

A [https://en.wikipedia.org/wiki/Pressure%E2%80%93volume_diagram pressure–volume diagram] (or PV diagram, or volume–pressure loop) is used to describe corresponding changes in volume and pressure in a system.

[[File:Indicator_diagram_steam_admission.png|400px]]

The diagram records the pressure of steam versus the volume of steam in a cylinder, throughout a piston's cycle of motion in a steam engine. The diagram enables calculation of the work performed and thus can provide a measure of the power produced by the engine.

To exactly calculate the work done by the system it is necessary to calculate the integral of the pressure with respect to volume. One can often quickly calculate this using the PV diagram as it is simply the area enclosed by the cycle.

Download: [[Addons:PV_Diagram#Download| Check the PV diagram page]]

How to use :

[[File:PVdiagram2022.PNG|600px]]

*Define one (or more) channel as a pressure.
*Add this channel into Sync. order (SOA) plug in.
*On SOA plug in , average, domain, select: "Angular"
*Open PV_Diagram.exe
*Click on refresh (right click) in available results if you do not see anything.
*Select the input.
*Compute once will display the PV diagram base once based the last triggerd block.
*"background computation, will continuously compute the diagram.

== [[File:W11.png|70px]]Windows 11 compatibility==

[[File:Windows_11_logo.svg.png|400px]]

This version is compatible and fully tested with the last version of Microsoft Windows 10 and new Microsoft version Windows 11.

== Teamviewer V15 quick support ==

If you have any question for using your OROS analyzer, Teamviewer is a power full tool to take control of your PC and check together your question.
NVGate 2022 include a the new version V15 of teamviwer .

[[File:teamviwer.PNG|200px]]

This version is available on your computer foler here: C:\OROS\NVGate data\Links\TeamViewerQS.exe . You can also donwload using this specific link : https://get.teamviewer.com/orosTV

== NVDrive ==

NVGate software can be fully remote-controlled using an external software package. The commands required for controlling each analyzer function are listed in the NVDrive®library.

=== Toolkit refresh ===

NVDrive toolkit has been refreshed with new examples, new print screen, new tree structure, .dll have been updated for beeing more clear and highlight the python language.
Also we have now only one reference on the price list "ORNV-TOOLKIT" which includes the full toolkit (NVdrive, Matdrive, .oxf, python.).

===New commands: Read Write NVGate user properties (Project / Measurement)===

NVDrive allows you to take control of the analyzer with command lines.
New NVDrive commands have been added on the NVDrive toolkit to read, write and delete the user properties of projects and measurements.

[[File:NVdrive.PNG|500px]]

== New car cigaret lighter plug ==

For OR36 and OR38 analyzer, OROS has designed a new cigaret lighter for beeing able to deliver 24.5V.
You can plug it on 10V-35V cigaret lighter and it will deliver 24.5V on output to power supply OR36 and OR38 analyzer and charge the battery.

It can be ordered with the reference : OR36-8TW-DCCL

[[File:cigaretlightercable.png|500px]]

(Cigaret lighter power supply for OR35, OR34 and OR10 remain available.)

== [[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing ==

ORBIgate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can '''now be used on daisy chained systems''' as NVGate. 
In addition, measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors: 
On top of that ORBIGate features as well an extension of the ratio for the '''Fractional tach feature up to a 100'''.

== New Sound Power V3.20 ==

OROS SOUND POWER Solution has been designed to let you achieve that type of test in the most efficient and accurate way.

This new version includes the following improvements:
* New command to start directly the software on your pre-configured setup
* Option to modify the limit of overall octave filter
* Excel templates fully updated to the last standard
* Full compatibility with NVGate 2022.

Read the dedicated [[Sound Power 3 20|Sound Power 3.20 release note]] for more info.

== Bug fixing ==

* 14133: Record with DC inputs doesn't work for some frequency samplings.
* 14112: Double filter with HP @10HZ in TDA in post analyse: nothing is displayed.
* 14102: Christmas tree with OR35TW is reproduce in a specific configuration.
* 14166: Delete the last value from calibration history.
* 14187: History transducer database can not be display on a japanese windows 10 PC.
* 14190: Random Burst on Block Event.
* 14130: "result selection windows": Lissajous graph is not display .
* 14184: Wrong display of TDA table after copy graph .
* 14210: OCT not possible to set a time constant below 20 ms.
* 14219: Autorange is "Saving the working results".
* 14286: Octave limited range of CPB filter is working strangely.
* 14194: Octave LimitedRange And Reduce SamplingFreq crash NVGate
* 14399: Impossible to compute EVHV Spatiogramme.
* 14290: several Lissajous graphics - cursors are not linked together.
* 14437: Error on NVDrive "NVGS_GetTrackNumberOfSample" Function with SBL > 2GB

NVGate 2022: Release note de

2022-03-14T16:59:35Z

Credaelli: /* Go to results: one click icons */

[[category:NVGate2022]]

OROS ist bestrebt, nah bei den Anwendern zu sein und aufmerksam auf die Bedürfnisse und das Feedback aus der Praxis zu achten. Darauf aufbauend werden regelmäßig neue Versionen veröffentlicht.

[[File:Splash_screen2022.png|500px]]

 
Die Hauptversion von NVGate® 2022 ist seit Januar 2022 verfügbar. Diese Version der Softwareplattform der Analysatoren der OROS 3-Serie bringt zusätzliche Funktionen und signifikante Leistungsverbesserungen. Nachfolgend finden Sie eine Zusammenfassung der wichtigsten Verbesserungen Ihres NVGate-Erlebnisses: 

'''>> 3''' Hauptgründe, um Ihre '''TEAMWORK Effizienz''' auf das Maximum zu bringen. 

{| class="wikitable" |
|-
! style="background: white;|[[File:READER.png|70px]] 
Erkunden der Daten einfach & frei, ohne jede Lizenz!
! style="background: white;|[[File:Ergonomics.png|70px]] 
Weniger Klicks und größere Effizienz fürs Team
! style="background: white;|[[File:W11.png|70px]] 
Mit den Entwicklungen Schritt halten: die Windows 11 Kompatibilität ist sichergestellt.
|-
| Start von '''NVGate in READER-Modus''' ohne Lizenz und arbeiten Sie mit den Daten bis zum Report. Teilen der Daten mit dem Team oder Partnern: Sie werden in der Lage sein Daten zu sammeln, zu untersuchen, anzuzeigen und zu bearbeiten, und das ohne Lizenz.[[NVGate_2022:_Release_note#NVGate_READER_:_Share_.26_Explore_your_data_Simply_.26_FREEly_.21|>>]] ||
Erleben Sie verbesserte Ergonomie und Intuition dank der optimierten neuen Ribbons und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks,[[NVGate_2022:_Release_note#Enhanced_ERGONOMICS_:_Save_more_clicks_and_push_teams_efficiency_to_the_limits|>>]]

|| Das neue '''Windows 11''' ist veröffentlicht und NVGate 2022 passt sich an, um eine vollständige '''Kompatibilität''' mit der modernen Umgebung sicherzustellen.
|}

'''>> 4''' Hauptmerkmale, um weiterhin die höchste Leistung in der ROTATING-Analyse vorzuschlagen 

{| class="wikitable"
|-
! style="background: white;|[[File:3shaftordertracking.png| 70px]]
3Fache Ordnungsanalyse!
! style="background: white;|[[File:FracTach.png|70px]] Mehreren Wellen mit nur einem Tacho: Virtual tach mit Getriebeverhältnis bis zu 100!
! style="background: white;|[[File:PV.png|70px]] PV Diagramm für Antriebe.
! style="background: white;|[[File:orbigate.png|70px]] Kombinieren Sie Ihre ORBIGate-Systeme: Rotordynamik Messungen mit kaskadierten Systemen.
|-
| Unabhängig davon, ob Ihre Messung an einem Getriebe, einem Kompressor oder sonstigen Maschine mit mehreren Wellen durchgeführt wird, bietet NVGate nun '''3 parallele Ordnungsanalysen''' sowohl im Online- als auch im Office Modus.
| Die Messung von Vibrationen an Maschinen mit mehreren Wellen wie Getrieben kann mehrere Drehzahlmesser erfordern. NVGate 2022 bietet nun größere Übersetzungen für die integrierte virtuelle Tachometerfunktion mit einem '''Verhältnis von bis zu 100''' zwischen schneller und langsamer Welle.
| Das PV-Diagramm ermöglicht es Druck und Volumen gegenüber zu stellen. Das '''PV-Diagramm''' ist als ein neues Add-on verfügbar.
| ORBIGate entwickelt sich weiter. Insbesondere die Rotordynamiklösung kann ebenfalls mit Daisy-Chain-Systemen eingesetzt werden.
|}

Diese Release Note beschreibt den Inhalt der Version mit Betriebsdetails.
 
Um NVGate 2022 herunterzuladen und zu installieren, [[NVGate_2022:_Install_Process|lesen Sie diese Seite]].
 

Kompatibilität: NVGate 2022 ist mit allen OROS-Instrumenten (OR34 V1 - OR35 V1 - OR36 V2 und TW - OR38 V2 und TW-OR10) kompatibel, die nicht abgekündigt wurden. Abhängig von den Hardwareoptionen und der Version können einige Instrumentenfunktionen verfügbar sein oder nicht.

== [[File:READER.png|70px]] NVGate Reader: Erkunden der Daten einfach & frei, ohne jede Lizenz! ==

Starten Sie NVGate im READER-Modus von überall und arbeiten Sie sich bis zum Bericht vor. Ihre Teams und Partner können Ihre Daten einfach und ohne Softwarelizenz erkunden: einfach KOSTENLOS!
Dies ist der allererste Schritt, den Sie tun können, um die Möglichkeiten von OROS und NVGate zu entdecken: unabhängig davon, ob Sie Erfahrung mit Schall und Schwingungen haben oder nicht.

<youtube>https://youtu.be/xfEEQaCxaI4</youtube>

Wenn NVGate 2022 gestartet wird, ohne dass eine Lizenz erkannt wird, wird es im READER-Modus gestartet. Das folgende Dialogfenster wird angezeigt: 
[[File:READER START.png|200px]]
'''Mit dem READER-Modus: '''
* - Verwalten Sie die Daten: [[NVGate_dataset_management#Share_and_collate_dataset|Collate & share data]], filtern und sortieren Sie Daten basierend auf Eigenschaften: so nutzen Sie die Kraft von [[NVGate_dataset_management#Dataset_management|Dataset Management]] 
[[File:reader.PNG|500px]]
* - Zeigen Sie die Daten unabhängig vom Anzeigetyp an 
* - Verwenden Sie die Anzeige- und Analysewerkzeuge: Zoomen, Skalieren, Cursor und Marker zum Lesen der Ergebniswerte 
[[File:DISPLAY.png|400px]]
* - Veröffentlichen Sie automatisierte oder manuelle Berichte 

'''Wie geht es weiter?''' 
Nur Daten, die von einer NVGate 2022-Version erstellt oder geteilt werden, sind mit dem NVGate 2022 READER kompatibel: 
- Für Teams, die eine lizenzierte Version von NVGate verwenden, werden mit NVGate 2022 generierte Daten im Projektmanager gespeichert und sind '''einfach lesbar''', wenn sie im READER-Modus starten 
- Für READER-Benutzer ohne lizenzierte Version von NVGate können die von Ihrem Teammitglied oder Partner GETEILTEN Daten mit der Funktion "[[NVGate_dataset_management#Collate_Datasets|COLLATE]]" importiert werden. 
- Eingebettete Beispiele, die mit der Version installiert werden, sind '''für das Selbsttraining verfügbar''' und können mit der Funktion "[[NVGate_Edit_Measurement|EDIT MEASUREMENT]]" angezeigt werden. 

- Für Benutzer, die Ihre Daten mit Reader-Benutzern [[NVGate_dataset_management#Share_Dataset|TEILEN]] möchten: sie können es mit der [[NVGate_dataset_management#Share_Dataset|"SHARE"]] Funktion tun. 

- In allen Fällen werden gemeinsam genutzte DATEN zunächst auf einer lizenzierten NVGate-Version erstellt, entweder in Echtzeit, wenn sie mit einem OROS-Instrument verbunden ist, oder aus einer Postanalyse basierend auf einem aufgezeichneten Signal 

== Optimierte ERGONOMIE : Weniger Klicks und größere Effizienz fürs Team ==

Erleben Sie die verbesserte Feldergonomie und Intuition dank der optimierten '''neuen Ribbon Tabs''' und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks auf Knopfdruck.

Die Benutzeroberfläche fasst die Funktionen des Analysators in einfachen, übersichtlichen und leicht zu identifizierenden Registerkarten zusammen, die nach den Hauptoperationen organisiert sind (Home, Acquisition, Analysis, Data, Display, Report, Automation, Preferences).

<youtube>https://youtu.be/MRGE2-VLBFg</youtube>

===Tab: neue Anordnung der Buttons===

Die Hauptfunktionen wurden durch eine Benutzeroberfläche hervorgehoben, die die Benutzer zur besten Verwendung ihres Analysators der OROS 3-Serie führt.
Die Softwareeinträge sind in einer logischen Operationsweise organisiert. Es gibt 8 verschiedene Tabs, die dem Hauptoperationstyp entsprechen:

====Home====

[[File:home3.PNG|800px]]

Das Ziel des „Home“ Tab ist es, einen benutzerfreundlichen Tab zum Durchführen einer Messung zu erstellen.
Sie können ein Projekt laden, ein Setup erstellen (über die Gruppe "Go To Results"), eine Erfassung starten, Ihre Daten und den Speicherplatz einsehen und den Benutzer ändern.
Tatsächlich können Sie für viele alltägliche Anwendungen auf diesem Tab bleiben, ohne die andere zu überprüfen.

Wir haben auch haben die Attachement Funktion hervorgehoben [[File:home_attachment_2022.PNG|30px]].

'''Attachment''': Ermöglicht es, schnell zu erkennen, ob Dateien (Berichte, Bilder, Videos ....) an das aktuelle Projekt angehängt sind. Klicken Sie auf diesen Button, um den Attachment-Ordner zu erstellen und/oder zu öffnen.

''Hinweis: Wenn das „Default project“ aktiv ist, ist der Button „Attachment“ ausgegraut.
{|border="0" cellspacing="0" cellpadding="4" width="50%" align="left"
|-
|[[File:home_attachment_2022.PNG|30px]]
| Der „Attachment“ Ordner des aktives Projekts ist leer oder existiert nicht.
|-
|[[File:home_attachment_file_2022.PNG|30px]]
| Datei(en) befinden sich im „Attachment“ -Ordner des aktives Projekts.
|} 

====Acquisition====

Dieser Tab enthält alle notwendigen Einträge, um das Frontend und die Verwendung beliebiger Kanäle im Detail einzurichten. Es trennt die Einrichtung der Eingangskanäle von den Ausgängen, der Triggerung, dem Tachometer und den Filtern.

[[File:Acquisition3.PNG|750px]]

====Analysis====

Auf diesem Tab sammelt die Software die Bedienelemente für Frontend, Recorder und Analyse. Jeder Button entspricht einem Plug-in-Analyzer. Der Inhalt dieses Tabs hängt von den erworbenen optionalen Plug-Ins ab. 
[[File:Analysis3.PNG|700px]]

====Data====

Dieser Tab bietet Funktionen zum Verwalten aller Ihrer Daten, zum Übertragen von Projekten, Messungen, Modellen, zum Exportieren und Importieren Ihrer Daten und zum Filtern des Project Manager.
[[File:Data3.PNG|500px]]

====Display====
Dieser Tab umfasst die Steuerung der Ergebnisanzeige. Es ermöglicht das Erstellen, Ausfüllen, Anordnen und Anzeigen der Fenster und Layouts. Es steuert die Skalierung, Einheiten, Gewichtung und Datenoperationen aller Diagramme, verwaltet die Wasserfälle und Extraktionsdiagramme sowie die Markers.

[[File:display3.PNG|700px]]

Der display Tab wurde mit NVGate 2022 vollständig durchdacht und verbessert. Einige Funktionen wurden hervorgehoben: Einfrieren, Zoomen, Layout hinzufügen.
Der Mausmodus wurde ebenfalls verbessert (Cursor, Marker, Zoom, Move, Rotate). Ein Modus kann jetzt mit einem Klick ausgewählt werden. Außerdem ist der Standard-Mausmodus jetzt immer der Cursormodus, wenn Sie also einen Modus abwählen, kehrt er direkt zum Cursormodus zurück.

====Preferences====

Dieser Tab bietet direkten Zugriff auf die Auswahl des Benutzers, die Benutzereinstellungen und die Sensordatenbank.

[[File:Preference3.PNG|500px]]

====Post analysis Button auf dem Status bar====

[[File:PA_Status.png]]

Auf dem Status bar haben Sie jetzt einen direkten Zugriff zum "online to post analysis" Modus.

|[[File:Home_online_to_PA.PNG|30px]]
| '''Online to Post-analysis''': dieser Button wird verwendet, um vom Online-Modus in den Post-Analyse-Modus zu wechseln. Dadurch wird das Fenster „Signal auswählen“ geöffnet, das alle verfügbaren aufgezeichneten Signale auflistet. Das ausgewählte Signal wird dann wiedergegeben und kann in einen beliebigen Plug-In-Analysator (Monitor, FFT, 1/n Oktave ...) erneut eingespeist werden. Es ist auch möglich, ein aufgezeichnetes Signal während der Online-Analyse über den Ausgang wiederzugeben.

Lesen Sie die [[NVGate_Player|Player-Seite]] für mehr Details.

====Automation====
Der Automation Tab enthält leistungsstarke und hilfreiche Tools zur Automatisierung sich wiederholender Aufgaben, die mit den Analysatoren durchgeführt werden.
[[File:Automation.PNG|700px]]

=== Go to results: Ein-Klick Buttons===

Für mehr Benutzerfreundlichkeit wurde eine neue „Ein-Klick“-Funktion zu den Ergebnissen hinzugefügt.

[[File:gotoresults3.PNG|400px]]

* [[File:viwe recording.PNG|50px]]view recording: öffnet das Signalmonitoring-Fenster über dem aktuellen Layout. Falls dieses Fenster bereits in einem anderen Layout geöffnet ist, wechselt es zu diesem Layout.

* [[File:Add__layout.PNG|40px]] Add Layout: Erstellt ein neues Layout. Durch Klicken auf den Button wird ein Dialogfeld zum Benennen des neuen Layouts angezeigt. Ein neuen Tab wird erstellt und ausgewählt, die dem neuen Layout entspricht.

* [[File:waterfall settings.PNG|150px]] Öffnet den Waterfall-Trigger-Dialog. Dieser Dialog ermöglicht die Auswahl des Auslösers durch das Waterfall-Plug-in (nur auf den Tab „Profil“ und „Wasserfall“ verfügbar).

=== RPM buttons create automatic events===

[[File:auto_rpm.PNG|200px]] The RPM button has now beeing entierly redesigned. Apply this button will automatically put the waterfall trigger on delta RPM or periodic.
This will make the setup of NVGate much more easier for a rotating or run up aplication. (only available on profile or waterfall tab)

In details this button will :

* Create a Delta RPM event, source = the one activated in the "Tach.". Delta velocity : 10 RPM.
* Create a Periodic event (0.5 sec)
* Create a Combined event 1. mode: "Delta RPM OR Periodic 1"
* Set waterfall Trigger to Combined event
* Create of an RPM event (source = the one activated in the tach field)

=== New default settings===

The default settings in NVGate have been updated to the ones below. With these default settings, you can do rotating analysis measurement directly.
Be aware that if you load an exiting project, the settings will not be affected. You can also easily change these settings.

FFT Overlap: 66%

FFT lines: 3200

FFT Overall low freq : 2 Hz

SOA resolution: 1/8

SOA overlap: 5

SOA OVL lower order: 0.2

Event Delta RPM: Delta velocity 10 rpm

Waterfall Depth: 1000

Tachometer/RPM Profiles/Duration: 120 sec

== New units available ==

[[File:unit.PNG]] New units have been added:

Angular velocity: Hertz

Pressure: Pascal and Bar

Torsionnal velocity: RPM

== [[File:FracTach.png|70px]] Measure all your shafts with 1 tach sensor: virtual tach gear ratio to 100 ==

[[Image:Reports_Tools_Ribbons_356.png]]: Fractional tachometer: computes RPM speed for a non accessible shaft by using gear ratio setting: adapted for gear boxes and transmissions. The ratio can now be set up to 100! (it used to be 2).

-> Used to define up to 4 fractional tachs using data from the tach or the Ext Tach.

[[Image:tacho_ratio.png|500px]]

*'''Tach ratio''': this is the ratio between the output angular speed and the input angular speed. This setting is defined by the product of 2 fractions: N1/D1 * N2/D2 where N1, D1, N2 and D2 are integer values. Tach.1 / Tach.2 ratio maximum value can be set up to 100.
[[File:le100.png|600px]]

== [[File:3shaftordertracking.png| 70px]] Triple shaft order analysis : 3 parallel real time SOA analysis ==

Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.

OROS, leader on rotating vibration analysis, is the only one in the world to let you achieve such a performance.

[[File:3SOA.PNG]]

== [[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines ==

A [https://en.wikipedia.org/wiki/Pressure%E2%80%93volume_diagram pressure–volume diagram] (or PV diagram, or volume–pressure loop) is used to describe corresponding changes in volume and pressure in a system.

[[File:Indicator_diagram_steam_admission.png|400px]]

The diagram records the pressure of steam versus the volume of steam in a cylinder, throughout a piston's cycle of motion in a steam engine. The diagram enables calculation of the work performed and thus can provide a measure of the power produced by the engine.

To exactly calculate the work done by the system it is necessary to calculate the integral of the pressure with respect to volume. One can often quickly calculate this using the PV diagram as it is simply the area enclosed by the cycle.

Download: [[Addons:PV_Diagram#Download| Check the PV diagram page]]

How to use :

[[File:PVdiagram2022.PNG|600px]]

*Define one (or more) channel as a pressure.
*Add this channel into Sync. order (SOA) plug in.
*On SOA plug in , average, domain, select: "Angular"
*Open PV_Diagram.exe
*Click on refresh (right click) in available results if you do not see anything.
*Select the input.
*Compute once will display the PV diagram base once based the last triggerd block.
*"background computation, will continuously compute the diagram.

== [[File:W11.png|70px]]Windows 11 compatibility==

[[File:Windows_11_logo.svg.png|400px]]

This version is compatible and fully tested with the last version of Microsoft Windows 10 and new Microsoft version Windows 11.

== Teamviewer V15 quick support ==

If you have any question for using your OROS analyzer, Teamviewer is a power full tool to take control of your PC and check together your question.
NVGate 2022 include a the new version V15 of teamviwer .

[[File:teamviwer.PNG|200px]]

This version is available on your computer foler here: C:\OROS\NVGate data\Links\TeamViewerQS.exe . You can also donwload using this specific link : https://get.teamviewer.com/orosTV

== NVDrive ==

NVGate software can be fully remote-controlled using an external software package. The commands required for controlling each analyzer function are listed in the NVDrive®library.

=== Toolkit refresh ===

NVDrive toolkit has been refreshed with new examples, new print screen, new tree structure, .dll have been updated for beeing more clear and highlight the python language.
Also we have now only one reference on the price list "ORNV-TOOLKIT" which includes the full toolkit (NVdrive, Matdrive, .oxf, python.).

===New commands: Read Write NVGate user properties (Project / Measurement)===

NVDrive allows you to take control of the analyzer with command lines.
New NVDrive commands have been added on the NVDrive toolkit to read, write and delete the user properties of projects and measurements.

[[File:NVdrive.PNG|500px]]

== New car cigaret lighter plug ==

For OR36 and OR38 analyzer, OROS has designed a new cigaret lighter for beeing able to deliver 24.5V.
You can plug it on 10V-35V cigaret lighter and it will deliver 24.5V on output to power supply OR36 and OR38 analyzer and charge the battery.

It can be ordered with the reference : OR36-8TW-DCCL

[[File:cigaretlightercable.png|500px]]

(Cigaret lighter power supply for OR35, OR34 and OR10 remain available.)

== [[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing ==

ORBIgate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can '''now be used on daisy chained systems''' as NVGate. 
In addition, measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors: 
On top of that ORBIGate features as well an extension of the ratio for the '''Fractional tach feature up to a 100'''.

== New Sound Power V3.20 ==

OROS SOUND POWER Solution has been designed to let you achieve that type of test in the most efficient and accurate way.

This new version includes the following improvements:
* New command to start directly the software on your pre-configured setup
* Option to modify the limit of overall octave filter
* Excel templates fully updated to the last standard
* Full compatibility with NVGate 2022.

Read the dedicated [[Sound Power 3 20|Sound Power 3.20 release note]] for more info.

== Bug fixing ==

* 14133: Record with DC inputs doesn't work for some frequency samplings.
* 14112: Double filter with HP @10HZ in TDA in post analyse: nothing is displayed.
* 14102: Christmas tree with OR35TW is reproduce in a specific configuration.
* 14166: Delete the last value from calibration history.
* 14187: History transducer database can not be display on a japanese windows 10 PC.
* 14190: Random Burst on Block Event.
* 14130: "result selection windows": Lissajous graph is not display .
* 14184: Wrong display of TDA table after copy graph .
* 14210: OCT not possible to set a time constant below 20 ms.
* 14219: Autorange is "Saving the working results".
* 14286: Octave limited range of CPB filter is working strangely.
* 14194: Octave LimitedRange And Reduce SamplingFreq crash NVGate
* 14399: Impossible to compute EVHV Spatiogramme.
* 14290: several Lissajous graphics - cursors are not linked together.
* 14437: Error on NVDrive "NVGS_GetTrackNumberOfSample" Function with SBL > 2GB

NVGate 2022: Release note de

2022-03-14T16:56:12Z

Credaelli: /* Automation */

[[category:NVGate2022]]

OROS ist bestrebt, nah bei den Anwendern zu sein und aufmerksam auf die Bedürfnisse und das Feedback aus der Praxis zu achten. Darauf aufbauend werden regelmäßig neue Versionen veröffentlicht.

[[File:Splash_screen2022.png|500px]]

 
Die Hauptversion von NVGate® 2022 ist seit Januar 2022 verfügbar. Diese Version der Softwareplattform der Analysatoren der OROS 3-Serie bringt zusätzliche Funktionen und signifikante Leistungsverbesserungen. Nachfolgend finden Sie eine Zusammenfassung der wichtigsten Verbesserungen Ihres NVGate-Erlebnisses: 

'''>> 3''' Hauptgründe, um Ihre '''TEAMWORK Effizienz''' auf das Maximum zu bringen. 

{| class="wikitable" |
|-
! style="background: white;|[[File:READER.png|70px]] 
Erkunden der Daten einfach & frei, ohne jede Lizenz!
! style="background: white;|[[File:Ergonomics.png|70px]] 
Weniger Klicks und größere Effizienz fürs Team
! style="background: white;|[[File:W11.png|70px]] 
Mit den Entwicklungen Schritt halten: die Windows 11 Kompatibilität ist sichergestellt.
|-
| Start von '''NVGate in READER-Modus''' ohne Lizenz und arbeiten Sie mit den Daten bis zum Report. Teilen der Daten mit dem Team oder Partnern: Sie werden in der Lage sein Daten zu sammeln, zu untersuchen, anzuzeigen und zu bearbeiten, und das ohne Lizenz.[[NVGate_2022:_Release_note#NVGate_READER_:_Share_.26_Explore_your_data_Simply_.26_FREEly_.21|>>]] ||
Erleben Sie verbesserte Ergonomie und Intuition dank der optimierten neuen Ribbons und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks,[[NVGate_2022:_Release_note#Enhanced_ERGONOMICS_:_Save_more_clicks_and_push_teams_efficiency_to_the_limits|>>]]

|| Das neue '''Windows 11''' ist veröffentlicht und NVGate 2022 passt sich an, um eine vollständige '''Kompatibilität''' mit der modernen Umgebung sicherzustellen.
|}

'''>> 4''' Hauptmerkmale, um weiterhin die höchste Leistung in der ROTATING-Analyse vorzuschlagen 

{| class="wikitable"
|-
! style="background: white;|[[File:3shaftordertracking.png| 70px]]
3Fache Ordnungsanalyse!
! style="background: white;|[[File:FracTach.png|70px]] Mehreren Wellen mit nur einem Tacho: Virtual tach mit Getriebeverhältnis bis zu 100!
! style="background: white;|[[File:PV.png|70px]] PV Diagramm für Antriebe.
! style="background: white;|[[File:orbigate.png|70px]] Kombinieren Sie Ihre ORBIGate-Systeme: Rotordynamik Messungen mit kaskadierten Systemen.
|-
| Unabhängig davon, ob Ihre Messung an einem Getriebe, einem Kompressor oder sonstigen Maschine mit mehreren Wellen durchgeführt wird, bietet NVGate nun '''3 parallele Ordnungsanalysen''' sowohl im Online- als auch im Office Modus.
| Die Messung von Vibrationen an Maschinen mit mehreren Wellen wie Getrieben kann mehrere Drehzahlmesser erfordern. NVGate 2022 bietet nun größere Übersetzungen für die integrierte virtuelle Tachometerfunktion mit einem '''Verhältnis von bis zu 100''' zwischen schneller und langsamer Welle.
| Das PV-Diagramm ermöglicht es Druck und Volumen gegenüber zu stellen. Das '''PV-Diagramm''' ist als ein neues Add-on verfügbar.
| ORBIGate entwickelt sich weiter. Insbesondere die Rotordynamiklösung kann ebenfalls mit Daisy-Chain-Systemen eingesetzt werden.
|}

Diese Release Note beschreibt den Inhalt der Version mit Betriebsdetails.
 
Um NVGate 2022 herunterzuladen und zu installieren, [[NVGate_2022:_Install_Process|lesen Sie diese Seite]].
 

Kompatibilität: NVGate 2022 ist mit allen OROS-Instrumenten (OR34 V1 - OR35 V1 - OR36 V2 und TW - OR38 V2 und TW-OR10) kompatibel, die nicht abgekündigt wurden. Abhängig von den Hardwareoptionen und der Version können einige Instrumentenfunktionen verfügbar sein oder nicht.

== [[File:READER.png|70px]] NVGate Reader: Erkunden der Daten einfach & frei, ohne jede Lizenz! ==

Starten Sie NVGate im READER-Modus von überall und arbeiten Sie sich bis zum Bericht vor. Ihre Teams und Partner können Ihre Daten einfach und ohne Softwarelizenz erkunden: einfach KOSTENLOS!
Dies ist der allererste Schritt, den Sie tun können, um die Möglichkeiten von OROS und NVGate zu entdecken: unabhängig davon, ob Sie Erfahrung mit Schall und Schwingungen haben oder nicht.

<youtube>https://youtu.be/xfEEQaCxaI4</youtube>

Wenn NVGate 2022 gestartet wird, ohne dass eine Lizenz erkannt wird, wird es im READER-Modus gestartet. Das folgende Dialogfenster wird angezeigt: 
[[File:READER START.png|200px]]
'''Mit dem READER-Modus: '''
* - Verwalten Sie die Daten: [[NVGate_dataset_management#Share_and_collate_dataset|Collate & share data]], filtern und sortieren Sie Daten basierend auf Eigenschaften: so nutzen Sie die Kraft von [[NVGate_dataset_management#Dataset_management|Dataset Management]] 
[[File:reader.PNG|500px]]
* - Zeigen Sie die Daten unabhängig vom Anzeigetyp an 
* - Verwenden Sie die Anzeige- und Analysewerkzeuge: Zoomen, Skalieren, Cursor und Marker zum Lesen der Ergebniswerte 
[[File:DISPLAY.png|400px]]
* - Veröffentlichen Sie automatisierte oder manuelle Berichte 

'''Wie geht es weiter?''' 
Nur Daten, die von einer NVGate 2022-Version erstellt oder geteilt werden, sind mit dem NVGate 2022 READER kompatibel: 
- Für Teams, die eine lizenzierte Version von NVGate verwenden, werden mit NVGate 2022 generierte Daten im Projektmanager gespeichert und sind '''einfach lesbar''', wenn sie im READER-Modus starten 
- Für READER-Benutzer ohne lizenzierte Version von NVGate können die von Ihrem Teammitglied oder Partner GETEILTEN Daten mit der Funktion "[[NVGate_dataset_management#Collate_Datasets|COLLATE]]" importiert werden. 
- Eingebettete Beispiele, die mit der Version installiert werden, sind '''für das Selbsttraining verfügbar''' und können mit der Funktion "[[NVGate_Edit_Measurement|EDIT MEASUREMENT]]" angezeigt werden. 

- Für Benutzer, die Ihre Daten mit Reader-Benutzern [[NVGate_dataset_management#Share_Dataset|TEILEN]] möchten: sie können es mit der [[NVGate_dataset_management#Share_Dataset|"SHARE"]] Funktion tun. 

- In allen Fällen werden gemeinsam genutzte DATEN zunächst auf einer lizenzierten NVGate-Version erstellt, entweder in Echtzeit, wenn sie mit einem OROS-Instrument verbunden ist, oder aus einer Postanalyse basierend auf einem aufgezeichneten Signal 

== Optimierte ERGONOMIE : Weniger Klicks und größere Effizienz fürs Team ==

Erleben Sie die verbesserte Feldergonomie und Intuition dank der optimierten '''neuen Ribbon Tabs''' und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks auf Knopfdruck.

Die Benutzeroberfläche fasst die Funktionen des Analysators in einfachen, übersichtlichen und leicht zu identifizierenden Registerkarten zusammen, die nach den Hauptoperationen organisiert sind (Home, Acquisition, Analysis, Data, Display, Report, Automation, Preferences).

<youtube>https://youtu.be/MRGE2-VLBFg</youtube>

===Tab: neue Anordnung der Buttons===

Die Hauptfunktionen wurden durch eine Benutzeroberfläche hervorgehoben, die die Benutzer zur besten Verwendung ihres Analysators der OROS 3-Serie führt.
Die Softwareeinträge sind in einer logischen Operationsweise organisiert. Es gibt 8 verschiedene Tabs, die dem Hauptoperationstyp entsprechen:

====Home====

[[File:home3.PNG|800px]]

Das Ziel des „Home“ Tab ist es, einen benutzerfreundlichen Tab zum Durchführen einer Messung zu erstellen.
Sie können ein Projekt laden, ein Setup erstellen (über die Gruppe "Go To Results"), eine Erfassung starten, Ihre Daten und den Speicherplatz einsehen und den Benutzer ändern.
Tatsächlich können Sie für viele alltägliche Anwendungen auf diesem Tab bleiben, ohne die andere zu überprüfen.

Wir haben auch haben die Attachement Funktion hervorgehoben [[File:home_attachment_2022.PNG|30px]].

'''Attachment''': Ermöglicht es, schnell zu erkennen, ob Dateien (Berichte, Bilder, Videos ....) an das aktuelle Projekt angehängt sind. Klicken Sie auf diesen Button, um den Attachment-Ordner zu erstellen und/oder zu öffnen.

''Hinweis: Wenn das „Default project“ aktiv ist, ist der Button „Attachment“ ausgegraut.
{|border="0" cellspacing="0" cellpadding="4" width="50%" align="left"
|-
|[[File:home_attachment_2022.PNG|30px]]
| Der „Attachment“ Ordner des aktives Projekts ist leer oder existiert nicht.
|-
|[[File:home_attachment_file_2022.PNG|30px]]
| Datei(en) befinden sich im „Attachment“ -Ordner des aktives Projekts.
|} 

====Acquisition====

Dieser Tab enthält alle notwendigen Einträge, um das Frontend und die Verwendung beliebiger Kanäle im Detail einzurichten. Es trennt die Einrichtung der Eingangskanäle von den Ausgängen, der Triggerung, dem Tachometer und den Filtern.

[[File:Acquisition3.PNG|750px]]

====Analysis====

Auf diesem Tab sammelt die Software die Bedienelemente für Frontend, Recorder und Analyse. Jeder Button entspricht einem Plug-in-Analyzer. Der Inhalt dieses Tabs hängt von den erworbenen optionalen Plug-Ins ab. 
[[File:Analysis3.PNG|700px]]

====Data====

Dieser Tab bietet Funktionen zum Verwalten aller Ihrer Daten, zum Übertragen von Projekten, Messungen, Modellen, zum Exportieren und Importieren Ihrer Daten und zum Filtern des Project Manager.
[[File:Data3.PNG|500px]]

====Display====
Dieser Tab umfasst die Steuerung der Ergebnisanzeige. Es ermöglicht das Erstellen, Ausfüllen, Anordnen und Anzeigen der Fenster und Layouts. Es steuert die Skalierung, Einheiten, Gewichtung und Datenoperationen aller Diagramme, verwaltet die Wasserfälle und Extraktionsdiagramme sowie die Markers.

[[File:display3.PNG|700px]]

Der display Tab wurde mit NVGate 2022 vollständig durchdacht und verbessert. Einige Funktionen wurden hervorgehoben: Einfrieren, Zoomen, Layout hinzufügen.
Der Mausmodus wurde ebenfalls verbessert (Cursor, Marker, Zoom, Move, Rotate). Ein Modus kann jetzt mit einem Klick ausgewählt werden. Außerdem ist der Standard-Mausmodus jetzt immer der Cursormodus, wenn Sie also einen Modus abwählen, kehrt er direkt zum Cursormodus zurück.

====Preferences====

Dieser Tab bietet direkten Zugriff auf die Auswahl des Benutzers, die Benutzereinstellungen und die Sensordatenbank.

[[File:Preference3.PNG|500px]]

====Post analysis Button auf dem Status bar====

[[File:PA_Status.png]]

Auf dem Status bar haben Sie jetzt einen direkten Zugriff zum "online to post analysis" Modus.

|[[File:Home_online_to_PA.PNG|30px]]
| '''Online to Post-analysis''': dieser Button wird verwendet, um vom Online-Modus in den Post-Analyse-Modus zu wechseln. Dadurch wird das Fenster „Signal auswählen“ geöffnet, das alle verfügbaren aufgezeichneten Signale auflistet. Das ausgewählte Signal wird dann wiedergegeben und kann in einen beliebigen Plug-In-Analysator (Monitor, FFT, 1/n Oktave ...) erneut eingespeist werden. Es ist auch möglich, ein aufgezeichnetes Signal während der Online-Analyse über den Ausgang wiederzugeben.

Lesen Sie die [[NVGate_Player|Player-Seite]] für mehr Details.

====Automation====
Der Automation Tab enthält leistungsstarke und hilfreiche Tools zur Automatisierung sich wiederholender Aufgaben, die mit den Analysatoren durchgeführt werden.
[[File:Automation.PNG|700px]]

=== Go to results: one click icons===

New "one click" function have been added on the go to results for more user friendliness.

[[File:gotoresults3.PNG|400px]]

* [[File:viwe recording.PNG|50px]]view recording: will open the signal monitoring window on top of the current layout. In the case of this window is already open in another layout, it swaps to this layout.

* [[File:Add__layout.PNG|40px]] Add Layout: Creates a new layout. A dialog box used to name the new layout is displayed by clicking on the button. A new tab is created and selected, corresponding to the new layout.

* [[File:waterfall settings.PNG|150px]] Opens the waterfall triggering dialog. This dialog allows selecting the trigger of by the waterfall plug-in (only available on profile and waterfall tab).

=== RPM buttons create automatic events===

[[File:auto_rpm.PNG|200px]] The RPM button has now beeing entierly redesigned. Apply this button will automatically put the waterfall trigger on delta RPM or periodic.
This will make the setup of NVGate much more easier for a rotating or run up aplication. (only available on profile or waterfall tab)

In details this button will :

* Create a Delta RPM event, source = the one activated in the "Tach.". Delta velocity : 10 RPM.
* Create a Periodic event (0.5 sec)
* Create a Combined event 1. mode: "Delta RPM OR Periodic 1"
* Set waterfall Trigger to Combined event
* Create of an RPM event (source = the one activated in the tach field)

=== New default settings===

The default settings in NVGate have been updated to the ones below. With these default settings, you can do rotating analysis measurement directly.
Be aware that if you load an exiting project, the settings will not be affected. You can also easily change these settings.

FFT Overlap: 66%

FFT lines: 3200

FFT Overall low freq : 2 Hz

SOA resolution: 1/8

SOA overlap: 5

SOA OVL lower order: 0.2

Event Delta RPM: Delta velocity 10 rpm

Waterfall Depth: 1000

Tachometer/RPM Profiles/Duration: 120 sec

== New units available ==

[[File:unit.PNG]] New units have been added:

Angular velocity: Hertz

Pressure: Pascal and Bar

Torsionnal velocity: RPM

== [[File:FracTach.png|70px]] Measure all your shafts with 1 tach sensor: virtual tach gear ratio to 100 ==

[[Image:Reports_Tools_Ribbons_356.png]]: Fractional tachometer: computes RPM speed for a non accessible shaft by using gear ratio setting: adapted for gear boxes and transmissions. The ratio can now be set up to 100! (it used to be 2).

-> Used to define up to 4 fractional tachs using data from the tach or the Ext Tach.

[[Image:tacho_ratio.png|500px]]

*'''Tach ratio''': this is the ratio between the output angular speed and the input angular speed. This setting is defined by the product of 2 fractions: N1/D1 * N2/D2 where N1, D1, N2 and D2 are integer values. Tach.1 / Tach.2 ratio maximum value can be set up to 100.
[[File:le100.png|600px]]

== [[File:3shaftordertracking.png| 70px]] Triple shaft order analysis : 3 parallel real time SOA analysis ==

Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.

OROS, leader on rotating vibration analysis, is the only one in the world to let you achieve such a performance.

[[File:3SOA.PNG]]

== [[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines ==

A [https://en.wikipedia.org/wiki/Pressure%E2%80%93volume_diagram pressure–volume diagram] (or PV diagram, or volume–pressure loop) is used to describe corresponding changes in volume and pressure in a system.

[[File:Indicator_diagram_steam_admission.png|400px]]

The diagram records the pressure of steam versus the volume of steam in a cylinder, throughout a piston's cycle of motion in a steam engine. The diagram enables calculation of the work performed and thus can provide a measure of the power produced by the engine.

To exactly calculate the work done by the system it is necessary to calculate the integral of the pressure with respect to volume. One can often quickly calculate this using the PV diagram as it is simply the area enclosed by the cycle.

Download: [[Addons:PV_Diagram#Download| Check the PV diagram page]]

How to use :

[[File:PVdiagram2022.PNG|600px]]

*Define one (or more) channel as a pressure.
*Add this channel into Sync. order (SOA) plug in.
*On SOA plug in , average, domain, select: "Angular"
*Open PV_Diagram.exe
*Click on refresh (right click) in available results if you do not see anything.
*Select the input.
*Compute once will display the PV diagram base once based the last triggerd block.
*"background computation, will continuously compute the diagram.

== [[File:W11.png|70px]]Windows 11 compatibility==

[[File:Windows_11_logo.svg.png|400px]]

This version is compatible and fully tested with the last version of Microsoft Windows 10 and new Microsoft version Windows 11.

== Teamviewer V15 quick support ==

If you have any question for using your OROS analyzer, Teamviewer is a power full tool to take control of your PC and check together your question.
NVGate 2022 include a the new version V15 of teamviwer .

[[File:teamviwer.PNG|200px]]

This version is available on your computer foler here: C:\OROS\NVGate data\Links\TeamViewerQS.exe . You can also donwload using this specific link : https://get.teamviewer.com/orosTV

== NVDrive ==

NVGate software can be fully remote-controlled using an external software package. The commands required for controlling each analyzer function are listed in the NVDrive®library.

=== Toolkit refresh ===

NVDrive toolkit has been refreshed with new examples, new print screen, new tree structure, .dll have been updated for beeing more clear and highlight the python language.
Also we have now only one reference on the price list "ORNV-TOOLKIT" which includes the full toolkit (NVdrive, Matdrive, .oxf, python.).

===New commands: Read Write NVGate user properties (Project / Measurement)===

NVDrive allows you to take control of the analyzer with command lines.
New NVDrive commands have been added on the NVDrive toolkit to read, write and delete the user properties of projects and measurements.

[[File:NVdrive.PNG|500px]]

== New car cigaret lighter plug ==

For OR36 and OR38 analyzer, OROS has designed a new cigaret lighter for beeing able to deliver 24.5V.
You can plug it on 10V-35V cigaret lighter and it will deliver 24.5V on output to power supply OR36 and OR38 analyzer and charge the battery.

It can be ordered with the reference : OR36-8TW-DCCL

[[File:cigaretlightercable.png|500px]]

(Cigaret lighter power supply for OR35, OR34 and OR10 remain available.)

== [[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing ==

ORBIgate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can '''now be used on daisy chained systems''' as NVGate. 
In addition, measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors: 
On top of that ORBIGate features as well an extension of the ratio for the '''Fractional tach feature up to a 100'''.

== New Sound Power V3.20 ==

OROS SOUND POWER Solution has been designed to let you achieve that type of test in the most efficient and accurate way.

This new version includes the following improvements:
* New command to start directly the software on your pre-configured setup
* Option to modify the limit of overall octave filter
* Excel templates fully updated to the last standard
* Full compatibility with NVGate 2022.

Read the dedicated [[Sound Power 3 20|Sound Power 3.20 release note]] for more info.

== Bug fixing ==

* 14133: Record with DC inputs doesn't work for some frequency samplings.
* 14112: Double filter with HP @10HZ in TDA in post analyse: nothing is displayed.
* 14102: Christmas tree with OR35TW is reproduce in a specific configuration.
* 14166: Delete the last value from calibration history.
* 14187: History transducer database can not be display on a japanese windows 10 PC.
* 14190: Random Burst on Block Event.
* 14130: "result selection windows": Lissajous graph is not display .
* 14184: Wrong display of TDA table after copy graph .
* 14210: OCT not possible to set a time constant below 20 ms.
* 14219: Autorange is "Saving the working results".
* 14286: Octave limited range of CPB filter is working strangely.
* 14194: Octave LimitedRange And Reduce SamplingFreq crash NVGate
* 14399: Impossible to compute EVHV Spatiogramme.
* 14290: several Lissajous graphics - cursors are not linked together.
* 14437: Error on NVDrive "NVGS_GetTrackNumberOfSample" Function with SBL > 2GB

NVGate 2022: Release note de

2022-03-14T16:55:33Z

Credaelli: /* Post analysis button on status bar */

[[category:NVGate2022]]

OROS ist bestrebt, nah bei den Anwendern zu sein und aufmerksam auf die Bedürfnisse und das Feedback aus der Praxis zu achten. Darauf aufbauend werden regelmäßig neue Versionen veröffentlicht.

[[File:Splash_screen2022.png|500px]]

 
Die Hauptversion von NVGate® 2022 ist seit Januar 2022 verfügbar. Diese Version der Softwareplattform der Analysatoren der OROS 3-Serie bringt zusätzliche Funktionen und signifikante Leistungsverbesserungen. Nachfolgend finden Sie eine Zusammenfassung der wichtigsten Verbesserungen Ihres NVGate-Erlebnisses: 

'''>> 3''' Hauptgründe, um Ihre '''TEAMWORK Effizienz''' auf das Maximum zu bringen. 

{| class="wikitable" |
|-
! style="background: white;|[[File:READER.png|70px]] 
Erkunden der Daten einfach & frei, ohne jede Lizenz!
! style="background: white;|[[File:Ergonomics.png|70px]] 
Weniger Klicks und größere Effizienz fürs Team
! style="background: white;|[[File:W11.png|70px]] 
Mit den Entwicklungen Schritt halten: die Windows 11 Kompatibilität ist sichergestellt.
|-
| Start von '''NVGate in READER-Modus''' ohne Lizenz und arbeiten Sie mit den Daten bis zum Report. Teilen der Daten mit dem Team oder Partnern: Sie werden in der Lage sein Daten zu sammeln, zu untersuchen, anzuzeigen und zu bearbeiten, und das ohne Lizenz.[[NVGate_2022:_Release_note#NVGate_READER_:_Share_.26_Explore_your_data_Simply_.26_FREEly_.21|>>]] ||
Erleben Sie verbesserte Ergonomie und Intuition dank der optimierten neuen Ribbons und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks,[[NVGate_2022:_Release_note#Enhanced_ERGONOMICS_:_Save_more_clicks_and_push_teams_efficiency_to_the_limits|>>]]

|| Das neue '''Windows 11''' ist veröffentlicht und NVGate 2022 passt sich an, um eine vollständige '''Kompatibilität''' mit der modernen Umgebung sicherzustellen.
|}

'''>> 4''' Hauptmerkmale, um weiterhin die höchste Leistung in der ROTATING-Analyse vorzuschlagen 

{| class="wikitable"
|-
! style="background: white;|[[File:3shaftordertracking.png| 70px]]
3Fache Ordnungsanalyse!
! style="background: white;|[[File:FracTach.png|70px]] Mehreren Wellen mit nur einem Tacho: Virtual tach mit Getriebeverhältnis bis zu 100!
! style="background: white;|[[File:PV.png|70px]] PV Diagramm für Antriebe.
! style="background: white;|[[File:orbigate.png|70px]] Kombinieren Sie Ihre ORBIGate-Systeme: Rotordynamik Messungen mit kaskadierten Systemen.
|-
| Unabhängig davon, ob Ihre Messung an einem Getriebe, einem Kompressor oder sonstigen Maschine mit mehreren Wellen durchgeführt wird, bietet NVGate nun '''3 parallele Ordnungsanalysen''' sowohl im Online- als auch im Office Modus.
| Die Messung von Vibrationen an Maschinen mit mehreren Wellen wie Getrieben kann mehrere Drehzahlmesser erfordern. NVGate 2022 bietet nun größere Übersetzungen für die integrierte virtuelle Tachometerfunktion mit einem '''Verhältnis von bis zu 100''' zwischen schneller und langsamer Welle.
| Das PV-Diagramm ermöglicht es Druck und Volumen gegenüber zu stellen. Das '''PV-Diagramm''' ist als ein neues Add-on verfügbar.
| ORBIGate entwickelt sich weiter. Insbesondere die Rotordynamiklösung kann ebenfalls mit Daisy-Chain-Systemen eingesetzt werden.
|}

Diese Release Note beschreibt den Inhalt der Version mit Betriebsdetails.
 
Um NVGate 2022 herunterzuladen und zu installieren, [[NVGate_2022:_Install_Process|lesen Sie diese Seite]].
 

Kompatibilität: NVGate 2022 ist mit allen OROS-Instrumenten (OR34 V1 - OR35 V1 - OR36 V2 und TW - OR38 V2 und TW-OR10) kompatibel, die nicht abgekündigt wurden. Abhängig von den Hardwareoptionen und der Version können einige Instrumentenfunktionen verfügbar sein oder nicht.

== [[File:READER.png|70px]] NVGate Reader: Erkunden der Daten einfach & frei, ohne jede Lizenz! ==

Starten Sie NVGate im READER-Modus von überall und arbeiten Sie sich bis zum Bericht vor. Ihre Teams und Partner können Ihre Daten einfach und ohne Softwarelizenz erkunden: einfach KOSTENLOS!
Dies ist der allererste Schritt, den Sie tun können, um die Möglichkeiten von OROS und NVGate zu entdecken: unabhängig davon, ob Sie Erfahrung mit Schall und Schwingungen haben oder nicht.

<youtube>https://youtu.be/xfEEQaCxaI4</youtube>

Wenn NVGate 2022 gestartet wird, ohne dass eine Lizenz erkannt wird, wird es im READER-Modus gestartet. Das folgende Dialogfenster wird angezeigt: 
[[File:READER START.png|200px]]
'''Mit dem READER-Modus: '''
* - Verwalten Sie die Daten: [[NVGate_dataset_management#Share_and_collate_dataset|Collate & share data]], filtern und sortieren Sie Daten basierend auf Eigenschaften: so nutzen Sie die Kraft von [[NVGate_dataset_management#Dataset_management|Dataset Management]] 
[[File:reader.PNG|500px]]
* - Zeigen Sie die Daten unabhängig vom Anzeigetyp an 
* - Verwenden Sie die Anzeige- und Analysewerkzeuge: Zoomen, Skalieren, Cursor und Marker zum Lesen der Ergebniswerte 
[[File:DISPLAY.png|400px]]
* - Veröffentlichen Sie automatisierte oder manuelle Berichte 

'''Wie geht es weiter?''' 
Nur Daten, die von einer NVGate 2022-Version erstellt oder geteilt werden, sind mit dem NVGate 2022 READER kompatibel: 
- Für Teams, die eine lizenzierte Version von NVGate verwenden, werden mit NVGate 2022 generierte Daten im Projektmanager gespeichert und sind '''einfach lesbar''', wenn sie im READER-Modus starten 
- Für READER-Benutzer ohne lizenzierte Version von NVGate können die von Ihrem Teammitglied oder Partner GETEILTEN Daten mit der Funktion "[[NVGate_dataset_management#Collate_Datasets|COLLATE]]" importiert werden. 
- Eingebettete Beispiele, die mit der Version installiert werden, sind '''für das Selbsttraining verfügbar''' und können mit der Funktion "[[NVGate_Edit_Measurement|EDIT MEASUREMENT]]" angezeigt werden. 

- Für Benutzer, die Ihre Daten mit Reader-Benutzern [[NVGate_dataset_management#Share_Dataset|TEILEN]] möchten: sie können es mit der [[NVGate_dataset_management#Share_Dataset|"SHARE"]] Funktion tun. 

- In allen Fällen werden gemeinsam genutzte DATEN zunächst auf einer lizenzierten NVGate-Version erstellt, entweder in Echtzeit, wenn sie mit einem OROS-Instrument verbunden ist, oder aus einer Postanalyse basierend auf einem aufgezeichneten Signal 

== Optimierte ERGONOMIE : Weniger Klicks und größere Effizienz fürs Team ==

Erleben Sie die verbesserte Feldergonomie und Intuition dank der optimierten '''neuen Ribbon Tabs''' und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks auf Knopfdruck.

Die Benutzeroberfläche fasst die Funktionen des Analysators in einfachen, übersichtlichen und leicht zu identifizierenden Registerkarten zusammen, die nach den Hauptoperationen organisiert sind (Home, Acquisition, Analysis, Data, Display, Report, Automation, Preferences).

<youtube>https://youtu.be/MRGE2-VLBFg</youtube>

===Tab: neue Anordnung der Buttons===

Die Hauptfunktionen wurden durch eine Benutzeroberfläche hervorgehoben, die die Benutzer zur besten Verwendung ihres Analysators der OROS 3-Serie führt.
Die Softwareeinträge sind in einer logischen Operationsweise organisiert. Es gibt 8 verschiedene Tabs, die dem Hauptoperationstyp entsprechen:

====Home====

[[File:home3.PNG|800px]]

Das Ziel des „Home“ Tab ist es, einen benutzerfreundlichen Tab zum Durchführen einer Messung zu erstellen.
Sie können ein Projekt laden, ein Setup erstellen (über die Gruppe "Go To Results"), eine Erfassung starten, Ihre Daten und den Speicherplatz einsehen und den Benutzer ändern.
Tatsächlich können Sie für viele alltägliche Anwendungen auf diesem Tab bleiben, ohne die andere zu überprüfen.

Wir haben auch haben die Attachement Funktion hervorgehoben [[File:home_attachment_2022.PNG|30px]].

'''Attachment''': Ermöglicht es, schnell zu erkennen, ob Dateien (Berichte, Bilder, Videos ....) an das aktuelle Projekt angehängt sind. Klicken Sie auf diesen Button, um den Attachment-Ordner zu erstellen und/oder zu öffnen.

''Hinweis: Wenn das „Default project“ aktiv ist, ist der Button „Attachment“ ausgegraut.
{|border="0" cellspacing="0" cellpadding="4" width="50%" align="left"
|-
|[[File:home_attachment_2022.PNG|30px]]
| Der „Attachment“ Ordner des aktives Projekts ist leer oder existiert nicht.
|-
|[[File:home_attachment_file_2022.PNG|30px]]
| Datei(en) befinden sich im „Attachment“ -Ordner des aktives Projekts.
|} 

====Acquisition====

Dieser Tab enthält alle notwendigen Einträge, um das Frontend und die Verwendung beliebiger Kanäle im Detail einzurichten. Es trennt die Einrichtung der Eingangskanäle von den Ausgängen, der Triggerung, dem Tachometer und den Filtern.

[[File:Acquisition3.PNG|750px]]

====Analysis====

Auf diesem Tab sammelt die Software die Bedienelemente für Frontend, Recorder und Analyse. Jeder Button entspricht einem Plug-in-Analyzer. Der Inhalt dieses Tabs hängt von den erworbenen optionalen Plug-Ins ab. 
[[File:Analysis3.PNG|700px]]

====Data====

Dieser Tab bietet Funktionen zum Verwalten aller Ihrer Daten, zum Übertragen von Projekten, Messungen, Modellen, zum Exportieren und Importieren Ihrer Daten und zum Filtern des Project Manager.
[[File:Data3.PNG|500px]]

====Display====
Dieser Tab umfasst die Steuerung der Ergebnisanzeige. Es ermöglicht das Erstellen, Ausfüllen, Anordnen und Anzeigen der Fenster und Layouts. Es steuert die Skalierung, Einheiten, Gewichtung und Datenoperationen aller Diagramme, verwaltet die Wasserfälle und Extraktionsdiagramme sowie die Markers.

[[File:display3.PNG|700px]]

Der display Tab wurde mit NVGate 2022 vollständig durchdacht und verbessert. Einige Funktionen wurden hervorgehoben: Einfrieren, Zoomen, Layout hinzufügen.
Der Mausmodus wurde ebenfalls verbessert (Cursor, Marker, Zoom, Move, Rotate). Ein Modus kann jetzt mit einem Klick ausgewählt werden. Außerdem ist der Standard-Mausmodus jetzt immer der Cursormodus, wenn Sie also einen Modus abwählen, kehrt er direkt zum Cursormodus zurück.

====Preferences====

Dieser Tab bietet direkten Zugriff auf die Auswahl des Benutzers, die Benutzereinstellungen und die Sensordatenbank.

[[File:Preference3.PNG|500px]]

====Post analysis Button auf dem Status bar====

[[File:PA_Status.png]]

Auf dem Status bar haben Sie jetzt einen direkten Zugriff zum "online to post analysis" Modus.

|[[File:Home_online_to_PA.PNG|30px]]
| '''Online to Post-analysis''': dieser Button wird verwendet, um vom Online-Modus in den Post-Analyse-Modus zu wechseln. Dadurch wird das Fenster „Signal auswählen“ geöffnet, das alle verfügbaren aufgezeichneten Signale auflistet. Das ausgewählte Signal wird dann wiedergegeben und kann in einen beliebigen Plug-In-Analysator (Monitor, FFT, 1/n Oktave ...) erneut eingespeist werden. Es ist auch möglich, ein aufgezeichnetes Signal während der Online-Analyse über den Ausgang wiederzugeben.

Lesen Sie die [[NVGate_Player|Player-Seite]] für mehr Details.

====Automation====
The Automation tab contains powerful and helpful tools to automate repetitive tasks made with the analyzers.
[[File:Automation.PNG|700px]]

=== Go to results: one click icons===

New "one click" function have been added on the go to results for more user friendliness.

[[File:gotoresults3.PNG|400px]]

* [[File:viwe recording.PNG|50px]]view recording: will open the signal monitoring window on top of the current layout. In the case of this window is already open in another layout, it swaps to this layout.

* [[File:Add__layout.PNG|40px]] Add Layout: Creates a new layout. A dialog box used to name the new layout is displayed by clicking on the button. A new tab is created and selected, corresponding to the new layout.

* [[File:waterfall settings.PNG|150px]] Opens the waterfall triggering dialog. This dialog allows selecting the trigger of by the waterfall plug-in (only available on profile and waterfall tab).

=== RPM buttons create automatic events===

[[File:auto_rpm.PNG|200px]] The RPM button has now beeing entierly redesigned. Apply this button will automatically put the waterfall trigger on delta RPM or periodic.
This will make the setup of NVGate much more easier for a rotating or run up aplication. (only available on profile or waterfall tab)

In details this button will :

* Create a Delta RPM event, source = the one activated in the "Tach.". Delta velocity : 10 RPM.
* Create a Periodic event (0.5 sec)
* Create a Combined event 1. mode: "Delta RPM OR Periodic 1"
* Set waterfall Trigger to Combined event
* Create of an RPM event (source = the one activated in the tach field)

=== New default settings===

The default settings in NVGate have been updated to the ones below. With these default settings, you can do rotating analysis measurement directly.
Be aware that if you load an exiting project, the settings will not be affected. You can also easily change these settings.

FFT Overlap: 66%

FFT lines: 3200

FFT Overall low freq : 2 Hz

SOA resolution: 1/8

SOA overlap: 5

SOA OVL lower order: 0.2

Event Delta RPM: Delta velocity 10 rpm

Waterfall Depth: 1000

Tachometer/RPM Profiles/Duration: 120 sec

== New units available ==

[[File:unit.PNG]] New units have been added:

Angular velocity: Hertz

Pressure: Pascal and Bar

Torsionnal velocity: RPM

== [[File:FracTach.png|70px]] Measure all your shafts with 1 tach sensor: virtual tach gear ratio to 100 ==

[[Image:Reports_Tools_Ribbons_356.png]]: Fractional tachometer: computes RPM speed for a non accessible shaft by using gear ratio setting: adapted for gear boxes and transmissions. The ratio can now be set up to 100! (it used to be 2).

-> Used to define up to 4 fractional tachs using data from the tach or the Ext Tach.

[[Image:tacho_ratio.png|500px]]

*'''Tach ratio''': this is the ratio between the output angular speed and the input angular speed. This setting is defined by the product of 2 fractions: N1/D1 * N2/D2 where N1, D1, N2 and D2 are integer values. Tach.1 / Tach.2 ratio maximum value can be set up to 100.
[[File:le100.png|600px]]

== [[File:3shaftordertracking.png| 70px]] Triple shaft order analysis : 3 parallel real time SOA analysis ==

Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.

OROS, leader on rotating vibration analysis, is the only one in the world to let you achieve such a performance.

[[File:3SOA.PNG]]

== [[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines ==

A [https://en.wikipedia.org/wiki/Pressure%E2%80%93volume_diagram pressure–volume diagram] (or PV diagram, or volume–pressure loop) is used to describe corresponding changes in volume and pressure in a system.

[[File:Indicator_diagram_steam_admission.png|400px]]

The diagram records the pressure of steam versus the volume of steam in a cylinder, throughout a piston's cycle of motion in a steam engine. The diagram enables calculation of the work performed and thus can provide a measure of the power produced by the engine.

To exactly calculate the work done by the system it is necessary to calculate the integral of the pressure with respect to volume. One can often quickly calculate this using the PV diagram as it is simply the area enclosed by the cycle.

Download: [[Addons:PV_Diagram#Download| Check the PV diagram page]]

How to use :

[[File:PVdiagram2022.PNG|600px]]

*Define one (or more) channel as a pressure.
*Add this channel into Sync. order (SOA) plug in.
*On SOA plug in , average, domain, select: "Angular"
*Open PV_Diagram.exe
*Click on refresh (right click) in available results if you do not see anything.
*Select the input.
*Compute once will display the PV diagram base once based the last triggerd block.
*"background computation, will continuously compute the diagram.

== [[File:W11.png|70px]]Windows 11 compatibility==

[[File:Windows_11_logo.svg.png|400px]]

This version is compatible and fully tested with the last version of Microsoft Windows 10 and new Microsoft version Windows 11.

== Teamviewer V15 quick support ==

If you have any question for using your OROS analyzer, Teamviewer is a power full tool to take control of your PC and check together your question.
NVGate 2022 include a the new version V15 of teamviwer .

[[File:teamviwer.PNG|200px]]

This version is available on your computer foler here: C:\OROS\NVGate data\Links\TeamViewerQS.exe . You can also donwload using this specific link : https://get.teamviewer.com/orosTV

== NVDrive ==

NVGate software can be fully remote-controlled using an external software package. The commands required for controlling each analyzer function are listed in the NVDrive®library.

=== Toolkit refresh ===

NVDrive toolkit has been refreshed with new examples, new print screen, new tree structure, .dll have been updated for beeing more clear and highlight the python language.
Also we have now only one reference on the price list "ORNV-TOOLKIT" which includes the full toolkit (NVdrive, Matdrive, .oxf, python.).

===New commands: Read Write NVGate user properties (Project / Measurement)===

NVDrive allows you to take control of the analyzer with command lines.
New NVDrive commands have been added on the NVDrive toolkit to read, write and delete the user properties of projects and measurements.

[[File:NVdrive.PNG|500px]]

== New car cigaret lighter plug ==

For OR36 and OR38 analyzer, OROS has designed a new cigaret lighter for beeing able to deliver 24.5V.
You can plug it on 10V-35V cigaret lighter and it will deliver 24.5V on output to power supply OR36 and OR38 analyzer and charge the battery.

It can be ordered with the reference : OR36-8TW-DCCL

[[File:cigaretlightercable.png|500px]]

(Cigaret lighter power supply for OR35, OR34 and OR10 remain available.)

== [[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing ==

ORBIgate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can '''now be used on daisy chained systems''' as NVGate. 
In addition, measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors: 
On top of that ORBIGate features as well an extension of the ratio for the '''Fractional tach feature up to a 100'''.

== New Sound Power V3.20 ==

OROS SOUND POWER Solution has been designed to let you achieve that type of test in the most efficient and accurate way.

This new version includes the following improvements:
* New command to start directly the software on your pre-configured setup
* Option to modify the limit of overall octave filter
* Excel templates fully updated to the last standard
* Full compatibility with NVGate 2022.

Read the dedicated [[Sound Power 3 20|Sound Power 3.20 release note]] for more info.

== Bug fixing ==

* 14133: Record with DC inputs doesn't work for some frequency samplings.
* 14112: Double filter with HP @10HZ in TDA in post analyse: nothing is displayed.
* 14102: Christmas tree with OR35TW is reproduce in a specific configuration.
* 14166: Delete the last value from calibration history.
* 14187: History transducer database can not be display on a japanese windows 10 PC.
* 14190: Random Burst on Block Event.
* 14130: "result selection windows": Lissajous graph is not display .
* 14184: Wrong display of TDA table after copy graph .
* 14210: OCT not possible to set a time constant below 20 ms.
* 14219: Autorange is "Saving the working results".
* 14286: Octave limited range of CPB filter is working strangely.
* 14194: Octave LimitedRange And Reduce SamplingFreq crash NVGate
* 14399: Impossible to compute EVHV Spatiogramme.
* 14290: several Lissajous graphics - cursors are not linked together.
* 14437: Error on NVDrive "NVGS_GetTrackNumberOfSample" Function with SBL > 2GB

NVGate 2022: Release note de

2022-03-14T16:52:28Z

Credaelli: /* Preferences */

[[category:NVGate2022]]

OROS ist bestrebt, nah bei den Anwendern zu sein und aufmerksam auf die Bedürfnisse und das Feedback aus der Praxis zu achten. Darauf aufbauend werden regelmäßig neue Versionen veröffentlicht.

[[File:Splash_screen2022.png|500px]]

 
Die Hauptversion von NVGate® 2022 ist seit Januar 2022 verfügbar. Diese Version der Softwareplattform der Analysatoren der OROS 3-Serie bringt zusätzliche Funktionen und signifikante Leistungsverbesserungen. Nachfolgend finden Sie eine Zusammenfassung der wichtigsten Verbesserungen Ihres NVGate-Erlebnisses: 

'''>> 3''' Hauptgründe, um Ihre '''TEAMWORK Effizienz''' auf das Maximum zu bringen. 

{| class="wikitable" |
|-
! style="background: white;|[[File:READER.png|70px]] 
Erkunden der Daten einfach & frei, ohne jede Lizenz!
! style="background: white;|[[File:Ergonomics.png|70px]] 
Weniger Klicks und größere Effizienz fürs Team
! style="background: white;|[[File:W11.png|70px]] 
Mit den Entwicklungen Schritt halten: die Windows 11 Kompatibilität ist sichergestellt.
|-
| Start von '''NVGate in READER-Modus''' ohne Lizenz und arbeiten Sie mit den Daten bis zum Report. Teilen der Daten mit dem Team oder Partnern: Sie werden in der Lage sein Daten zu sammeln, zu untersuchen, anzuzeigen und zu bearbeiten, und das ohne Lizenz.[[NVGate_2022:_Release_note#NVGate_READER_:_Share_.26_Explore_your_data_Simply_.26_FREEly_.21|>>]] ||
Erleben Sie verbesserte Ergonomie und Intuition dank der optimierten neuen Ribbons und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks,[[NVGate_2022:_Release_note#Enhanced_ERGONOMICS_:_Save_more_clicks_and_push_teams_efficiency_to_the_limits|>>]]

|| Das neue '''Windows 11''' ist veröffentlicht und NVGate 2022 passt sich an, um eine vollständige '''Kompatibilität''' mit der modernen Umgebung sicherzustellen.
|}

'''>> 4''' Hauptmerkmale, um weiterhin die höchste Leistung in der ROTATING-Analyse vorzuschlagen 

{| class="wikitable"
|-
! style="background: white;|[[File:3shaftordertracking.png| 70px]]
3Fache Ordnungsanalyse!
! style="background: white;|[[File:FracTach.png|70px]] Mehreren Wellen mit nur einem Tacho: Virtual tach mit Getriebeverhältnis bis zu 100!
! style="background: white;|[[File:PV.png|70px]] PV Diagramm für Antriebe.
! style="background: white;|[[File:orbigate.png|70px]] Kombinieren Sie Ihre ORBIGate-Systeme: Rotordynamik Messungen mit kaskadierten Systemen.
|-
| Unabhängig davon, ob Ihre Messung an einem Getriebe, einem Kompressor oder sonstigen Maschine mit mehreren Wellen durchgeführt wird, bietet NVGate nun '''3 parallele Ordnungsanalysen''' sowohl im Online- als auch im Office Modus.
| Die Messung von Vibrationen an Maschinen mit mehreren Wellen wie Getrieben kann mehrere Drehzahlmesser erfordern. NVGate 2022 bietet nun größere Übersetzungen für die integrierte virtuelle Tachometerfunktion mit einem '''Verhältnis von bis zu 100''' zwischen schneller und langsamer Welle.
| Das PV-Diagramm ermöglicht es Druck und Volumen gegenüber zu stellen. Das '''PV-Diagramm''' ist als ein neues Add-on verfügbar.
| ORBIGate entwickelt sich weiter. Insbesondere die Rotordynamiklösung kann ebenfalls mit Daisy-Chain-Systemen eingesetzt werden.
|}

Diese Release Note beschreibt den Inhalt der Version mit Betriebsdetails.
 
Um NVGate 2022 herunterzuladen und zu installieren, [[NVGate_2022:_Install_Process|lesen Sie diese Seite]].
 

Kompatibilität: NVGate 2022 ist mit allen OROS-Instrumenten (OR34 V1 - OR35 V1 - OR36 V2 und TW - OR38 V2 und TW-OR10) kompatibel, die nicht abgekündigt wurden. Abhängig von den Hardwareoptionen und der Version können einige Instrumentenfunktionen verfügbar sein oder nicht.

== [[File:READER.png|70px]] NVGate Reader: Erkunden der Daten einfach & frei, ohne jede Lizenz! ==

Starten Sie NVGate im READER-Modus von überall und arbeiten Sie sich bis zum Bericht vor. Ihre Teams und Partner können Ihre Daten einfach und ohne Softwarelizenz erkunden: einfach KOSTENLOS!
Dies ist der allererste Schritt, den Sie tun können, um die Möglichkeiten von OROS und NVGate zu entdecken: unabhängig davon, ob Sie Erfahrung mit Schall und Schwingungen haben oder nicht.

<youtube>https://youtu.be/xfEEQaCxaI4</youtube>

Wenn NVGate 2022 gestartet wird, ohne dass eine Lizenz erkannt wird, wird es im READER-Modus gestartet. Das folgende Dialogfenster wird angezeigt: 
[[File:READER START.png|200px]]
'''Mit dem READER-Modus: '''
* - Verwalten Sie die Daten: [[NVGate_dataset_management#Share_and_collate_dataset|Collate & share data]], filtern und sortieren Sie Daten basierend auf Eigenschaften: so nutzen Sie die Kraft von [[NVGate_dataset_management#Dataset_management|Dataset Management]] 
[[File:reader.PNG|500px]]
* - Zeigen Sie die Daten unabhängig vom Anzeigetyp an 
* - Verwenden Sie die Anzeige- und Analysewerkzeuge: Zoomen, Skalieren, Cursor und Marker zum Lesen der Ergebniswerte 
[[File:DISPLAY.png|400px]]
* - Veröffentlichen Sie automatisierte oder manuelle Berichte 

'''Wie geht es weiter?''' 
Nur Daten, die von einer NVGate 2022-Version erstellt oder geteilt werden, sind mit dem NVGate 2022 READER kompatibel: 
- Für Teams, die eine lizenzierte Version von NVGate verwenden, werden mit NVGate 2022 generierte Daten im Projektmanager gespeichert und sind '''einfach lesbar''', wenn sie im READER-Modus starten 
- Für READER-Benutzer ohne lizenzierte Version von NVGate können die von Ihrem Teammitglied oder Partner GETEILTEN Daten mit der Funktion "[[NVGate_dataset_management#Collate_Datasets|COLLATE]]" importiert werden. 
- Eingebettete Beispiele, die mit der Version installiert werden, sind '''für das Selbsttraining verfügbar''' und können mit der Funktion "[[NVGate_Edit_Measurement|EDIT MEASUREMENT]]" angezeigt werden. 

- Für Benutzer, die Ihre Daten mit Reader-Benutzern [[NVGate_dataset_management#Share_Dataset|TEILEN]] möchten: sie können es mit der [[NVGate_dataset_management#Share_Dataset|"SHARE"]] Funktion tun. 

- In allen Fällen werden gemeinsam genutzte DATEN zunächst auf einer lizenzierten NVGate-Version erstellt, entweder in Echtzeit, wenn sie mit einem OROS-Instrument verbunden ist, oder aus einer Postanalyse basierend auf einem aufgezeichneten Signal 

== Optimierte ERGONOMIE : Weniger Klicks und größere Effizienz fürs Team ==

Erleben Sie die verbesserte Feldergonomie und Intuition dank der optimierten '''neuen Ribbon Tabs''' und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks auf Knopfdruck.

Die Benutzeroberfläche fasst die Funktionen des Analysators in einfachen, übersichtlichen und leicht zu identifizierenden Registerkarten zusammen, die nach den Hauptoperationen organisiert sind (Home, Acquisition, Analysis, Data, Display, Report, Automation, Preferences).

<youtube>https://youtu.be/MRGE2-VLBFg</youtube>

===Tab: neue Anordnung der Buttons===

Die Hauptfunktionen wurden durch eine Benutzeroberfläche hervorgehoben, die die Benutzer zur besten Verwendung ihres Analysators der OROS 3-Serie führt.
Die Softwareeinträge sind in einer logischen Operationsweise organisiert. Es gibt 8 verschiedene Tabs, die dem Hauptoperationstyp entsprechen:

====Home====

[[File:home3.PNG|800px]]

Das Ziel des „Home“ Tab ist es, einen benutzerfreundlichen Tab zum Durchführen einer Messung zu erstellen.
Sie können ein Projekt laden, ein Setup erstellen (über die Gruppe "Go To Results"), eine Erfassung starten, Ihre Daten und den Speicherplatz einsehen und den Benutzer ändern.
Tatsächlich können Sie für viele alltägliche Anwendungen auf diesem Tab bleiben, ohne die andere zu überprüfen.

Wir haben auch haben die Attachement Funktion hervorgehoben [[File:home_attachment_2022.PNG|30px]].

'''Attachment''': Ermöglicht es, schnell zu erkennen, ob Dateien (Berichte, Bilder, Videos ....) an das aktuelle Projekt angehängt sind. Klicken Sie auf diesen Button, um den Attachment-Ordner zu erstellen und/oder zu öffnen.

''Hinweis: Wenn das „Default project“ aktiv ist, ist der Button „Attachment“ ausgegraut.
{|border="0" cellspacing="0" cellpadding="4" width="50%" align="left"
|-
|[[File:home_attachment_2022.PNG|30px]]
| Der „Attachment“ Ordner des aktives Projekts ist leer oder existiert nicht.
|-
|[[File:home_attachment_file_2022.PNG|30px]]
| Datei(en) befinden sich im „Attachment“ -Ordner des aktives Projekts.
|} 

====Acquisition====

Dieser Tab enthält alle notwendigen Einträge, um das Frontend und die Verwendung beliebiger Kanäle im Detail einzurichten. Es trennt die Einrichtung der Eingangskanäle von den Ausgängen, der Triggerung, dem Tachometer und den Filtern.

[[File:Acquisition3.PNG|750px]]

====Analysis====

Auf diesem Tab sammelt die Software die Bedienelemente für Frontend, Recorder und Analyse. Jeder Button entspricht einem Plug-in-Analyzer. Der Inhalt dieses Tabs hängt von den erworbenen optionalen Plug-Ins ab. 
[[File:Analysis3.PNG|700px]]

====Data====

Dieser Tab bietet Funktionen zum Verwalten aller Ihrer Daten, zum Übertragen von Projekten, Messungen, Modellen, zum Exportieren und Importieren Ihrer Daten und zum Filtern des Project Manager.
[[File:Data3.PNG|500px]]

====Display====
Dieser Tab umfasst die Steuerung der Ergebnisanzeige. Es ermöglicht das Erstellen, Ausfüllen, Anordnen und Anzeigen der Fenster und Layouts. Es steuert die Skalierung, Einheiten, Gewichtung und Datenoperationen aller Diagramme, verwaltet die Wasserfälle und Extraktionsdiagramme sowie die Markers.

[[File:display3.PNG|700px]]

Der display Tab wurde mit NVGate 2022 vollständig durchdacht und verbessert. Einige Funktionen wurden hervorgehoben: Einfrieren, Zoomen, Layout hinzufügen.
Der Mausmodus wurde ebenfalls verbessert (Cursor, Marker, Zoom, Move, Rotate). Ein Modus kann jetzt mit einem Klick ausgewählt werden. Außerdem ist der Standard-Mausmodus jetzt immer der Cursormodus, wenn Sie also einen Modus abwählen, kehrt er direkt zum Cursormodus zurück.

====Preferences====

Dieser Tab bietet direkten Zugriff auf die Auswahl des Benutzers, die Benutzereinstellungen und die Sensordatenbank.

[[File:Preference3.PNG|500px]]

====Post analysis button on status bar====

[[File:PA_Status.png]]

On the status bar you have now a direct access to the "online to post analysis" mode.

|[[File:Home_online_to_PA.PNG|30px]]
| '''Online to Post-analysis''': This button is used to switch from Online mode to Post-analysis mode. This will open the ''Select Signal'' window which lists all the recorded signals available. The selected signal will be then playback and can be re-injected into any plug-in analyzer (Monitor, FFT, 1/n Octave...). It is also possible to play back a recorded signal through the Output during Online analysis.

See [[NVGate_Player|player page]] for more details.

====Automation====
The Automation tab contains powerful and helpful tools to automate repetitive tasks made with the analyzers.
[[File:Automation.PNG|700px]]

=== Go to results: one click icons===

New "one click" function have been added on the go to results for more user friendliness.

[[File:gotoresults3.PNG|400px]]

* [[File:viwe recording.PNG|50px]]view recording: will open the signal monitoring window on top of the current layout. In the case of this window is already open in another layout, it swaps to this layout.

* [[File:Add__layout.PNG|40px]] Add Layout: Creates a new layout. A dialog box used to name the new layout is displayed by clicking on the button. A new tab is created and selected, corresponding to the new layout.

* [[File:waterfall settings.PNG|150px]] Opens the waterfall triggering dialog. This dialog allows selecting the trigger of by the waterfall plug-in (only available on profile and waterfall tab).

=== RPM buttons create automatic events===

[[File:auto_rpm.PNG|200px]] The RPM button has now beeing entierly redesigned. Apply this button will automatically put the waterfall trigger on delta RPM or periodic.
This will make the setup of NVGate much more easier for a rotating or run up aplication. (only available on profile or waterfall tab)

In details this button will :

* Create a Delta RPM event, source = the one activated in the "Tach.". Delta velocity : 10 RPM.
* Create a Periodic event (0.5 sec)
* Create a Combined event 1. mode: "Delta RPM OR Periodic 1"
* Set waterfall Trigger to Combined event
* Create of an RPM event (source = the one activated in the tach field)

=== New default settings===

The default settings in NVGate have been updated to the ones below. With these default settings, you can do rotating analysis measurement directly.
Be aware that if you load an exiting project, the settings will not be affected. You can also easily change these settings.

FFT Overlap: 66%

FFT lines: 3200

FFT Overall low freq : 2 Hz

SOA resolution: 1/8

SOA overlap: 5

SOA OVL lower order: 0.2

Event Delta RPM: Delta velocity 10 rpm

Waterfall Depth: 1000

Tachometer/RPM Profiles/Duration: 120 sec

== New units available ==

[[File:unit.PNG]] New units have been added:

Angular velocity: Hertz

Pressure: Pascal and Bar

Torsionnal velocity: RPM

== [[File:FracTach.png|70px]] Measure all your shafts with 1 tach sensor: virtual tach gear ratio to 100 ==

[[Image:Reports_Tools_Ribbons_356.png]]: Fractional tachometer: computes RPM speed for a non accessible shaft by using gear ratio setting: adapted for gear boxes and transmissions. The ratio can now be set up to 100! (it used to be 2).

-> Used to define up to 4 fractional tachs using data from the tach or the Ext Tach.

[[Image:tacho_ratio.png|500px]]

*'''Tach ratio''': this is the ratio between the output angular speed and the input angular speed. This setting is defined by the product of 2 fractions: N1/D1 * N2/D2 where N1, D1, N2 and D2 are integer values. Tach.1 / Tach.2 ratio maximum value can be set up to 100.
[[File:le100.png|600px]]

== [[File:3shaftordertracking.png| 70px]] Triple shaft order analysis : 3 parallel real time SOA analysis ==

Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.

OROS, leader on rotating vibration analysis, is the only one in the world to let you achieve such a performance.

[[File:3SOA.PNG]]

== [[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines ==

A [https://en.wikipedia.org/wiki/Pressure%E2%80%93volume_diagram pressure–volume diagram] (or PV diagram, or volume–pressure loop) is used to describe corresponding changes in volume and pressure in a system.

[[File:Indicator_diagram_steam_admission.png|400px]]

The diagram records the pressure of steam versus the volume of steam in a cylinder, throughout a piston's cycle of motion in a steam engine. The diagram enables calculation of the work performed and thus can provide a measure of the power produced by the engine.

To exactly calculate the work done by the system it is necessary to calculate the integral of the pressure with respect to volume. One can often quickly calculate this using the PV diagram as it is simply the area enclosed by the cycle.

Download: [[Addons:PV_Diagram#Download| Check the PV diagram page]]

How to use :

[[File:PVdiagram2022.PNG|600px]]

*Define one (or more) channel as a pressure.
*Add this channel into Sync. order (SOA) plug in.
*On SOA plug in , average, domain, select: "Angular"
*Open PV_Diagram.exe
*Click on refresh (right click) in available results if you do not see anything.
*Select the input.
*Compute once will display the PV diagram base once based the last triggerd block.
*"background computation, will continuously compute the diagram.

== [[File:W11.png|70px]]Windows 11 compatibility==

[[File:Windows_11_logo.svg.png|400px]]

This version is compatible and fully tested with the last version of Microsoft Windows 10 and new Microsoft version Windows 11.

== Teamviewer V15 quick support ==

If you have any question for using your OROS analyzer, Teamviewer is a power full tool to take control of your PC and check together your question.
NVGate 2022 include a the new version V15 of teamviwer .

[[File:teamviwer.PNG|200px]]

This version is available on your computer foler here: C:\OROS\NVGate data\Links\TeamViewerQS.exe . You can also donwload using this specific link : https://get.teamviewer.com/orosTV

== NVDrive ==

NVGate software can be fully remote-controlled using an external software package. The commands required for controlling each analyzer function are listed in the NVDrive®library.

=== Toolkit refresh ===

NVDrive toolkit has been refreshed with new examples, new print screen, new tree structure, .dll have been updated for beeing more clear and highlight the python language.
Also we have now only one reference on the price list "ORNV-TOOLKIT" which includes the full toolkit (NVdrive, Matdrive, .oxf, python.).

===New commands: Read Write NVGate user properties (Project / Measurement)===

NVDrive allows you to take control of the analyzer with command lines.
New NVDrive commands have been added on the NVDrive toolkit to read, write and delete the user properties of projects and measurements.

[[File:NVdrive.PNG|500px]]

== New car cigaret lighter plug ==

For OR36 and OR38 analyzer, OROS has designed a new cigaret lighter for beeing able to deliver 24.5V.
You can plug it on 10V-35V cigaret lighter and it will deliver 24.5V on output to power supply OR36 and OR38 analyzer and charge the battery.

It can be ordered with the reference : OR36-8TW-DCCL

[[File:cigaretlightercable.png|500px]]

(Cigaret lighter power supply for OR35, OR34 and OR10 remain available.)

== [[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing ==

ORBIgate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can '''now be used on daisy chained systems''' as NVGate. 
In addition, measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors: 
On top of that ORBIGate features as well an extension of the ratio for the '''Fractional tach feature up to a 100'''.

== New Sound Power V3.20 ==

OROS SOUND POWER Solution has been designed to let you achieve that type of test in the most efficient and accurate way.

This new version includes the following improvements:
* New command to start directly the software on your pre-configured setup
* Option to modify the limit of overall octave filter
* Excel templates fully updated to the last standard
* Full compatibility with NVGate 2022.

Read the dedicated [[Sound Power 3 20|Sound Power 3.20 release note]] for more info.

== Bug fixing ==

* 14133: Record with DC inputs doesn't work for some frequency samplings.
* 14112: Double filter with HP @10HZ in TDA in post analyse: nothing is displayed.
* 14102: Christmas tree with OR35TW is reproduce in a specific configuration.
* 14166: Delete the last value from calibration history.
* 14187: History transducer database can not be display on a japanese windows 10 PC.
* 14190: Random Burst on Block Event.
* 14130: "result selection windows": Lissajous graph is not display .
* 14184: Wrong display of TDA table after copy graph .
* 14210: OCT not possible to set a time constant below 20 ms.
* 14219: Autorange is "Saving the working results".
* 14286: Octave limited range of CPB filter is working strangely.
* 14194: Octave LimitedRange And Reduce SamplingFreq crash NVGate
* 14399: Impossible to compute EVHV Spatiogramme.
* 14290: several Lissajous graphics - cursors are not linked together.
* 14437: Error on NVDrive "NVGS_GetTrackNumberOfSample" Function with SBL > 2GB

NVGate 2022: Release note de

2022-03-14T16:51:44Z

Credaelli: /* Display */

[[category:NVGate2022]]

OROS ist bestrebt, nah bei den Anwendern zu sein und aufmerksam auf die Bedürfnisse und das Feedback aus der Praxis zu achten. Darauf aufbauend werden regelmäßig neue Versionen veröffentlicht.

[[File:Splash_screen2022.png|500px]]

 
Die Hauptversion von NVGate® 2022 ist seit Januar 2022 verfügbar. Diese Version der Softwareplattform der Analysatoren der OROS 3-Serie bringt zusätzliche Funktionen und signifikante Leistungsverbesserungen. Nachfolgend finden Sie eine Zusammenfassung der wichtigsten Verbesserungen Ihres NVGate-Erlebnisses: 

'''>> 3''' Hauptgründe, um Ihre '''TEAMWORK Effizienz''' auf das Maximum zu bringen. 

{| class="wikitable" |
|-
! style="background: white;|[[File:READER.png|70px]] 
Erkunden der Daten einfach & frei, ohne jede Lizenz!
! style="background: white;|[[File:Ergonomics.png|70px]] 
Weniger Klicks und größere Effizienz fürs Team
! style="background: white;|[[File:W11.png|70px]] 
Mit den Entwicklungen Schritt halten: die Windows 11 Kompatibilität ist sichergestellt.
|-
| Start von '''NVGate in READER-Modus''' ohne Lizenz und arbeiten Sie mit den Daten bis zum Report. Teilen der Daten mit dem Team oder Partnern: Sie werden in der Lage sein Daten zu sammeln, zu untersuchen, anzuzeigen und zu bearbeiten, und das ohne Lizenz.[[NVGate_2022:_Release_note#NVGate_READER_:_Share_.26_Explore_your_data_Simply_.26_FREEly_.21|>>]] ||
Erleben Sie verbesserte Ergonomie und Intuition dank der optimierten neuen Ribbons und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks,[[NVGate_2022:_Release_note#Enhanced_ERGONOMICS_:_Save_more_clicks_and_push_teams_efficiency_to_the_limits|>>]]

|| Das neue '''Windows 11''' ist veröffentlicht und NVGate 2022 passt sich an, um eine vollständige '''Kompatibilität''' mit der modernen Umgebung sicherzustellen.
|}

'''>> 4''' Hauptmerkmale, um weiterhin die höchste Leistung in der ROTATING-Analyse vorzuschlagen 

{| class="wikitable"
|-
! style="background: white;|[[File:3shaftordertracking.png| 70px]]
3Fache Ordnungsanalyse!
! style="background: white;|[[File:FracTach.png|70px]] Mehreren Wellen mit nur einem Tacho: Virtual tach mit Getriebeverhältnis bis zu 100!
! style="background: white;|[[File:PV.png|70px]] PV Diagramm für Antriebe.
! style="background: white;|[[File:orbigate.png|70px]] Kombinieren Sie Ihre ORBIGate-Systeme: Rotordynamik Messungen mit kaskadierten Systemen.
|-
| Unabhängig davon, ob Ihre Messung an einem Getriebe, einem Kompressor oder sonstigen Maschine mit mehreren Wellen durchgeführt wird, bietet NVGate nun '''3 parallele Ordnungsanalysen''' sowohl im Online- als auch im Office Modus.
| Die Messung von Vibrationen an Maschinen mit mehreren Wellen wie Getrieben kann mehrere Drehzahlmesser erfordern. NVGate 2022 bietet nun größere Übersetzungen für die integrierte virtuelle Tachometerfunktion mit einem '''Verhältnis von bis zu 100''' zwischen schneller und langsamer Welle.
| Das PV-Diagramm ermöglicht es Druck und Volumen gegenüber zu stellen. Das '''PV-Diagramm''' ist als ein neues Add-on verfügbar.
| ORBIGate entwickelt sich weiter. Insbesondere die Rotordynamiklösung kann ebenfalls mit Daisy-Chain-Systemen eingesetzt werden.
|}

Diese Release Note beschreibt den Inhalt der Version mit Betriebsdetails.
 
Um NVGate 2022 herunterzuladen und zu installieren, [[NVGate_2022:_Install_Process|lesen Sie diese Seite]].
 

Kompatibilität: NVGate 2022 ist mit allen OROS-Instrumenten (OR34 V1 - OR35 V1 - OR36 V2 und TW - OR38 V2 und TW-OR10) kompatibel, die nicht abgekündigt wurden. Abhängig von den Hardwareoptionen und der Version können einige Instrumentenfunktionen verfügbar sein oder nicht.

== [[File:READER.png|70px]] NVGate Reader: Erkunden der Daten einfach & frei, ohne jede Lizenz! ==

Starten Sie NVGate im READER-Modus von überall und arbeiten Sie sich bis zum Bericht vor. Ihre Teams und Partner können Ihre Daten einfach und ohne Softwarelizenz erkunden: einfach KOSTENLOS!
Dies ist der allererste Schritt, den Sie tun können, um die Möglichkeiten von OROS und NVGate zu entdecken: unabhängig davon, ob Sie Erfahrung mit Schall und Schwingungen haben oder nicht.

<youtube>https://youtu.be/xfEEQaCxaI4</youtube>

Wenn NVGate 2022 gestartet wird, ohne dass eine Lizenz erkannt wird, wird es im READER-Modus gestartet. Das folgende Dialogfenster wird angezeigt: 
[[File:READER START.png|200px]]
'''Mit dem READER-Modus: '''
* - Verwalten Sie die Daten: [[NVGate_dataset_management#Share_and_collate_dataset|Collate & share data]], filtern und sortieren Sie Daten basierend auf Eigenschaften: so nutzen Sie die Kraft von [[NVGate_dataset_management#Dataset_management|Dataset Management]] 
[[File:reader.PNG|500px]]
* - Zeigen Sie die Daten unabhängig vom Anzeigetyp an 
* - Verwenden Sie die Anzeige- und Analysewerkzeuge: Zoomen, Skalieren, Cursor und Marker zum Lesen der Ergebniswerte 
[[File:DISPLAY.png|400px]]
* - Veröffentlichen Sie automatisierte oder manuelle Berichte 

'''Wie geht es weiter?''' 
Nur Daten, die von einer NVGate 2022-Version erstellt oder geteilt werden, sind mit dem NVGate 2022 READER kompatibel: 
- Für Teams, die eine lizenzierte Version von NVGate verwenden, werden mit NVGate 2022 generierte Daten im Projektmanager gespeichert und sind '''einfach lesbar''', wenn sie im READER-Modus starten 
- Für READER-Benutzer ohne lizenzierte Version von NVGate können die von Ihrem Teammitglied oder Partner GETEILTEN Daten mit der Funktion "[[NVGate_dataset_management#Collate_Datasets|COLLATE]]" importiert werden. 
- Eingebettete Beispiele, die mit der Version installiert werden, sind '''für das Selbsttraining verfügbar''' und können mit der Funktion "[[NVGate_Edit_Measurement|EDIT MEASUREMENT]]" angezeigt werden. 

- Für Benutzer, die Ihre Daten mit Reader-Benutzern [[NVGate_dataset_management#Share_Dataset|TEILEN]] möchten: sie können es mit der [[NVGate_dataset_management#Share_Dataset|"SHARE"]] Funktion tun. 

- In allen Fällen werden gemeinsam genutzte DATEN zunächst auf einer lizenzierten NVGate-Version erstellt, entweder in Echtzeit, wenn sie mit einem OROS-Instrument verbunden ist, oder aus einer Postanalyse basierend auf einem aufgezeichneten Signal 

== Optimierte ERGONOMIE : Weniger Klicks und größere Effizienz fürs Team ==

Erleben Sie die verbesserte Feldergonomie und Intuition dank der optimierten '''neuen Ribbon Tabs''' und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks auf Knopfdruck.

Die Benutzeroberfläche fasst die Funktionen des Analysators in einfachen, übersichtlichen und leicht zu identifizierenden Registerkarten zusammen, die nach den Hauptoperationen organisiert sind (Home, Acquisition, Analysis, Data, Display, Report, Automation, Preferences).

<youtube>https://youtu.be/MRGE2-VLBFg</youtube>

===Tab: neue Anordnung der Buttons===

Die Hauptfunktionen wurden durch eine Benutzeroberfläche hervorgehoben, die die Benutzer zur besten Verwendung ihres Analysators der OROS 3-Serie führt.
Die Softwareeinträge sind in einer logischen Operationsweise organisiert. Es gibt 8 verschiedene Tabs, die dem Hauptoperationstyp entsprechen:

====Home====

[[File:home3.PNG|800px]]

Das Ziel des „Home“ Tab ist es, einen benutzerfreundlichen Tab zum Durchführen einer Messung zu erstellen.
Sie können ein Projekt laden, ein Setup erstellen (über die Gruppe "Go To Results"), eine Erfassung starten, Ihre Daten und den Speicherplatz einsehen und den Benutzer ändern.
Tatsächlich können Sie für viele alltägliche Anwendungen auf diesem Tab bleiben, ohne die andere zu überprüfen.

Wir haben auch haben die Attachement Funktion hervorgehoben [[File:home_attachment_2022.PNG|30px]].

'''Attachment''': Ermöglicht es, schnell zu erkennen, ob Dateien (Berichte, Bilder, Videos ....) an das aktuelle Projekt angehängt sind. Klicken Sie auf diesen Button, um den Attachment-Ordner zu erstellen und/oder zu öffnen.

''Hinweis: Wenn das „Default project“ aktiv ist, ist der Button „Attachment“ ausgegraut.
{|border="0" cellspacing="0" cellpadding="4" width="50%" align="left"
|-
|[[File:home_attachment_2022.PNG|30px]]
| Der „Attachment“ Ordner des aktives Projekts ist leer oder existiert nicht.
|-
|[[File:home_attachment_file_2022.PNG|30px]]
| Datei(en) befinden sich im „Attachment“ -Ordner des aktives Projekts.
|} 

====Acquisition====

Dieser Tab enthält alle notwendigen Einträge, um das Frontend und die Verwendung beliebiger Kanäle im Detail einzurichten. Es trennt die Einrichtung der Eingangskanäle von den Ausgängen, der Triggerung, dem Tachometer und den Filtern.

[[File:Acquisition3.PNG|750px]]

====Analysis====

Auf diesem Tab sammelt die Software die Bedienelemente für Frontend, Recorder und Analyse. Jeder Button entspricht einem Plug-in-Analyzer. Der Inhalt dieses Tabs hängt von den erworbenen optionalen Plug-Ins ab. 
[[File:Analysis3.PNG|700px]]

====Data====

Dieser Tab bietet Funktionen zum Verwalten aller Ihrer Daten, zum Übertragen von Projekten, Messungen, Modellen, zum Exportieren und Importieren Ihrer Daten und zum Filtern des Project Manager.
[[File:Data3.PNG|500px]]

====Display====
Dieser Tab umfasst die Steuerung der Ergebnisanzeige. Es ermöglicht das Erstellen, Ausfüllen, Anordnen und Anzeigen der Fenster und Layouts. Es steuert die Skalierung, Einheiten, Gewichtung und Datenoperationen aller Diagramme, verwaltet die Wasserfälle und Extraktionsdiagramme sowie die Markers.

[[File:display3.PNG|700px]]

Der display Tab wurde mit NVGate 2022 vollständig durchdacht und verbessert. Einige Funktionen wurden hervorgehoben: Einfrieren, Zoomen, Layout hinzufügen.
Der Mausmodus wurde ebenfalls verbessert (Cursor, Marker, Zoom, Move, Rotate). Ein Modus kann jetzt mit einem Klick ausgewählt werden. Außerdem ist der Standard-Mausmodus jetzt immer der Cursormodus, wenn Sie also einen Modus abwählen, kehrt er direkt zum Cursormodus zurück.

====Preferences====

This tab provides direct access to the user’s definition, user's preferences and sensor database.

[[File:Preference3.PNG|500px]]

====Post analysis button on status bar====

[[File:PA_Status.png]]

On the status bar you have now a direct access to the "online to post analysis" mode.

|[[File:Home_online_to_PA.PNG|30px]]
| '''Online to Post-analysis''': This button is used to switch from Online mode to Post-analysis mode. This will open the ''Select Signal'' window which lists all the recorded signals available. The selected signal will be then playback and can be re-injected into any plug-in analyzer (Monitor, FFT, 1/n Octave...). It is also possible to play back a recorded signal through the Output during Online analysis.

See [[NVGate_Player|player page]] for more details.

====Automation====
The Automation tab contains powerful and helpful tools to automate repetitive tasks made with the analyzers.
[[File:Automation.PNG|700px]]

=== Go to results: one click icons===

New "one click" function have been added on the go to results for more user friendliness.

[[File:gotoresults3.PNG|400px]]

* [[File:viwe recording.PNG|50px]]view recording: will open the signal monitoring window on top of the current layout. In the case of this window is already open in another layout, it swaps to this layout.

* [[File:Add__layout.PNG|40px]] Add Layout: Creates a new layout. A dialog box used to name the new layout is displayed by clicking on the button. A new tab is created and selected, corresponding to the new layout.

* [[File:waterfall settings.PNG|150px]] Opens the waterfall triggering dialog. This dialog allows selecting the trigger of by the waterfall plug-in (only available on profile and waterfall tab).

=== RPM buttons create automatic events===

[[File:auto_rpm.PNG|200px]] The RPM button has now beeing entierly redesigned. Apply this button will automatically put the waterfall trigger on delta RPM or periodic.
This will make the setup of NVGate much more easier for a rotating or run up aplication. (only available on profile or waterfall tab)

In details this button will :

* Create a Delta RPM event, source = the one activated in the "Tach.". Delta velocity : 10 RPM.
* Create a Periodic event (0.5 sec)
* Create a Combined event 1. mode: "Delta RPM OR Periodic 1"
* Set waterfall Trigger to Combined event
* Create of an RPM event (source = the one activated in the tach field)

=== New default settings===

The default settings in NVGate have been updated to the ones below. With these default settings, you can do rotating analysis measurement directly.
Be aware that if you load an exiting project, the settings will not be affected. You can also easily change these settings.

FFT Overlap: 66%

FFT lines: 3200

FFT Overall low freq : 2 Hz

SOA resolution: 1/8

SOA overlap: 5

SOA OVL lower order: 0.2

Event Delta RPM: Delta velocity 10 rpm

Waterfall Depth: 1000

Tachometer/RPM Profiles/Duration: 120 sec

== New units available ==

[[File:unit.PNG]] New units have been added:

Angular velocity: Hertz

Pressure: Pascal and Bar

Torsionnal velocity: RPM

== [[File:FracTach.png|70px]] Measure all your shafts with 1 tach sensor: virtual tach gear ratio to 100 ==

[[Image:Reports_Tools_Ribbons_356.png]]: Fractional tachometer: computes RPM speed for a non accessible shaft by using gear ratio setting: adapted for gear boxes and transmissions. The ratio can now be set up to 100! (it used to be 2).

-> Used to define up to 4 fractional tachs using data from the tach or the Ext Tach.

[[Image:tacho_ratio.png|500px]]

*'''Tach ratio''': this is the ratio between the output angular speed and the input angular speed. This setting is defined by the product of 2 fractions: N1/D1 * N2/D2 where N1, D1, N2 and D2 are integer values. Tach.1 / Tach.2 ratio maximum value can be set up to 100.
[[File:le100.png|600px]]

== [[File:3shaftordertracking.png| 70px]] Triple shaft order analysis : 3 parallel real time SOA analysis ==

Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.

OROS, leader on rotating vibration analysis, is the only one in the world to let you achieve such a performance.

[[File:3SOA.PNG]]

== [[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines ==

A [https://en.wikipedia.org/wiki/Pressure%E2%80%93volume_diagram pressure–volume diagram] (or PV diagram, or volume–pressure loop) is used to describe corresponding changes in volume and pressure in a system.

[[File:Indicator_diagram_steam_admission.png|400px]]

The diagram records the pressure of steam versus the volume of steam in a cylinder, throughout a piston's cycle of motion in a steam engine. The diagram enables calculation of the work performed and thus can provide a measure of the power produced by the engine.

To exactly calculate the work done by the system it is necessary to calculate the integral of the pressure with respect to volume. One can often quickly calculate this using the PV diagram as it is simply the area enclosed by the cycle.

Download: [[Addons:PV_Diagram#Download| Check the PV diagram page]]

How to use :

[[File:PVdiagram2022.PNG|600px]]

*Define one (or more) channel as a pressure.
*Add this channel into Sync. order (SOA) plug in.
*On SOA plug in , average, domain, select: "Angular"
*Open PV_Diagram.exe
*Click on refresh (right click) in available results if you do not see anything.
*Select the input.
*Compute once will display the PV diagram base once based the last triggerd block.
*"background computation, will continuously compute the diagram.

== [[File:W11.png|70px]]Windows 11 compatibility==

[[File:Windows_11_logo.svg.png|400px]]

This version is compatible and fully tested with the last version of Microsoft Windows 10 and new Microsoft version Windows 11.

== Teamviewer V15 quick support ==

If you have any question for using your OROS analyzer, Teamviewer is a power full tool to take control of your PC and check together your question.
NVGate 2022 include a the new version V15 of teamviwer .

[[File:teamviwer.PNG|200px]]

This version is available on your computer foler here: C:\OROS\NVGate data\Links\TeamViewerQS.exe . You can also donwload using this specific link : https://get.teamviewer.com/orosTV

== NVDrive ==

NVGate software can be fully remote-controlled using an external software package. The commands required for controlling each analyzer function are listed in the NVDrive®library.

=== Toolkit refresh ===

NVDrive toolkit has been refreshed with new examples, new print screen, new tree structure, .dll have been updated for beeing more clear and highlight the python language.
Also we have now only one reference on the price list "ORNV-TOOLKIT" which includes the full toolkit (NVdrive, Matdrive, .oxf, python.).

===New commands: Read Write NVGate user properties (Project / Measurement)===

NVDrive allows you to take control of the analyzer with command lines.
New NVDrive commands have been added on the NVDrive toolkit to read, write and delete the user properties of projects and measurements.

[[File:NVdrive.PNG|500px]]

== New car cigaret lighter plug ==

For OR36 and OR38 analyzer, OROS has designed a new cigaret lighter for beeing able to deliver 24.5V.
You can plug it on 10V-35V cigaret lighter and it will deliver 24.5V on output to power supply OR36 and OR38 analyzer and charge the battery.

It can be ordered with the reference : OR36-8TW-DCCL

[[File:cigaretlightercable.png|500px]]

(Cigaret lighter power supply for OR35, OR34 and OR10 remain available.)

== [[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing ==

ORBIgate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can '''now be used on daisy chained systems''' as NVGate. 
In addition, measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors: 
On top of that ORBIGate features as well an extension of the ratio for the '''Fractional tach feature up to a 100'''.

== New Sound Power V3.20 ==

OROS SOUND POWER Solution has been designed to let you achieve that type of test in the most efficient and accurate way.

This new version includes the following improvements:
* New command to start directly the software on your pre-configured setup
* Option to modify the limit of overall octave filter
* Excel templates fully updated to the last standard
* Full compatibility with NVGate 2022.

Read the dedicated [[Sound Power 3 20|Sound Power 3.20 release note]] for more info.

== Bug fixing ==

* 14133: Record with DC inputs doesn't work for some frequency samplings.
* 14112: Double filter with HP @10HZ in TDA in post analyse: nothing is displayed.
* 14102: Christmas tree with OR35TW is reproduce in a specific configuration.
* 14166: Delete the last value from calibration history.
* 14187: History transducer database can not be display on a japanese windows 10 PC.
* 14190: Random Burst on Block Event.
* 14130: "result selection windows": Lissajous graph is not display .
* 14184: Wrong display of TDA table after copy graph .
* 14210: OCT not possible to set a time constant below 20 ms.
* 14219: Autorange is "Saving the working results".
* 14286: Octave limited range of CPB filter is working strangely.
* 14194: Octave LimitedRange And Reduce SamplingFreq crash NVGate
* 14399: Impossible to compute EVHV Spatiogramme.
* 14290: several Lissajous graphics - cursors are not linked together.
* 14437: Error on NVDrive "NVGS_GetTrackNumberOfSample" Function with SBL > 2GB

NVGate 2022: Release note de

2022-03-14T16:49:54Z

Credaelli: /* Data */

[[category:NVGate2022]]

OROS ist bestrebt, nah bei den Anwendern zu sein und aufmerksam auf die Bedürfnisse und das Feedback aus der Praxis zu achten. Darauf aufbauend werden regelmäßig neue Versionen veröffentlicht.

[[File:Splash_screen2022.png|500px]]

 
Die Hauptversion von NVGate® 2022 ist seit Januar 2022 verfügbar. Diese Version der Softwareplattform der Analysatoren der OROS 3-Serie bringt zusätzliche Funktionen und signifikante Leistungsverbesserungen. Nachfolgend finden Sie eine Zusammenfassung der wichtigsten Verbesserungen Ihres NVGate-Erlebnisses: 

'''>> 3''' Hauptgründe, um Ihre '''TEAMWORK Effizienz''' auf das Maximum zu bringen. 

{| class="wikitable" |
|-
! style="background: white;|[[File:READER.png|70px]] 
Erkunden der Daten einfach & frei, ohne jede Lizenz!
! style="background: white;|[[File:Ergonomics.png|70px]] 
Weniger Klicks und größere Effizienz fürs Team
! style="background: white;|[[File:W11.png|70px]] 
Mit den Entwicklungen Schritt halten: die Windows 11 Kompatibilität ist sichergestellt.
|-
| Start von '''NVGate in READER-Modus''' ohne Lizenz und arbeiten Sie mit den Daten bis zum Report. Teilen der Daten mit dem Team oder Partnern: Sie werden in der Lage sein Daten zu sammeln, zu untersuchen, anzuzeigen und zu bearbeiten, und das ohne Lizenz.[[NVGate_2022:_Release_note#NVGate_READER_:_Share_.26_Explore_your_data_Simply_.26_FREEly_.21|>>]] ||
Erleben Sie verbesserte Ergonomie und Intuition dank der optimierten neuen Ribbons und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks,[[NVGate_2022:_Release_note#Enhanced_ERGONOMICS_:_Save_more_clicks_and_push_teams_efficiency_to_the_limits|>>]]

|| Das neue '''Windows 11''' ist veröffentlicht und NVGate 2022 passt sich an, um eine vollständige '''Kompatibilität''' mit der modernen Umgebung sicherzustellen.
|}

'''>> 4''' Hauptmerkmale, um weiterhin die höchste Leistung in der ROTATING-Analyse vorzuschlagen 

{| class="wikitable"
|-
! style="background: white;|[[File:3shaftordertracking.png| 70px]]
3Fache Ordnungsanalyse!
! style="background: white;|[[File:FracTach.png|70px]] Mehreren Wellen mit nur einem Tacho: Virtual tach mit Getriebeverhältnis bis zu 100!
! style="background: white;|[[File:PV.png|70px]] PV Diagramm für Antriebe.
! style="background: white;|[[File:orbigate.png|70px]] Kombinieren Sie Ihre ORBIGate-Systeme: Rotordynamik Messungen mit kaskadierten Systemen.
|-
| Unabhängig davon, ob Ihre Messung an einem Getriebe, einem Kompressor oder sonstigen Maschine mit mehreren Wellen durchgeführt wird, bietet NVGate nun '''3 parallele Ordnungsanalysen''' sowohl im Online- als auch im Office Modus.
| Die Messung von Vibrationen an Maschinen mit mehreren Wellen wie Getrieben kann mehrere Drehzahlmesser erfordern. NVGate 2022 bietet nun größere Übersetzungen für die integrierte virtuelle Tachometerfunktion mit einem '''Verhältnis von bis zu 100''' zwischen schneller und langsamer Welle.
| Das PV-Diagramm ermöglicht es Druck und Volumen gegenüber zu stellen. Das '''PV-Diagramm''' ist als ein neues Add-on verfügbar.
| ORBIGate entwickelt sich weiter. Insbesondere die Rotordynamiklösung kann ebenfalls mit Daisy-Chain-Systemen eingesetzt werden.
|}

Diese Release Note beschreibt den Inhalt der Version mit Betriebsdetails.
 
Um NVGate 2022 herunterzuladen und zu installieren, [[NVGate_2022:_Install_Process|lesen Sie diese Seite]].
 

Kompatibilität: NVGate 2022 ist mit allen OROS-Instrumenten (OR34 V1 - OR35 V1 - OR36 V2 und TW - OR38 V2 und TW-OR10) kompatibel, die nicht abgekündigt wurden. Abhängig von den Hardwareoptionen und der Version können einige Instrumentenfunktionen verfügbar sein oder nicht.

== [[File:READER.png|70px]] NVGate Reader: Erkunden der Daten einfach & frei, ohne jede Lizenz! ==

Starten Sie NVGate im READER-Modus von überall und arbeiten Sie sich bis zum Bericht vor. Ihre Teams und Partner können Ihre Daten einfach und ohne Softwarelizenz erkunden: einfach KOSTENLOS!
Dies ist der allererste Schritt, den Sie tun können, um die Möglichkeiten von OROS und NVGate zu entdecken: unabhängig davon, ob Sie Erfahrung mit Schall und Schwingungen haben oder nicht.

<youtube>https://youtu.be/xfEEQaCxaI4</youtube>

Wenn NVGate 2022 gestartet wird, ohne dass eine Lizenz erkannt wird, wird es im READER-Modus gestartet. Das folgende Dialogfenster wird angezeigt: 
[[File:READER START.png|200px]]
'''Mit dem READER-Modus: '''
* - Verwalten Sie die Daten: [[NVGate_dataset_management#Share_and_collate_dataset|Collate & share data]], filtern und sortieren Sie Daten basierend auf Eigenschaften: so nutzen Sie die Kraft von [[NVGate_dataset_management#Dataset_management|Dataset Management]] 
[[File:reader.PNG|500px]]
* - Zeigen Sie die Daten unabhängig vom Anzeigetyp an 
* - Verwenden Sie die Anzeige- und Analysewerkzeuge: Zoomen, Skalieren, Cursor und Marker zum Lesen der Ergebniswerte 
[[File:DISPLAY.png|400px]]
* - Veröffentlichen Sie automatisierte oder manuelle Berichte 

'''Wie geht es weiter?''' 
Nur Daten, die von einer NVGate 2022-Version erstellt oder geteilt werden, sind mit dem NVGate 2022 READER kompatibel: 
- Für Teams, die eine lizenzierte Version von NVGate verwenden, werden mit NVGate 2022 generierte Daten im Projektmanager gespeichert und sind '''einfach lesbar''', wenn sie im READER-Modus starten 
- Für READER-Benutzer ohne lizenzierte Version von NVGate können die von Ihrem Teammitglied oder Partner GETEILTEN Daten mit der Funktion "[[NVGate_dataset_management#Collate_Datasets|COLLATE]]" importiert werden. 
- Eingebettete Beispiele, die mit der Version installiert werden, sind '''für das Selbsttraining verfügbar''' und können mit der Funktion "[[NVGate_Edit_Measurement|EDIT MEASUREMENT]]" angezeigt werden. 

- Für Benutzer, die Ihre Daten mit Reader-Benutzern [[NVGate_dataset_management#Share_Dataset|TEILEN]] möchten: sie können es mit der [[NVGate_dataset_management#Share_Dataset|"SHARE"]] Funktion tun. 

- In allen Fällen werden gemeinsam genutzte DATEN zunächst auf einer lizenzierten NVGate-Version erstellt, entweder in Echtzeit, wenn sie mit einem OROS-Instrument verbunden ist, oder aus einer Postanalyse basierend auf einem aufgezeichneten Signal 

== Optimierte ERGONOMIE : Weniger Klicks und größere Effizienz fürs Team ==

Erleben Sie die verbesserte Feldergonomie und Intuition dank der optimierten '''neuen Ribbon Tabs''' und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks auf Knopfdruck.

Die Benutzeroberfläche fasst die Funktionen des Analysators in einfachen, übersichtlichen und leicht zu identifizierenden Registerkarten zusammen, die nach den Hauptoperationen organisiert sind (Home, Acquisition, Analysis, Data, Display, Report, Automation, Preferences).

<youtube>https://youtu.be/MRGE2-VLBFg</youtube>

===Tab: neue Anordnung der Buttons===

Die Hauptfunktionen wurden durch eine Benutzeroberfläche hervorgehoben, die die Benutzer zur besten Verwendung ihres Analysators der OROS 3-Serie führt.
Die Softwareeinträge sind in einer logischen Operationsweise organisiert. Es gibt 8 verschiedene Tabs, die dem Hauptoperationstyp entsprechen:

====Home====

[[File:home3.PNG|800px]]

Das Ziel des „Home“ Tab ist es, einen benutzerfreundlichen Tab zum Durchführen einer Messung zu erstellen.
Sie können ein Projekt laden, ein Setup erstellen (über die Gruppe "Go To Results"), eine Erfassung starten, Ihre Daten und den Speicherplatz einsehen und den Benutzer ändern.
Tatsächlich können Sie für viele alltägliche Anwendungen auf diesem Tab bleiben, ohne die andere zu überprüfen.

Wir haben auch haben die Attachement Funktion hervorgehoben [[File:home_attachment_2022.PNG|30px]].

'''Attachment''': Ermöglicht es, schnell zu erkennen, ob Dateien (Berichte, Bilder, Videos ....) an das aktuelle Projekt angehängt sind. Klicken Sie auf diesen Button, um den Attachment-Ordner zu erstellen und/oder zu öffnen.

''Hinweis: Wenn das „Default project“ aktiv ist, ist der Button „Attachment“ ausgegraut.
{|border="0" cellspacing="0" cellpadding="4" width="50%" align="left"
|-
|[[File:home_attachment_2022.PNG|30px]]
| Der „Attachment“ Ordner des aktives Projekts ist leer oder existiert nicht.
|-
|[[File:home_attachment_file_2022.PNG|30px]]
| Datei(en) befinden sich im „Attachment“ -Ordner des aktives Projekts.
|} 

====Acquisition====

Dieser Tab enthält alle notwendigen Einträge, um das Frontend und die Verwendung beliebiger Kanäle im Detail einzurichten. Es trennt die Einrichtung der Eingangskanäle von den Ausgängen, der Triggerung, dem Tachometer und den Filtern.

[[File:Acquisition3.PNG|750px]]

====Analysis====

Auf diesem Tab sammelt die Software die Bedienelemente für Frontend, Recorder und Analyse. Jeder Button entspricht einem Plug-in-Analyzer. Der Inhalt dieses Tabs hängt von den erworbenen optionalen Plug-Ins ab. 
[[File:Analysis3.PNG|700px]]

====Data====

Dieser Tab bietet Funktionen zum Verwalten aller Ihrer Daten, zum Übertragen von Projekten, Messungen, Modellen, zum Exportieren und Importieren Ihrer Daten und zum Filtern des Project Manager.
[[File:Data3.PNG|500px]]

====Display====
This tab covers the results display control. It allows creating, fulfilling, arranging and viewing the windows and layouts. It controls the scale, units, weighting and data operations of any graphs, manages the waterfalls and extraction graphs and the markers.

[[File:display3.PNG|700px]]

The display tab has been entirely thought and improved with NVGate 2022. Some functions have been highlighted : freeze, zoom, add layout.
The mouse mode has been also improved (cursor, marker, zoom, move, rotate). One mode can now be selected in one click. Also now the default mouse mode will always be the cursor mode, so if you unselect a mode it will go back directly to the cursor mode.

====Preferences====

This tab provides direct access to the user’s definition, user's preferences and sensor database.

[[File:Preference3.PNG|500px]]

====Post analysis button on status bar====

[[File:PA_Status.png]]

On the status bar you have now a direct access to the "online to post analysis" mode.

|[[File:Home_online_to_PA.PNG|30px]]
| '''Online to Post-analysis''': This button is used to switch from Online mode to Post-analysis mode. This will open the ''Select Signal'' window which lists all the recorded signals available. The selected signal will be then playback and can be re-injected into any plug-in analyzer (Monitor, FFT, 1/n Octave...). It is also possible to play back a recorded signal through the Output during Online analysis.

See [[NVGate_Player|player page]] for more details.

====Automation====
The Automation tab contains powerful and helpful tools to automate repetitive tasks made with the analyzers.
[[File:Automation.PNG|700px]]

=== Go to results: one click icons===

New "one click" function have been added on the go to results for more user friendliness.

[[File:gotoresults3.PNG|400px]]

* [[File:viwe recording.PNG|50px]]view recording: will open the signal monitoring window on top of the current layout. In the case of this window is already open in another layout, it swaps to this layout.

* [[File:Add__layout.PNG|40px]] Add Layout: Creates a new layout. A dialog box used to name the new layout is displayed by clicking on the button. A new tab is created and selected, corresponding to the new layout.

* [[File:waterfall settings.PNG|150px]] Opens the waterfall triggering dialog. This dialog allows selecting the trigger of by the waterfall plug-in (only available on profile and waterfall tab).

=== RPM buttons create automatic events===

[[File:auto_rpm.PNG|200px]] The RPM button has now beeing entierly redesigned. Apply this button will automatically put the waterfall trigger on delta RPM or periodic.
This will make the setup of NVGate much more easier for a rotating or run up aplication. (only available on profile or waterfall tab)

In details this button will :

* Create a Delta RPM event, source = the one activated in the "Tach.". Delta velocity : 10 RPM.
* Create a Periodic event (0.5 sec)
* Create a Combined event 1. mode: "Delta RPM OR Periodic 1"
* Set waterfall Trigger to Combined event
* Create of an RPM event (source = the one activated in the tach field)

=== New default settings===

The default settings in NVGate have been updated to the ones below. With these default settings, you can do rotating analysis measurement directly.
Be aware that if you load an exiting project, the settings will not be affected. You can also easily change these settings.

FFT Overlap: 66%

FFT lines: 3200

FFT Overall low freq : 2 Hz

SOA resolution: 1/8

SOA overlap: 5

SOA OVL lower order: 0.2

Event Delta RPM: Delta velocity 10 rpm

Waterfall Depth: 1000

Tachometer/RPM Profiles/Duration: 120 sec

== New units available ==

[[File:unit.PNG]] New units have been added:

Angular velocity: Hertz

Pressure: Pascal and Bar

Torsionnal velocity: RPM

== [[File:FracTach.png|70px]] Measure all your shafts with 1 tach sensor: virtual tach gear ratio to 100 ==

[[Image:Reports_Tools_Ribbons_356.png]]: Fractional tachometer: computes RPM speed for a non accessible shaft by using gear ratio setting: adapted for gear boxes and transmissions. The ratio can now be set up to 100! (it used to be 2).

-> Used to define up to 4 fractional tachs using data from the tach or the Ext Tach.

[[Image:tacho_ratio.png|500px]]

*'''Tach ratio''': this is the ratio between the output angular speed and the input angular speed. This setting is defined by the product of 2 fractions: N1/D1 * N2/D2 where N1, D1, N2 and D2 are integer values. Tach.1 / Tach.2 ratio maximum value can be set up to 100.
[[File:le100.png|600px]]

== [[File:3shaftordertracking.png| 70px]] Triple shaft order analysis : 3 parallel real time SOA analysis ==

Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.

OROS, leader on rotating vibration analysis, is the only one in the world to let you achieve such a performance.

[[File:3SOA.PNG]]

== [[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines ==

A [https://en.wikipedia.org/wiki/Pressure%E2%80%93volume_diagram pressure–volume diagram] (or PV diagram, or volume–pressure loop) is used to describe corresponding changes in volume and pressure in a system.

[[File:Indicator_diagram_steam_admission.png|400px]]

The diagram records the pressure of steam versus the volume of steam in a cylinder, throughout a piston's cycle of motion in a steam engine. The diagram enables calculation of the work performed and thus can provide a measure of the power produced by the engine.

To exactly calculate the work done by the system it is necessary to calculate the integral of the pressure with respect to volume. One can often quickly calculate this using the PV diagram as it is simply the area enclosed by the cycle.

Download: [[Addons:PV_Diagram#Download| Check the PV diagram page]]

How to use :

[[File:PVdiagram2022.PNG|600px]]

*Define one (or more) channel as a pressure.
*Add this channel into Sync. order (SOA) plug in.
*On SOA plug in , average, domain, select: "Angular"
*Open PV_Diagram.exe
*Click on refresh (right click) in available results if you do not see anything.
*Select the input.
*Compute once will display the PV diagram base once based the last triggerd block.
*"background computation, will continuously compute the diagram.

== [[File:W11.png|70px]]Windows 11 compatibility==

[[File:Windows_11_logo.svg.png|400px]]

This version is compatible and fully tested with the last version of Microsoft Windows 10 and new Microsoft version Windows 11.

== Teamviewer V15 quick support ==

If you have any question for using your OROS analyzer, Teamviewer is a power full tool to take control of your PC and check together your question.
NVGate 2022 include a the new version V15 of teamviwer .

[[File:teamviwer.PNG|200px]]

This version is available on your computer foler here: C:\OROS\NVGate data\Links\TeamViewerQS.exe . You can also donwload using this specific link : https://get.teamviewer.com/orosTV

== NVDrive ==

NVGate software can be fully remote-controlled using an external software package. The commands required for controlling each analyzer function are listed in the NVDrive®library.

=== Toolkit refresh ===

NVDrive toolkit has been refreshed with new examples, new print screen, new tree structure, .dll have been updated for beeing more clear and highlight the python language.
Also we have now only one reference on the price list "ORNV-TOOLKIT" which includes the full toolkit (NVdrive, Matdrive, .oxf, python.).

===New commands: Read Write NVGate user properties (Project / Measurement)===

NVDrive allows you to take control of the analyzer with command lines.
New NVDrive commands have been added on the NVDrive toolkit to read, write and delete the user properties of projects and measurements.

[[File:NVdrive.PNG|500px]]

== New car cigaret lighter plug ==

For OR36 and OR38 analyzer, OROS has designed a new cigaret lighter for beeing able to deliver 24.5V.
You can plug it on 10V-35V cigaret lighter and it will deliver 24.5V on output to power supply OR36 and OR38 analyzer and charge the battery.

It can be ordered with the reference : OR36-8TW-DCCL

[[File:cigaretlightercable.png|500px]]

(Cigaret lighter power supply for OR35, OR34 and OR10 remain available.)

== [[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing ==

ORBIgate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can '''now be used on daisy chained systems''' as NVGate. 
In addition, measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors: 
On top of that ORBIGate features as well an extension of the ratio for the '''Fractional tach feature up to a 100'''.

== New Sound Power V3.20 ==

OROS SOUND POWER Solution has been designed to let you achieve that type of test in the most efficient and accurate way.

This new version includes the following improvements:
* New command to start directly the software on your pre-configured setup
* Option to modify the limit of overall octave filter
* Excel templates fully updated to the last standard
* Full compatibility with NVGate 2022.

Read the dedicated [[Sound Power 3 20|Sound Power 3.20 release note]] for more info.

== Bug fixing ==

* 14133: Record with DC inputs doesn't work for some frequency samplings.
* 14112: Double filter with HP @10HZ in TDA in post analyse: nothing is displayed.
* 14102: Christmas tree with OR35TW is reproduce in a specific configuration.
* 14166: Delete the last value from calibration history.
* 14187: History transducer database can not be display on a japanese windows 10 PC.
* 14190: Random Burst on Block Event.
* 14130: "result selection windows": Lissajous graph is not display .
* 14184: Wrong display of TDA table after copy graph .
* 14210: OCT not possible to set a time constant below 20 ms.
* 14219: Autorange is "Saving the working results".
* 14286: Octave limited range of CPB filter is working strangely.
* 14194: Octave LimitedRange And Reduce SamplingFreq crash NVGate
* 14399: Impossible to compute EVHV Spatiogramme.
* 14290: several Lissajous graphics - cursors are not linked together.
* 14437: Error on NVDrive "NVGS_GetTrackNumberOfSample" Function with SBL > 2GB

NVGate 2022: Release note de

2022-03-14T16:48:48Z

Credaelli: /* Analysis */

[[category:NVGate2022]]

OROS ist bestrebt, nah bei den Anwendern zu sein und aufmerksam auf die Bedürfnisse und das Feedback aus der Praxis zu achten. Darauf aufbauend werden regelmäßig neue Versionen veröffentlicht.

[[File:Splash_screen2022.png|500px]]

 
Die Hauptversion von NVGate® 2022 ist seit Januar 2022 verfügbar. Diese Version der Softwareplattform der Analysatoren der OROS 3-Serie bringt zusätzliche Funktionen und signifikante Leistungsverbesserungen. Nachfolgend finden Sie eine Zusammenfassung der wichtigsten Verbesserungen Ihres NVGate-Erlebnisses: 

'''>> 3''' Hauptgründe, um Ihre '''TEAMWORK Effizienz''' auf das Maximum zu bringen. 

{| class="wikitable" |
|-
! style="background: white;|[[File:READER.png|70px]] 
Erkunden der Daten einfach & frei, ohne jede Lizenz!
! style="background: white;|[[File:Ergonomics.png|70px]] 
Weniger Klicks und größere Effizienz fürs Team
! style="background: white;|[[File:W11.png|70px]] 
Mit den Entwicklungen Schritt halten: die Windows 11 Kompatibilität ist sichergestellt.
|-
| Start von '''NVGate in READER-Modus''' ohne Lizenz und arbeiten Sie mit den Daten bis zum Report. Teilen der Daten mit dem Team oder Partnern: Sie werden in der Lage sein Daten zu sammeln, zu untersuchen, anzuzeigen und zu bearbeiten, und das ohne Lizenz.[[NVGate_2022:_Release_note#NVGate_READER_:_Share_.26_Explore_your_data_Simply_.26_FREEly_.21|>>]] ||
Erleben Sie verbesserte Ergonomie und Intuition dank der optimierten neuen Ribbons und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks,[[NVGate_2022:_Release_note#Enhanced_ERGONOMICS_:_Save_more_clicks_and_push_teams_efficiency_to_the_limits|>>]]

|| Das neue '''Windows 11''' ist veröffentlicht und NVGate 2022 passt sich an, um eine vollständige '''Kompatibilität''' mit der modernen Umgebung sicherzustellen.
|}

'''>> 4''' Hauptmerkmale, um weiterhin die höchste Leistung in der ROTATING-Analyse vorzuschlagen 

{| class="wikitable"
|-
! style="background: white;|[[File:3shaftordertracking.png| 70px]]
3Fache Ordnungsanalyse!
! style="background: white;|[[File:FracTach.png|70px]] Mehreren Wellen mit nur einem Tacho: Virtual tach mit Getriebeverhältnis bis zu 100!
! style="background: white;|[[File:PV.png|70px]] PV Diagramm für Antriebe.
! style="background: white;|[[File:orbigate.png|70px]] Kombinieren Sie Ihre ORBIGate-Systeme: Rotordynamik Messungen mit kaskadierten Systemen.
|-
| Unabhängig davon, ob Ihre Messung an einem Getriebe, einem Kompressor oder sonstigen Maschine mit mehreren Wellen durchgeführt wird, bietet NVGate nun '''3 parallele Ordnungsanalysen''' sowohl im Online- als auch im Office Modus.
| Die Messung von Vibrationen an Maschinen mit mehreren Wellen wie Getrieben kann mehrere Drehzahlmesser erfordern. NVGate 2022 bietet nun größere Übersetzungen für die integrierte virtuelle Tachometerfunktion mit einem '''Verhältnis von bis zu 100''' zwischen schneller und langsamer Welle.
| Das PV-Diagramm ermöglicht es Druck und Volumen gegenüber zu stellen. Das '''PV-Diagramm''' ist als ein neues Add-on verfügbar.
| ORBIGate entwickelt sich weiter. Insbesondere die Rotordynamiklösung kann ebenfalls mit Daisy-Chain-Systemen eingesetzt werden.
|}

Diese Release Note beschreibt den Inhalt der Version mit Betriebsdetails.
 
Um NVGate 2022 herunterzuladen und zu installieren, [[NVGate_2022:_Install_Process|lesen Sie diese Seite]].
 

Kompatibilität: NVGate 2022 ist mit allen OROS-Instrumenten (OR34 V1 - OR35 V1 - OR36 V2 und TW - OR38 V2 und TW-OR10) kompatibel, die nicht abgekündigt wurden. Abhängig von den Hardwareoptionen und der Version können einige Instrumentenfunktionen verfügbar sein oder nicht.

== [[File:READER.png|70px]] NVGate Reader: Erkunden der Daten einfach & frei, ohne jede Lizenz! ==

Starten Sie NVGate im READER-Modus von überall und arbeiten Sie sich bis zum Bericht vor. Ihre Teams und Partner können Ihre Daten einfach und ohne Softwarelizenz erkunden: einfach KOSTENLOS!
Dies ist der allererste Schritt, den Sie tun können, um die Möglichkeiten von OROS und NVGate zu entdecken: unabhängig davon, ob Sie Erfahrung mit Schall und Schwingungen haben oder nicht.

<youtube>https://youtu.be/xfEEQaCxaI4</youtube>

Wenn NVGate 2022 gestartet wird, ohne dass eine Lizenz erkannt wird, wird es im READER-Modus gestartet. Das folgende Dialogfenster wird angezeigt: 
[[File:READER START.png|200px]]
'''Mit dem READER-Modus: '''
* - Verwalten Sie die Daten: [[NVGate_dataset_management#Share_and_collate_dataset|Collate & share data]], filtern und sortieren Sie Daten basierend auf Eigenschaften: so nutzen Sie die Kraft von [[NVGate_dataset_management#Dataset_management|Dataset Management]] 
[[File:reader.PNG|500px]]
* - Zeigen Sie die Daten unabhängig vom Anzeigetyp an 
* - Verwenden Sie die Anzeige- und Analysewerkzeuge: Zoomen, Skalieren, Cursor und Marker zum Lesen der Ergebniswerte 
[[File:DISPLAY.png|400px]]
* - Veröffentlichen Sie automatisierte oder manuelle Berichte 

'''Wie geht es weiter?''' 
Nur Daten, die von einer NVGate 2022-Version erstellt oder geteilt werden, sind mit dem NVGate 2022 READER kompatibel: 
- Für Teams, die eine lizenzierte Version von NVGate verwenden, werden mit NVGate 2022 generierte Daten im Projektmanager gespeichert und sind '''einfach lesbar''', wenn sie im READER-Modus starten 
- Für READER-Benutzer ohne lizenzierte Version von NVGate können die von Ihrem Teammitglied oder Partner GETEILTEN Daten mit der Funktion "[[NVGate_dataset_management#Collate_Datasets|COLLATE]]" importiert werden. 
- Eingebettete Beispiele, die mit der Version installiert werden, sind '''für das Selbsttraining verfügbar''' und können mit der Funktion "[[NVGate_Edit_Measurement|EDIT MEASUREMENT]]" angezeigt werden. 

- Für Benutzer, die Ihre Daten mit Reader-Benutzern [[NVGate_dataset_management#Share_Dataset|TEILEN]] möchten: sie können es mit der [[NVGate_dataset_management#Share_Dataset|"SHARE"]] Funktion tun. 

- In allen Fällen werden gemeinsam genutzte DATEN zunächst auf einer lizenzierten NVGate-Version erstellt, entweder in Echtzeit, wenn sie mit einem OROS-Instrument verbunden ist, oder aus einer Postanalyse basierend auf einem aufgezeichneten Signal 

== Optimierte ERGONOMIE : Weniger Klicks und größere Effizienz fürs Team ==

Erleben Sie die verbesserte Feldergonomie und Intuition dank der optimierten '''neuen Ribbon Tabs''' und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks auf Knopfdruck.

Die Benutzeroberfläche fasst die Funktionen des Analysators in einfachen, übersichtlichen und leicht zu identifizierenden Registerkarten zusammen, die nach den Hauptoperationen organisiert sind (Home, Acquisition, Analysis, Data, Display, Report, Automation, Preferences).

<youtube>https://youtu.be/MRGE2-VLBFg</youtube>

===Tab: neue Anordnung der Buttons===

Die Hauptfunktionen wurden durch eine Benutzeroberfläche hervorgehoben, die die Benutzer zur besten Verwendung ihres Analysators der OROS 3-Serie führt.
Die Softwareeinträge sind in einer logischen Operationsweise organisiert. Es gibt 8 verschiedene Tabs, die dem Hauptoperationstyp entsprechen:

====Home====

[[File:home3.PNG|800px]]

Das Ziel des „Home“ Tab ist es, einen benutzerfreundlichen Tab zum Durchführen einer Messung zu erstellen.
Sie können ein Projekt laden, ein Setup erstellen (über die Gruppe "Go To Results"), eine Erfassung starten, Ihre Daten und den Speicherplatz einsehen und den Benutzer ändern.
Tatsächlich können Sie für viele alltägliche Anwendungen auf diesem Tab bleiben, ohne die andere zu überprüfen.

Wir haben auch haben die Attachement Funktion hervorgehoben [[File:home_attachment_2022.PNG|30px]].

'''Attachment''': Ermöglicht es, schnell zu erkennen, ob Dateien (Berichte, Bilder, Videos ....) an das aktuelle Projekt angehängt sind. Klicken Sie auf diesen Button, um den Attachment-Ordner zu erstellen und/oder zu öffnen.

''Hinweis: Wenn das „Default project“ aktiv ist, ist der Button „Attachment“ ausgegraut.
{|border="0" cellspacing="0" cellpadding="4" width="50%" align="left"
|-
|[[File:home_attachment_2022.PNG|30px]]
| Der „Attachment“ Ordner des aktives Projekts ist leer oder existiert nicht.
|-
|[[File:home_attachment_file_2022.PNG|30px]]
| Datei(en) befinden sich im „Attachment“ -Ordner des aktives Projekts.
|} 

====Acquisition====

Dieser Tab enthält alle notwendigen Einträge, um das Frontend und die Verwendung beliebiger Kanäle im Detail einzurichten. Es trennt die Einrichtung der Eingangskanäle von den Ausgängen, der Triggerung, dem Tachometer und den Filtern.

[[File:Acquisition3.PNG|750px]]

====Analysis====

Auf diesem Tab sammelt die Software die Bedienelemente für Frontend, Recorder und Analyse. Jeder Button entspricht einem Plug-in-Analyzer. Der Inhalt dieses Tabs hängt von den erworbenen optionalen Plug-Ins ab. 
[[File:Analysis3.PNG|700px]]

====Data====

This tab provides functions to deal all your data, transfer Projects, Measurements, Models, export and import your data, filter the Project Manager.
[[File:Data3.PNG|500px]]

====Display====
This tab covers the results display control. It allows creating, fulfilling, arranging and viewing the windows and layouts. It controls the scale, units, weighting and data operations of any graphs, manages the waterfalls and extraction graphs and the markers.

[[File:display3.PNG|700px]]

The display tab has been entirely thought and improved with NVGate 2022. Some functions have been highlighted : freeze, zoom, add layout.
The mouse mode has been also improved (cursor, marker, zoom, move, rotate). One mode can now be selected in one click. Also now the default mouse mode will always be the cursor mode, so if you unselect a mode it will go back directly to the cursor mode.

====Preferences====

This tab provides direct access to the user’s definition, user's preferences and sensor database.

[[File:Preference3.PNG|500px]]

====Post analysis button on status bar====

[[File:PA_Status.png]]

On the status bar you have now a direct access to the "online to post analysis" mode.

|[[File:Home_online_to_PA.PNG|30px]]
| '''Online to Post-analysis''': This button is used to switch from Online mode to Post-analysis mode. This will open the ''Select Signal'' window which lists all the recorded signals available. The selected signal will be then playback and can be re-injected into any plug-in analyzer (Monitor, FFT, 1/n Octave...). It is also possible to play back a recorded signal through the Output during Online analysis.

See [[NVGate_Player|player page]] for more details.

====Automation====
The Automation tab contains powerful and helpful tools to automate repetitive tasks made with the analyzers.
[[File:Automation.PNG|700px]]

=== Go to results: one click icons===

New "one click" function have been added on the go to results for more user friendliness.

[[File:gotoresults3.PNG|400px]]

* [[File:viwe recording.PNG|50px]]view recording: will open the signal monitoring window on top of the current layout. In the case of this window is already open in another layout, it swaps to this layout.

* [[File:Add__layout.PNG|40px]] Add Layout: Creates a new layout. A dialog box used to name the new layout is displayed by clicking on the button. A new tab is created and selected, corresponding to the new layout.

* [[File:waterfall settings.PNG|150px]] Opens the waterfall triggering dialog. This dialog allows selecting the trigger of by the waterfall plug-in (only available on profile and waterfall tab).

=== RPM buttons create automatic events===

[[File:auto_rpm.PNG|200px]] The RPM button has now beeing entierly redesigned. Apply this button will automatically put the waterfall trigger on delta RPM or periodic.
This will make the setup of NVGate much more easier for a rotating or run up aplication. (only available on profile or waterfall tab)

In details this button will :

* Create a Delta RPM event, source = the one activated in the "Tach.". Delta velocity : 10 RPM.
* Create a Periodic event (0.5 sec)
* Create a Combined event 1. mode: "Delta RPM OR Periodic 1"
* Set waterfall Trigger to Combined event
* Create of an RPM event (source = the one activated in the tach field)

=== New default settings===

The default settings in NVGate have been updated to the ones below. With these default settings, you can do rotating analysis measurement directly.
Be aware that if you load an exiting project, the settings will not be affected. You can also easily change these settings.

FFT Overlap: 66%

FFT lines: 3200

FFT Overall low freq : 2 Hz

SOA resolution: 1/8

SOA overlap: 5

SOA OVL lower order: 0.2

Event Delta RPM: Delta velocity 10 rpm

Waterfall Depth: 1000

Tachometer/RPM Profiles/Duration: 120 sec

== New units available ==

[[File:unit.PNG]] New units have been added:

Angular velocity: Hertz

Pressure: Pascal and Bar

Torsionnal velocity: RPM

== [[File:FracTach.png|70px]] Measure all your shafts with 1 tach sensor: virtual tach gear ratio to 100 ==

[[Image:Reports_Tools_Ribbons_356.png]]: Fractional tachometer: computes RPM speed for a non accessible shaft by using gear ratio setting: adapted for gear boxes and transmissions. The ratio can now be set up to 100! (it used to be 2).

-> Used to define up to 4 fractional tachs using data from the tach or the Ext Tach.

[[Image:tacho_ratio.png|500px]]

*'''Tach ratio''': this is the ratio between the output angular speed and the input angular speed. This setting is defined by the product of 2 fractions: N1/D1 * N2/D2 where N1, D1, N2 and D2 are integer values. Tach.1 / Tach.2 ratio maximum value can be set up to 100.
[[File:le100.png|600px]]

== [[File:3shaftordertracking.png| 70px]] Triple shaft order analysis : 3 parallel real time SOA analysis ==

Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.

OROS, leader on rotating vibration analysis, is the only one in the world to let you achieve such a performance.

[[File:3SOA.PNG]]

== [[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines ==

A [https://en.wikipedia.org/wiki/Pressure%E2%80%93volume_diagram pressure–volume diagram] (or PV diagram, or volume–pressure loop) is used to describe corresponding changes in volume and pressure in a system.

[[File:Indicator_diagram_steam_admission.png|400px]]

The diagram records the pressure of steam versus the volume of steam in a cylinder, throughout a piston's cycle of motion in a steam engine. The diagram enables calculation of the work performed and thus can provide a measure of the power produced by the engine.

To exactly calculate the work done by the system it is necessary to calculate the integral of the pressure with respect to volume. One can often quickly calculate this using the PV diagram as it is simply the area enclosed by the cycle.

Download: [[Addons:PV_Diagram#Download| Check the PV diagram page]]

How to use :

[[File:PVdiagram2022.PNG|600px]]

*Define one (or more) channel as a pressure.
*Add this channel into Sync. order (SOA) plug in.
*On SOA plug in , average, domain, select: "Angular"
*Open PV_Diagram.exe
*Click on refresh (right click) in available results if you do not see anything.
*Select the input.
*Compute once will display the PV diagram base once based the last triggerd block.
*"background computation, will continuously compute the diagram.

== [[File:W11.png|70px]]Windows 11 compatibility==

[[File:Windows_11_logo.svg.png|400px]]

This version is compatible and fully tested with the last version of Microsoft Windows 10 and new Microsoft version Windows 11.

== Teamviewer V15 quick support ==

If you have any question for using your OROS analyzer, Teamviewer is a power full tool to take control of your PC and check together your question.
NVGate 2022 include a the new version V15 of teamviwer .

[[File:teamviwer.PNG|200px]]

This version is available on your computer foler here: C:\OROS\NVGate data\Links\TeamViewerQS.exe . You can also donwload using this specific link : https://get.teamviewer.com/orosTV

== NVDrive ==

NVGate software can be fully remote-controlled using an external software package. The commands required for controlling each analyzer function are listed in the NVDrive®library.

=== Toolkit refresh ===

NVDrive toolkit has been refreshed with new examples, new print screen, new tree structure, .dll have been updated for beeing more clear and highlight the python language.
Also we have now only one reference on the price list "ORNV-TOOLKIT" which includes the full toolkit (NVdrive, Matdrive, .oxf, python.).

===New commands: Read Write NVGate user properties (Project / Measurement)===

NVDrive allows you to take control of the analyzer with command lines.
New NVDrive commands have been added on the NVDrive toolkit to read, write and delete the user properties of projects and measurements.

[[File:NVdrive.PNG|500px]]

== New car cigaret lighter plug ==

For OR36 and OR38 analyzer, OROS has designed a new cigaret lighter for beeing able to deliver 24.5V.
You can plug it on 10V-35V cigaret lighter and it will deliver 24.5V on output to power supply OR36 and OR38 analyzer and charge the battery.

It can be ordered with the reference : OR36-8TW-DCCL

[[File:cigaretlightercable.png|500px]]

(Cigaret lighter power supply for OR35, OR34 and OR10 remain available.)

== [[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing ==

ORBIgate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can '''now be used on daisy chained systems''' as NVGate. 
In addition, measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors: 
On top of that ORBIGate features as well an extension of the ratio for the '''Fractional tach feature up to a 100'''.

== New Sound Power V3.20 ==

OROS SOUND POWER Solution has been designed to let you achieve that type of test in the most efficient and accurate way.

This new version includes the following improvements:
* New command to start directly the software on your pre-configured setup
* Option to modify the limit of overall octave filter
* Excel templates fully updated to the last standard
* Full compatibility with NVGate 2022.

Read the dedicated [[Sound Power 3 20|Sound Power 3.20 release note]] for more info.

== Bug fixing ==

* 14133: Record with DC inputs doesn't work for some frequency samplings.
* 14112: Double filter with HP @10HZ in TDA in post analyse: nothing is displayed.
* 14102: Christmas tree with OR35TW is reproduce in a specific configuration.
* 14166: Delete the last value from calibration history.
* 14187: History transducer database can not be display on a japanese windows 10 PC.
* 14190: Random Burst on Block Event.
* 14130: "result selection windows": Lissajous graph is not display .
* 14184: Wrong display of TDA table after copy graph .
* 14210: OCT not possible to set a time constant below 20 ms.
* 14219: Autorange is "Saving the working results".
* 14286: Octave limited range of CPB filter is working strangely.
* 14194: Octave LimitedRange And Reduce SamplingFreq crash NVGate
* 14399: Impossible to compute EVHV Spatiogramme.
* 14290: several Lissajous graphics - cursors are not linked together.
* 14437: Error on NVDrive "NVGS_GetTrackNumberOfSample" Function with SBL > 2GB

NVGate 2022: Release note de

2022-03-14T16:47:31Z

Credaelli: /* Acquisition */

[[category:NVGate2022]]

OROS ist bestrebt, nah bei den Anwendern zu sein und aufmerksam auf die Bedürfnisse und das Feedback aus der Praxis zu achten. Darauf aufbauend werden regelmäßig neue Versionen veröffentlicht.

[[File:Splash_screen2022.png|500px]]

 
Die Hauptversion von NVGate® 2022 ist seit Januar 2022 verfügbar. Diese Version der Softwareplattform der Analysatoren der OROS 3-Serie bringt zusätzliche Funktionen und signifikante Leistungsverbesserungen. Nachfolgend finden Sie eine Zusammenfassung der wichtigsten Verbesserungen Ihres NVGate-Erlebnisses: 

'''>> 3''' Hauptgründe, um Ihre '''TEAMWORK Effizienz''' auf das Maximum zu bringen. 

{| class="wikitable" |
|-
! style="background: white;|[[File:READER.png|70px]] 
Erkunden der Daten einfach & frei, ohne jede Lizenz!
! style="background: white;|[[File:Ergonomics.png|70px]] 
Weniger Klicks und größere Effizienz fürs Team
! style="background: white;|[[File:W11.png|70px]] 
Mit den Entwicklungen Schritt halten: die Windows 11 Kompatibilität ist sichergestellt.
|-
| Start von '''NVGate in READER-Modus''' ohne Lizenz und arbeiten Sie mit den Daten bis zum Report. Teilen der Daten mit dem Team oder Partnern: Sie werden in der Lage sein Daten zu sammeln, zu untersuchen, anzuzeigen und zu bearbeiten, und das ohne Lizenz.[[NVGate_2022:_Release_note#NVGate_READER_:_Share_.26_Explore_your_data_Simply_.26_FREEly_.21|>>]] ||
Erleben Sie verbesserte Ergonomie und Intuition dank der optimierten neuen Ribbons und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks,[[NVGate_2022:_Release_note#Enhanced_ERGONOMICS_:_Save_more_clicks_and_push_teams_efficiency_to_the_limits|>>]]

|| Das neue '''Windows 11''' ist veröffentlicht und NVGate 2022 passt sich an, um eine vollständige '''Kompatibilität''' mit der modernen Umgebung sicherzustellen.
|}

'''>> 4''' Hauptmerkmale, um weiterhin die höchste Leistung in der ROTATING-Analyse vorzuschlagen 

{| class="wikitable"
|-
! style="background: white;|[[File:3shaftordertracking.png| 70px]]
3Fache Ordnungsanalyse!
! style="background: white;|[[File:FracTach.png|70px]] Mehreren Wellen mit nur einem Tacho: Virtual tach mit Getriebeverhältnis bis zu 100!
! style="background: white;|[[File:PV.png|70px]] PV Diagramm für Antriebe.
! style="background: white;|[[File:orbigate.png|70px]] Kombinieren Sie Ihre ORBIGate-Systeme: Rotordynamik Messungen mit kaskadierten Systemen.
|-
| Unabhängig davon, ob Ihre Messung an einem Getriebe, einem Kompressor oder sonstigen Maschine mit mehreren Wellen durchgeführt wird, bietet NVGate nun '''3 parallele Ordnungsanalysen''' sowohl im Online- als auch im Office Modus.
| Die Messung von Vibrationen an Maschinen mit mehreren Wellen wie Getrieben kann mehrere Drehzahlmesser erfordern. NVGate 2022 bietet nun größere Übersetzungen für die integrierte virtuelle Tachometerfunktion mit einem '''Verhältnis von bis zu 100''' zwischen schneller und langsamer Welle.
| Das PV-Diagramm ermöglicht es Druck und Volumen gegenüber zu stellen. Das '''PV-Diagramm''' ist als ein neues Add-on verfügbar.
| ORBIGate entwickelt sich weiter. Insbesondere die Rotordynamiklösung kann ebenfalls mit Daisy-Chain-Systemen eingesetzt werden.
|}

Diese Release Note beschreibt den Inhalt der Version mit Betriebsdetails.
 
Um NVGate 2022 herunterzuladen und zu installieren, [[NVGate_2022:_Install_Process|lesen Sie diese Seite]].
 

Kompatibilität: NVGate 2022 ist mit allen OROS-Instrumenten (OR34 V1 - OR35 V1 - OR36 V2 und TW - OR38 V2 und TW-OR10) kompatibel, die nicht abgekündigt wurden. Abhängig von den Hardwareoptionen und der Version können einige Instrumentenfunktionen verfügbar sein oder nicht.

== [[File:READER.png|70px]] NVGate Reader: Erkunden der Daten einfach & frei, ohne jede Lizenz! ==

Starten Sie NVGate im READER-Modus von überall und arbeiten Sie sich bis zum Bericht vor. Ihre Teams und Partner können Ihre Daten einfach und ohne Softwarelizenz erkunden: einfach KOSTENLOS!
Dies ist der allererste Schritt, den Sie tun können, um die Möglichkeiten von OROS und NVGate zu entdecken: unabhängig davon, ob Sie Erfahrung mit Schall und Schwingungen haben oder nicht.

<youtube>https://youtu.be/xfEEQaCxaI4</youtube>

Wenn NVGate 2022 gestartet wird, ohne dass eine Lizenz erkannt wird, wird es im READER-Modus gestartet. Das folgende Dialogfenster wird angezeigt: 
[[File:READER START.png|200px]]
'''Mit dem READER-Modus: '''
* - Verwalten Sie die Daten: [[NVGate_dataset_management#Share_and_collate_dataset|Collate & share data]], filtern und sortieren Sie Daten basierend auf Eigenschaften: so nutzen Sie die Kraft von [[NVGate_dataset_management#Dataset_management|Dataset Management]] 
[[File:reader.PNG|500px]]
* - Zeigen Sie die Daten unabhängig vom Anzeigetyp an 
* - Verwenden Sie die Anzeige- und Analysewerkzeuge: Zoomen, Skalieren, Cursor und Marker zum Lesen der Ergebniswerte 
[[File:DISPLAY.png|400px]]
* - Veröffentlichen Sie automatisierte oder manuelle Berichte 

'''Wie geht es weiter?''' 
Nur Daten, die von einer NVGate 2022-Version erstellt oder geteilt werden, sind mit dem NVGate 2022 READER kompatibel: 
- Für Teams, die eine lizenzierte Version von NVGate verwenden, werden mit NVGate 2022 generierte Daten im Projektmanager gespeichert und sind '''einfach lesbar''', wenn sie im READER-Modus starten 
- Für READER-Benutzer ohne lizenzierte Version von NVGate können die von Ihrem Teammitglied oder Partner GETEILTEN Daten mit der Funktion "[[NVGate_dataset_management#Collate_Datasets|COLLATE]]" importiert werden. 
- Eingebettete Beispiele, die mit der Version installiert werden, sind '''für das Selbsttraining verfügbar''' und können mit der Funktion "[[NVGate_Edit_Measurement|EDIT MEASUREMENT]]" angezeigt werden. 

- Für Benutzer, die Ihre Daten mit Reader-Benutzern [[NVGate_dataset_management#Share_Dataset|TEILEN]] möchten: sie können es mit der [[NVGate_dataset_management#Share_Dataset|"SHARE"]] Funktion tun. 

- In allen Fällen werden gemeinsam genutzte DATEN zunächst auf einer lizenzierten NVGate-Version erstellt, entweder in Echtzeit, wenn sie mit einem OROS-Instrument verbunden ist, oder aus einer Postanalyse basierend auf einem aufgezeichneten Signal 

== Optimierte ERGONOMIE : Weniger Klicks und größere Effizienz fürs Team ==

Erleben Sie die verbesserte Feldergonomie und Intuition dank der optimierten '''neuen Ribbon Tabs''' und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks auf Knopfdruck.

Die Benutzeroberfläche fasst die Funktionen des Analysators in einfachen, übersichtlichen und leicht zu identifizierenden Registerkarten zusammen, die nach den Hauptoperationen organisiert sind (Home, Acquisition, Analysis, Data, Display, Report, Automation, Preferences).

<youtube>https://youtu.be/MRGE2-VLBFg</youtube>

===Tab: neue Anordnung der Buttons===

Die Hauptfunktionen wurden durch eine Benutzeroberfläche hervorgehoben, die die Benutzer zur besten Verwendung ihres Analysators der OROS 3-Serie führt.
Die Softwareeinträge sind in einer logischen Operationsweise organisiert. Es gibt 8 verschiedene Tabs, die dem Hauptoperationstyp entsprechen:

====Home====

[[File:home3.PNG|800px]]

Das Ziel des „Home“ Tab ist es, einen benutzerfreundlichen Tab zum Durchführen einer Messung zu erstellen.
Sie können ein Projekt laden, ein Setup erstellen (über die Gruppe "Go To Results"), eine Erfassung starten, Ihre Daten und den Speicherplatz einsehen und den Benutzer ändern.
Tatsächlich können Sie für viele alltägliche Anwendungen auf diesem Tab bleiben, ohne die andere zu überprüfen.

Wir haben auch haben die Attachement Funktion hervorgehoben [[File:home_attachment_2022.PNG|30px]].

'''Attachment''': Ermöglicht es, schnell zu erkennen, ob Dateien (Berichte, Bilder, Videos ....) an das aktuelle Projekt angehängt sind. Klicken Sie auf diesen Button, um den Attachment-Ordner zu erstellen und/oder zu öffnen.

''Hinweis: Wenn das „Default project“ aktiv ist, ist der Button „Attachment“ ausgegraut.
{|border="0" cellspacing="0" cellpadding="4" width="50%" align="left"
|-
|[[File:home_attachment_2022.PNG|30px]]
| Der „Attachment“ Ordner des aktives Projekts ist leer oder existiert nicht.
|-
|[[File:home_attachment_file_2022.PNG|30px]]
| Datei(en) befinden sich im „Attachment“ -Ordner des aktives Projekts.
|} 

====Acquisition====

Dieser Tab enthält alle notwendigen Einträge, um das Frontend und die Verwendung beliebiger Kanäle im Detail einzurichten. Es trennt die Einrichtung der Eingangskanäle von den Ausgängen, der Triggerung, dem Tachometer und den Filtern.

[[File:Acquisition3.PNG|750px]]

====Analysis====

In this tab, the software gathers the front-end, recorder and analyses controls. Each icon corresponds to a plug-in analyzer. The content of this tab depends on the purchased optional plug-ins. 
[[File:Analysis3.PNG|700px]]

====Data====

This tab provides functions to deal all your data, transfer Projects, Measurements, Models, export and import your data, filter the Project Manager.
[[File:Data3.PNG|500px]]

====Display====
This tab covers the results display control. It allows creating, fulfilling, arranging and viewing the windows and layouts. It controls the scale, units, weighting and data operations of any graphs, manages the waterfalls and extraction graphs and the markers.

[[File:display3.PNG|700px]]

The display tab has been entirely thought and improved with NVGate 2022. Some functions have been highlighted : freeze, zoom, add layout.
The mouse mode has been also improved (cursor, marker, zoom, move, rotate). One mode can now be selected in one click. Also now the default mouse mode will always be the cursor mode, so if you unselect a mode it will go back directly to the cursor mode.

====Preferences====

This tab provides direct access to the user’s definition, user's preferences and sensor database.

[[File:Preference3.PNG|500px]]

====Post analysis button on status bar====

[[File:PA_Status.png]]

On the status bar you have now a direct access to the "online to post analysis" mode.

|[[File:Home_online_to_PA.PNG|30px]]
| '''Online to Post-analysis''': This button is used to switch from Online mode to Post-analysis mode. This will open the ''Select Signal'' window which lists all the recorded signals available. The selected signal will be then playback and can be re-injected into any plug-in analyzer (Monitor, FFT, 1/n Octave...). It is also possible to play back a recorded signal through the Output during Online analysis.

See [[NVGate_Player|player page]] for more details.

====Automation====
The Automation tab contains powerful and helpful tools to automate repetitive tasks made with the analyzers.
[[File:Automation.PNG|700px]]

=== Go to results: one click icons===

New "one click" function have been added on the go to results for more user friendliness.

[[File:gotoresults3.PNG|400px]]

* [[File:viwe recording.PNG|50px]]view recording: will open the signal monitoring window on top of the current layout. In the case of this window is already open in another layout, it swaps to this layout.

* [[File:Add__layout.PNG|40px]] Add Layout: Creates a new layout. A dialog box used to name the new layout is displayed by clicking on the button. A new tab is created and selected, corresponding to the new layout.

* [[File:waterfall settings.PNG|150px]] Opens the waterfall triggering dialog. This dialog allows selecting the trigger of by the waterfall plug-in (only available on profile and waterfall tab).

=== RPM buttons create automatic events===

[[File:auto_rpm.PNG|200px]] The RPM button has now beeing entierly redesigned. Apply this button will automatically put the waterfall trigger on delta RPM or periodic.
This will make the setup of NVGate much more easier for a rotating or run up aplication. (only available on profile or waterfall tab)

In details this button will :

* Create a Delta RPM event, source = the one activated in the "Tach.". Delta velocity : 10 RPM.
* Create a Periodic event (0.5 sec)
* Create a Combined event 1. mode: "Delta RPM OR Periodic 1"
* Set waterfall Trigger to Combined event
* Create of an RPM event (source = the one activated in the tach field)

=== New default settings===

The default settings in NVGate have been updated to the ones below. With these default settings, you can do rotating analysis measurement directly.
Be aware that if you load an exiting project, the settings will not be affected. You can also easily change these settings.

FFT Overlap: 66%

FFT lines: 3200

FFT Overall low freq : 2 Hz

SOA resolution: 1/8

SOA overlap: 5

SOA OVL lower order: 0.2

Event Delta RPM: Delta velocity 10 rpm

Waterfall Depth: 1000

Tachometer/RPM Profiles/Duration: 120 sec

== New units available ==

[[File:unit.PNG]] New units have been added:

Angular velocity: Hertz

Pressure: Pascal and Bar

Torsionnal velocity: RPM

== [[File:FracTach.png|70px]] Measure all your shafts with 1 tach sensor: virtual tach gear ratio to 100 ==

[[Image:Reports_Tools_Ribbons_356.png]]: Fractional tachometer: computes RPM speed for a non accessible shaft by using gear ratio setting: adapted for gear boxes and transmissions. The ratio can now be set up to 100! (it used to be 2).

-> Used to define up to 4 fractional tachs using data from the tach or the Ext Tach.

[[Image:tacho_ratio.png|500px]]

*'''Tach ratio''': this is the ratio between the output angular speed and the input angular speed. This setting is defined by the product of 2 fractions: N1/D1 * N2/D2 where N1, D1, N2 and D2 are integer values. Tach.1 / Tach.2 ratio maximum value can be set up to 100.
[[File:le100.png|600px]]

== [[File:3shaftordertracking.png| 70px]] Triple shaft order analysis : 3 parallel real time SOA analysis ==

Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.

OROS, leader on rotating vibration analysis, is the only one in the world to let you achieve such a performance.

[[File:3SOA.PNG]]

== [[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines ==

A [https://en.wikipedia.org/wiki/Pressure%E2%80%93volume_diagram pressure–volume diagram] (or PV diagram, or volume–pressure loop) is used to describe corresponding changes in volume and pressure in a system.

[[File:Indicator_diagram_steam_admission.png|400px]]

The diagram records the pressure of steam versus the volume of steam in a cylinder, throughout a piston's cycle of motion in a steam engine. The diagram enables calculation of the work performed and thus can provide a measure of the power produced by the engine.

To exactly calculate the work done by the system it is necessary to calculate the integral of the pressure with respect to volume. One can often quickly calculate this using the PV diagram as it is simply the area enclosed by the cycle.

Download: [[Addons:PV_Diagram#Download| Check the PV diagram page]]

How to use :

[[File:PVdiagram2022.PNG|600px]]

*Define one (or more) channel as a pressure.
*Add this channel into Sync. order (SOA) plug in.
*On SOA plug in , average, domain, select: "Angular"
*Open PV_Diagram.exe
*Click on refresh (right click) in available results if you do not see anything.
*Select the input.
*Compute once will display the PV diagram base once based the last triggerd block.
*"background computation, will continuously compute the diagram.

== [[File:W11.png|70px]]Windows 11 compatibility==

[[File:Windows_11_logo.svg.png|400px]]

This version is compatible and fully tested with the last version of Microsoft Windows 10 and new Microsoft version Windows 11.

== Teamviewer V15 quick support ==

If you have any question for using your OROS analyzer, Teamviewer is a power full tool to take control of your PC and check together your question.
NVGate 2022 include a the new version V15 of teamviwer .

[[File:teamviwer.PNG|200px]]

This version is available on your computer foler here: C:\OROS\NVGate data\Links\TeamViewerQS.exe . You can also donwload using this specific link : https://get.teamviewer.com/orosTV

== NVDrive ==

NVGate software can be fully remote-controlled using an external software package. The commands required for controlling each analyzer function are listed in the NVDrive®library.

=== Toolkit refresh ===

NVDrive toolkit has been refreshed with new examples, new print screen, new tree structure, .dll have been updated for beeing more clear and highlight the python language.
Also we have now only one reference on the price list "ORNV-TOOLKIT" which includes the full toolkit (NVdrive, Matdrive, .oxf, python.).

===New commands: Read Write NVGate user properties (Project / Measurement)===

NVDrive allows you to take control of the analyzer with command lines.
New NVDrive commands have been added on the NVDrive toolkit to read, write and delete the user properties of projects and measurements.

[[File:NVdrive.PNG|500px]]

== New car cigaret lighter plug ==

For OR36 and OR38 analyzer, OROS has designed a new cigaret lighter for beeing able to deliver 24.5V.
You can plug it on 10V-35V cigaret lighter and it will deliver 24.5V on output to power supply OR36 and OR38 analyzer and charge the battery.

It can be ordered with the reference : OR36-8TW-DCCL

[[File:cigaretlightercable.png|500px]]

(Cigaret lighter power supply for OR35, OR34 and OR10 remain available.)

== [[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing ==

ORBIgate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can '''now be used on daisy chained systems''' as NVGate. 
In addition, measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors: 
On top of that ORBIGate features as well an extension of the ratio for the '''Fractional tach feature up to a 100'''.

== New Sound Power V3.20 ==

OROS SOUND POWER Solution has been designed to let you achieve that type of test in the most efficient and accurate way.

This new version includes the following improvements:
* New command to start directly the software on your pre-configured setup
* Option to modify the limit of overall octave filter
* Excel templates fully updated to the last standard
* Full compatibility with NVGate 2022.

Read the dedicated [[Sound Power 3 20|Sound Power 3.20 release note]] for more info.

== Bug fixing ==

* 14133: Record with DC inputs doesn't work for some frequency samplings.
* 14112: Double filter with HP @10HZ in TDA in post analyse: nothing is displayed.
* 14102: Christmas tree with OR35TW is reproduce in a specific configuration.
* 14166: Delete the last value from calibration history.
* 14187: History transducer database can not be display on a japanese windows 10 PC.
* 14190: Random Burst on Block Event.
* 14130: "result selection windows": Lissajous graph is not display .
* 14184: Wrong display of TDA table after copy graph .
* 14210: OCT not possible to set a time constant below 20 ms.
* 14219: Autorange is "Saving the working results".
* 14286: Octave limited range of CPB filter is working strangely.
* 14194: Octave LimitedRange And Reduce SamplingFreq crash NVGate
* 14399: Impossible to compute EVHV Spatiogramme.
* 14290: several Lissajous graphics - cursors are not linked together.
* 14437: Error on NVDrive "NVGS_GetTrackNumberOfSample" Function with SBL > 2GB

NVGate 2022: Release note de

2022-03-14T16:45:55Z

Credaelli: /* Home */

[[category:NVGate2022]]

OROS ist bestrebt, nah bei den Anwendern zu sein und aufmerksam auf die Bedürfnisse und das Feedback aus der Praxis zu achten. Darauf aufbauend werden regelmäßig neue Versionen veröffentlicht.

[[File:Splash_screen2022.png|500px]]

 
Die Hauptversion von NVGate® 2022 ist seit Januar 2022 verfügbar. Diese Version der Softwareplattform der Analysatoren der OROS 3-Serie bringt zusätzliche Funktionen und signifikante Leistungsverbesserungen. Nachfolgend finden Sie eine Zusammenfassung der wichtigsten Verbesserungen Ihres NVGate-Erlebnisses: 

'''>> 3''' Hauptgründe, um Ihre '''TEAMWORK Effizienz''' auf das Maximum zu bringen. 

{| class="wikitable" |
|-
! style="background: white;|[[File:READER.png|70px]] 
Erkunden der Daten einfach & frei, ohne jede Lizenz!
! style="background: white;|[[File:Ergonomics.png|70px]] 
Weniger Klicks und größere Effizienz fürs Team
! style="background: white;|[[File:W11.png|70px]] 
Mit den Entwicklungen Schritt halten: die Windows 11 Kompatibilität ist sichergestellt.
|-
| Start von '''NVGate in READER-Modus''' ohne Lizenz und arbeiten Sie mit den Daten bis zum Report. Teilen der Daten mit dem Team oder Partnern: Sie werden in der Lage sein Daten zu sammeln, zu untersuchen, anzuzeigen und zu bearbeiten, und das ohne Lizenz.[[NVGate_2022:_Release_note#NVGate_READER_:_Share_.26_Explore_your_data_Simply_.26_FREEly_.21|>>]] ||
Erleben Sie verbesserte Ergonomie und Intuition dank der optimierten neuen Ribbons und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks,[[NVGate_2022:_Release_note#Enhanced_ERGONOMICS_:_Save_more_clicks_and_push_teams_efficiency_to_the_limits|>>]]

|| Das neue '''Windows 11''' ist veröffentlicht und NVGate 2022 passt sich an, um eine vollständige '''Kompatibilität''' mit der modernen Umgebung sicherzustellen.
|}

'''>> 4''' Hauptmerkmale, um weiterhin die höchste Leistung in der ROTATING-Analyse vorzuschlagen 

{| class="wikitable"
|-
! style="background: white;|[[File:3shaftordertracking.png| 70px]]
3Fache Ordnungsanalyse!
! style="background: white;|[[File:FracTach.png|70px]] Mehreren Wellen mit nur einem Tacho: Virtual tach mit Getriebeverhältnis bis zu 100!
! style="background: white;|[[File:PV.png|70px]] PV Diagramm für Antriebe.
! style="background: white;|[[File:orbigate.png|70px]] Kombinieren Sie Ihre ORBIGate-Systeme: Rotordynamik Messungen mit kaskadierten Systemen.
|-
| Unabhängig davon, ob Ihre Messung an einem Getriebe, einem Kompressor oder sonstigen Maschine mit mehreren Wellen durchgeführt wird, bietet NVGate nun '''3 parallele Ordnungsanalysen''' sowohl im Online- als auch im Office Modus.
| Die Messung von Vibrationen an Maschinen mit mehreren Wellen wie Getrieben kann mehrere Drehzahlmesser erfordern. NVGate 2022 bietet nun größere Übersetzungen für die integrierte virtuelle Tachometerfunktion mit einem '''Verhältnis von bis zu 100''' zwischen schneller und langsamer Welle.
| Das PV-Diagramm ermöglicht es Druck und Volumen gegenüber zu stellen. Das '''PV-Diagramm''' ist als ein neues Add-on verfügbar.
| ORBIGate entwickelt sich weiter. Insbesondere die Rotordynamiklösung kann ebenfalls mit Daisy-Chain-Systemen eingesetzt werden.
|}

Diese Release Note beschreibt den Inhalt der Version mit Betriebsdetails.
 
Um NVGate 2022 herunterzuladen und zu installieren, [[NVGate_2022:_Install_Process|lesen Sie diese Seite]].
 

Kompatibilität: NVGate 2022 ist mit allen OROS-Instrumenten (OR34 V1 - OR35 V1 - OR36 V2 und TW - OR38 V2 und TW-OR10) kompatibel, die nicht abgekündigt wurden. Abhängig von den Hardwareoptionen und der Version können einige Instrumentenfunktionen verfügbar sein oder nicht.

== [[File:READER.png|70px]] NVGate Reader: Erkunden der Daten einfach & frei, ohne jede Lizenz! ==

Starten Sie NVGate im READER-Modus von überall und arbeiten Sie sich bis zum Bericht vor. Ihre Teams und Partner können Ihre Daten einfach und ohne Softwarelizenz erkunden: einfach KOSTENLOS!
Dies ist der allererste Schritt, den Sie tun können, um die Möglichkeiten von OROS und NVGate zu entdecken: unabhängig davon, ob Sie Erfahrung mit Schall und Schwingungen haben oder nicht.

<youtube>https://youtu.be/xfEEQaCxaI4</youtube>

Wenn NVGate 2022 gestartet wird, ohne dass eine Lizenz erkannt wird, wird es im READER-Modus gestartet. Das folgende Dialogfenster wird angezeigt: 
[[File:READER START.png|200px]]
'''Mit dem READER-Modus: '''
* - Verwalten Sie die Daten: [[NVGate_dataset_management#Share_and_collate_dataset|Collate & share data]], filtern und sortieren Sie Daten basierend auf Eigenschaften: so nutzen Sie die Kraft von [[NVGate_dataset_management#Dataset_management|Dataset Management]] 
[[File:reader.PNG|500px]]
* - Zeigen Sie die Daten unabhängig vom Anzeigetyp an 
* - Verwenden Sie die Anzeige- und Analysewerkzeuge: Zoomen, Skalieren, Cursor und Marker zum Lesen der Ergebniswerte 
[[File:DISPLAY.png|400px]]
* - Veröffentlichen Sie automatisierte oder manuelle Berichte 

'''Wie geht es weiter?''' 
Nur Daten, die von einer NVGate 2022-Version erstellt oder geteilt werden, sind mit dem NVGate 2022 READER kompatibel: 
- Für Teams, die eine lizenzierte Version von NVGate verwenden, werden mit NVGate 2022 generierte Daten im Projektmanager gespeichert und sind '''einfach lesbar''', wenn sie im READER-Modus starten 
- Für READER-Benutzer ohne lizenzierte Version von NVGate können die von Ihrem Teammitglied oder Partner GETEILTEN Daten mit der Funktion "[[NVGate_dataset_management#Collate_Datasets|COLLATE]]" importiert werden. 
- Eingebettete Beispiele, die mit der Version installiert werden, sind '''für das Selbsttraining verfügbar''' und können mit der Funktion "[[NVGate_Edit_Measurement|EDIT MEASUREMENT]]" angezeigt werden. 

- Für Benutzer, die Ihre Daten mit Reader-Benutzern [[NVGate_dataset_management#Share_Dataset|TEILEN]] möchten: sie können es mit der [[NVGate_dataset_management#Share_Dataset|"SHARE"]] Funktion tun. 

- In allen Fällen werden gemeinsam genutzte DATEN zunächst auf einer lizenzierten NVGate-Version erstellt, entweder in Echtzeit, wenn sie mit einem OROS-Instrument verbunden ist, oder aus einer Postanalyse basierend auf einem aufgezeichneten Signal 

== Optimierte ERGONOMIE : Weniger Klicks und größere Effizienz fürs Team ==

Erleben Sie die verbesserte Feldergonomie und Intuition dank der optimierten '''neuen Ribbon Tabs''' und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks auf Knopfdruck.

Die Benutzeroberfläche fasst die Funktionen des Analysators in einfachen, übersichtlichen und leicht zu identifizierenden Registerkarten zusammen, die nach den Hauptoperationen organisiert sind (Home, Acquisition, Analysis, Data, Display, Report, Automation, Preferences).

<youtube>https://youtu.be/MRGE2-VLBFg</youtube>

===Tab: neue Anordnung der Buttons===

Die Hauptfunktionen wurden durch eine Benutzeroberfläche hervorgehoben, die die Benutzer zur besten Verwendung ihres Analysators der OROS 3-Serie führt.
Die Softwareeinträge sind in einer logischen Operationsweise organisiert. Es gibt 8 verschiedene Tabs, die dem Hauptoperationstyp entsprechen:

====Home====

[[File:home3.PNG|800px]]

Das Ziel des „Home“ Tab ist es, einen benutzerfreundlichen Tab zum Durchführen einer Messung zu erstellen.
Sie können ein Projekt laden, ein Setup erstellen (über die Gruppe "Go To Results"), eine Erfassung starten, Ihre Daten und den Speicherplatz einsehen und den Benutzer ändern.
Tatsächlich können Sie für viele alltägliche Anwendungen auf diesem Tab bleiben, ohne die andere zu überprüfen.

Wir haben auch haben die Attachement Funktion hervorgehoben [[File:home_attachment_2022.PNG|30px]].

'''Attachment''': Ermöglicht es, schnell zu erkennen, ob Dateien (Berichte, Bilder, Videos ....) an das aktuelle Projekt angehängt sind. Klicken Sie auf diesen Button, um den Attachment-Ordner zu erstellen und/oder zu öffnen.

''Hinweis: Wenn das „Default project“ aktiv ist, ist der Button „Attachment“ ausgegraut.
{|border="0" cellspacing="0" cellpadding="4" width="50%" align="left"
|-
|[[File:home_attachment_2022.PNG|30px]]
| Der „Attachment“ Ordner des aktives Projekts ist leer oder existiert nicht.
|-
|[[File:home_attachment_file_2022.PNG|30px]]
| Datei(en) befinden sich im „Attachment“ -Ordner des aktives Projekts.
|} 

====Acquisition====

This tab provides all the necessary entries to setup the front-end and the use of any channels in details. It separates the acquisition channels setup from the outputs, triggering, tachometer, and filters ones.

[[File:Acquisition3.PNG|750px]]

====Analysis====

In this tab, the software gathers the front-end, recorder and analyses controls. Each icon corresponds to a plug-in analyzer. The content of this tab depends on the purchased optional plug-ins. 
[[File:Analysis3.PNG|700px]]

====Data====

This tab provides functions to deal all your data, transfer Projects, Measurements, Models, export and import your data, filter the Project Manager.
[[File:Data3.PNG|500px]]

====Display====
This tab covers the results display control. It allows creating, fulfilling, arranging and viewing the windows and layouts. It controls the scale, units, weighting and data operations of any graphs, manages the waterfalls and extraction graphs and the markers.

[[File:display3.PNG|700px]]

The display tab has been entirely thought and improved with NVGate 2022. Some functions have been highlighted : freeze, zoom, add layout.
The mouse mode has been also improved (cursor, marker, zoom, move, rotate). One mode can now be selected in one click. Also now the default mouse mode will always be the cursor mode, so if you unselect a mode it will go back directly to the cursor mode.

====Preferences====

This tab provides direct access to the user’s definition, user's preferences and sensor database.

[[File:Preference3.PNG|500px]]

====Post analysis button on status bar====

[[File:PA_Status.png]]

On the status bar you have now a direct access to the "online to post analysis" mode.

|[[File:Home_online_to_PA.PNG|30px]]
| '''Online to Post-analysis''': This button is used to switch from Online mode to Post-analysis mode. This will open the ''Select Signal'' window which lists all the recorded signals available. The selected signal will be then playback and can be re-injected into any plug-in analyzer (Monitor, FFT, 1/n Octave...). It is also possible to play back a recorded signal through the Output during Online analysis.

See [[NVGate_Player|player page]] for more details.

====Automation====
The Automation tab contains powerful and helpful tools to automate repetitive tasks made with the analyzers.
[[File:Automation.PNG|700px]]

=== Go to results: one click icons===

New "one click" function have been added on the go to results for more user friendliness.

[[File:gotoresults3.PNG|400px]]

* [[File:viwe recording.PNG|50px]]view recording: will open the signal monitoring window on top of the current layout. In the case of this window is already open in another layout, it swaps to this layout.

* [[File:Add__layout.PNG|40px]] Add Layout: Creates a new layout. A dialog box used to name the new layout is displayed by clicking on the button. A new tab is created and selected, corresponding to the new layout.

* [[File:waterfall settings.PNG|150px]] Opens the waterfall triggering dialog. This dialog allows selecting the trigger of by the waterfall plug-in (only available on profile and waterfall tab).

=== RPM buttons create automatic events===

[[File:auto_rpm.PNG|200px]] The RPM button has now beeing entierly redesigned. Apply this button will automatically put the waterfall trigger on delta RPM or periodic.
This will make the setup of NVGate much more easier for a rotating or run up aplication. (only available on profile or waterfall tab)

In details this button will :

* Create a Delta RPM event, source = the one activated in the "Tach.". Delta velocity : 10 RPM.
* Create a Periodic event (0.5 sec)
* Create a Combined event 1. mode: "Delta RPM OR Periodic 1"
* Set waterfall Trigger to Combined event
* Create of an RPM event (source = the one activated in the tach field)

=== New default settings===

The default settings in NVGate have been updated to the ones below. With these default settings, you can do rotating analysis measurement directly.
Be aware that if you load an exiting project, the settings will not be affected. You can also easily change these settings.

FFT Overlap: 66%

FFT lines: 3200

FFT Overall low freq : 2 Hz

SOA resolution: 1/8

SOA overlap: 5

SOA OVL lower order: 0.2

Event Delta RPM: Delta velocity 10 rpm

Waterfall Depth: 1000

Tachometer/RPM Profiles/Duration: 120 sec

== New units available ==

[[File:unit.PNG]] New units have been added:

Angular velocity: Hertz

Pressure: Pascal and Bar

Torsionnal velocity: RPM

== [[File:FracTach.png|70px]] Measure all your shafts with 1 tach sensor: virtual tach gear ratio to 100 ==

[[Image:Reports_Tools_Ribbons_356.png]]: Fractional tachometer: computes RPM speed for a non accessible shaft by using gear ratio setting: adapted for gear boxes and transmissions. The ratio can now be set up to 100! (it used to be 2).

-> Used to define up to 4 fractional tachs using data from the tach or the Ext Tach.

[[Image:tacho_ratio.png|500px]]

*'''Tach ratio''': this is the ratio between the output angular speed and the input angular speed. This setting is defined by the product of 2 fractions: N1/D1 * N2/D2 where N1, D1, N2 and D2 are integer values. Tach.1 / Tach.2 ratio maximum value can be set up to 100.
[[File:le100.png|600px]]

== [[File:3shaftordertracking.png| 70px]] Triple shaft order analysis : 3 parallel real time SOA analysis ==

Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.

OROS, leader on rotating vibration analysis, is the only one in the world to let you achieve such a performance.

[[File:3SOA.PNG]]

== [[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines ==

A [https://en.wikipedia.org/wiki/Pressure%E2%80%93volume_diagram pressure–volume diagram] (or PV diagram, or volume–pressure loop) is used to describe corresponding changes in volume and pressure in a system.

[[File:Indicator_diagram_steam_admission.png|400px]]

The diagram records the pressure of steam versus the volume of steam in a cylinder, throughout a piston's cycle of motion in a steam engine. The diagram enables calculation of the work performed and thus can provide a measure of the power produced by the engine.

To exactly calculate the work done by the system it is necessary to calculate the integral of the pressure with respect to volume. One can often quickly calculate this using the PV diagram as it is simply the area enclosed by the cycle.

Download: [[Addons:PV_Diagram#Download| Check the PV diagram page]]

How to use :

[[File:PVdiagram2022.PNG|600px]]

*Define one (or more) channel as a pressure.
*Add this channel into Sync. order (SOA) plug in.
*On SOA plug in , average, domain, select: "Angular"
*Open PV_Diagram.exe
*Click on refresh (right click) in available results if you do not see anything.
*Select the input.
*Compute once will display the PV diagram base once based the last triggerd block.
*"background computation, will continuously compute the diagram.

== [[File:W11.png|70px]]Windows 11 compatibility==

[[File:Windows_11_logo.svg.png|400px]]

This version is compatible and fully tested with the last version of Microsoft Windows 10 and new Microsoft version Windows 11.

== Teamviewer V15 quick support ==

If you have any question for using your OROS analyzer, Teamviewer is a power full tool to take control of your PC and check together your question.
NVGate 2022 include a the new version V15 of teamviwer .

[[File:teamviwer.PNG|200px]]

This version is available on your computer foler here: C:\OROS\NVGate data\Links\TeamViewerQS.exe . You can also donwload using this specific link : https://get.teamviewer.com/orosTV

== NVDrive ==

NVGate software can be fully remote-controlled using an external software package. The commands required for controlling each analyzer function are listed in the NVDrive®library.

=== Toolkit refresh ===

NVDrive toolkit has been refreshed with new examples, new print screen, new tree structure, .dll have been updated for beeing more clear and highlight the python language.
Also we have now only one reference on the price list "ORNV-TOOLKIT" which includes the full toolkit (NVdrive, Matdrive, .oxf, python.).

===New commands: Read Write NVGate user properties (Project / Measurement)===

NVDrive allows you to take control of the analyzer with command lines.
New NVDrive commands have been added on the NVDrive toolkit to read, write and delete the user properties of projects and measurements.

[[File:NVdrive.PNG|500px]]

== New car cigaret lighter plug ==

For OR36 and OR38 analyzer, OROS has designed a new cigaret lighter for beeing able to deliver 24.5V.
You can plug it on 10V-35V cigaret lighter and it will deliver 24.5V on output to power supply OR36 and OR38 analyzer and charge the battery.

It can be ordered with the reference : OR36-8TW-DCCL

[[File:cigaretlightercable.png|500px]]

(Cigaret lighter power supply for OR35, OR34 and OR10 remain available.)

== [[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing ==

ORBIgate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can '''now be used on daisy chained systems''' as NVGate. 
In addition, measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors: 
On top of that ORBIGate features as well an extension of the ratio for the '''Fractional tach feature up to a 100'''.

== New Sound Power V3.20 ==

OROS SOUND POWER Solution has been designed to let you achieve that type of test in the most efficient and accurate way.

This new version includes the following improvements:
* New command to start directly the software on your pre-configured setup
* Option to modify the limit of overall octave filter
* Excel templates fully updated to the last standard
* Full compatibility with NVGate 2022.

Read the dedicated [[Sound Power 3 20|Sound Power 3.20 release note]] for more info.

== Bug fixing ==

* 14133: Record with DC inputs doesn't work for some frequency samplings.
* 14112: Double filter with HP @10HZ in TDA in post analyse: nothing is displayed.
* 14102: Christmas tree with OR35TW is reproduce in a specific configuration.
* 14166: Delete the last value from calibration history.
* 14187: History transducer database can not be display on a japanese windows 10 PC.
* 14190: Random Burst on Block Event.
* 14130: "result selection windows": Lissajous graph is not display .
* 14184: Wrong display of TDA table after copy graph .
* 14210: OCT not possible to set a time constant below 20 ms.
* 14219: Autorange is "Saving the working results".
* 14286: Octave limited range of CPB filter is working strangely.
* 14194: Octave LimitedRange And Reduce SamplingFreq crash NVGate
* 14399: Impossible to compute EVHV Spatiogramme.
* 14290: several Lissajous graphics - cursors are not linked together.
* 14437: Error on NVDrive "NVGS_GetTrackNumberOfSample" Function with SBL > 2GB

NVGate 2022: Release note de

2022-03-14T16:37:34Z

Credaelli:

[[category:NVGate2022]]

OROS ist bestrebt, nah bei den Anwendern zu sein und aufmerksam auf die Bedürfnisse und das Feedback aus der Praxis zu achten. Darauf aufbauend werden regelmäßig neue Versionen veröffentlicht.

[[File:Splash_screen2022.png|500px]]

 
Die Hauptversion von NVGate® 2022 ist seit Januar 2022 verfügbar. Diese Version der Softwareplattform der Analysatoren der OROS 3-Serie bringt zusätzliche Funktionen und signifikante Leistungsverbesserungen. Nachfolgend finden Sie eine Zusammenfassung der wichtigsten Verbesserungen Ihres NVGate-Erlebnisses: 

'''>> 3''' Hauptgründe, um Ihre '''TEAMWORK Effizienz''' auf das Maximum zu bringen. 

{| class="wikitable" |
|-
! style="background: white;|[[File:READER.png|70px]] 
Erkunden der Daten einfach & frei, ohne jede Lizenz!
! style="background: white;|[[File:Ergonomics.png|70px]] 
Weniger Klicks und größere Effizienz fürs Team
! style="background: white;|[[File:W11.png|70px]] 
Mit den Entwicklungen Schritt halten: die Windows 11 Kompatibilität ist sichergestellt.
|-
| Start von '''NVGate in READER-Modus''' ohne Lizenz und arbeiten Sie mit den Daten bis zum Report. Teilen der Daten mit dem Team oder Partnern: Sie werden in der Lage sein Daten zu sammeln, zu untersuchen, anzuzeigen und zu bearbeiten, und das ohne Lizenz.[[NVGate_2022:_Release_note#NVGate_READER_:_Share_.26_Explore_your_data_Simply_.26_FREEly_.21|>>]] ||
Erleben Sie verbesserte Ergonomie und Intuition dank der optimierten neuen Ribbons und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks,[[NVGate_2022:_Release_note#Enhanced_ERGONOMICS_:_Save_more_clicks_and_push_teams_efficiency_to_the_limits|>>]]

|| Das neue '''Windows 11''' ist veröffentlicht und NVGate 2022 passt sich an, um eine vollständige '''Kompatibilität''' mit der modernen Umgebung sicherzustellen.
|}

'''>> 4''' Hauptmerkmale, um weiterhin die höchste Leistung in der ROTATING-Analyse vorzuschlagen 

{| class="wikitable"
|-
! style="background: white;|[[File:3shaftordertracking.png| 70px]]
3Fache Ordnungsanalyse!
! style="background: white;|[[File:FracTach.png|70px]] Mehreren Wellen mit nur einem Tacho: Virtual tach mit Getriebeverhältnis bis zu 100!
! style="background: white;|[[File:PV.png|70px]] PV Diagramm für Antriebe.
! style="background: white;|[[File:orbigate.png|70px]] Kombinieren Sie Ihre ORBIGate-Systeme: Rotordynamik Messungen mit kaskadierten Systemen.
|-
| Unabhängig davon, ob Ihre Messung an einem Getriebe, einem Kompressor oder sonstigen Maschine mit mehreren Wellen durchgeführt wird, bietet NVGate nun '''3 parallele Ordnungsanalysen''' sowohl im Online- als auch im Office Modus.
| Die Messung von Vibrationen an Maschinen mit mehreren Wellen wie Getrieben kann mehrere Drehzahlmesser erfordern. NVGate 2022 bietet nun größere Übersetzungen für die integrierte virtuelle Tachometerfunktion mit einem '''Verhältnis von bis zu 100''' zwischen schneller und langsamer Welle.
| Das PV-Diagramm ermöglicht es Druck und Volumen gegenüber zu stellen. Das '''PV-Diagramm''' ist als ein neues Add-on verfügbar.
| ORBIGate entwickelt sich weiter. Insbesondere die Rotordynamiklösung kann ebenfalls mit Daisy-Chain-Systemen eingesetzt werden.
|}

Diese Release Note beschreibt den Inhalt der Version mit Betriebsdetails.
 
Um NVGate 2022 herunterzuladen und zu installieren, [[NVGate_2022:_Install_Process|lesen Sie diese Seite]].
 

Kompatibilität: NVGate 2022 ist mit allen OROS-Instrumenten (OR34 V1 - OR35 V1 - OR36 V2 und TW - OR38 V2 und TW-OR10) kompatibel, die nicht abgekündigt wurden. Abhängig von den Hardwareoptionen und der Version können einige Instrumentenfunktionen verfügbar sein oder nicht.

== [[File:READER.png|70px]] NVGate Reader: Erkunden der Daten einfach & frei, ohne jede Lizenz! ==

Starten Sie NVGate im READER-Modus von überall und arbeiten Sie sich bis zum Bericht vor. Ihre Teams und Partner können Ihre Daten einfach und ohne Softwarelizenz erkunden: einfach KOSTENLOS!
Dies ist der allererste Schritt, den Sie tun können, um die Möglichkeiten von OROS und NVGate zu entdecken: unabhängig davon, ob Sie Erfahrung mit Schall und Schwingungen haben oder nicht.

<youtube>https://youtu.be/xfEEQaCxaI4</youtube>

Wenn NVGate 2022 gestartet wird, ohne dass eine Lizenz erkannt wird, wird es im READER-Modus gestartet. Das folgende Dialogfenster wird angezeigt: 
[[File:READER START.png|200px]]
'''Mit dem READER-Modus: '''
* - Verwalten Sie die Daten: [[NVGate_dataset_management#Share_and_collate_dataset|Collate & share data]], filtern und sortieren Sie Daten basierend auf Eigenschaften: so nutzen Sie die Kraft von [[NVGate_dataset_management#Dataset_management|Dataset Management]] 
[[File:reader.PNG|500px]]
* - Zeigen Sie die Daten unabhängig vom Anzeigetyp an 
* - Verwenden Sie die Anzeige- und Analysewerkzeuge: Zoomen, Skalieren, Cursor und Marker zum Lesen der Ergebniswerte 
[[File:DISPLAY.png|400px]]
* - Veröffentlichen Sie automatisierte oder manuelle Berichte 

'''Wie geht es weiter?''' 
Nur Daten, die von einer NVGate 2022-Version erstellt oder geteilt werden, sind mit dem NVGate 2022 READER kompatibel: 
- Für Teams, die eine lizenzierte Version von NVGate verwenden, werden mit NVGate 2022 generierte Daten im Projektmanager gespeichert und sind '''einfach lesbar''', wenn sie im READER-Modus starten 
- Für READER-Benutzer ohne lizenzierte Version von NVGate können die von Ihrem Teammitglied oder Partner GETEILTEN Daten mit der Funktion "[[NVGate_dataset_management#Collate_Datasets|COLLATE]]" importiert werden. 
- Eingebettete Beispiele, die mit der Version installiert werden, sind '''für das Selbsttraining verfügbar''' und können mit der Funktion "[[NVGate_Edit_Measurement|EDIT MEASUREMENT]]" angezeigt werden. 

- Für Benutzer, die Ihre Daten mit Reader-Benutzern [[NVGate_dataset_management#Share_Dataset|TEILEN]] möchten: sie können es mit der [[NVGate_dataset_management#Share_Dataset|"SHARE"]] Funktion tun. 

- In allen Fällen werden gemeinsam genutzte DATEN zunächst auf einer lizenzierten NVGate-Version erstellt, entweder in Echtzeit, wenn sie mit einem OROS-Instrument verbunden ist, oder aus einer Postanalyse basierend auf einem aufgezeichneten Signal 

== Optimierte ERGONOMIE : Weniger Klicks und größere Effizienz fürs Team ==

Erleben Sie die verbesserte Feldergonomie und Intuition dank der optimierten '''neuen Ribbon Tabs''' und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks auf Knopfdruck.

Die Benutzeroberfläche fasst die Funktionen des Analysators in einfachen, übersichtlichen und leicht zu identifizierenden Registerkarten zusammen, die nach den Hauptoperationen organisiert sind (Home, Acquisition, Analysis, Data, Display, Report, Automation, Preferences).

<youtube>https://youtu.be/MRGE2-VLBFg</youtube>

===Tab: neue Anordnung der Buttons===

Die Hauptfunktionen wurden durch eine Benutzeroberfläche hervorgehoben, die die Benutzer zur besten Verwendung ihres Analysators der OROS 3-Serie führt.
Die Softwareeinträge sind in einer logischen Operationsweise organisiert. Es gibt 8 verschiedene Tabs, die dem Hauptoperationstyp entsprechen:

====Home====

[[File:home3.PNG|800px]]

The goal of the Home tab is to make a user friendly tab for doing a measurement.
You can load a project, create a setup (using the "go to results" group), start an acquisition, see your data, the disk space and change the user.
In fact for a lot of every day application you can stay on this tab, no need to check the other one.

we have also highlighted the Attachement function [[File:home_attachment_2022.PNG|30px]] on this tab.

'''Attachment''': Enables to quickly identify if files (reports, pictures, videos....) are attached to the current project. Click on this button to create and/or open the attachment folder.
''Note: if the "Default project" is active, the Attachment button is greyed.
{|border="0" cellspacing="0" cellpadding="4" width="50%" align="left"
|-
|[[File:home_attachment_2022.PNG|30px]]
| The ''Attachment'' folder of the current project is empty or does not exist.
|-
|[[File:home_attachment_file_2022.PNG|30px]]
| File(s) are located in the ''Attachment'' folder of the current project.
|} 

====Acquisition====

This tab provides all the necessary entries to setup the front-end and the use of any channels in details. It separates the acquisition channels setup from the outputs, triggering, tachometer, and filters ones.

[[File:Acquisition3.PNG|750px]]

====Analysis====

In this tab, the software gathers the front-end, recorder and analyses controls. Each icon corresponds to a plug-in analyzer. The content of this tab depends on the purchased optional plug-ins. 
[[File:Analysis3.PNG|700px]]

====Data====

This tab provides functions to deal all your data, transfer Projects, Measurements, Models, export and import your data, filter the Project Manager.
[[File:Data3.PNG|500px]]

====Display====
This tab covers the results display control. It allows creating, fulfilling, arranging and viewing the windows and layouts. It controls the scale, units, weighting and data operations of any graphs, manages the waterfalls and extraction graphs and the markers.

[[File:display3.PNG|700px]]

The display tab has been entirely thought and improved with NVGate 2022. Some functions have been highlighted : freeze, zoom, add layout.
The mouse mode has been also improved (cursor, marker, zoom, move, rotate). One mode can now be selected in one click. Also now the default mouse mode will always be the cursor mode, so if you unselect a mode it will go back directly to the cursor mode.

====Preferences====

This tab provides direct access to the user’s definition, user's preferences and sensor database.

[[File:Preference3.PNG|500px]]

====Post analysis button on status bar====

[[File:PA_Status.png]]

On the status bar you have now a direct access to the "online to post analysis" mode.

|[[File:Home_online_to_PA.PNG|30px]]
| '''Online to Post-analysis''': This button is used to switch from Online mode to Post-analysis mode. This will open the ''Select Signal'' window which lists all the recorded signals available. The selected signal will be then playback and can be re-injected into any plug-in analyzer (Monitor, FFT, 1/n Octave...). It is also possible to play back a recorded signal through the Output during Online analysis.

See [[NVGate_Player|player page]] for more details.

====Automation====
The Automation tab contains powerful and helpful tools to automate repetitive tasks made with the analyzers.
[[File:Automation.PNG|700px]]

=== Go to results: one click icons===

New "one click" function have been added on the go to results for more user friendliness.

[[File:gotoresults3.PNG|400px]]

* [[File:viwe recording.PNG|50px]]view recording: will open the signal monitoring window on top of the current layout. In the case of this window is already open in another layout, it swaps to this layout.

* [[File:Add__layout.PNG|40px]] Add Layout: Creates a new layout. A dialog box used to name the new layout is displayed by clicking on the button. A new tab is created and selected, corresponding to the new layout.

* [[File:waterfall settings.PNG|150px]] Opens the waterfall triggering dialog. This dialog allows selecting the trigger of by the waterfall plug-in (only available on profile and waterfall tab).

=== RPM buttons create automatic events===

[[File:auto_rpm.PNG|200px]] The RPM button has now beeing entierly redesigned. Apply this button will automatically put the waterfall trigger on delta RPM or periodic.
This will make the setup of NVGate much more easier for a rotating or run up aplication. (only available on profile or waterfall tab)

In details this button will :

* Create a Delta RPM event, source = the one activated in the "Tach.". Delta velocity : 10 RPM.
* Create a Periodic event (0.5 sec)
* Create a Combined event 1. mode: "Delta RPM OR Periodic 1"
* Set waterfall Trigger to Combined event
* Create of an RPM event (source = the one activated in the tach field)

=== New default settings===

The default settings in NVGate have been updated to the ones below. With these default settings, you can do rotating analysis measurement directly.
Be aware that if you load an exiting project, the settings will not be affected. You can also easily change these settings.

FFT Overlap: 66%

FFT lines: 3200

FFT Overall low freq : 2 Hz

SOA resolution: 1/8

SOA overlap: 5

SOA OVL lower order: 0.2

Event Delta RPM: Delta velocity 10 rpm

Waterfall Depth: 1000

Tachometer/RPM Profiles/Duration: 120 sec

== New units available ==

[[File:unit.PNG]] New units have been added:

Angular velocity: Hertz

Pressure: Pascal and Bar

Torsionnal velocity: RPM

== [[File:FracTach.png|70px]] Measure all your shafts with 1 tach sensor: virtual tach gear ratio to 100 ==

[[Image:Reports_Tools_Ribbons_356.png]]: Fractional tachometer: computes RPM speed for a non accessible shaft by using gear ratio setting: adapted for gear boxes and transmissions. The ratio can now be set up to 100! (it used to be 2).

-> Used to define up to 4 fractional tachs using data from the tach or the Ext Tach.

[[Image:tacho_ratio.png|500px]]

*'''Tach ratio''': this is the ratio between the output angular speed and the input angular speed. This setting is defined by the product of 2 fractions: N1/D1 * N2/D2 where N1, D1, N2 and D2 are integer values. Tach.1 / Tach.2 ratio maximum value can be set up to 100.
[[File:le100.png|600px]]

== [[File:3shaftordertracking.png| 70px]] Triple shaft order analysis : 3 parallel real time SOA analysis ==

Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.

OROS, leader on rotating vibration analysis, is the only one in the world to let you achieve such a performance.

[[File:3SOA.PNG]]

== [[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines ==

A [https://en.wikipedia.org/wiki/Pressure%E2%80%93volume_diagram pressure–volume diagram] (or PV diagram, or volume–pressure loop) is used to describe corresponding changes in volume and pressure in a system.

[[File:Indicator_diagram_steam_admission.png|400px]]

The diagram records the pressure of steam versus the volume of steam in a cylinder, throughout a piston's cycle of motion in a steam engine. The diagram enables calculation of the work performed and thus can provide a measure of the power produced by the engine.

To exactly calculate the work done by the system it is necessary to calculate the integral of the pressure with respect to volume. One can often quickly calculate this using the PV diagram as it is simply the area enclosed by the cycle.

Download: [[Addons:PV_Diagram#Download| Check the PV diagram page]]

How to use :

[[File:PVdiagram2022.PNG|600px]]

*Define one (or more) channel as a pressure.
*Add this channel into Sync. order (SOA) plug in.
*On SOA plug in , average, domain, select: "Angular"
*Open PV_Diagram.exe
*Click on refresh (right click) in available results if you do not see anything.
*Select the input.
*Compute once will display the PV diagram base once based the last triggerd block.
*"background computation, will continuously compute the diagram.

== [[File:W11.png|70px]]Windows 11 compatibility==

[[File:Windows_11_logo.svg.png|400px]]

This version is compatible and fully tested with the last version of Microsoft Windows 10 and new Microsoft version Windows 11.

== Teamviewer V15 quick support ==

If you have any question for using your OROS analyzer, Teamviewer is a power full tool to take control of your PC and check together your question.
NVGate 2022 include a the new version V15 of teamviwer .

[[File:teamviwer.PNG|200px]]

This version is available on your computer foler here: C:\OROS\NVGate data\Links\TeamViewerQS.exe . You can also donwload using this specific link : https://get.teamviewer.com/orosTV

== NVDrive ==

NVGate software can be fully remote-controlled using an external software package. The commands required for controlling each analyzer function are listed in the NVDrive®library.

=== Toolkit refresh ===

NVDrive toolkit has been refreshed with new examples, new print screen, new tree structure, .dll have been updated for beeing more clear and highlight the python language.
Also we have now only one reference on the price list "ORNV-TOOLKIT" which includes the full toolkit (NVdrive, Matdrive, .oxf, python.).

===New commands: Read Write NVGate user properties (Project / Measurement)===

NVDrive allows you to take control of the analyzer with command lines.
New NVDrive commands have been added on the NVDrive toolkit to read, write and delete the user properties of projects and measurements.

[[File:NVdrive.PNG|500px]]

== New car cigaret lighter plug ==

For OR36 and OR38 analyzer, OROS has designed a new cigaret lighter for beeing able to deliver 24.5V.
You can plug it on 10V-35V cigaret lighter and it will deliver 24.5V on output to power supply OR36 and OR38 analyzer and charge the battery.

It can be ordered with the reference : OR36-8TW-DCCL

[[File:cigaretlightercable.png|500px]]

(Cigaret lighter power supply for OR35, OR34 and OR10 remain available.)

== [[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing ==

ORBIgate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can '''now be used on daisy chained systems''' as NVGate. 
In addition, measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors: 
On top of that ORBIGate features as well an extension of the ratio for the '''Fractional tach feature up to a 100'''.

== New Sound Power V3.20 ==

OROS SOUND POWER Solution has been designed to let you achieve that type of test in the most efficient and accurate way.

This new version includes the following improvements:
* New command to start directly the software on your pre-configured setup
* Option to modify the limit of overall octave filter
* Excel templates fully updated to the last standard
* Full compatibility with NVGate 2022.

Read the dedicated [[Sound Power 3 20|Sound Power 3.20 release note]] for more info.

== Bug fixing ==

* 14133: Record with DC inputs doesn't work for some frequency samplings.
* 14112: Double filter with HP @10HZ in TDA in post analyse: nothing is displayed.
* 14102: Christmas tree with OR35TW is reproduce in a specific configuration.
* 14166: Delete the last value from calibration history.
* 14187: History transducer database can not be display on a japanese windows 10 PC.
* 14190: Random Burst on Block Event.
* 14130: "result selection windows": Lissajous graph is not display .
* 14184: Wrong display of TDA table after copy graph .
* 14210: OCT not possible to set a time constant below 20 ms.
* 14219: Autorange is "Saving the working results".
* 14286: Octave limited range of CPB filter is working strangely.
* 14194: Octave LimitedRange And Reduce SamplingFreq crash NVGate
* 14399: Impossible to compute EVHV Spatiogramme.
* 14290: several Lissajous graphics - cursors are not linked together.
* 14437: Error on NVDrive "NVGS_GetTrackNumberOfSample" Function with SBL > 2GB

NVGate 2022: Release note de

2022-03-14T16:35:16Z

Credaelli:

[[category:NVGate2022]]

OROS ist bestrebt, nah bei den Anwendern zu sein und aufmerksam auf die Bedürfnisse und das Feedback aus der Praxis zu achten. Darauf aufbauend werden regelmäßig neue Versionen veröffentlicht.

[[File:Splash_screen2022.png|500px]]

 
Die Hauptversion von NVGate® 2022 ist seit Januar 2022 verfügbar. Diese Version der Softwareplattform der Analysatoren der OROS 3-Serie bringt zusätzliche Funktionen und signifikante Leistungsverbesserungen. Nachfolgend finden Sie eine Zusammenfassung der wichtigsten Verbesserungen Ihres NVGate-Erlebnisses: 

'''>> 3''' Hauptgründe, um Ihre '''TEAMWORK Effizienz''' auf das Maximum zu bringen. 

{| class="wikitable" |
|-
! style="background: white;|[[File:READER.png|70px]] 
Erkunden der Daten einfach & frei, ohne jede Lizenz!
! style="background: white;|[[File:Ergonomics.png|70px]] 
Weniger Klicks und größere Effizienz fürs Team
! style="background: white;|[[File:W11.png|70px]] 
Mit den Entwicklungen Schritt halten: die Windows 11 Kompatibilität ist sichergestellt.
|-
| Start von '''NVGate in READER-Modus''' ohne Lizenz und arbeiten Sie mit den Daten bis zum Report. Teilen der Daten mit dem Team oder Partnern: Sie werden in der Lage sein Daten zu sammeln, zu untersuchen, anzuzeigen und zu bearbeiten, und das ohne Lizenz.[[NVGate_2022:_Release_note#NVGate_READER_:_Share_.26_Explore_your_data_Simply_.26_FREEly_.21|>>]] ||
Erleben Sie verbesserte Ergonomie und Intuition dank der optimierten neuen Ribbons und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks,[[NVGate_2022:_Release_note#Enhanced_ERGONOMICS_:_Save_more_clicks_and_push_teams_efficiency_to_the_limits|>>]]

|| Das neue '''Windows 11''' ist veröffentlicht und NVGate 2022 passt sich an, um eine vollständige '''Kompatibilität''' mit der modernen Umgebung sicherzustellen.
|}

'''>> 4''' Hauptmerkmale, um weiterhin die höchste Leistung in der ROTATING-Analyse vorzuschlagen 

{| class="wikitable"
|-
! style="background: white;|[[File:3shaftordertracking.png| 70px]]
3Fache Ordnungsanalyse!
! style="background: white;|[[File:FracTach.png|70px]] Mehreren Wellen mit nur einem Tacho: Virtual tach mit Getriebeverhältnis bis zu 100!
! style="background: white;|[[File:PV.png|70px]] PV Diagramm für Antriebe.
! style="background: white;|[[File:orbigate.png|70px]] Kombinieren Sie Ihre ORBIGate-Systeme: Rotordynamik Messungen mit kaskadierten Systemen.
|-
| Unabhängig davon, ob Ihre Messung an einem Getriebe, einem Kompressor oder sonstigen Maschine mit mehreren Wellen durchgeführt wird, bietet NVGate nun '''3 parallele Ordnungsanalysen''' sowohl im Online- als auch im Office Modus.
| Die Messung von Vibrationen an Maschinen mit mehreren Wellen wie Getrieben kann mehrere Drehzahlmesser erfordern. NVGate 2022 bietet nun größere Übersetzungen für die integrierte virtuelle Tachometerfunktion mit einem '''Verhältnis von bis zu 100''' zwischen schneller und langsamer Welle.
| Das PV-Diagramm ermöglicht es Druck und Volumen gegenüber zu stellen. Das '''PV-Diagramm''' ist als ein neues Add-on verfügbar.
| ORBIGate entwickelt sich weiter. Insbesondere die Rotordynamiklösung kann ebenfalls mit Daisy-Chain-Systemen eingesetzt werden.
|}

Diese Release Note beschreibt den Inhalt der Version mit Betriebsdetails.
 
Um NVGate 2022 herunterzuladen und zu installieren, [[NVGate_2022:_Install_Process|lesen Sie diese Seite]].
 

Kompatibilität: NVGate 2022 ist mit allen OROS-Instrumenten (OR34 V1 - OR35 V1 - OR36 V2 und TW - OR38 V2 und TW-OR10) kompatibel, die nicht abgekündigt wurden. Abhängig von den Hardwareoptionen und der Version können einige Instrumentenfunktionen verfügbar sein oder nicht.

== [[File:READER.png|70px]] NVGate Reader: Erkunden der Daten einfach & frei, ohne jede Lizenz! ==

Starten Sie NVGate im READER-Modus von überall und arbeiten Sie sich bis zum Bericht vor. Ihre Teams und Partner können Ihre Daten einfach und ohne Softwarelizenz erkunden: einfach KOSTENLOS!
Dies ist der allererste Schritt, den Sie tun können, um die Möglichkeiten von OROS und NVGate zu entdecken: unabhängig davon, ob Sie Erfahrung mit Schall und Schwingungen haben oder nicht.

<youtube>https://youtu.be/xfEEQaCxaI4</youtube>

Wenn NVGate 2022 gestartet wird, ohne dass eine Lizenz erkannt wird, wird es im READER-Modus gestartet. Das folgende Dialogfenster wird angezeigt: 
[[File:READER START.png|200px]]
'''Mit dem READER-Modus: '''
* - Verwalten Sie die Daten: [[NVGate_dataset_management#Share_and_collate_dataset|Collate & share data]], filtern und sortieren Sie Daten basierend auf Eigenschaften: so nutzen Sie die Kraft von [[NVGate_dataset_management#Dataset_management|Dataset Management]] 
[[File:reader.PNG|500px]]
* - Zeigen Sie die Daten unabhängig vom Anzeigetyp an 
* - Verwenden Sie die Anzeige- und Analysewerkzeuge: Zoomen, Skalieren, Cursor und Marker zum Lesen der Ergebniswerte 
[[File:DISPLAY.png|400px]]
* - Veröffentlichen Sie automatisierte oder manuelle Berichte 

'''How to proceed?''' 
Nur Daten, die von einer NVGate 2022-Version erstellt oder geteilt werden, sind mit dem NVGate 2022 READER kompatibel: 
- Für Teams, die eine lizenzierte Version von NVGate verwenden, werden mit NVGate 2022 generierte Daten im Projektmanager gespeichert und sind '''einfach lesbar''', wenn sie im READER-Modus starten 
- Für READER-Benutzer ohne lizenzierte Version von NVGate können die von Ihrem Teammitglied oder Partner GETEILTEN Daten mit der Funktion "[[NVGate_dataset_management#Collate_Datasets|COLLATE]]" importiert werden. 
- Eingebettete Beispiele, die mit der Version installiert werden, sind '''für das Selbsttraining verfügbar''' und können mit der Funktion "[[NVGate_Edit_Measurement|EDIT MEASUREMENT]]" angezeigt werden. 

- Für Benutzer, die Ihre Daten mit Reader-Benutzern [[NVGate_dataset_management#Share_Dataset|TEILEN]] möchten: sie können es mit der [[NVGate_dataset_management#Share_Dataset|"SHARE"]] Funktion tun. 

- In allen Fällen werden gemeinsam genutzte DATEN zunächst auf einer lizenzierten NVGate-Version erstellt, entweder in Echtzeit, wenn sie mit einem OROS-Instrument verbunden ist, oder aus einer Postanalyse basierend auf einem aufgezeichneten Signal 

== Optimierte ERGONOMIE : Weniger Klicks und größere Effizienz fürs Team ==

Erleben Sie die verbesserte Feldergonomie und Intuition dank der optimierten '''neuen Ribbon Tabs''' und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks auf Knopfdruck.

Die Benutzeroberfläche fasst die Funktionen des Analysators in einfachen, übersichtlichen und leicht zu identifizierenden Registerkarten zusammen, die nach den Hauptoperationen organisiert sind (Home, Acquisition, Analysis, Data, Display, Report, Automation, Preferences).

<youtube>https://youtu.be/MRGE2-VLBFg</youtube>

===Tab: neue Anordnung der Buttons===

Die Hauptfunktionen wurden durch eine Benutzeroberfläche hervorgehoben, die die Benutzer zur besten Verwendung ihres Analysators der OROS 3-Serie führt.
Die Softwareeinträge sind in einer logischen Operationsweise organisiert. Es gibt 8 verschiedene Tabs, die dem Hauptoperationstyp entsprechen:

====Home====

[[File:home3.PNG|800px]]

The goal of the Home tab is to make a user friendly tab for doing a measurement.
You can load a project, create a setup (using the "go to results" group), start an acquisition, see your data, the disk space and change the user.
In fact for a lot of every day application you can stay on this tab, no need to check the other one.

we have also highlighted the Attachement function [[File:home_attachment_2022.PNG|30px]] on this tab.

'''Attachment''': Enables to quickly identify if files (reports, pictures, videos....) are attached to the current project. Click on this button to create and/or open the attachment folder.
''Note: if the "Default project" is active, the Attachment button is greyed.
{|border="0" cellspacing="0" cellpadding="4" width="50%" align="left"
|-
|[[File:home_attachment_2022.PNG|30px]]
| The ''Attachment'' folder of the current project is empty or does not exist.
|-
|[[File:home_attachment_file_2022.PNG|30px]]
| File(s) are located in the ''Attachment'' folder of the current project.
|} 

====Acquisition====

This tab provides all the necessary entries to setup the front-end and the use of any channels in details. It separates the acquisition channels setup from the outputs, triggering, tachometer, and filters ones.

[[File:Acquisition3.PNG|750px]]

====Analysis====

In this tab, the software gathers the front-end, recorder and analyses controls. Each icon corresponds to a plug-in analyzer. The content of this tab depends on the purchased optional plug-ins. 
[[File:Analysis3.PNG|700px]]

====Data====

This tab provides functions to deal all your data, transfer Projects, Measurements, Models, export and import your data, filter the Project Manager.
[[File:Data3.PNG|500px]]

====Display====
This tab covers the results display control. It allows creating, fulfilling, arranging and viewing the windows and layouts. It controls the scale, units, weighting and data operations of any graphs, manages the waterfalls and extraction graphs and the markers.

[[File:display3.PNG|700px]]

The display tab has been entirely thought and improved with NVGate 2022. Some functions have been highlighted : freeze, zoom, add layout.
The mouse mode has been also improved (cursor, marker, zoom, move, rotate). One mode can now be selected in one click. Also now the default mouse mode will always be the cursor mode, so if you unselect a mode it will go back directly to the cursor mode.

====Preferences====

This tab provides direct access to the user’s definition, user's preferences and sensor database.

[[File:Preference3.PNG|500px]]

====Post analysis button on status bar====

[[File:PA_Status.png]]

On the status bar you have now a direct access to the "online to post analysis" mode.

|[[File:Home_online_to_PA.PNG|30px]]
| '''Online to Post-analysis''': This button is used to switch from Online mode to Post-analysis mode. This will open the ''Select Signal'' window which lists all the recorded signals available. The selected signal will be then playback and can be re-injected into any plug-in analyzer (Monitor, FFT, 1/n Octave...). It is also possible to play back a recorded signal through the Output during Online analysis.

See [[NVGate_Player|player page]] for more details.

====Automation====
The Automation tab contains powerful and helpful tools to automate repetitive tasks made with the analyzers.
[[File:Automation.PNG|700px]]

=== Go to results: one click icons===

New "one click" function have been added on the go to results for more user friendliness.

[[File:gotoresults3.PNG|400px]]

* [[File:viwe recording.PNG|50px]]view recording: will open the signal monitoring window on top of the current layout. In the case of this window is already open in another layout, it swaps to this layout.

* [[File:Add__layout.PNG|40px]] Add Layout: Creates a new layout. A dialog box used to name the new layout is displayed by clicking on the button. A new tab is created and selected, corresponding to the new layout.

* [[File:waterfall settings.PNG|150px]] Opens the waterfall triggering dialog. This dialog allows selecting the trigger of by the waterfall plug-in (only available on profile and waterfall tab).

=== RPM buttons create automatic events===

[[File:auto_rpm.PNG|200px]] The RPM button has now beeing entierly redesigned. Apply this button will automatically put the waterfall trigger on delta RPM or periodic.
This will make the setup of NVGate much more easier for a rotating or run up aplication. (only available on profile or waterfall tab)

In details this button will :

* Create a Delta RPM event, source = the one activated in the "Tach.". Delta velocity : 10 RPM.
* Create a Periodic event (0.5 sec)
* Create a Combined event 1. mode: "Delta RPM OR Periodic 1"
* Set waterfall Trigger to Combined event
* Create of an RPM event (source = the one activated in the tach field)

=== New default settings===

The default settings in NVGate have been updated to the ones below. With these default settings, you can do rotating analysis measurement directly.
Be aware that if you load an exiting project, the settings will not be affected. You can also easily change these settings.

FFT Overlap: 66%

FFT lines: 3200

FFT Overall low freq : 2 Hz

SOA resolution: 1/8

SOA overlap: 5

SOA OVL lower order: 0.2

Event Delta RPM: Delta velocity 10 rpm

Waterfall Depth: 1000

Tachometer/RPM Profiles/Duration: 120 sec

== New units available ==

[[File:unit.PNG]] New units have been added:

Angular velocity: Hertz

Pressure: Pascal and Bar

Torsionnal velocity: RPM

== [[File:FracTach.png|70px]] Measure all your shafts with 1 tach sensor: virtual tach gear ratio to 100 ==

[[Image:Reports_Tools_Ribbons_356.png]]: Fractional tachometer: computes RPM speed for a non accessible shaft by using gear ratio setting: adapted for gear boxes and transmissions. The ratio can now be set up to 100! (it used to be 2).

-> Used to define up to 4 fractional tachs using data from the tach or the Ext Tach.

[[Image:tacho_ratio.png|500px]]

*'''Tach ratio''': this is the ratio between the output angular speed and the input angular speed. This setting is defined by the product of 2 fractions: N1/D1 * N2/D2 where N1, D1, N2 and D2 are integer values. Tach.1 / Tach.2 ratio maximum value can be set up to 100.
[[File:le100.png|600px]]

== [[File:3shaftordertracking.png| 70px]] Triple shaft order analysis : 3 parallel real time SOA analysis ==

Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.

OROS, leader on rotating vibration analysis, is the only one in the world to let you achieve such a performance.

[[File:3SOA.PNG]]

== [[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines ==

A [https://en.wikipedia.org/wiki/Pressure%E2%80%93volume_diagram pressure–volume diagram] (or PV diagram, or volume–pressure loop) is used to describe corresponding changes in volume and pressure in a system.

[[File:Indicator_diagram_steam_admission.png|400px]]

The diagram records the pressure of steam versus the volume of steam in a cylinder, throughout a piston's cycle of motion in a steam engine. The diagram enables calculation of the work performed and thus can provide a measure of the power produced by the engine.

To exactly calculate the work done by the system it is necessary to calculate the integral of the pressure with respect to volume. One can often quickly calculate this using the PV diagram as it is simply the area enclosed by the cycle.

Download: [[Addons:PV_Diagram#Download| Check the PV diagram page]]

How to use :

[[File:PVdiagram2022.PNG|600px]]

*Define one (or more) channel as a pressure.
*Add this channel into Sync. order (SOA) plug in.
*On SOA plug in , average, domain, select: "Angular"
*Open PV_Diagram.exe
*Click on refresh (right click) in available results if you do not see anything.
*Select the input.
*Compute once will display the PV diagram base once based the last triggerd block.
*"background computation, will continuously compute the diagram.

== [[File:W11.png|70px]]Windows 11 compatibility==

[[File:Windows_11_logo.svg.png|400px]]

This version is compatible and fully tested with the last version of Microsoft Windows 10 and new Microsoft version Windows 11.

== Teamviewer V15 quick support ==

If you have any question for using your OROS analyzer, Teamviewer is a power full tool to take control of your PC and check together your question.
NVGate 2022 include a the new version V15 of teamviwer .

[[File:teamviwer.PNG|200px]]

This version is available on your computer foler here: C:\OROS\NVGate data\Links\TeamViewerQS.exe . You can also donwload using this specific link : https://get.teamviewer.com/orosTV

== NVDrive ==

NVGate software can be fully remote-controlled using an external software package. The commands required for controlling each analyzer function are listed in the NVDrive®library.

=== Toolkit refresh ===

NVDrive toolkit has been refreshed with new examples, new print screen, new tree structure, .dll have been updated for beeing more clear and highlight the python language.
Also we have now only one reference on the price list "ORNV-TOOLKIT" which includes the full toolkit (NVdrive, Matdrive, .oxf, python.).

===New commands: Read Write NVGate user properties (Project / Measurement)===

NVDrive allows you to take control of the analyzer with command lines.
New NVDrive commands have been added on the NVDrive toolkit to read, write and delete the user properties of projects and measurements.

[[File:NVdrive.PNG|500px]]

== New car cigaret lighter plug ==

For OR36 and OR38 analyzer, OROS has designed a new cigaret lighter for beeing able to deliver 24.5V.
You can plug it on 10V-35V cigaret lighter and it will deliver 24.5V on output to power supply OR36 and OR38 analyzer and charge the battery.

It can be ordered with the reference : OR36-8TW-DCCL

[[File:cigaretlightercable.png|500px]]

(Cigaret lighter power supply for OR35, OR34 and OR10 remain available.)

== [[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing ==

ORBIgate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can '''now be used on daisy chained systems''' as NVGate. 
In addition, measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors: 
On top of that ORBIGate features as well an extension of the ratio for the '''Fractional tach feature up to a 100'''.

== New Sound Power V3.20 ==

OROS SOUND POWER Solution has been designed to let you achieve that type of test in the most efficient and accurate way.

This new version includes the following improvements:
* New command to start directly the software on your pre-configured setup
* Option to modify the limit of overall octave filter
* Excel templates fully updated to the last standard
* Full compatibility with NVGate 2022.

Read the dedicated [[Sound Power 3 20|Sound Power 3.20 release note]] for more info.

== Bug fixing ==

* 14133: Record with DC inputs doesn't work for some frequency samplings.
* 14112: Double filter with HP @10HZ in TDA in post analyse: nothing is displayed.
* 14102: Christmas tree with OR35TW is reproduce in a specific configuration.
* 14166: Delete the last value from calibration history.
* 14187: History transducer database can not be display on a japanese windows 10 PC.
* 14190: Random Burst on Block Event.
* 14130: "result selection windows": Lissajous graph is not display .
* 14184: Wrong display of TDA table after copy graph .
* 14210: OCT not possible to set a time constant below 20 ms.
* 14219: Autorange is "Saving the working results".
* 14286: Octave limited range of CPB filter is working strangely.
* 14194: Octave LimitedRange And Reduce SamplingFreq crash NVGate
* 14399: Impossible to compute EVHV Spatiogramme.
* 14290: several Lissajous graphics - cursors are not linked together.
* 14437: Error on NVDrive "NVGS_GetTrackNumberOfSample" Function with SBL > 2GB

NVGate 2022: Release note de

2022-03-14T16:09:15Z

Credaelli:

[[category:NVGate2022]]

OROS ist bestrebt, nah bei den Anwendern zu sein und aufmerksam auf die Bedürfnisse und das Feedback aus der Praxis zu achten. Darauf aufbauend werden regelmäßig neue Versionen veröffentlicht.

[[File:Splash_screen2022.png|500px]]

 
Die Hauptversion von NVGate® 2022 ist seit Januar 2022 verfügbar. Diese Version der Softwareplattform der Analysatoren der OROS 3-Serie bringt zusätzliche Funktionen und signifikante Leistungsverbesserungen. Nachfolgend finden Sie eine Zusammenfassung der wichtigsten Verbesserungen Ihres NVGate-Erlebnisses: 

'''>> 3''' Hauptgründe, um Ihre '''TEAMWORK Effizienz''' auf das Maximum zu bringen. 

{| class="wikitable" |
|-
! style="background: white;|[[File:READER.png|70px]] 
Erkunden der Daten einfach & frei, ohne jede Lizenz!
! style="background: white;|[[File:Ergonomics.png|70px]] 
Weniger Klicks und größere Effizienz fürs Team
! style="background: white;|[[File:W11.png|70px]] 
Mit den Entwicklungen Schritt halten: die Windows 11 Kompatibilität ist sichergestellt.
|-
| Start von '''NVGate in READER-Modus''' ohne Lizenz und arbeiten Sie mit den Daten bis zum Report. Teilen der Daten mit dem Team oder Partnern: Sie werden in der Lage sein Daten zu sammeln, zu untersuchen, anzuzeigen und zu bearbeiten, und das ohne Lizenz.[[NVGate_2022:_Release_note#NVGate_READER_:_Share_.26_Explore_your_data_Simply_.26_FREEly_.21|>>]] ||
Erleben Sie verbesserte Ergonomie und Intuition dank der optimierten neuen Ribbons und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks,[[NVGate_2022:_Release_note#Enhanced_ERGONOMICS_:_Save_more_clicks_and_push_teams_efficiency_to_the_limits|>>]]

|| Das neue '''Windows 11''' ist veröffentlicht und NVGate 2022 passt sich an, um eine vollständige '''Kompatibilität''' mit der modernen Umgebung sicherzustellen.
|}

'''>> 4''' Hauptmerkmale, um weiterhin die höchste Leistung in der ROTATING-Analyse vorzuschlagen 

{| class="wikitable"
|-
! style="background: white;|[[File:3shaftordertracking.png| 70px]]
3Fache Ordnungsanalyse!
! style="background: white;|[[File:FracTach.png|70px]] Mehreren Wellen mit nur einem Tacho: Virtual tach mit Getriebeverhältnis bis zu 100!
! style="background: white;|[[File:PV.png|70px]] PV Diagramm für Antriebe.
! style="background: white;|[[File:orbigate.png|70px]] Kombinieren Sie Ihre ORBIGate-Systeme: Rotordynamik Messungen mit kaskadierten Systemen.
|-
| Unabhängig davon, ob Ihre Messung an einem Getriebe, einem Kompressor oder sonstigen Maschine mit mehreren Wellen durchgeführt wird, bietet NVGate nun '''3 parallele Ordnungsanalysen''' sowohl im Online- als auch im Office Modus.
| Die Messung von Vibrationen an Maschinen mit mehreren Wellen wie Getrieben kann mehrere Drehzahlmesser erfordern. NVGate 2022 bietet nun größere Übersetzungen für die integrierte virtuelle Tachometerfunktion mit einem '''Verhältnis von bis zu 100''' zwischen schneller und langsamer Welle.
| Das PV-Diagramm ermöglicht es Druck und Volumen gegenüber zu stellen. Das '''PV-Diagramm''' ist als ein neues Add-on verfügbar.
| ORBIGate entwickelt sich weiter. Insbesondere die Rotordynamiklösung kann ebenfalls mit Daisy-Chain-Systemen eingesetzt werden.
|}

Diese Release Note beschreibt den Inhalt der Version mit Betriebsdetails.
 
Um NVGate 2022 herunterzuladen und zu installieren, [[NVGate_2022:_Install_Process|lesen Sie diese Seite]].
 

Kompatibilität: NVGate 2022 ist mit allen OROS-Instrumenten (OR34 V1 - OR35 V1 - OR36 V2 und TW - OR38 V2 und TW-OR10) kompatibel, die nicht abgekündigt wurden. Abhängig von den Hardwareoptionen und der Version können einige Instrumentenfunktionen verfügbar sein oder nicht.

== [[File:READER.png|70px]] NVGate READER : Share & Explore your data Simply & FREEly !==

Start NVGate in READER mode from anywhere and work all the way to the report. Your teams and partners can explore your data simply and without any software license: simply FREEly!
This is the very first step you can have to discover OROS and NVGate possibilities : whether you are experienced in Noise and Vibration or not.

<youtube>https://youtu.be/xfEEQaCxaI4</youtube>

Whenever NVGate 2022 is started without any licensing support detected it will start in READER mode.The following dialog window will be displayed: 
[[File:READER START.png|200px]]
'''The READER mode will let the user: '''
* - Manage the data : [[NVGate_dataset_management#Share_and_collate_dataset|Collate & share data]], filter and sort out data based on properties: so using the power of [[NVGate_dataset_management#Dataset_management|Dataset Management]] 
[[File:reader.PNG|500px]]
* - Display the data whatever the display type 
* - Use the display and analysis tools : zooming, scaling, cursor and markers reading results values 
[[File:DISPLAY.png|400px]]
* - Publish automated or manual reports 

'''How to proceed?''' 
Solely data created or shared from a NVGate 2022 version are compatible with the NVGate 2022 READER: 
- For teams using a licensed version of NVGate, data generated with NVG2022 will be stored in the project manager and '''straightforward readable''' whenever starting in READER mode 
- For READER users without any licensed version of NVGate, the data '''SHARED from your team member or partner''' can be imported using the "[[NVGate_dataset_management#Collate_Datasets|COLLATE]]" function. 
- Embedded examples installed with the version are '''available for self training''' and can be displayed using the "[[NVGate_Edit_Measurement|EDIT MEASUREMENT]]" feature. 

- For users who want to [[NVGate_dataset_management#Share_Dataset|SHARE]] their data with READER users: they can do it using the [[NVGate_dataset_management#Share_Dataset|"SHARE"]] function 

- In all cases, shared DATA is initially created on a NVGate licensed version either in real time when connected to an OROS instrument or from a post-analysis based on a recorded signal 

== [[File:Ergonomics.png|70px]] Enhanced ERGONOMICS : Save more clicks and push teams efficiency to the limits ==

Experience the enhanced field ergonomics and intuivity thanks to the optimized '''new Ribbon Tabs''' and application-oriented default settings. NVGate 2022 bring settings and displays at your fingertips in less clicks.

The interface gathers the analyzers functionalities in simple, clear and easy to identify tabs organized according to the main operations (Home, Acquisition, Analysis, Data, Display, Report, Automation, Preferences).

<youtube>https://youtu.be/MRGE2-VLBFg</youtube>

===Tab: new icone disposition===

Key features have been emphasized by interface, guiding the users to the best way using their OROS 3-Series analyzer.
The software entries are organized in a logical operation way. There are 8 different tabs corresponding to the main operations type:

====Home====

[[File:home3.PNG|800px]]

The goal of the Home tab is to make a user friendly tab for doing a measurement.
You can load a project, create a setup (using the "go to results" group), start an acquisition, see your data, the disk space and change the user.
In fact for a lot of every day application you can stay on this tab, no need to check the other one.

we have also highlighted the Attachement function [[File:home_attachment_2022.PNG|30px]] on this tab.

'''Attachment''': Enables to quickly identify if files (reports, pictures, videos....) are attached to the current project. Click on this button to create and/or open the attachment folder.
''Note: if the "Default project" is active, the Attachment button is greyed.
{|border="0" cellspacing="0" cellpadding="4" width="50%" align="left"
|-
|[[File:home_attachment_2022.PNG|30px]]
| The ''Attachment'' folder of the current project is empty or does not exist.
|-
|[[File:home_attachment_file_2022.PNG|30px]]
| File(s) are located in the ''Attachment'' folder of the current project.
|} 

====Acquisition====

This tab provides all the necessary entries to setup the front-end and the use of any channels in details. It separates the acquisition channels setup from the outputs, triggering, tachometer, and filters ones.

[[File:Acquisition3.PNG|750px]]

====Analysis====

In this tab, the software gathers the front-end, recorder and analyses controls. Each icon corresponds to a plug-in analyzer. The content of this tab depends on the purchased optional plug-ins. 
[[File:Analysis3.PNG|700px]]

====Data====

This tab provides functions to deal all your data, transfer Projects, Measurements, Models, export and import your data, filter the Project Manager.
[[File:Data3.PNG|500px]]

====Display====
This tab covers the results display control. It allows creating, fulfilling, arranging and viewing the windows and layouts. It controls the scale, units, weighting and data operations of any graphs, manages the waterfalls and extraction graphs and the markers.

[[File:display3.PNG|700px]]

The display tab has been entirely thought and improved with NVGate 2022. Some functions have been highlighted : freeze, zoom, add layout.
The mouse mode has been also improved (cursor, marker, zoom, move, rotate). One mode can now be selected in one click. Also now the default mouse mode will always be the cursor mode, so if you unselect a mode it will go back directly to the cursor mode.

====Preferences====

This tab provides direct access to the user’s definition, user's preferences and sensor database.

[[File:Preference3.PNG|500px]]

====Post analysis button on status bar====

[[File:PA_Status.png]]

On the status bar you have now a direct access to the "online to post analysis" mode.

|[[File:Home_online_to_PA.PNG|30px]]
| '''Online to Post-analysis''': This button is used to switch from Online mode to Post-analysis mode. This will open the ''Select Signal'' window which lists all the recorded signals available. The selected signal will be then playback and can be re-injected into any plug-in analyzer (Monitor, FFT, 1/n Octave...). It is also possible to play back a recorded signal through the Output during Online analysis.

See [[NVGate_Player|player page]] for more details.

====Automation====
The Automation tab contains powerful and helpful tools to automate repetitive tasks made with the analyzers.
[[File:Automation.PNG|700px]]

=== Go to results: one click icons===

New "one click" function have been added on the go to results for more user friendliness.

[[File:gotoresults3.PNG|400px]]

* [[File:viwe recording.PNG|50px]]view recording: will open the signal monitoring window on top of the current layout. In the case of this window is already open in another layout, it swaps to this layout.

* [[File:Add__layout.PNG|40px]] Add Layout: Creates a new layout. A dialog box used to name the new layout is displayed by clicking on the button. A new tab is created and selected, corresponding to the new layout.

* [[File:waterfall settings.PNG|150px]] Opens the waterfall triggering dialog. This dialog allows selecting the trigger of by the waterfall plug-in (only available on profile and waterfall tab).

=== RPM buttons create automatic events===

[[File:auto_rpm.PNG|200px]] The RPM button has now beeing entierly redesigned. Apply this button will automatically put the waterfall trigger on delta RPM or periodic.
This will make the setup of NVGate much more easier for a rotating or run up aplication. (only available on profile or waterfall tab)

In details this button will :

* Create a Delta RPM event, source = the one activated in the "Tach.". Delta velocity : 10 RPM.
* Create a Periodic event (0.5 sec)
* Create a Combined event 1. mode: "Delta RPM OR Periodic 1"
* Set waterfall Trigger to Combined event
* Create of an RPM event (source = the one activated in the tach field)

=== New default settings===

The default settings in NVGate have been updated to the ones below. With these default settings, you can do rotating analysis measurement directly.
Be aware that if you load an exiting project, the settings will not be affected. You can also easily change these settings.

FFT Overlap: 66%

FFT lines: 3200

FFT Overall low freq : 2 Hz

SOA resolution: 1/8

SOA overlap: 5

SOA OVL lower order: 0.2

Event Delta RPM: Delta velocity 10 rpm

Waterfall Depth: 1000

Tachometer/RPM Profiles/Duration: 120 sec

== New units available ==

[[File:unit.PNG]] New units have been added:

Angular velocity: Hertz

Pressure: Pascal and Bar

Torsionnal velocity: RPM

== [[File:FracTach.png|70px]] Measure all your shafts with 1 tach sensor: virtual tach gear ratio to 100 ==

[[Image:Reports_Tools_Ribbons_356.png]]: Fractional tachometer: computes RPM speed for a non accessible shaft by using gear ratio setting: adapted for gear boxes and transmissions. The ratio can now be set up to 100! (it used to be 2).

-> Used to define up to 4 fractional tachs using data from the tach or the Ext Tach.

[[Image:tacho_ratio.png|500px]]

*'''Tach ratio''': this is the ratio between the output angular speed and the input angular speed. This setting is defined by the product of 2 fractions: N1/D1 * N2/D2 where N1, D1, N2 and D2 are integer values. Tach.1 / Tach.2 ratio maximum value can be set up to 100.
[[File:le100.png|600px]]

== [[File:3shaftordertracking.png| 70px]] Triple shaft order analysis : 3 parallel real time SOA analysis ==

Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.

OROS, leader on rotating vibration analysis, is the only one in the world to let you achieve such a performance.

[[File:3SOA.PNG]]

== [[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines ==

A [https://en.wikipedia.org/wiki/Pressure%E2%80%93volume_diagram pressure–volume diagram] (or PV diagram, or volume–pressure loop) is used to describe corresponding changes in volume and pressure in a system.

[[File:Indicator_diagram_steam_admission.png|400px]]

The diagram records the pressure of steam versus the volume of steam in a cylinder, throughout a piston's cycle of motion in a steam engine. The diagram enables calculation of the work performed and thus can provide a measure of the power produced by the engine.

To exactly calculate the work done by the system it is necessary to calculate the integral of the pressure with respect to volume. One can often quickly calculate this using the PV diagram as it is simply the area enclosed by the cycle.

Download: [[Addons:PV_Diagram#Download| Check the PV diagram page]]

How to use :

[[File:PVdiagram2022.PNG|600px]]

*Define one (or more) channel as a pressure.
*Add this channel into Sync. order (SOA) plug in.
*On SOA plug in , average, domain, select: "Angular"
*Open PV_Diagram.exe
*Click on refresh (right click) in available results if you do not see anything.
*Select the input.
*Compute once will display the PV diagram base once based the last triggerd block.
*"background computation, will continuously compute the diagram.

== [[File:W11.png|70px]]Windows 11 compatibility==

[[File:Windows_11_logo.svg.png|400px]]

This version is compatible and fully tested with the last version of Microsoft Windows 10 and new Microsoft version Windows 11.

== Teamviewer V15 quick support ==

If you have any question for using your OROS analyzer, Teamviewer is a power full tool to take control of your PC and check together your question.
NVGate 2022 include a the new version V15 of teamviwer .

[[File:teamviwer.PNG|200px]]

This version is available on your computer foler here: C:\OROS\NVGate data\Links\TeamViewerQS.exe . You can also donwload using this specific link : https://get.teamviewer.com/orosTV

== NVDrive ==

NVGate software can be fully remote-controlled using an external software package. The commands required for controlling each analyzer function are listed in the NVDrive®library.

=== Toolkit refresh ===

NVDrive toolkit has been refreshed with new examples, new print screen, new tree structure, .dll have been updated for beeing more clear and highlight the python language.
Also we have now only one reference on the price list "ORNV-TOOLKIT" which includes the full toolkit (NVdrive, Matdrive, .oxf, python.).

===New commands: Read Write NVGate user properties (Project / Measurement)===

NVDrive allows you to take control of the analyzer with command lines.
New NVDrive commands have been added on the NVDrive toolkit to read, write and delete the user properties of projects and measurements.

[[File:NVdrive.PNG|500px]]

== New car cigaret lighter plug ==

For OR36 and OR38 analyzer, OROS has designed a new cigaret lighter for beeing able to deliver 24.5V.
You can plug it on 10V-35V cigaret lighter and it will deliver 24.5V on output to power supply OR36 and OR38 analyzer and charge the battery.

It can be ordered with the reference : OR36-8TW-DCCL

[[File:cigaretlightercable.png|500px]]

(Cigaret lighter power supply for OR35, OR34 and OR10 remain available.)

== [[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing ==

ORBIgate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can '''now be used on daisy chained systems''' as NVGate. 
In addition, measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors: 
On top of that ORBIGate features as well an extension of the ratio for the '''Fractional tach feature up to a 100'''.

== New Sound Power V3.20 ==

OROS SOUND POWER Solution has been designed to let you achieve that type of test in the most efficient and accurate way.

This new version includes the following improvements:
* New command to start directly the software on your pre-configured setup
* Option to modify the limit of overall octave filter
* Excel templates fully updated to the last standard
* Full compatibility with NVGate 2022.

Read the dedicated [[Sound Power 3 20|Sound Power 3.20 release note]] for more info.

== Bug fixing ==

* 14133: Record with DC inputs doesn't work for some frequency samplings.
* 14112: Double filter with HP @10HZ in TDA in post analyse: nothing is displayed.
* 14102: Christmas tree with OR35TW is reproduce in a specific configuration.
* 14166: Delete the last value from calibration history.
* 14187: History transducer database can not be display on a japanese windows 10 PC.
* 14190: Random Burst on Block Event.
* 14130: "result selection windows": Lissajous graph is not display .
* 14184: Wrong display of TDA table after copy graph .
* 14210: OCT not possible to set a time constant below 20 ms.
* 14219: Autorange is "Saving the working results".
* 14286: Octave limited range of CPB filter is working strangely.
* 14194: Octave LimitedRange And Reduce SamplingFreq crash NVGate
* 14399: Impossible to compute EVHV Spatiogramme.
* 14290: several Lissajous graphics - cursors are not linked together.
* 14437: Error on NVDrive "NVGS_GetTrackNumberOfSample" Function with SBL > 2GB

NVGate 2022: Release note de

2022-03-14T11:07:15Z

Credaelli:

[[category:NVGate2022]]

OROS ist bestrebt, nah bei den Anwendern zu sein und aufmerksam auf die Bedürfnisse und das Feedback aus der Praxis zu achten. Darauf aufbauend werden regelmäßig neue Versionen veröffentlicht.

[[File:Splash_screen2022.png|500px]]

 
Die Hauptversion von NVGate® 2022 ist seit Januar 2022 verfügbar. Diese Version der Softwareplattform der Analysatoren der OROS 3-Serie bringt zusätzliche Funktionen und signifikante Leistungsverbesserungen. Nachfolgend finden Sie eine Zusammenfassung der wichtigsten Verbesserungen Ihres NVGate-Erlebnisses: 

'''>> 3''' Hauptgründe, um Ihre '''TEAMWORK Effizienz''' auf das Maximum zu bringen. 

{| class="wikitable" |
|-
! style="background: white;|[[File:READER.png|70px]] 
Erkunden der Daten einfach & frei, ohne jede Lizenz!
! style="background: white;|[[File:Ergonomics.png|70px]] 
Weniger Klicks und größere Effizienz fürs Team
! style="background: white;|[[File:W11.png|70px]] 
Mit den Entwicklungen Schritt halten: die Windows 11 Kompatibilität ist sichergestellt.
|-
| Start von '''NVGate in READER-Modus''' ohne Lizenz und arbeiten Sie mit den Daten bis zum Report. Teilen der Daten mit dem Team oder Partnern: Sie werden in der Lage sein Daten zu sammeln, zu untersuchen, anzuzeigen und zu bearbeiten, und das ohne Lizenz.[[NVGate_2022:_Release_note#NVGate_READER_:_Share_.26_Explore_your_data_Simply_.26_FREEly_.21|>>]] ||
Erleben Sie verbesserte Ergonomie und Intuition dank der optimierten neuen Ribbons und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks,[[NVGate_2022:_Release_note#Enhanced_ERGONOMICS_:_Save_more_clicks_and_push_teams_efficiency_to_the_limits|>>]]

|| Das neue '''Windows 11''' ist veröffentlicht und NVGate 2022 passt sich an, um eine vollständige '''Kompatibilität''' mit der modernen Umgebung sicherzustellen.
|}

'''>> 4''' Hauptmerkmale, um weiterhin die höchste Leistung in der ROTATING-Analyse vorzuschlagen 

{| class="wikitable"
|-
! style="background: white;|[[File:3shaftordertracking.png| 70px]]
3Fache Ordnungsanalyse!
! style="background: white;|[[File:FracTach.png|70px]] Mehreren Wellen mit nur einem Tacho: Virtual tach mit Getriebeverhältnis bis zu 100!
! style="background: white;|[[File:PV.png|70px]] PV Diagramm für Antriebe.
! style="background: white;|[[File:orbigate.png|70px]] Kombinieren Sie Ihre ORBIGate-Systeme: Rotordynamik Messungen mit kaskadierten Systemen.
|-
| Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.
| Measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors. NVGate 2022 features an extension of the ratio for the '''Fractional tach feature up to a 100'''.
| The PV diagram allows to draw the Pressure vs the Volume directly when using the NVGate software interface. The '''PV diagram''' is a new add-on available.
| ORBIGate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can now be used on daisy chained systems as NVGate.
|}

This release note describes the content of version, with operating details.
 
To download and install NVGate 2022, [[NVGate_2022:_Install_Process|check this page]].
 

Compatibility: NVGate 2021 is compatible with all OROS instruments (OR34 V1 - OR35 V1 - OR36 V2 and TW - OR38 V2 and TW- OR10) that have not been discontinued. Depending on the hardware options and version, some instrument features may or may not be available.

== [[File:READER.png|70px]] NVGate READER : Share & Explore your data Simply & FREEly !==

Start NVGate in READER mode from anywhere and work all the way to the report. Your teams and partners can explore your data simply and without any software license: simply FREEly!
This is the very first step you can have to discover OROS and NVGate possibilities : whether you are experienced in Noise and Vibration or not.

<youtube>https://youtu.be/xfEEQaCxaI4</youtube>

Whenever NVGate 2022 is started without any licensing support detected it will start in READER mode.The following dialog window will be displayed: 
[[File:READER START.png|200px]]
'''The READER mode will let the user: '''
* - Manage the data : [[NVGate_dataset_management#Share_and_collate_dataset|Collate & share data]], filter and sort out data based on properties: so using the power of [[NVGate_dataset_management#Dataset_management|Dataset Management]] 
[[File:reader.PNG|500px]]
* - Display the data whatever the display type 
* - Use the display and analysis tools : zooming, scaling, cursor and markers reading results values 
[[File:DISPLAY.png|400px]]
* - Publish automated or manual reports 

'''How to proceed?''' 
Solely data created or shared from a NVGate 2022 version are compatible with the NVGate 2022 READER: 
- For teams using a licensed version of NVGate, data generated with NVG2022 will be stored in the project manager and '''straightforward readable''' whenever starting in READER mode 
- For READER users without any licensed version of NVGate, the data '''SHARED from your team member or partner''' can be imported using the "[[NVGate_dataset_management#Collate_Datasets|COLLATE]]" function. 
- Embedded examples installed with the version are '''available for self training''' and can be displayed using the "[[NVGate_Edit_Measurement|EDIT MEASUREMENT]]" feature. 

- For users who want to [[NVGate_dataset_management#Share_Dataset|SHARE]] their data with READER users: they can do it using the [[NVGate_dataset_management#Share_Dataset|"SHARE"]] function 

- In all cases, shared DATA is initially created on a NVGate licensed version either in real time when connected to an OROS instrument or from a post-analysis based on a recorded signal 

== [[File:Ergonomics.png|70px]] Enhanced ERGONOMICS : Save more clicks and push teams efficiency to the limits ==

Experience the enhanced field ergonomics and intuivity thanks to the optimized '''new Ribbon Tabs''' and application-oriented default settings. NVGate 2022 bring settings and displays at your fingertips in less clicks.

The interface gathers the analyzers functionalities in simple, clear and easy to identify tabs organized according to the main operations (Home, Acquisition, Analysis, Data, Display, Report, Automation, Preferences).

<youtube>https://youtu.be/MRGE2-VLBFg</youtube>

===Tab: new icone disposition===

Key features have been emphasized by interface, guiding the users to the best way using their OROS 3-Series analyzer.
The software entries are organized in a logical operation way. There are 8 different tabs corresponding to the main operations type:

====Home====

[[File:home3.PNG|800px]]

The goal of the Home tab is to make a user friendly tab for doing a measurement.
You can load a project, create a setup (using the "go to results" group), start an acquisition, see your data, the disk space and change the user.
In fact for a lot of every day application you can stay on this tab, no need to check the other one.

we have also highlighted the Attachement function [[File:home_attachment_2022.PNG|30px]] on this tab.

'''Attachment''': Enables to quickly identify if files (reports, pictures, videos....) are attached to the current project. Click on this button to create and/or open the attachment folder.
''Note: if the "Default project" is active, the Attachment button is greyed.
{|border="0" cellspacing="0" cellpadding="4" width="50%" align="left"
|-
|[[File:home_attachment_2022.PNG|30px]]
| The ''Attachment'' folder of the current project is empty or does not exist.
|-
|[[File:home_attachment_file_2022.PNG|30px]]
| File(s) are located in the ''Attachment'' folder of the current project.
|} 

====Acquisition====

This tab provides all the necessary entries to setup the front-end and the use of any channels in details. It separates the acquisition channels setup from the outputs, triggering, tachometer, and filters ones.

[[File:Acquisition3.PNG|750px]]

====Analysis====

In this tab, the software gathers the front-end, recorder and analyses controls. Each icon corresponds to a plug-in analyzer. The content of this tab depends on the purchased optional plug-ins. 
[[File:Analysis3.PNG|700px]]

====Data====

This tab provides functions to deal all your data, transfer Projects, Measurements, Models, export and import your data, filter the Project Manager.
[[File:Data3.PNG|500px]]

====Display====
This tab covers the results display control. It allows creating, fulfilling, arranging and viewing the windows and layouts. It controls the scale, units, weighting and data operations of any graphs, manages the waterfalls and extraction graphs and the markers.

[[File:display3.PNG|700px]]

The display tab has been entirely thought and improved with NVGate 2022. Some functions have been highlighted : freeze, zoom, add layout.
The mouse mode has been also improved (cursor, marker, zoom, move, rotate). One mode can now be selected in one click. Also now the default mouse mode will always be the cursor mode, so if you unselect a mode it will go back directly to the cursor mode.

====Preferences====

This tab provides direct access to the user’s definition, user's preferences and sensor database.

[[File:Preference3.PNG|500px]]

====Post analysis button on status bar====

[[File:PA_Status.png]]

On the status bar you have now a direct access to the "online to post analysis" mode.

|[[File:Home_online_to_PA.PNG|30px]]
| '''Online to Post-analysis''': This button is used to switch from Online mode to Post-analysis mode. This will open the ''Select Signal'' window which lists all the recorded signals available. The selected signal will be then playback and can be re-injected into any plug-in analyzer (Monitor, FFT, 1/n Octave...). It is also possible to play back a recorded signal through the Output during Online analysis.

See [[NVGate_Player|player page]] for more details.

====Automation====
The Automation tab contains powerful and helpful tools to automate repetitive tasks made with the analyzers.
[[File:Automation.PNG|700px]]

=== Go to results: one click icons===

New "one click" function have been added on the go to results for more user friendliness.

[[File:gotoresults3.PNG|400px]]

* [[File:viwe recording.PNG|50px]]view recording: will open the signal monitoring window on top of the current layout. In the case of this window is already open in another layout, it swaps to this layout.

* [[File:Add__layout.PNG|40px]] Add Layout: Creates a new layout. A dialog box used to name the new layout is displayed by clicking on the button. A new tab is created and selected, corresponding to the new layout.

* [[File:waterfall settings.PNG|150px]] Opens the waterfall triggering dialog. This dialog allows selecting the trigger of by the waterfall plug-in (only available on profile and waterfall tab).

=== RPM buttons create automatic events===

[[File:auto_rpm.PNG|200px]] The RPM button has now beeing entierly redesigned. Apply this button will automatically put the waterfall trigger on delta RPM or periodic.
This will make the setup of NVGate much more easier for a rotating or run up aplication. (only available on profile or waterfall tab)

In details this button will :

* Create a Delta RPM event, source = the one activated in the "Tach.". Delta velocity : 10 RPM.
* Create a Periodic event (0.5 sec)
* Create a Combined event 1. mode: "Delta RPM OR Periodic 1"
* Set waterfall Trigger to Combined event
* Create of an RPM event (source = the one activated in the tach field)

=== New default settings===

The default settings in NVGate have been updated to the ones below. With these default settings, you can do rotating analysis measurement directly.
Be aware that if you load an exiting project, the settings will not be affected. You can also easily change these settings.

FFT Overlap: 66%

FFT lines: 3200

FFT Overall low freq : 2 Hz

SOA resolution: 1/8

SOA overlap: 5

SOA OVL lower order: 0.2

Event Delta RPM: Delta velocity 10 rpm

Waterfall Depth: 1000

Tachometer/RPM Profiles/Duration: 120 sec

== New units available ==

[[File:unit.PNG]] New units have been added:

Angular velocity: Hertz

Pressure: Pascal and Bar

Torsionnal velocity: RPM

== [[File:FracTach.png|70px]] Measure all your shafts with 1 tach sensor: virtual tach gear ratio to 100 ==

[[Image:Reports_Tools_Ribbons_356.png]]: Fractional tachometer: computes RPM speed for a non accessible shaft by using gear ratio setting: adapted for gear boxes and transmissions. The ratio can now be set up to 100! (it used to be 2).

-> Used to define up to 4 fractional tachs using data from the tach or the Ext Tach.

[[Image:tacho_ratio.png|500px]]

*'''Tach ratio''': this is the ratio between the output angular speed and the input angular speed. This setting is defined by the product of 2 fractions: N1/D1 * N2/D2 where N1, D1, N2 and D2 are integer values. Tach.1 / Tach.2 ratio maximum value can be set up to 100.
[[File:le100.png|600px]]

== [[File:3shaftordertracking.png| 70px]] Triple shaft order analysis : 3 parallel real time SOA analysis ==

Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.

OROS, leader on rotating vibration analysis, is the only one in the world to let you achieve such a performance.

[[File:3SOA.PNG]]

== [[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines ==

A [https://en.wikipedia.org/wiki/Pressure%E2%80%93volume_diagram pressure–volume diagram] (or PV diagram, or volume–pressure loop) is used to describe corresponding changes in volume and pressure in a system.

[[File:Indicator_diagram_steam_admission.png|400px]]

The diagram records the pressure of steam versus the volume of steam in a cylinder, throughout a piston's cycle of motion in a steam engine. The diagram enables calculation of the work performed and thus can provide a measure of the power produced by the engine.

To exactly calculate the work done by the system it is necessary to calculate the integral of the pressure with respect to volume. One can often quickly calculate this using the PV diagram as it is simply the area enclosed by the cycle.

Download: [[Addons:PV_Diagram#Download| Check the PV diagram page]]

How to use :

[[File:PVdiagram2022.PNG|600px]]

*Define one (or more) channel as a pressure.
*Add this channel into Sync. order (SOA) plug in.
*On SOA plug in , average, domain, select: "Angular"
*Open PV_Diagram.exe
*Click on refresh (right click) in available results if you do not see anything.
*Select the input.
*Compute once will display the PV diagram base once based the last triggerd block.
*"background computation, will continuously compute the diagram.

== [[File:W11.png|70px]]Windows 11 compatibility==

[[File:Windows_11_logo.svg.png|400px]]

This version is compatible and fully tested with the last version of Microsoft Windows 10 and new Microsoft version Windows 11.

== Teamviewer V15 quick support ==

If you have any question for using your OROS analyzer, Teamviewer is a power full tool to take control of your PC and check together your question.
NVGate 2022 include a the new version V15 of teamviwer .

[[File:teamviwer.PNG|200px]]

This version is available on your computer foler here: C:\OROS\NVGate data\Links\TeamViewerQS.exe . You can also donwload using this specific link : https://get.teamviewer.com/orosTV

== NVDrive ==

NVGate software can be fully remote-controlled using an external software package. The commands required for controlling each analyzer function are listed in the NVDrive®library.

=== Toolkit refresh ===

NVDrive toolkit has been refreshed with new examples, new print screen, new tree structure, .dll have been updated for beeing more clear and highlight the python language.
Also we have now only one reference on the price list "ORNV-TOOLKIT" which includes the full toolkit (NVdrive, Matdrive, .oxf, python.).

===New commands: Read Write NVGate user properties (Project / Measurement)===

NVDrive allows you to take control of the analyzer with command lines.
New NVDrive commands have been added on the NVDrive toolkit to read, write and delete the user properties of projects and measurements.

[[File:NVdrive.PNG|500px]]

== New car cigaret lighter plug ==

For OR36 and OR38 analyzer, OROS has designed a new cigaret lighter for beeing able to deliver 24.5V.
You can plug it on 10V-35V cigaret lighter and it will deliver 24.5V on output to power supply OR36 and OR38 analyzer and charge the battery.

It can be ordered with the reference : OR36-8TW-DCCL

[[File:cigaretlightercable.png|500px]]

(Cigaret lighter power supply for OR35, OR34 and OR10 remain available.)

== [[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing ==

ORBIgate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can '''now be used on daisy chained systems''' as NVGate. 
In addition, measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors: 
On top of that ORBIGate features as well an extension of the ratio for the '''Fractional tach feature up to a 100'''.

== New Sound Power V3.20 ==

OROS SOUND POWER Solution has been designed to let you achieve that type of test in the most efficient and accurate way.

This new version includes the following improvements:
* New command to start directly the software on your pre-configured setup
* Option to modify the limit of overall octave filter
* Excel templates fully updated to the last standard
* Full compatibility with NVGate 2022.

Read the dedicated [[Sound Power 3 20|Sound Power 3.20 release note]] for more info.

== Bug fixing ==

* 14133: Record with DC inputs doesn't work for some frequency samplings.
* 14112: Double filter with HP @10HZ in TDA in post analyse: nothing is displayed.
* 14102: Christmas tree with OR35TW is reproduce in a specific configuration.
* 14166: Delete the last value from calibration history.
* 14187: History transducer database can not be display on a japanese windows 10 PC.
* 14190: Random Burst on Block Event.
* 14130: "result selection windows": Lissajous graph is not display .
* 14184: Wrong display of TDA table after copy graph .
* 14210: OCT not possible to set a time constant below 20 ms.
* 14219: Autorange is "Saving the working results".
* 14286: Octave limited range of CPB filter is working strangely.
* 14194: Octave LimitedRange And Reduce SamplingFreq crash NVGate
* 14399: Impossible to compute EVHV Spatiogramme.
* 14290: several Lissajous graphics - cursors are not linked together.
* 14437: Error on NVDrive "NVGS_GetTrackNumberOfSample" Function with SBL > 2GB

NVGate 2022: Release note de

2022-03-14T10:59:43Z

Credaelli:

[[category:NVGate2022]]

OROS ist bestrebt, nah bei den Anwendern zu sein und aufmerksam auf die Bedürfnisse und das Feedback aus der Praxis zu achten. Darauf aufbauend werden regelmäßig neue Versionen veröffentlicht.

[[File:Splash_screen2022.png|500px]]

 
Die Hauptversion von NVGate® 2022 ist seit Januar 2022 verfügbar. Diese Version der Softwareplattform der Analysatoren der OROS 3-Serie bringt zusätzliche Funktionen und signifikante Leistungsverbesserungen. Nachfolgend finden Sie eine Zusammenfassung der wichtigsten Verbesserungen Ihres NVGate-Erlebnisses: 

'''>> 3''' Hauptgründe, um Ihre '''TEAMWORK Effizienz''' auf das Maximum zu bringen. 

{| class="wikitable" |
|-
! style="background: white;|[[File:READER.png|70px]] 
Erkunden der Daten einfach & frei, ohne jede Lizenz!
! style="background: white;|[[File:Ergonomics.png|70px]] 
Weniger Klicks und größere Effizienz fürs Team
! style="background: white;|[[File:W11.png|70px]] 
Mit den Entwicklungen Schritt halten: die Windows 11 Kompatibilität ist sichergestellt.
|-
| Start von '''NVGate in READER-Modus''' ohne Lizenz und arbeiten Sie mit den Daten bis zum Report. Teilen der Daten mit dem Team oder Partnern: Sie werden in der Lage sein Daten zu sammeln, zu untersuchen, anzuzeigen und zu bearbeiten, und das ohne Lizenz.[[NVGate_2022:_Release_note#NVGate_READER_:_Share_.26_Explore_your_data_Simply_.26_FREEly_.21|>>]] ||
Erleben Sie verbesserte Ergonomie und Intuition dank der optimierten neuen Ribbons und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks,[[NVGate_2022:_Release_note#Enhanced_ERGONOMICS_:_Save_more_clicks_and_push_teams_efficiency_to_the_limits|>>]]

|| Das neue '''Windows 11''' ist veröffentlicht und NVGate 2022 passt sich an, um eine vollständige '''Kompatibilität''' mit der modernen Umgebung sicherzustellen.
|}

'''>> 4''' Hauptmerkmale, um weiterhin die höchste Leistung in der ROTATING-Analyse vorzuschlagen 

{| class="wikitable"
|-
! style="background: white;|[[File:3shaftordertracking.png| 70px]]
Triple shaft order analysis !
! style="background: white;|[[File:FracTach.png|70px]] Measure all your shafts with 1 tach sensor: virtual tach gear ratio upgraded to a 100 !
! style="background: white;|[[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines.
! style="background: white;|[[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing.
|-
| Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.
| Measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors. NVGate 2022 features an extension of the ratio for the '''Fractional tach feature up to a 100'''.
| The PV diagram allows to draw the Pressure vs the Volume directly when using the NVGate software interface. The '''PV diagram''' is a new add-on available.
| ORBIGate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can now be used on daisy chained systems as NVGate.
|}

This release note describes the content of version, with operating details.
 
To download and install NVGate 2022, [[NVGate_2022:_Install_Process|check this page]].
 

Compatibility: NVGate 2021 is compatible with all OROS instruments (OR34 V1 - OR35 V1 - OR36 V2 and TW - OR38 V2 and TW- OR10) that have not been discontinued. Depending on the hardware options and version, some instrument features may or may not be available.

== [[File:READER.png|70px]] NVGate READER : Share & Explore your data Simply & FREEly !==

Start NVGate in READER mode from anywhere and work all the way to the report. Your teams and partners can explore your data simply and without any software license: simply FREEly!
This is the very first step you can have to discover OROS and NVGate possibilities : whether you are experienced in Noise and Vibration or not.

<youtube>https://youtu.be/xfEEQaCxaI4</youtube>

Whenever NVGate 2022 is started without any licensing support detected it will start in READER mode.The following dialog window will be displayed: 
[[File:READER START.png|200px]]
'''The READER mode will let the user: '''
* - Manage the data : [[NVGate_dataset_management#Share_and_collate_dataset|Collate & share data]], filter and sort out data based on properties: so using the power of [[NVGate_dataset_management#Dataset_management|Dataset Management]] 
[[File:reader.PNG|500px]]
* - Display the data whatever the display type 
* - Use the display and analysis tools : zooming, scaling, cursor and markers reading results values 
[[File:DISPLAY.png|400px]]
* - Publish automated or manual reports 

'''How to proceed?''' 
Solely data created or shared from a NVGate 2022 version are compatible with the NVGate 2022 READER: 
- For teams using a licensed version of NVGate, data generated with NVG2022 will be stored in the project manager and '''straightforward readable''' whenever starting in READER mode 
- For READER users without any licensed version of NVGate, the data '''SHARED from your team member or partner''' can be imported using the "[[NVGate_dataset_management#Collate_Datasets|COLLATE]]" function. 
- Embedded examples installed with the version are '''available for self training''' and can be displayed using the "[[NVGate_Edit_Measurement|EDIT MEASUREMENT]]" feature. 

- For users who want to [[NVGate_dataset_management#Share_Dataset|SHARE]] their data with READER users: they can do it using the [[NVGate_dataset_management#Share_Dataset|"SHARE"]] function 

- In all cases, shared DATA is initially created on a NVGate licensed version either in real time when connected to an OROS instrument or from a post-analysis based on a recorded signal 

== [[File:Ergonomics.png|70px]] Enhanced ERGONOMICS : Save more clicks and push teams efficiency to the limits ==

Experience the enhanced field ergonomics and intuivity thanks to the optimized '''new Ribbon Tabs''' and application-oriented default settings. NVGate 2022 bring settings and displays at your fingertips in less clicks.

The interface gathers the analyzers functionalities in simple, clear and easy to identify tabs organized according to the main operations (Home, Acquisition, Analysis, Data, Display, Report, Automation, Preferences).

<youtube>https://youtu.be/MRGE2-VLBFg</youtube>

===Tab: new icone disposition===

Key features have been emphasized by interface, guiding the users to the best way using their OROS 3-Series analyzer.
The software entries are organized in a logical operation way. There are 8 different tabs corresponding to the main operations type:

====Home====

[[File:home3.PNG|800px]]

The goal of the Home tab is to make a user friendly tab for doing a measurement.
You can load a project, create a setup (using the "go to results" group), start an acquisition, see your data, the disk space and change the user.
In fact for a lot of every day application you can stay on this tab, no need to check the other one.

we have also highlighted the Attachement function [[File:home_attachment_2022.PNG|30px]] on this tab.

'''Attachment''': Enables to quickly identify if files (reports, pictures, videos....) are attached to the current project. Click on this button to create and/or open the attachment folder.
''Note: if the "Default project" is active, the Attachment button is greyed.
{|border="0" cellspacing="0" cellpadding="4" width="50%" align="left"
|-
|[[File:home_attachment_2022.PNG|30px]]
| The ''Attachment'' folder of the current project is empty or does not exist.
|-
|[[File:home_attachment_file_2022.PNG|30px]]
| File(s) are located in the ''Attachment'' folder of the current project.
|} 

====Acquisition====

This tab provides all the necessary entries to setup the front-end and the use of any channels in details. It separates the acquisition channels setup from the outputs, triggering, tachometer, and filters ones.

[[File:Acquisition3.PNG|750px]]

====Analysis====

In this tab, the software gathers the front-end, recorder and analyses controls. Each icon corresponds to a plug-in analyzer. The content of this tab depends on the purchased optional plug-ins. 
[[File:Analysis3.PNG|700px]]

====Data====

This tab provides functions to deal all your data, transfer Projects, Measurements, Models, export and import your data, filter the Project Manager.
[[File:Data3.PNG|500px]]

====Display====
This tab covers the results display control. It allows creating, fulfilling, arranging and viewing the windows and layouts. It controls the scale, units, weighting and data operations of any graphs, manages the waterfalls and extraction graphs and the markers.

[[File:display3.PNG|700px]]

The display tab has been entirely thought and improved with NVGate 2022. Some functions have been highlighted : freeze, zoom, add layout.
The mouse mode has been also improved (cursor, marker, zoom, move, rotate). One mode can now be selected in one click. Also now the default mouse mode will always be the cursor mode, so if you unselect a mode it will go back directly to the cursor mode.

====Preferences====

This tab provides direct access to the user’s definition, user's preferences and sensor database.

[[File:Preference3.PNG|500px]]

====Post analysis button on status bar====

[[File:PA_Status.png]]

On the status bar you have now a direct access to the "online to post analysis" mode.

|[[File:Home_online_to_PA.PNG|30px]]
| '''Online to Post-analysis''': This button is used to switch from Online mode to Post-analysis mode. This will open the ''Select Signal'' window which lists all the recorded signals available. The selected signal will be then playback and can be re-injected into any plug-in analyzer (Monitor, FFT, 1/n Octave...). It is also possible to play back a recorded signal through the Output during Online analysis.

See [[NVGate_Player|player page]] for more details.

====Automation====
The Automation tab contains powerful and helpful tools to automate repetitive tasks made with the analyzers.
[[File:Automation.PNG|700px]]

=== Go to results: one click icons===

New "one click" function have been added on the go to results for more user friendliness.

[[File:gotoresults3.PNG|400px]]

* [[File:viwe recording.PNG|50px]]view recording: will open the signal monitoring window on top of the current layout. In the case of this window is already open in another layout, it swaps to this layout.

* [[File:Add__layout.PNG|40px]] Add Layout: Creates a new layout. A dialog box used to name the new layout is displayed by clicking on the button. A new tab is created and selected, corresponding to the new layout.

* [[File:waterfall settings.PNG|150px]] Opens the waterfall triggering dialog. This dialog allows selecting the trigger of by the waterfall plug-in (only available on profile and waterfall tab).

=== RPM buttons create automatic events===

[[File:auto_rpm.PNG|200px]] The RPM button has now beeing entierly redesigned. Apply this button will automatically put the waterfall trigger on delta RPM or periodic.
This will make the setup of NVGate much more easier for a rotating or run up aplication. (only available on profile or waterfall tab)

In details this button will :

* Create a Delta RPM event, source = the one activated in the "Tach.". Delta velocity : 10 RPM.
* Create a Periodic event (0.5 sec)
* Create a Combined event 1. mode: "Delta RPM OR Periodic 1"
* Set waterfall Trigger to Combined event
* Create of an RPM event (source = the one activated in the tach field)

=== New default settings===

The default settings in NVGate have been updated to the ones below. With these default settings, you can do rotating analysis measurement directly.
Be aware that if you load an exiting project, the settings will not be affected. You can also easily change these settings.

FFT Overlap: 66%

FFT lines: 3200

FFT Overall low freq : 2 Hz

SOA resolution: 1/8

SOA overlap: 5

SOA OVL lower order: 0.2

Event Delta RPM: Delta velocity 10 rpm

Waterfall Depth: 1000

Tachometer/RPM Profiles/Duration: 120 sec

== New units available ==

[[File:unit.PNG]] New units have been added:

Angular velocity: Hertz

Pressure: Pascal and Bar

Torsionnal velocity: RPM

== [[File:FracTach.png|70px]] Measure all your shafts with 1 tach sensor: virtual tach gear ratio to 100 ==

[[Image:Reports_Tools_Ribbons_356.png]]: Fractional tachometer: computes RPM speed for a non accessible shaft by using gear ratio setting: adapted for gear boxes and transmissions. The ratio can now be set up to 100! (it used to be 2).

-> Used to define up to 4 fractional tachs using data from the tach or the Ext Tach.

[[Image:tacho_ratio.png|500px]]

*'''Tach ratio''': this is the ratio between the output angular speed and the input angular speed. This setting is defined by the product of 2 fractions: N1/D1 * N2/D2 where N1, D1, N2 and D2 are integer values. Tach.1 / Tach.2 ratio maximum value can be set up to 100.
[[File:le100.png|600px]]

== [[File:3shaftordertracking.png| 70px]] Triple shaft order analysis : 3 parallel real time SOA analysis ==

Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.

OROS, leader on rotating vibration analysis, is the only one in the world to let you achieve such a performance.

[[File:3SOA.PNG]]

== [[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines ==

A [https://en.wikipedia.org/wiki/Pressure%E2%80%93volume_diagram pressure–volume diagram] (or PV diagram, or volume–pressure loop) is used to describe corresponding changes in volume and pressure in a system.

[[File:Indicator_diagram_steam_admission.png|400px]]

The diagram records the pressure of steam versus the volume of steam in a cylinder, throughout a piston's cycle of motion in a steam engine. The diagram enables calculation of the work performed and thus can provide a measure of the power produced by the engine.

To exactly calculate the work done by the system it is necessary to calculate the integral of the pressure with respect to volume. One can often quickly calculate this using the PV diagram as it is simply the area enclosed by the cycle.

Download: [[Addons:PV_Diagram#Download| Check the PV diagram page]]

How to use :

[[File:PVdiagram2022.PNG|600px]]

*Define one (or more) channel as a pressure.
*Add this channel into Sync. order (SOA) plug in.
*On SOA plug in , average, domain, select: "Angular"
*Open PV_Diagram.exe
*Click on refresh (right click) in available results if you do not see anything.
*Select the input.
*Compute once will display the PV diagram base once based the last triggerd block.
*"background computation, will continuously compute the diagram.

== [[File:W11.png|70px]]Windows 11 compatibility==

[[File:Windows_11_logo.svg.png|400px]]

This version is compatible and fully tested with the last version of Microsoft Windows 10 and new Microsoft version Windows 11.

== Teamviewer V15 quick support ==

If you have any question for using your OROS analyzer, Teamviewer is a power full tool to take control of your PC and check together your question.
NVGate 2022 include a the new version V15 of teamviwer .

[[File:teamviwer.PNG|200px]]

This version is available on your computer foler here: C:\OROS\NVGate data\Links\TeamViewerQS.exe . You can also donwload using this specific link : https://get.teamviewer.com/orosTV

== NVDrive ==

NVGate software can be fully remote-controlled using an external software package. The commands required for controlling each analyzer function are listed in the NVDrive®library.

=== Toolkit refresh ===

NVDrive toolkit has been refreshed with new examples, new print screen, new tree structure, .dll have been updated for beeing more clear and highlight the python language.
Also we have now only one reference on the price list "ORNV-TOOLKIT" which includes the full toolkit (NVdrive, Matdrive, .oxf, python.).

===New commands: Read Write NVGate user properties (Project / Measurement)===

NVDrive allows you to take control of the analyzer with command lines.
New NVDrive commands have been added on the NVDrive toolkit to read, write and delete the user properties of projects and measurements.

[[File:NVdrive.PNG|500px]]

== New car cigaret lighter plug ==

For OR36 and OR38 analyzer, OROS has designed a new cigaret lighter for beeing able to deliver 24.5V.
You can plug it on 10V-35V cigaret lighter and it will deliver 24.5V on output to power supply OR36 and OR38 analyzer and charge the battery.

It can be ordered with the reference : OR36-8TW-DCCL

[[File:cigaretlightercable.png|500px]]

(Cigaret lighter power supply for OR35, OR34 and OR10 remain available.)

== [[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing ==

ORBIgate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can '''now be used on daisy chained systems''' as NVGate. 
In addition, measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors: 
On top of that ORBIGate features as well an extension of the ratio for the '''Fractional tach feature up to a 100'''.

== New Sound Power V3.20 ==

OROS SOUND POWER Solution has been designed to let you achieve that type of test in the most efficient and accurate way.

This new version includes the following improvements:
* New command to start directly the software on your pre-configured setup
* Option to modify the limit of overall octave filter
* Excel templates fully updated to the last standard
* Full compatibility with NVGate 2022.

Read the dedicated [[Sound Power 3 20|Sound Power 3.20 release note]] for more info.

== Bug fixing ==

* 14133: Record with DC inputs doesn't work for some frequency samplings.
* 14112: Double filter with HP @10HZ in TDA in post analyse: nothing is displayed.
* 14102: Christmas tree with OR35TW is reproduce in a specific configuration.
* 14166: Delete the last value from calibration history.
* 14187: History transducer database can not be display on a japanese windows 10 PC.
* 14190: Random Burst on Block Event.
* 14130: "result selection windows": Lissajous graph is not display .
* 14184: Wrong display of TDA table after copy graph .
* 14210: OCT not possible to set a time constant below 20 ms.
* 14219: Autorange is "Saving the working results".
* 14286: Octave limited range of CPB filter is working strangely.
* 14194: Octave LimitedRange And Reduce SamplingFreq crash NVGate
* 14399: Impossible to compute EVHV Spatiogramme.
* 14290: several Lissajous graphics - cursors are not linked together.
* 14437: Error on NVDrive "NVGS_GetTrackNumberOfSample" Function with SBL > 2GB

NVGate 2022: Release note de

2022-03-14T10:57:24Z

Credaelli: Created page with " category:NVGate2022 OROS ist bestrebt, nah bei den Anwendern zu sein und aufmerksam auf die Bedürfnisse und das Feedback aus der Praxis zu achten. Darauf aufbauend we..."

[[category:NVGate2022]]

OROS ist bestrebt, nah bei den Anwendern zu sein und aufmerksam auf die Bedürfnisse und das Feedback aus der Praxis zu achten. Darauf aufbauend werden regelmäßig neue Versionen veröffentlicht.

[[File:Splash_screen2022.png|500px]]

 
Die Hauptversion von NVGate® 2022 ist seit Januar 2022 verfügbar. Diese Version der Softwareplattform der Analysatoren der OROS 3-Serie bringt zusätzliche Funktionen und signifikante Leistungsverbesserungen. Nachfolgend finden Sie eine Zusammenfassung der wichtigsten Verbesserungen Ihres NVGate-Erlebnisses: 

'''>> 3''' Hauptgründe, um Ihre '''TEAMWORK Effizienz''' auf das Maximum zu bringen. 

{| class="wikitable" |
|-
! style="background: white;|[[File:READER.png|70px]] 
Erkunden der Daten einfach & frei, ohne jede Lizenz!
! style="background: white;|[[File:Ergonomics.png|70px]] 
Weniger Klicks und größere Effizienz fürs Team
! style="background: white;|[[File:W11.png|70px]] 
Mit den Entwicklungen Schritt halten: die Windows 11 Kompatibilität ist sichergestellt.
|-
| Start von '''NVGate in READER-Modus''' ohne Lizenz und arbeiten Sie mit den Daten bis zum Report. Teilen der Daten mit dem Team oder Partnern: Sie werden in der Lage sein Daten zu sammeln, zu untersuchen, anzuzeigen und zu bearbeiten, und das ohne Lizenz.[[NVGate_2022:_Release_note#NVGate_READER_:_Share_.26_Explore_your_data_Simply_.26_FREEly_.21|>>]] ||
Erleben Sie verbesserte Ergonomie und Intuition dank der optimierten neuen Ribbons und anwendungsorientierten Standardeinstellungen. NVGate 2022 bringt Einstellungen und Anzeigen mit weniger Klicks,[[NVGate_2022:_Release_note#Enhanced_ERGONOMICS_:_Save_more_clicks_and_push_teams_efficiency_to_the_limits|>>]]

|| Das neue '''Windows 11''' ist veröffentlicht und NVGate 2022 passt sich an, um eine vollständige '''Kompatibilität''' mit der modernen Umgebung sicherzustellen.
|}

'''>> 4''' main features to keep proposing the '''highest performance in ROTATING''' analysis 

{| class="wikitable"
|-
! style="background: white;|[[File:3shaftordertracking.png| 70px]]
Triple shaft order analysis !
! style="background: white;|[[File:FracTach.png|70px]] Measure all your shafts with 1 tach sensor: virtual tach gear ratio upgraded to a 100 !
! style="background: white;|[[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines.
! style="background: white;|[[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing.
|-
| Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.
| Measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors. NVGate 2022 features an extension of the ratio for the '''Fractional tach feature up to a 100'''.
| The PV diagram allows to draw the Pressure vs the Volume directly when using the NVGate software interface. The '''PV diagram''' is a new add-on available.
| ORBIGate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can now be used on daisy chained systems as NVGate.
|}

This release note describes the content of version, with operating details.
 
To download and install NVGate 2022, [[NVGate_2022:_Install_Process|check this page]].
 

Compatibility: NVGate 2021 is compatible with all OROS instruments (OR34 V1 - OR35 V1 - OR36 V2 and TW - OR38 V2 and TW- OR10) that have not been discontinued. Depending on the hardware options and version, some instrument features may or may not be available.

== [[File:READER.png|70px]] NVGate READER : Share & Explore your data Simply & FREEly !==

Start NVGate in READER mode from anywhere and work all the way to the report. Your teams and partners can explore your data simply and without any software license: simply FREEly!
This is the very first step you can have to discover OROS and NVGate possibilities : whether you are experienced in Noise and Vibration or not.

<youtube>https://youtu.be/xfEEQaCxaI4</youtube>

Whenever NVGate 2022 is started without any licensing support detected it will start in READER mode.The following dialog window will be displayed: 
[[File:READER START.png|200px]]
'''The READER mode will let the user: '''
* - Manage the data : [[NVGate_dataset_management#Share_and_collate_dataset|Collate & share data]], filter and sort out data based on properties: so using the power of [[NVGate_dataset_management#Dataset_management|Dataset Management]] 
[[File:reader.PNG|500px]]
* - Display the data whatever the display type 
* - Use the display and analysis tools : zooming, scaling, cursor and markers reading results values 
[[File:DISPLAY.png|400px]]
* - Publish automated or manual reports 

'''How to proceed?''' 
Solely data created or shared from a NVGate 2022 version are compatible with the NVGate 2022 READER: 
- For teams using a licensed version of NVGate, data generated with NVG2022 will be stored in the project manager and '''straightforward readable''' whenever starting in READER mode 
- For READER users without any licensed version of NVGate, the data '''SHARED from your team member or partner''' can be imported using the "[[NVGate_dataset_management#Collate_Datasets|COLLATE]]" function. 
- Embedded examples installed with the version are '''available for self training''' and can be displayed using the "[[NVGate_Edit_Measurement|EDIT MEASUREMENT]]" feature. 

- For users who want to [[NVGate_dataset_management#Share_Dataset|SHARE]] their data with READER users: they can do it using the [[NVGate_dataset_management#Share_Dataset|"SHARE"]] function 

- In all cases, shared DATA is initially created on a NVGate licensed version either in real time when connected to an OROS instrument or from a post-analysis based on a recorded signal 

== [[File:Ergonomics.png|70px]] Enhanced ERGONOMICS : Save more clicks and push teams efficiency to the limits ==

Experience the enhanced field ergonomics and intuivity thanks to the optimized '''new Ribbon Tabs''' and application-oriented default settings. NVGate 2022 bring settings and displays at your fingertips in less clicks.

The interface gathers the analyzers functionalities in simple, clear and easy to identify tabs organized according to the main operations (Home, Acquisition, Analysis, Data, Display, Report, Automation, Preferences).

<youtube>https://youtu.be/MRGE2-VLBFg</youtube>

===Tab: new icone disposition===

Key features have been emphasized by interface, guiding the users to the best way using their OROS 3-Series analyzer.
The software entries are organized in a logical operation way. There are 8 different tabs corresponding to the main operations type:

====Home====

[[File:home3.PNG|800px]]

The goal of the Home tab is to make a user friendly tab for doing a measurement.
You can load a project, create a setup (using the "go to results" group), start an acquisition, see your data, the disk space and change the user.
In fact for a lot of every day application you can stay on this tab, no need to check the other one.

we have also highlighted the Attachement function [[File:home_attachment_2022.PNG|30px]] on this tab.

'''Attachment''': Enables to quickly identify if files (reports, pictures, videos....) are attached to the current project. Click on this button to create and/or open the attachment folder.
''Note: if the "Default project" is active, the Attachment button is greyed.
{|border="0" cellspacing="0" cellpadding="4" width="50%" align="left"
|-
|[[File:home_attachment_2022.PNG|30px]]
| The ''Attachment'' folder of the current project is empty or does not exist.
|-
|[[File:home_attachment_file_2022.PNG|30px]]
| File(s) are located in the ''Attachment'' folder of the current project.
|} 

====Acquisition====

This tab provides all the necessary entries to setup the front-end and the use of any channels in details. It separates the acquisition channels setup from the outputs, triggering, tachometer, and filters ones.

[[File:Acquisition3.PNG|750px]]

====Analysis====

In this tab, the software gathers the front-end, recorder and analyses controls. Each icon corresponds to a plug-in analyzer. The content of this tab depends on the purchased optional plug-ins. 
[[File:Analysis3.PNG|700px]]

====Data====

This tab provides functions to deal all your data, transfer Projects, Measurements, Models, export and import your data, filter the Project Manager.
[[File:Data3.PNG|500px]]

====Display====
This tab covers the results display control. It allows creating, fulfilling, arranging and viewing the windows and layouts. It controls the scale, units, weighting and data operations of any graphs, manages the waterfalls and extraction graphs and the markers.

[[File:display3.PNG|700px]]

The display tab has been entirely thought and improved with NVGate 2022. Some functions have been highlighted : freeze, zoom, add layout.
The mouse mode has been also improved (cursor, marker, zoom, move, rotate). One mode can now be selected in one click. Also now the default mouse mode will always be the cursor mode, so if you unselect a mode it will go back directly to the cursor mode.

====Preferences====

This tab provides direct access to the user’s definition, user's preferences and sensor database.

[[File:Preference3.PNG|500px]]

====Post analysis button on status bar====

[[File:PA_Status.png]]

On the status bar you have now a direct access to the "online to post analysis" mode.

|[[File:Home_online_to_PA.PNG|30px]]
| '''Online to Post-analysis''': This button is used to switch from Online mode to Post-analysis mode. This will open the ''Select Signal'' window which lists all the recorded signals available. The selected signal will be then playback and can be re-injected into any plug-in analyzer (Monitor, FFT, 1/n Octave...). It is also possible to play back a recorded signal through the Output during Online analysis.

See [[NVGate_Player|player page]] for more details.

====Automation====
The Automation tab contains powerful and helpful tools to automate repetitive tasks made with the analyzers.
[[File:Automation.PNG|700px]]

=== Go to results: one click icons===

New "one click" function have been added on the go to results for more user friendliness.

[[File:gotoresults3.PNG|400px]]

* [[File:viwe recording.PNG|50px]]view recording: will open the signal monitoring window on top of the current layout. In the case of this window is already open in another layout, it swaps to this layout.

* [[File:Add__layout.PNG|40px]] Add Layout: Creates a new layout. A dialog box used to name the new layout is displayed by clicking on the button. A new tab is created and selected, corresponding to the new layout.

* [[File:waterfall settings.PNG|150px]] Opens the waterfall triggering dialog. This dialog allows selecting the trigger of by the waterfall plug-in (only available on profile and waterfall tab).

=== RPM buttons create automatic events===

[[File:auto_rpm.PNG|200px]] The RPM button has now beeing entierly redesigned. Apply this button will automatically put the waterfall trigger on delta RPM or periodic.
This will make the setup of NVGate much more easier for a rotating or run up aplication. (only available on profile or waterfall tab)

In details this button will :

* Create a Delta RPM event, source = the one activated in the "Tach.". Delta velocity : 10 RPM.
* Create a Periodic event (0.5 sec)
* Create a Combined event 1. mode: "Delta RPM OR Periodic 1"
* Set waterfall Trigger to Combined event
* Create of an RPM event (source = the one activated in the tach field)

=== New default settings===

The default settings in NVGate have been updated to the ones below. With these default settings, you can do rotating analysis measurement directly.
Be aware that if you load an exiting project, the settings will not be affected. You can also easily change these settings.

FFT Overlap: 66%

FFT lines: 3200

FFT Overall low freq : 2 Hz

SOA resolution: 1/8

SOA overlap: 5

SOA OVL lower order: 0.2

Event Delta RPM: Delta velocity 10 rpm

Waterfall Depth: 1000

Tachometer/RPM Profiles/Duration: 120 sec

== New units available ==

[[File:unit.PNG]] New units have been added:

Angular velocity: Hertz

Pressure: Pascal and Bar

Torsionnal velocity: RPM

== [[File:FracTach.png|70px]] Measure all your shafts with 1 tach sensor: virtual tach gear ratio to 100 ==

[[Image:Reports_Tools_Ribbons_356.png]]: Fractional tachometer: computes RPM speed for a non accessible shaft by using gear ratio setting: adapted for gear boxes and transmissions. The ratio can now be set up to 100! (it used to be 2).

-> Used to define up to 4 fractional tachs using data from the tach or the Ext Tach.

[[Image:tacho_ratio.png|500px]]

*'''Tach ratio''': this is the ratio between the output angular speed and the input angular speed. This setting is defined by the product of 2 fractions: N1/D1 * N2/D2 where N1, D1, N2 and D2 are integer values. Tach.1 / Tach.2 ratio maximum value can be set up to 100.
[[File:le100.png|600px]]

== [[File:3shaftordertracking.png| 70px]] Triple shaft order analysis : 3 parallel real time SOA analysis ==

Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.

OROS, leader on rotating vibration analysis, is the only one in the world to let you achieve such a performance.

[[File:3SOA.PNG]]

== [[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines ==

A [https://en.wikipedia.org/wiki/Pressure%E2%80%93volume_diagram pressure–volume diagram] (or PV diagram, or volume–pressure loop) is used to describe corresponding changes in volume and pressure in a system.

[[File:Indicator_diagram_steam_admission.png|400px]]

The diagram records the pressure of steam versus the volume of steam in a cylinder, throughout a piston's cycle of motion in a steam engine. The diagram enables calculation of the work performed and thus can provide a measure of the power produced by the engine.

To exactly calculate the work done by the system it is necessary to calculate the integral of the pressure with respect to volume. One can often quickly calculate this using the PV diagram as it is simply the area enclosed by the cycle.

Download: [[Addons:PV_Diagram#Download| Check the PV diagram page]]

How to use :

[[File:PVdiagram2022.PNG|600px]]

*Define one (or more) channel as a pressure.
*Add this channel into Sync. order (SOA) plug in.
*On SOA plug in , average, domain, select: "Angular"
*Open PV_Diagram.exe
*Click on refresh (right click) in available results if you do not see anything.
*Select the input.
*Compute once will display the PV diagram base once based the last triggerd block.
*"background computation, will continuously compute the diagram.

== [[File:W11.png|70px]]Windows 11 compatibility==

[[File:Windows_11_logo.svg.png|400px]]

This version is compatible and fully tested with the last version of Microsoft Windows 10 and new Microsoft version Windows 11.

== Teamviewer V15 quick support ==

If you have any question for using your OROS analyzer, Teamviewer is a power full tool to take control of your PC and check together your question.
NVGate 2022 include a the new version V15 of teamviwer .

[[File:teamviwer.PNG|200px]]

This version is available on your computer foler here: C:\OROS\NVGate data\Links\TeamViewerQS.exe . You can also donwload using this specific link : https://get.teamviewer.com/orosTV

== NVDrive ==

NVGate software can be fully remote-controlled using an external software package. The commands required for controlling each analyzer function are listed in the NVDrive®library.

=== Toolkit refresh ===

NVDrive toolkit has been refreshed with new examples, new print screen, new tree structure, .dll have been updated for beeing more clear and highlight the python language.
Also we have now only one reference on the price list "ORNV-TOOLKIT" which includes the full toolkit (NVdrive, Matdrive, .oxf, python.).

===New commands: Read Write NVGate user properties (Project / Measurement)===

NVDrive allows you to take control of the analyzer with command lines.
New NVDrive commands have been added on the NVDrive toolkit to read, write and delete the user properties of projects and measurements.

[[File:NVdrive.PNG|500px]]

== New car cigaret lighter plug ==

For OR36 and OR38 analyzer, OROS has designed a new cigaret lighter for beeing able to deliver 24.5V.
You can plug it on 10V-35V cigaret lighter and it will deliver 24.5V on output to power supply OR36 and OR38 analyzer and charge the battery.

It can be ordered with the reference : OR36-8TW-DCCL

[[File:cigaretlightercable.png|500px]]

(Cigaret lighter power supply for OR35, OR34 and OR10 remain available.)

== [[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing ==

ORBIgate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can '''now be used on daisy chained systems''' as NVGate. 
In addition, measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors: 
On top of that ORBIGate features as well an extension of the ratio for the '''Fractional tach feature up to a 100'''.

== New Sound Power V3.20 ==

OROS SOUND POWER Solution has been designed to let you achieve that type of test in the most efficient and accurate way.

This new version includes the following improvements:
* New command to start directly the software on your pre-configured setup
* Option to modify the limit of overall octave filter
* Excel templates fully updated to the last standard
* Full compatibility with NVGate 2022.

Read the dedicated [[Sound Power 3 20|Sound Power 3.20 release note]] for more info.

== Bug fixing ==

* 14133: Record with DC inputs doesn't work for some frequency samplings.
* 14112: Double filter with HP @10HZ in TDA in post analyse: nothing is displayed.
* 14102: Christmas tree with OR35TW is reproduce in a specific configuration.
* 14166: Delete the last value from calibration history.
* 14187: History transducer database can not be display on a japanese windows 10 PC.
* 14190: Random Burst on Block Event.
* 14130: "result selection windows": Lissajous graph is not display .
* 14184: Wrong display of TDA table after copy graph .
* 14210: OCT not possible to set a time constant below 20 ms.
* 14219: Autorange is "Saving the working results".
* 14286: Octave limited range of CPB filter is working strangely.
* 14194: Octave LimitedRange And Reduce SamplingFreq crash NVGate
* 14399: Impossible to compute EVHV Spatiogramme.
* 14290: several Lissajous graphics - cursors are not linked together.
* 14437: Error on NVDrive "NVGS_GetTrackNumberOfSample" Function with SBL > 2GB

NVGate 2022: Install Process fr

2022-03-14T10:43:08Z

Credaelli:

NVGate 2022 est maintenant disponible.

[[File:Splash_screen2022.png|500px]] 

==Réservez votre formation gratuite de 30 minutes et installez==

''Service disponible pour les clients sous garantie ou sous contrat''

Si vous êtes client OROS sous contrat ou garantie, vous avez accès à une formation de 30 minutes pour cette nouvelle version !

Programme :
*Installation : 10 minutes. (vous pouvez le faire vous-même en suivant le processus sur cette page, c'est facile !)
*Présentation NVGate 2022 : 10 minutes
*Questions et réponses : 10 minutes.

réservez maintenant : [https://outlook.office365.com/owa/calendar/OROSBookings@oros.com/bookings/ <big>'''NVGate 2022: Free install and Training'''</big>.]

'''Téléchargez NVGate 2022 avant la formation''' depuis [https://my.oros.com/categories/software/nvgate/ my.oros] (créez votre compte).

Langues disponibles : Anglais, chinois, français, allemand, italien. (Pour une autre langue, veuillez contacter [https://www.oros.com/find-us/ votre distributeur OROS].)

==Nouveautés==
Pour connaître les nouveautés, lire la [[NVGate_2022:_Release_note|release note NVGate 2022]].

==De quoi avez-vous besoin?==
====Clés====
Un mode "reader" est disponible sans license.

La version complète est disponible pour les clients OROS sous garantie ou contrat de maintenance. 
Contactez [https://www.oros.com/find-us/ votre distributeur] ou customer.care@oros.com pour obtenir le .zip contenant les licences.

====Télécharger la version NVGate====
[https://my.oros.com/categories/software/nvgate/ Téléchargement de NVGate 2022 depuis le nouveau site (!) my.oros.com ] (vous devez créer un nouveau compte my.oros).

==Procédure==
* Extraire la version de NVGate, lancer setup.exe et suivre les instructions (pas besoin renseigner la clé pendant l'installation)
* Lorsque la fenêtre "NVGate environment" apparaît, appuyez sur ok.
* Démarrez NVGate, la fenêtre ci-dessous s'affiche.
** Mettre à jour les clés
*** 1) Sélectionnez le numéro d'analyseur ou de dongle pour lequel vous souhaitez mettre à jour les clés de licence.
*** 2) Sélectionnez l'archive '' '.ZIP' '' contenant vos nouveaux fichiers de clé de licence
*** 3) Les fichiers clés licences seront automatiquement copiés dans le dossier d'installation de NVGate et les clés de votre analyseur et de la clé USB seront mis à jour.

[[File:update_process.png|900px]]

* Mise à jour du firmware
[[File:update_process_ firmware.png|framed|none]]
Firmware: cliquez sur update firmware, la mise à jour se fera automatiquement.
 

NVGate est mis à jour.

==Troubleshooting==

===Encrypter les clés===

Si une erreur survient lors de l'encryptage des clés :

1) Extraire le dossier .zip

2) Renommer le fichier .txt en .bat

3) Copier les clés (.bat and .cfg) dans le dossier d'installation de NVGate (au même niveau que NVGate.exe)

4) Connecter le dongle etr l'analyseur

5) Lancer le .bat associé au numéro de série de l'analyseur/du dongle.

Le dongle/l'analyseur est mis à jour.

----

== Versions précédentes ==

===NVGate2021 V14===
https://wiki.oros.com/wiki/index.php/NVGate_2021:_Install_Process_fr

===NVGate V12.10===
https://wiki.oros.com/wiki/index.php/NVGate_update_version_fr

NVGate 2022: Install Process de

2022-03-14T10:42:28Z

Credaelli:

NVGate 2022 ist jetzt verfügbar.

[[File:Splash_screen2022.png|500px]] 

==Buchen Sie Ihre 30-minütige kostenlose Schulung und installieren Sie NVGate 2022==

''Wenn Sie OROS Vertrags- oder Garantiekunde sind, haben Sie Zugang zu einer 30-minütigen Schulung für diese neue Version!''

Programm :
*Installation: 10 Minuten. (Sie können es selbst tun, indem Sie dem Prozess auf dieser Seite folgen, das ist einfach!)
*NVGate 2022 Präsentation: 10 Minuten
*Fragen und Antworten: 10 Minuten.

Buchen Sie jetzt : [https://outlook.office365.com/owa/calendar/OROSBookings@oros.com/bookings/ <big>'''NVGate 2022: Kostenlose Installation und Schulung'''</big>.]

'''Laden Sie NVGate 2022 vor der Schulung''' auf [https://my.oros.com/categories/software/nvgate/ my.oros] herunter (Bitte erstellen Sie ein Konto).

Verfügbare Sprachen: Englisch, Chinesisch, Französisch, Deutsch, Italienisch. Für andere Sprachen wenden Sie sich bitte an [https://www.oros.com/find-us/ Ihren lokalen OROS-Händler].

==Neuigkeiten==
Alle Neuigkeiten sind in der [[NVGate_2022:_Release_note|Release note NVGate 2022]] beschrieben.

== Was brauchen Sie? ==
==== Lizenzdateien ====
Ein Reader Modus ist ohne Lizenz verfügbar.
Die volle Version ist für OROS Kunden mit Garantie- oder Wartungsvertrag erhältlich. 
Wenden Sie sich an support@oros-deutschland.com für die .zip Ordner

==== NVGate Version herunterladen ====
Die neueste NVGate Version können Sie auf der neuen Webseite [https://my.oros.com/categories/software/nvgate/ my.oros.com ] herunterladen (Sie müssen ein neues my.oros-Konto erstellen).

== Vorgang ==
* NVGate Version extrahieren, setup.exe ausführen und die Anweisungen folgen (während der Installation werden die Lizenzdateien nicht benötigt)
* Wenn das "NVGate environment" Fenster erscheint, auf OK drücken.
* NVGate starten. Das hier unten stehende Fenster wird aufgerufen.
** Lizenzupdate
*** 1) Auf die zu aktualisierende Analysator- oder Dongleserialnummer klicken.
*** 2) Die .ZIP-Datei, die Ihre Lizenzdateien enthält, auswählen.
*** 3) Die Lizenzdateien werden automatisch in NVGate Installationsordner kopiert und die Lizenzen des Analysators bzw. Dongles werden aktualisiert.

[[File:update_process.png|900px]]

* Firmware update
[[File:update_process_ firmware.png|framed|none]]
Firmware: auf update firmware klicken, das Update wird automatisch durchgeführt.
 

NVGate wurde aktualisiert.

==Fehlerbehebung==

===Entschlüsselung===

Wenn während der Verschlüsselung ein Problem auftritt, gehen Sie wie folgt vor:

1) Extrahieren Sie die .zip-Ordner

2) Benennen Sie die .txt in eine .bat um

3) Kopieren Sie die Lizenzdateien (.bat und .cfg) in das Installationsverzeichnis von NVGate (wo NVGate.exe ist)

4) Dongle und Analysator einstecken

5) Starten Sie die .bat-Datei, die der Hardware-/Dongle-Seriennummer zugeordnet ist.

Der Dongle/Hardware wird aktualisiert.

----

==Vorherige Versionen==

===NVGate2021 V14===
https://wiki.oros.com/wiki/index.php/NVGate_2021:_Install_Process_de

===NVGate V12.10===
https://wiki.oros.com/wiki/index.php/NVGate_update_version_de

NVGate 2022: Release note fr

2022-03-09T15:36:13Z

Credaelli: Created page with " category:NVGate2022 OROS s'efforce d'être au plus près de ses utilisateurs, en écoutant attentivement leurs besoins et leurs demandes. Pour cette raison, OROS publi..."

[[category:NVGate2022]]

OROS s'efforce d'être au plus près de ses utilisateurs, en écoutant attentivement leurs besoins et leurs demandes. Pour cette raison, OROS publie régulièrement de nouvelles versions. Les clients sous contrat bénéficient automatiquement de chaque version.

[[File:Splash_screen2022.png|500px]]

 
La version majeure NVGate® 2022 est disponible depuis janvier 2022. Cette version de la plateforme logicielle de l'analyseur OROS 3-Series apporte des fonctionnalités supplémentaires et des améliorations significatives des performances. Vous trouverez ci-dessous un résumé des principales améliorations de votre expérience NVGate : 

'''>> 3''' principales fonctionnalités pour toujours plus d''''efficacité''' 

{| class="wikitable" |
|-
! style="background: white;|[[File:READER.png|70px]] 
Partagez & Explorez vos données Simplement & Gratuitement !
! style="background: white;|[[File:Ergonomics.png|70px]] 
Bénéficiez de la nouvelle interface
! style="background: white;|[[File:W11.png|70px]] 
Compatibilité Windows 11
|-
| Start '''NVGate in READER mode''' from anywhere and work all the way to the report. Your teams and partners can explore your data simply and without any software license: simply FREEly! [[NVGate_2022:_Release_note#NVGate_READER_:_Share_.26_Explore_your_data_Simply_.26_FREEly_.21|>>]] ||
Experience the enhanced field ergonomics and intuivity thanks to the optimized '''new Ribbon Tabs''' and application-oriented default settings. NVGate 2022 bring settings and displays at your fingertips in less clicks.[[NVGate_2022:_Release_note#Enhanced_ERGONOMICS_:_Save_more_clicks_and_push_teams_efficiency_to_the_limits|>>]]

|| The new '''Windows 11''' is now released and NVGate 2022 is adapting to offer a full '''compatibility''' with this new modern environment.
|}

'''>> 4''' main features to keep proposing the '''highest performance in ROTATING''' analysis 

{| class="wikitable"
|-
! style="background: white;|[[File:3shaftordertracking.png| 70px]]
Triple shaft order analysis !
! style="background: white;|[[File:FracTach.png|70px]] Measure all your shafts with 1 tach sensor: virtual tach gear ratio upgraded to a 100 !
! style="background: white;|[[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines.
! style="background: white;|[[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing.
|-
| Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.
| Measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors. NVGate 2022 features an extension of the ratio for the '''Fractional tach feature up to a 100'''.
| The PV diagram allows to draw the Pressure vs the Volume directly when using the NVGate software interface. The '''PV diagram''' is a new add-on available.
| ORBIGate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can now be used on daisy chained systems as NVGate.
|}

This release note describes the content of version, with operating details.
 
To download and install NVGate 2022, [[NVGate_2022:_Install_Process|check this page]].
 

Compatibility: NVGate 2021 is compatible with all OROS instruments (OR34 V1 - OR35 V1 - OR36 V2 and TW - OR38 V2 and TW- OR10) that have not been discontinued. Depending on the hardware options and version, some instrument features may or may not be available.

== [[File:READER.png|70px]] NVGate READER : Share & Explore your data Simply & FREEly !==

Start NVGate in READER mode from anywhere and work all the way to the report. Your teams and partners can explore your data simply and without any software license: simply FREEly!
This is the very first step you can have to discover OROS and NVGate possibilities : whether you are experienced in Noise and Vibration or not.

<youtube>https://youtu.be/xfEEQaCxaI4</youtube>

Whenever NVGate 2022 is started without any licensing support detected it will start in READER mode.The following dialog window will be displayed: 
[[File:READER START.png|200px]]
'''The READER mode will let the user: '''
* - Manage the data : [[NVGate_dataset_management#Share_and_collate_dataset|Collate & share data]], filter and sort out data based on properties: so using the power of [[NVGate_dataset_management#Dataset_management|Dataset Management]] 
[[File:reader.PNG|500px]]
* - Display the data whatever the display type 
* - Use the display and analysis tools : zooming, scaling, cursor and markers reading results values 
[[File:DISPLAY.png|400px]]
* - Publish automated or manual reports 

'''How to proceed?''' 
Solely data created or shared from a NVGate 2022 version are compatible with the NVGate 2022 READER: 
- For teams using a licensed version of NVGate, data generated with NVG2022 will be stored in the project manager and '''straightforward readable''' whenever starting in READER mode 
- For READER users without any licensed version of NVGate, the data '''SHARED from your team member or partner''' can be imported using the "[[NVGate_dataset_management#Collate_Datasets|COLLATE]]" function. 
- Embedded examples installed with the version are '''available for self training''' and can be displayed using the "[[NVGate_Edit_Measurement|EDIT MEASUREMENT]]" feature. 

- For users who want to [[NVGate_dataset_management#Share_Dataset|SHARE]] their data with READER users: they can do it using the [[NVGate_dataset_management#Share_Dataset|"SHARE"]] function 

- In all cases, shared DATA is initially created on a NVGate licensed version either in real time when connected to an OROS instrument or from a post-analysis based on a recorded signal 

== [[File:Ergonomics.png|70px]] Enhanced ERGONOMICS : Save more clicks and push teams efficiency to the limits ==

Experience the enhanced field ergonomics and intuivity thanks to the optimized '''new Ribbon Tabs''' and application-oriented default settings. NVGate 2022 bring settings and displays at your fingertips in less clicks.

The interface gathers the analyzers functionalities in simple, clear and easy to identify tabs organized according to the main operations (Home, Acquisition, Analysis, Data, Display, Report, Automation, Preferences).

<youtube>https://youtu.be/MRGE2-VLBFg</youtube>

===Tab: new icone disposition===

Key features have been emphasized by interface, guiding the users to the best way using their OROS 3-Series analyzer.
The software entries are organized in a logical operation way. There are 8 different tabs corresponding to the main operations type:

====Home====

[[File:home3.PNG|800px]]

The goal of the Home tab is to make a user friendly tab for doing a measurement.
You can load a project, create a setup (using the "go to results" group), start an acquisition, see your data, the disk space and change the user.
In fact for a lot of every day application you can stay on this tab, no need to check the other one.

we have also highlighted the Attachement function [[File:home_attachment_2022.PNG|30px]] on this tab.

'''Attachment''': Enables to quickly identify if files (reports, pictures, videos....) are attached to the current project. Click on this button to create and/or open the attachment folder.
''Note: if the "Default project" is active, the Attachment button is greyed.
{|border="0" cellspacing="0" cellpadding="4" width="50%" align="left"
|-
|[[File:home_attachment_2022.PNG|30px]]
| The ''Attachment'' folder of the current project is empty or does not exist.
|-
|[[File:home_attachment_file_2022.PNG|30px]]
| File(s) are located in the ''Attachment'' folder of the current project.
|} 

====Acquisition====

This tab provides all the necessary entries to setup the front-end and the use of any channels in details. It separates the acquisition channels setup from the outputs, triggering, tachometer, and filters ones.

[[File:Acquisition3.PNG|750px]]

====Analysis====

In this tab, the software gathers the front-end, recorder and analyses controls. Each icon corresponds to a plug-in analyzer. The content of this tab depends on the purchased optional plug-ins. 
[[File:Analysis3.PNG|700px]]

====Data====

This tab provides functions to deal all your data, transfer Projects, Measurements, Models, export and import your data, filter the Project Manager.
[[File:Data3.PNG|500px]]

====Display====
This tab covers the results display control. It allows creating, fulfilling, arranging and viewing the windows and layouts. It controls the scale, units, weighting and data operations of any graphs, manages the waterfalls and extraction graphs and the markers.

[[File:display3.PNG|700px]]

The display tab has been entirely thought and improved with NVGate 2022. Some functions have been highlighted : freeze, zoom, add layout.
The mouse mode has been also improved (cursor, marker, zoom, move, rotate). One mode can now be selected in one click. Also now the default mouse mode will always be the cursor mode, so if you unselect a mode it will go back directly to the cursor mode.

====Preferences====

This tab provides direct access to the user’s definition, user's preferences and sensor database.

[[File:Preference3.PNG|500px]]

====Post analysis button on status bar====

[[File:PA_Status.png]]

On the status bar you have now a direct access to the "online to post analysis" mode.

|[[File:Home_online_to_PA.PNG|30px]]
| '''Online to Post-analysis''': This button is used to switch from Online mode to Post-analysis mode. This will open the ''Select Signal'' window which lists all the recorded signals available. The selected signal will be then playback and can be re-injected into any plug-in analyzer (Monitor, FFT, 1/n Octave...). It is also possible to play back a recorded signal through the Output during Online analysis.

See [[NVGate_Player|player page]] for more details.

====Automation====
The Automation tab contains powerful and helpful tools to automate repetitive tasks made with the analyzers.
[[File:Automation.PNG|700px]]

=== Go to results: one click icons===

New "one click" function have been added on the go to results for more user friendliness.

[[File:gotoresults3.PNG|400px]]

* [[File:viwe recording.PNG|50px]]view recording: will open the signal monitoring window on top of the current layout. In the case of this window is already open in another layout, it swaps to this layout.

* [[File:Add__layout.PNG|40px]] Add Layout: Creates a new layout. A dialog box used to name the new layout is displayed by clicking on the button. A new tab is created and selected, corresponding to the new layout.

* [[File:waterfall settings.PNG|150px]] Opens the waterfall triggering dialog. This dialog allows selecting the trigger of by the waterfall plug-in (only available on profile and waterfall tab).

=== RPM buttons create automatic events===

[[File:auto_rpm.PNG|200px]] The RPM button has now beeing entierly redesigned. Apply this button will automatically put the waterfall trigger on delta RPM or periodic.
This will make the setup of NVGate much more easier for a rotating or run up aplication. (only available on profile or waterfall tab)

In details this button will :

* Create a Delta RPM event, source = the one activated in the "Tach.". Delta velocity : 10 RPM.
* Create a Periodic event (0.5 sec)
* Create a Combined event 1. mode: "Delta RPM OR Periodic 1"
* Set waterfall Trigger to Combined event
* Create of an RPM event (source = the one activated in the tach field)

=== New default settings===

The default settings in NVGate have been updated to the ones below. With these default settings, you can do rotating analysis measurement directly.
Be aware that if you load an exiting project, the settings will not be affected. You can also easily change these settings.

FFT Overlap: 66%

FFT lines: 3200

FFT Overall low freq : 2 Hz

SOA resolution: 1/8

SOA overlap: 5

SOA OVL lower order: 0.2

Event Delta RPM: Delta velocity 10 rpm

Waterfall Depth: 1000

Tachometer/RPM Profiles/Duration: 120 sec

== New units available ==

[[File:unit.PNG]] New units have been added:

Angular velocity: Hertz

Pressure: Pascal and Bar

Torsionnal velocity: RPM

== [[File:FracTach.png|70px]] Measure all your shafts with 1 tach sensor: virtual tach gear ratio to 100 ==

[[Image:Reports_Tools_Ribbons_356.png]]: Fractional tachometer: computes RPM speed for a non accessible shaft by using gear ratio setting: adapted for gear boxes and transmissions. The ratio can now be set up to 100! (it used to be 2).

-> Used to define up to 4 fractional tachs using data from the tach or the Ext Tach.

[[Image:tacho_ratio.png|500px]]

*'''Tach ratio''': this is the ratio between the output angular speed and the input angular speed. This setting is defined by the product of 2 fractions: N1/D1 * N2/D2 where N1, D1, N2 and D2 are integer values. Tach.1 / Tach.2 ratio maximum value can be set up to 100.
[[File:le100.png|600px]]

== [[File:3shaftordertracking.png| 70px]] Triple shaft order analysis : 3 parallel real time SOA analysis ==

Whether your test is carried on a gear box, an integrally geared compressor or any other multi-shaft rotating machinery, NVGate offers now the possibility to carry '''3 simultaneous order tracking analysis''' at a time both in online and office mode.

OROS, leader on rotating vibration analysis, is the only one in the world to let you achieve such a performance.

[[File:3SOA.PNG]]

== [[File:PV.png|70px]] Display the Pressure Volume diagram (PV) of your Reciprocating machines ==

A [https://en.wikipedia.org/wiki/Pressure%E2%80%93volume_diagram pressure–volume diagram] (or PV diagram, or volume–pressure loop) is used to describe corresponding changes in volume and pressure in a system.

[[File:Indicator_diagram_steam_admission.png|400px]]

The diagram records the pressure of steam versus the volume of steam in a cylinder, throughout a piston's cycle of motion in a steam engine. The diagram enables calculation of the work performed and thus can provide a measure of the power produced by the engine.

To exactly calculate the work done by the system it is necessary to calculate the integral of the pressure with respect to volume. One can often quickly calculate this using the PV diagram as it is simply the area enclosed by the cycle.

Download: [[Addons:PV_Diagram#Download| Check the PV diagram page]]

How to use :

[[File:PVdiagram2022.PNG|600px]]

*Define one (or more) channel as a pressure.
*Add this channel into Sync. order (SOA) plug in.
*On SOA plug in , average, domain, select: "Angular"
*Open PV_Diagram.exe
*Click on refresh (right click) in available results if you do not see anything.
*Select the input.
*Compute once will display the PV diagram base once based the last triggerd block.
*"background computation, will continuously compute the diagram.

== [[File:W11.png|70px]]Windows 11 compatibility==

[[File:Windows_11_logo.svg.png|400px]]

This version is compatible and fully tested with the last version of Microsoft Windows 10 and new Microsoft version Windows 11.

== Teamviewer V15 quick support ==

If you have any question for using your OROS analyzer, Teamviewer is a power full tool to take control of your PC and check together your question.
NVGate 2022 include a the new version V15 of teamviwer .

[[File:teamviwer.PNG|200px]]

This version is available on your computer foler here: C:\OROS\NVGate data\Links\TeamViewerQS.exe . You can also donwload using this specific link : https://get.teamviewer.com/orosTV

== NVDrive ==

NVGate software can be fully remote-controlled using an external software package. The commands required for controlling each analyzer function are listed in the NVDrive®library.

=== Toolkit refresh ===

NVDrive toolkit has been refreshed with new examples, new print screen, new tree structure, .dll have been updated for beeing more clear and highlight the python language.
Also we have now only one reference on the price list "ORNV-TOOLKIT" which includes the full toolkit (NVdrive, Matdrive, .oxf, python.).

===New commands: Read Write NVGate user properties (Project / Measurement)===

NVDrive allows you to take control of the analyzer with command lines.
New NVDrive commands have been added on the NVDrive toolkit to read, write and delete the user properties of projects and measurements.

[[File:NVdrive.PNG|500px]]

== New car cigaret lighter plug ==

For OR36 and OR38 analyzer, OROS has designed a new cigaret lighter for beeing able to deliver 24.5V.
You can plug it on 10V-35V cigaret lighter and it will deliver 24.5V on output to power supply OR36 and OR38 analyzer and charge the battery.

It can be ordered with the reference : OR36-8TW-DCCL

[[File:cigaretlightercable.png|500px]]

(Cigaret lighter power supply for OR35, OR34 and OR10 remain available.)

== [[File:orbigate.png|70px]] Team up your systems when using ORBIGate for your rotordynamics testing ==

ORBIgate keeps progressing as well bringing new features. In particular the dedicated rotor dynamics solution can '''now be used on daisy chained systems''' as NVGate. 
In addition, measuring vibrations on multi-shaft machines such as gear boxes may require positioning several tachometer sensors: 
On top of that ORBIGate features as well an extension of the ratio for the '''Fractional tach feature up to a 100'''.

== New Sound Power V3.20 ==

La solution OROS SOUND POWER a été conçue pour vous permettre de réaliser ce type de test de manière efficace et précise.

Cette nouvelle version inclut les améliorations suivantes :
* Nouvelle commande pour démarrer directement le logiciel sur un setup pré-configuré
* Option pour modifier la limite du filtre en octave global
* Modèles Excel entièrement mis à jour selon la dernière norme
* Compatibilité totale avec NVGate 2022.

Read the dedicated [[Sound Power 3 20|Sound Power 3.20 release note]] for more info.

== Bug fixing ==

* 14133: Record with DC inputs doesn't work for some frequency samplings.
* 14112: Double filter with HP @10HZ in TDA in post analyse: nothing is displayed.
* 14102: Christmas tree with OR35TW is reproduce in a specific configuration.
* 14166: Delete the last value from calibration history.
* 14187: History transducer database can not be display on a japanese windows 10 PC.
* 14190: Random Burst on Block Event.
* 14130: "result selection windows": Lissajous graph is not display .
* 14184: Wrong display of TDA table after copy graph .
* 14210: OCT not possible to set a time constant below 20 ms.
* 14219: Autorange is "Saving the working results".
* 14286: Octave limited range of CPB filter is working strangely.
* 14194: Octave LimitedRange And Reduce SamplingFreq crash NVGate
* 14399: Impossible to compute EVHV Spatiogramme.
* 14290: several Lissajous graphics - cursors are not linked together.
* 14437: Error on NVDrive "NVGS_GetTrackNumberOfSample" Function with SBL > 2GB

NVGate 2022: Install Process

2022-03-08T15:30:37Z

Credaelli:

NVGate 2022 is now available.

[[File:Splash_screen2022.png|500px]] 

Other languages available: ''[[NVGate_2022:_Install_Process_fr|Français]], [[NVGate_2022:_Install_Process_de|Deutsch]]'' 

==Book your 30 minutes free training and Install==

If you are an OROS customer under contract or warranty, you have access to a 30 minutes training for this new version!

Program :
*Installation: 10 minutes. (you can do it on your own by following the process on this page, that's easy! )
*NVGate 2022 Presentation: 10 minutes
*Questions and answers : 10 minutes.

Book now : [https://outlook.office365.com/owa/calendar/OROSBookings@oros.com/bookings/ <big>'''NVGate 2022: Free install and Training'''</big>.]

'''Download NVGate 2022 before training''' on [https://my.oros.com/categories/software/nvgate/ my.oros] (please create an account).

Language available : English, Chinese, French, German, Italian. (For other language please contact [https://www.oros.com/find-us/ your local OROS distributor].)

==What's new ?==
Read the [[NVGate_2022:_Release_note|release note NVGate 2022]].

==What do you need ?==
====Keys====
A reader mode is available without license.

The normal version is available for OROS customers under warranty or maintenance contract. 
You need to ask [https://www.oros.com/find-us/ your local OROS distributor] or customer.care@oros.com for the .zip keys.

====Download NVGate version====
[https://my.oros.com/categories/software/nvgate/ NVGate 2022 download on new (!) my.oros.com ] (you need to create a new my.oros account).

==Install Process==
*Extract NVGate version
*Launch the setup.exe and follow the instructions.(No need to input the key during the install)
*When the window "NVGate environment" appears, press ok.
*Start NVGate, the window below is displayed.
**'''update the keys'''
*** 1) Select the item (analyzer or dongle) for which you want to update the license keys.
***2) Select the '''.ZIP''' archive containing your new license key files.
***3) The license key files will be automatically copied in the NVGate installation folder and the keys of your analyzer and USB dongle will be encrypted.

[[File:update_process.png|900px]]

*'''update firmware'''
[[File:update_process_ firmware.png|framed|none]]
Firmware: click on update firmware, it will automatically update the firmware.
 

'''That's all. NVGate is updated.'''

==Troubleshooting==

===Encrypt keys===

If any issue during the encrypt keys, follow this process :

1) Extract the .zip keys file

2) Rename the .txt by a .bat

3) Copy the keys (.bat and .cfg) on the install directory of NVGate (next to NVGate.exe)

4) Plug dongle and analyzer

5) launch the .bat associated to the hardware/dongle serial number.

The dongle/hardware is updated.

----

== Old version ==

===NVGate2021 V14===
https://wiki.oros.com/wiki/index.php/NVGate_2021:_Install_Process

===NVGate V12.10===
https://wiki.oros.com/wiki/index.php/NVGate_update_version

NVGate 2022: Install Process de

2022-03-01T13:13:27Z

Credaelli: /* Buchen Sie Ihre 30-minütige kostenlose Schulung und installieren Sie NVGate 2022 */

NVGate 2022 ist jetzt verfügbar.

Newsletter und spezielle Mitteilungen werden im März 2022 verschickt.

[[File:Splash_screen2022.png|500px]] 

==Buchen Sie Ihre 30-minütige kostenlose Schulung und installieren Sie NVGate 2022==

''Wenn Sie OROS Vertrags- oder Garantiekunde sind, haben Sie Zugang zu einer 30-minütigen Schulung für diese neue Version!''

Programm :
*Installation: 10 Minuten. (Sie können es selbst tun, indem Sie dem Prozess auf dieser Seite folgen, das ist einfach!)
*NVGate 2022 Präsentation: 10 Minuten
*Fragen und Antworten: 10 Minuten.

Buchen Sie jetzt : [https://outlook.office365.com/owa/calendar/OROSBookings@oros.com/bookings/ <big>'''NVGate 2022: Kostenlose Installation und Schulung'''</big>.]

'''Laden Sie NVGate 2022 vor der Schulung''' auf [https://my.oros.com/categories/software/nvgate/ my.oros] herunter (Bitte erstellen Sie ein Konto).

Verfügbare Sprachen: Englisch, Chinesisch, Französisch, Deutsch, Italienisch. Für andere Sprachen wenden Sie sich bitte an [https://www.oros.com/find-us/ Ihren lokalen OROS-Händler].

==Neuigkeiten==
Alle Neuigkeiten sind in der [[NVGate_2022:_Release_note|Release note NVGate 2022]] beschrieben.

== Was brauchen Sie? ==
==== Lizenzdateien ====
Ein Reader Modus ist ohne Lizenz verfügbar.
Die volle Version ist für OROS Kunden mit Garantie- oder Wartungsvertrag erhältlich. 
Wenden Sie sich an support@oros-deutschland.com für die .zip Ordner

==== NVGate Version herunterladen ====
Die neueste NVGate Version können Sie auf der neuen Webseite [https://my.oros.com/categories/software/nvgate/ my.oros.com ] herunterladen (Sie müssen ein neues my.oros-Konto erstellen).

== Vorgang ==
* NVGate Version extrahieren, setup.exe ausführen und die Anweisungen folgen (während der Installation werden die Lizenzdateien nicht benötigt)
* Wenn das "NVGate environment" Fenster erscheint, auf OK drücken.
* NVGate starten. Das hier unten stehende Fenster wird aufgerufen.
** Lizenzupdate
*** 1) Auf die zu aktualisierende Analysator- oder Dongleserialnummer klicken.
*** 2) Die .ZIP-Datei, die Ihre Lizenzdateien enthält, auswählen.
*** 3) Die Lizenzdateien werden automatisch in NVGate Installationsordner kopiert und die Lizenzen des Analysators bzw. Dongles werden aktualisiert.

[[File:update_process.png|900px]]

* Firmware update
[[File:update_process_ firmware.png|framed|none]]
Firmware: auf update firmware klicken, das Update wird automatisch durchgeführt.
 

NVGate wurde aktualisiert.

==Fehlerbehebung==

===Entschlüsselung===

Wenn während der Verschlüsselung ein Problem auftritt, gehen Sie wie folgt vor:

1) Extrahieren Sie die .zip-Ordner

2) Benennen Sie die .txt in eine .bat um

3) Kopieren Sie die Lizenzdateien (.bat und .cfg) in das Installationsverzeichnis von NVGate (wo NVGate.exe ist)

4) Dongle und Analysator einstecken

5) Starten Sie die .bat-Datei, die der Hardware-/Dongle-Seriennummer zugeordnet ist.

Der Dongle/Hardware wird aktualisiert.

----

==Vorherige Versionen==

===NVGate2021 V14===
https://wiki.oros.com/wiki/index.php/NVGate_2021:_Install_Process_de

===NVGate V12.10===
https://wiki.oros.com/wiki/index.php/NVGate_update_version_de

NVGate 2022: Install Process de

2022-03-01T13:12:22Z

Credaelli: /* Buchen Sie Ihre 30-minütige kostenlose Schulung und installieren Sie NVGate 2022 */

NVGate 2022 ist jetzt verfügbar.

Newsletter und spezielle Mitteilungen werden im März 2022 verschickt.

[[File:Splash_screen2022.png|500px]] 

==Buchen Sie Ihre 30-minütige kostenlose Schulung und installieren Sie NVGate 2022==

''Wenn Sie OROS Vertrags- oder Garantiekunde sind, haben Sie Zugang zu einer 30-minütigen Schulung für diese neue Version!''

Programm :
*Installation: 10 Minuten. (Sie können es selbst tun, indem Sie dem Prozess auf dieser Seite folgen, das ist einfach!)
*NVGate 2022 Präsentation: 10 Minuten
*Fragen und Antworten: 10 Minuten.

Buchen Sie jetzt : [https://outlook.office365.com/owa/calendar/OROSBookings@oros.com/bookings/ <big>'''NVGate 2022: Kostenlose Installation und Schulung'''</big>.]

'''Laden Sie NVGate 2022 vor dem Training herunter''' auf [https://my.oros.com/categories/software/nvgate/ my.oros] (Bitte erstellen Sie ein Konto).

Verfügbare Sprachen: Englisch, Chinesisch, Französisch, Deutsch, Italienisch. Für andere Sprachen wenden Sie sich bitte an [https://www.oros.com/find-us/ Ihren lokalen OROS-Händler].

==Neuigkeiten==
Alle Neuigkeiten sind in der [[NVGate_2022:_Release_note|Release note NVGate 2022]] beschrieben.

== Was brauchen Sie? ==
==== Lizenzdateien ====
Ein Reader Modus ist ohne Lizenz verfügbar.
Die volle Version ist für OROS Kunden mit Garantie- oder Wartungsvertrag erhältlich. 
Wenden Sie sich an support@oros-deutschland.com für die .zip Ordner

==== NVGate Version herunterladen ====
Die neueste NVGate Version können Sie auf der neuen Webseite [https://my.oros.com/categories/software/nvgate/ my.oros.com ] herunterladen (Sie müssen ein neues my.oros-Konto erstellen).

== Vorgang ==
* NVGate Version extrahieren, setup.exe ausführen und die Anweisungen folgen (während der Installation werden die Lizenzdateien nicht benötigt)
* Wenn das "NVGate environment" Fenster erscheint, auf OK drücken.
* NVGate starten. Das hier unten stehende Fenster wird aufgerufen.
** Lizenzupdate
*** 1) Auf die zu aktualisierende Analysator- oder Dongleserialnummer klicken.
*** 2) Die .ZIP-Datei, die Ihre Lizenzdateien enthält, auswählen.
*** 3) Die Lizenzdateien werden automatisch in NVGate Installationsordner kopiert und die Lizenzen des Analysators bzw. Dongles werden aktualisiert.

[[File:update_process.png|900px]]

* Firmware update
[[File:update_process_ firmware.png|framed|none]]
Firmware: auf update firmware klicken, das Update wird automatisch durchgeführt.
 

NVGate wurde aktualisiert.

==Fehlerbehebung==

===Entschlüsselung===

Wenn während der Verschlüsselung ein Problem auftritt, gehen Sie wie folgt vor:

1) Extrahieren Sie die .zip-Ordner

2) Benennen Sie die .txt in eine .bat um

3) Kopieren Sie die Lizenzdateien (.bat und .cfg) in das Installationsverzeichnis von NVGate (wo NVGate.exe ist)

4) Dongle und Analysator einstecken

5) Starten Sie die .bat-Datei, die der Hardware-/Dongle-Seriennummer zugeordnet ist.

Der Dongle/Hardware wird aktualisiert.

----

==Vorherige Versionen==

===NVGate2021 V14===
https://wiki.oros.com/wiki/index.php/NVGate_2021:_Install_Process_de

===NVGate V12.10===
https://wiki.oros.com/wiki/index.php/NVGate_update_version_de

NVGate 2022: Install Process de

2022-03-01T13:11:27Z

Credaelli:

NVGate 2022 ist jetzt verfügbar.

Newsletter und spezielle Mitteilungen werden im März 2022 verschickt.

[[File:Splash_screen2022.png|500px]] 

==Buchen Sie Ihre 30-minütige kostenlose Schulung und installieren Sie NVGate 2022==

''Wenn Sie OROS Vertrags- oder Garantiekunde sind, haben Sie Zugang zu einer 30-minütigen Schulung für diese neue Version!''

If you are an OROS customer under contract or warranty, you have access to a 30 minutes training for this new version!

Programm :
*Installation: 10 Minuten. (Sie können es selbst tun, indem Sie dem Prozess auf dieser Seite folgen, das ist einfach!)
*NVGate 2022 Präsentation: 10 Minuten
*Fragen und Antworten: 10 Minuten.

Buchen Sie jetzt : [https://outlook.office365.com/owa/calendar/OROSBookings@oros.com/bookings/ <big>'''NVGate 2022: Kostenlose Installation und Schulung'''</big>.]

'''Laden Sie NVGate 2022 vor dem Training herunter''' auf [https://my.oros.com/categories/software/nvgate/ my.oros] (Bitte erstellen Sie ein Konto).

Verfügbare Sprachen: Englisch, Chinesisch, Französisch, Deutsch, Italienisch. Für andere Sprachen wenden Sie sich bitte an [https://www.oros.com/find-us/ Ihren lokalen OROS-Händler].

==Neuigkeiten==
Alle Neuigkeiten sind in der [[NVGate_2022:_Release_note|Release note NVGate 2022]] beschrieben.

== Was brauchen Sie? ==
==== Lizenzdateien ====
Ein Reader Modus ist ohne Lizenz verfügbar.
Die volle Version ist für OROS Kunden mit Garantie- oder Wartungsvertrag erhältlich. 
Wenden Sie sich an support@oros-deutschland.com für die .zip Ordner

==== NVGate Version herunterladen ====
Die neueste NVGate Version können Sie auf der neuen Webseite [https://my.oros.com/categories/software/nvgate/ my.oros.com ] herunterladen (Sie müssen ein neues my.oros-Konto erstellen).

== Vorgang ==
* NVGate Version extrahieren, setup.exe ausführen und die Anweisungen folgen (während der Installation werden die Lizenzdateien nicht benötigt)
* Wenn das "NVGate environment" Fenster erscheint, auf OK drücken.
* NVGate starten. Das hier unten stehende Fenster wird aufgerufen.
** Lizenzupdate
*** 1) Auf die zu aktualisierende Analysator- oder Dongleserialnummer klicken.
*** 2) Die .ZIP-Datei, die Ihre Lizenzdateien enthält, auswählen.
*** 3) Die Lizenzdateien werden automatisch in NVGate Installationsordner kopiert und die Lizenzen des Analysators bzw. Dongles werden aktualisiert.

[[File:update_process.png|900px]]

* Firmware update
[[File:update_process_ firmware.png|framed|none]]
Firmware: auf update firmware klicken, das Update wird automatisch durchgeführt.
 

NVGate wurde aktualisiert.

==Fehlerbehebung==

===Entschlüsselung===

Wenn während der Verschlüsselung ein Problem auftritt, gehen Sie wie folgt vor:

1) Extrahieren Sie die .zip-Ordner

2) Benennen Sie die .txt in eine .bat um

3) Kopieren Sie die Lizenzdateien (.bat und .cfg) in das Installationsverzeichnis von NVGate (wo NVGate.exe ist)

4) Dongle und Analysator einstecken

5) Starten Sie die .bat-Datei, die der Hardware-/Dongle-Seriennummer zugeordnet ist.

Der Dongle/Hardware wird aktualisiert.

----

==Vorherige Versionen==

===NVGate2021 V14===
https://wiki.oros.com/wiki/index.php/NVGate_2021:_Install_Process_de

===NVGate V12.10===
https://wiki.oros.com/wiki/index.php/NVGate_update_version_de

NVGate 2022: Install Process

2022-03-01T13:10:21Z

Credaelli:

NVGate 2022 is now available.

Newsletter and dedicated communication will be sent on Mars 2022.

[[File:Splash_screen2022.png|500px]] 

Other languages available: ''[[NVGate_2022:_Install_Process_fr|Fr]], [[NVGate_2022:_Install_Process_de|De]]'' 

==Book your 30 minutes free training and Install==

''Service Available for customer under warranty or contract ''

If you are an OROS customer under contract or warranty, you have access to a 30 minutes training for this new version!

Program :
*Installation: 10 minutes. (you can do it on your own by following the process on this page, that's easy! )
*NVGate 2022 Presentation: 10 minutes
*Questions and answers : 10 minutes.

Book now : [https://outlook.office365.com/owa/calendar/OROSBookings@oros.com/bookings/ <big>'''NVGate 2022: Free install and Training'''</big>.]

'''Download NVGate 2022 before training''' on [https://my.oros.com/categories/software/nvgate/ my.oros] (please create an account).

Language available : English, Chinese, French, German, Italian. (For other language please contact [https://www.oros.com/find-us/ your local OROS distributor].)

==What's new ?==
Read the [[NVGate_2022:_Release_note|release note NVGate 2022]].

==What do you need ?==
====Keys====
A reader mode is available without license.

The normal version is available for OROS customers under warranty or maintenance contract. 
You need to ask [https://www.oros.com/find-us/ your local OROS distributor] or customer.care@oros.com for the .zip keys.

====Download NVGate version====
[https://my.oros.com/categories/software/nvgate/ NVGate 2022 download on new (!) my.oros.com ] (you need to create a new my.oros account).

==Install Process==
*Extract NVGate version
*Launch the setup.exe and follow the instructions.(No need to input the key during the install)
*When the window "NVGate environment" appears, press ok.
*Start NVGate, the window below is displayed.
**'''update the keys'''
*** 1) Select the item (analyzer or dongle) for which you want to update the license keys.
***2) Select the '''.ZIP''' archive containing your new license key files.
***3) The license key files will be automatically copied in the NVGate installation folder and the keys of your analyzer and USB dongle will be encrypted.

[[File:update_process.png|900px]]

*'''update firmware'''
[[File:update_process_ firmware.png|framed|none]]
Firmware: click on update firmware, it will automatically update the firmware.
 

'''That's all. NVGate is updated.'''

==Troubleshooting==

===Encrypt keys===

If any issue during the encrypt keys, follow this process :

1) Extract the .zip keys file

2) Rename the .txt by a .bat

3) Copy the keys (.bat and .cfg) on the install directory of NVGate (next to NVGate.exe)

4) Plug dongle and analyzer

5) launch the .bat associated to the hardware/dongle serial number.

The dongle/hardware is updated.

----

== Old version ==

===NVGate2021 V14===
https://wiki.oros.com/wiki/index.php/NVGate_2021:_Install_Process

===NVGate V12.10===
https://wiki.oros.com/wiki/index.php/NVGate_update_version

NVGate 2022: Install Process de

2022-03-01T13:08:19Z

Credaelli:

NVGate 2022 ist jetzt verfügbar.

Newsletter und spezielle Mitteilungen werden im März 2022 verschickt.

[[File:Splash_screen2022.png|500px]] 

==Buchen Sie Ihre 30-minütige kostenlose Schulung und installieren Sie NVGate 2022==

''Wenn Sie OROS Vertrags- oder Garantiekunde sind, haben Sie Zugang zu einer 30-minütigen Schulung für diese neue Version!''

If you are an OROS customer under contract or warranty, you have access to a 30 minutes training for this new version!

Programm :
*Installation: 10 Minuten. (Sie können es selbst tun, indem Sie dem Prozess auf dieser Seite folgen, das ist einfach!)
*NVGate 2022 Präsentation: 10 Minuten
*Fragen und Antworten: 10 Minuten.

Buchen Sie jetzt : [https://outlook.office365.com/owa/calendar/OROSBookings@oros.com/bookings/ <big>'''NVGate 2022: Kostenlose Installation und Schulung'''</big>.]

'''Laden Sie NVGate 2022 vor dem Training herunter''' auf [https://my.oros.com/categories/software/nvgate/ my.oros] (Bitte erstellen Sie ein Konto).

Verfügbare Sprachen: Englisch, Chinesisch, Französisch, Deutsch, Italienisch. Für andere Sprachen wenden Sie sich bitte an [https://www.oros.com/find-us/ Ihren lokalen OROS-Händler].

==Neuigkeiten==
Alle Neuigkeiten sind in der [[NVGate_2022:_Release_note|Release note NVGate 2022]] beschrieben.

== Was brauchen Sie? ==
==== Lizenzdateien ====
Ein Reader Modus ist ohne Lizenz verfügbar.
Die volle Version ist für OROS Kunden mit Garantie- oder Wartungsvertrag erhältlich. 
Wenden Sie sich an support@oros-deutschland.com für die .zip Ordner

==== NVGate Version herunterladen ====
Die neueste NVGate Version können Sie auf der neuen Webseite [https://my.oros.com/categories/software/nvgate/ my.oros.com ] herunterladen (Sie müssen ein neues my.oros-Konto erstellen).

== Vorgang ==
* NVGate Version extrahieren, setup.exe ausführen und die Anweisungen folgen (während der Installation werden die Lizenzdateien nicht benötigt)
* Wenn das "NVGate environment" Fenster erscheint, auf OK drücken.
* NVGate starten. Das hier unten stehende Fenster wird aufgerufen.
** Lizenzupdate
*** 1) Auf die zu aktualisierende Analysator- oder Dongleserialnummer klicken.
*** 2) Die .ZIP-Datei, die Ihre Lizenzdateien enthält, auswählen.
*** 3) Die Lizenzdateien werden automatisch in NVGate Installationsordner kopiert und die Lizenzen des Analysators bzw. Dongles werden aktualisiert.

[[File:update_process.png|900px]]

* Firmware update
[[File:update_process_ firmware.png|framed|none]]
Firmware: auf update firmware klicken, das Update wird automatisch durchgeführt.
 

NVGate wurde aktualisiert.

==Fehlerbehebung==

===Entschlüsselung===

Wenn während der Verschlüsselung ein Problem auftritt, gehen Sie wie folgt vor:

1) Extrahieren Sie die .zip-Ordner

2) Benennen Sie die .txt in eine .bat um

3) Kopieren Sie die Lizenzdateien (.bat und .cfg) in das Installationsverzeichnis von NVGate (wo NVGate.exe ist)

4) Dongle und Analysator einstecken

5) Starten Sie die .bat-Datei, die der Hardware-/Dongle-Seriennummer zugeordnet ist.

Der Dongle/Hardware wird aktualisiert.

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==Vorherige Version==

===NVGate2021 V14===
https://wiki.oros.com/wiki/index.php/NVGate_2021:_Install_Process_de

===NVGate V12.10===
https://wiki.oros.com/wiki/index.php/NVGate_update_version_de