https://wiki.oros.com/api.php?action=feedcontributions&feedformat=atom&user=AdminOROS Wiki - User contributions [en]2026-05-05T16:35:10ZUser contributionsMediaWiki 1.37.1https://wiki.oros.com/index.php?title=Monitoring_Solution&diff=11507Monitoring Solution2023-06-19T12:42:19Z<p>Admin: /* PC and Windows configuration */</p>
<hr />
<div>==Introduction==<br />
The OROS Monitoring solution can continuously supervise the noise and vibration levels of your critical assets, notifying alerts autonomously when predetermined levels are exceeded and catching real time high added value data on the spot. <br />
<br />
[[File:monitoring_drawing.jpg|700px]]<br />
<br />
This solution is dedicated for mid to long term monitoring application, and the main features are:<br />
<br />
* Operate standalone: power cut and restart management<br />
* From basic to advanced event triggering conditions<br />
* Pre-trigger time domain signal recording remotely downloadable for further analysis<br />
* Advanced and flexible actions on events<br />
* Automatic alert notifications for rapid countermeasures<br />
* Database and remote access to event log, trend, and measurement data for initial diagnostics at any time <br />
* Flexible storage capabilities, suitable for site with or without a network connection<br />
<br />
==Installation==<br />
===Download===<br />
Download last version of [https://my.oros.com/categories/software/monitoring/ Monitoring Solution].<br />
<br />
===Equipment required for the installation===<br />
USB drive containing Monitoring software installation setups “SetupM-Logger.exe” and "SetupM-View.exe".<br />
<br />
NVGate software must have been installed first (from V16.00.002).<br />
<br />
===Installation of NVGate software===<br />
First you need to [[NVGate_V16:_Install_Process|install NVGate]].<br />
<br />
===Installation of Monitoring software===<br />
In the PC that is connected to OROS analyzer, run “SetupM-Logger.exe” program, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161522.png|400px]]<br />
<br />
Click on “Next”, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161641.png|400px]]<br />
<br />
Read the terms in the license agreement and check “I accept the terms in the License Agreement” if you agree. Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161737.png|400px]]<br />
<br />
Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\M-Logger. Click on “Install” to start the installation, and wait until the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161903.png|400px]]<br />
<br />
Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162029.png|400px]]<br />
<br />
Click on “Finish” to exit the setup wizard, and OROS M-Logger software is successfully installed. <br />
<br />
The drivers for the Autonomy kit are installed during the default installation.<br />
<br />
Next, run “SetupM-View.exe” program in the PC which is used for checking collected data (usually is not the same PC which runs M-Logger), and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162338.png|400px]]<br />
<br />
Click on “Next”, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162433.png|400px]]<br />
<br />
Read the terms in the license agreement and check “I accept the terms in the License Agreement” if you agree. Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 163249.png|400px]]<br />
<br />
Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\M-View. Click on “Install” to start the installation, and wait until the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 163430.png|400px]]<br />
<br />
<br />
Click on “Finish” to exit the setup wizard, and OROS M-View software is successfully installed.<br />
<br />
===Autonomy kit installation (optional)===<br />
The autonomy kit must be plugged to the analyzer<nowiki>'</nowiki>s RJ11 port and to the PC USB port, and drivers should be installed. Drivers are installed automatically during the installation of M-Logger, and can also be installed manually in case troubleshooting is necessary.<br />
<br />
This autonomy kit is dedicated to OROS analyzers. Do not use it with any other device.<br />
<br />
Only use original components provided.<br />
<br />
[[Image:Monitoring_OROS_03.gif|framed|none]]<br />
<br />
<font color="#1F497D"><br />
<br />
<br />
''Figure 1 – Autonomy kit installation with OR36''</font><br />
<br />
[[Image:Monitoring_OROS_01.png|50px]]This '''Autonomy Kit''' contains electronic equipment. It should not be mixed with general household waste. For proper treatment, return this product to OROS or to any local company authorized to recycle waste electrical and electronic equipment.<br />
<br />
<br />
[[File:CE.png]]This '''Autonomy Kit''' complies with following European Standards:<br />
<br />
* 2014/35/EU low voltage directive<br />
* 2011/65/EU and 2015/863 ROHS directive<br />
* 2012/19/EU WEEE directive<br />
<br />
<br />
===Database installation and management===<br />
<br />
====Database installation====<br />
<br />
MongoDB is a document-oriented NoSQL database used for high volume data storage and used by OROS Monitoring. OROS Monitoring solution is compatible with MongoDB 6.0.x only. MongoDB can be installed on different platform, and following instructions explain how to install it on Windows or Linux system.<br />
<br />
=====Installation on Windows system=====<br />
<br />
a. Pre-requisites<br />
MongoDB support these Windows versions :<br />
* Windows 10 et 11 64 bits<br />
* Windows Server 2016, 2019, 2021 64bits<br />
<br />
Download installation files:<br />
* MongoDB: https://fastdl.mongodb.org/windows/mongodb-windows-x86_64-6.0.5-signed.msi<br />
* Mongosh: https://github.com/mongodb-js/mongosh/releases/download/v1.8.0/mongosh-1.8.0-x64.msi<br />
<br />
b. MongoDB installation<br />
<br />
Execute mongodb-windows-x86_64-6.0.5-signed.msi and click on “Complete”:<br />
<br />
[[File:Picture1.png|400px]]<br />
<br />
Let default parameters filled:<br />
<br />
[[File:Picture2.png|400px]]<br />
<br />
Install<br />
<br />
c. Configure MongoDB<br />
Open with a text editor mongod.cfg file located in mongodb folder, default : "C:\Program Files\MongoDB\Server\6.0\bin\mongod.cfg".<br />
<br />
We need to enable zstd compression, find wiredTiger block and edit it as followed :<br />
<code><br />
wiredTiger:<br />
collectionConfig:<br />
blockCompressor: zstd<br />
</code><br />
<br />
Configure the net part as needed, example with port 27017 and allowing any external IP address :<code><br />
# network interfaces<br />
net:<br />
port: 27017<br />
bindIpAll: true<br />
# bindIp: 127.0.0.1"<br />
</code><br />
<br />
If you want to secure the connection to MongoDB, only allow know IP address.<br />
<br />
Documentation is available on official website: https://www.mongodb.com/docs/manual/reference/configuration-options/<br />
<br />
d. MongoDB Shell installation<br />
<br />
Run mongosh-1.8.0-x64.msi, uncheck “Install just for you” and continue installation.<br />
<br />
[[File:Picture3.png|400px]]<br />
<br />
Run mongosh.exe from "C:\Program Files\mongosh". A command window will popup asking MongoDB information, do not write anything and press Enter, connection should be done:<br />
<br />
[[File:Picture4.png|400px]]<br />
<br />
e. Create an admin user<br />
<br />
In the shell windows type: ''use admin''<br />
<br />
Then the following command will create an administrator user for MongoDB, which is mandatory. You will be able to create standard ReadOnly or Write access user using Monitoring dedicated M-DBTools.<br />
<br />
In this example the admin user created is named “oros” and his password is “oros”, please use a strong password for the admin user:<br />
<br />
''db.createUser({ user: "oros" , pwd: "oros", roles: ["userAdminAnyDatabase", "dbAdminAnyDatabase", "readWriteAnyDatabase"]})''<br />
<br />
[[File:Picture5.png|400px]]<br />
<br />
Restart the computer, and now MongoDB is configured and ready to be used.<br />
<br />
=====Installation on Linux system=====<br />
<br />
Installation on Debian<br />
<br />
https://www.mongodb.com/docs/v6.0/tutorial/install-mongodb-on-debian/<br />
<br />
https://www.mongodb.com/docs/mongodb-shell/install/<br />
<br />
a. Pre-requisites<br />
<br />
Packages: gnupg2, wget, sudo, net-tools, curl<br />
<br />
b. MongoDB installation<br />
<br />
* Add MongoDB server key<br />
<br />
wget -qO - https://www.mongodb.org/static/pgp/server-6.0.asc | sudo apt-key add –<br />
<br />
* Add MongoDB repository<br />
<br />
Debian 11 <br />
<br />
echo "deb http://repo.mongodb.org/apt/debian bullseye/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list<br />
<br />
Debian 10<br />
<br />
echo "deb http://repo.mongodb.org/apt/debian buster/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list<br />
<br />
Debian 9<br />
<br />
echo "deb http://repo.mongodb.org/apt/debian stretch/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list.<br />
<br />
* Install MongoDB<br />
<br />
sudo apt-get update<br />
<br />
sudo apt-get install -y mongodb-org<br />
<br />
sudo apt-get install -y mongodb-mongosh<br />
<br />
c. Configure MongoDB<br />
Open with a text editor mongod.cfg file : /etc/mongod.conf<br />
<br />
We need to enable zstd compression, find wiredTiger block and edit it as followed :<br />
<code><br />
wiredTiger:<br />
collectionConfig:<br />
blockCompressor: zstd<br />
</code><br />
<br />
Configure the net part as needed, example with port 27017 and allowing any external IP address :<code><br />
# network interfaces<br />
net:<br />
port: 27017<br />
bindIpAll: true<br />
# bindIp: 127.0.0.1"<br />
</code><br />
<br />
Documentation is available on official website: https://www.mongodb.com/docs/manual/reference/configuration-options/<br />
<br />
d. Enable MongoDB as a service<br />
<br />
systemctl enable mongod.service<br />
<br />
e. Create an admin user<br />
<br />
mongo<br />
<br />
use admin<br />
<br />
db.createUser({ user: "oros" , pwd: "oros", roles: ["userAdminAnyDatabase", "dbAdminAnyDatabase", "readWriteAnyDatabase"]})<br />
<br />
f. Start MongoDB<br />
<br />
sudo systemctl start mongod<br />
<br />
====Database management====<br />
<br />
MongoDB is the database engine, and at least one database needs to be created to be used by OROS Monitoring solution.<br />
<br />
Run M-DBTools.exe, which is installed in M-Logger or M-View folder (by default C:\OROS\Programs\M-Logger or C:\OROS\Programs\M-View), and login:<br />
<br />
* Server address: Your server address, localhost if database is installed on running PC<br />
* Server port: 27017 (by default, other if you changed it in your MongoDB configuration file)<br />
* User name: Defined in “Create an admin user” chapter<br />
* Password: Defined in “Create an admin user” chapter<br />
<br />
[[File:Picture6.png|400px]]<br />
<br />
Please note that only administrators are allowed to run this tool, otherwise it will not connect to MongoDB.<br />
<br />
Server information and databases list will be displayed once connected.<br />
<br />
[[File:Picture7.png|400px]]<br />
<br />
=====Manage databases=====<br />
<br />
a. Create a database<br />
<br />
Fill a name in the dedicated field then press create, after few seconds/minutes the database will appear into the list.<br />
<br />
[[File:Picture8.png|400px]]<br />
<br />
b. Database information<br />
<br />
Clicking on your database will show some information like the version, number of object, space used ...<br />
<br />
[[File:Picture9.png|400px]]<br />
<br />
c. Update database<br />
<br />
Due to an upgrade of M-Logger / M-View, it might be necessary to update your database, and thus M-DBTools is needed.<br />
<br />
Select the desired database and press update. Depending on the number of objects this may take some time, you will be notified once it's done.<br />
<br />
=====Manage users=====<br />
<br />
Users are manageable in the "Users" panel:<br />
<br />
[[File:Picture10.png|400px]]<br />
<br />
a. Create user<br />
<br />
Click on "Create new user" button, a dialog will popup asking for an username and a password, then click on create, the user will appears in the user list.<br />
<br />
b. Grant access to user<br />
<br />
* Grant access to a dedicated database<br />
<br />
Clicking on a user and a database will show the access rights for this user:<br />
<br />
[[File:Picture11.png|400px]]<br />
<br />
Access can be granted by clicking on the desired rights, below "READ_WRITE" is selected, allowing the user to write to the database, which is mandatory for a M-Logger user.<br />
<br />
[[File:Picture12.png|400px]]<br />
<br />
Then click on "Update rights" to apply the new rights.<br />
<br />
* Grant access to all databases<br />
<br />
Checking "Any databases" will display different access rights, which will be applied to all database + MongoDB instance. Also, if you need to create another MongoDB administrator then it’s an "Any Databases" rights, and select "ROOT" + "DB_ADMIN" + "USER_ADMIN" rights.<br />
<br />
[[File:Picture13.png|400px]]<br />
<br />
Then click on “Update rights” to apply the new rights.<br />
<br />
===PC and Windows configuration===<br />
In order to guarantee a full autonomy, the computer must be configured to reboot in case of any power failure. The following PC parameters are advised:<br />
<br />
<u>'''PC automatic restart due to power failure:'''</u><br />
<br />
To account for any potential power failure at the analyzers location the following settings should be programmed on the PC to automatically switch on the PC once the power is restored.<br />
<br />
Access the PC<nowiki>'</nowiki>s BIOS:<br />
<br />
* Restart PC, press F12 (on most PC<nowiki>'</nowiki>s) to access the PC<nowiki>'</nowiki>s Bios.<br />
* Check the Bios parameters.<br />
* On power management check the option "power on AC".<br />
<br />
Specific settings should be chosen in the computer<br />
* PC <br />
<br />
Contact you IT manager to properly configure the computer : disable sleep mode, no password to automatically restart windows, no low-energy or powering-off option …). <br />
In addition, installation of Teamviewer is recommended in order to monitor from a remote access.<br />
<br />
In order to open your windows session automatically : https://learn.microsoft.com/en-us/troubleshoot/windows-server/user-profiles-and-logon/turn-on-automatic-logon<br />
<br />
If you plan to monitor your application for more than a couple of hours, it is advised to power both the computer and the OROS analyzer by mains (not on battery).<br />
<br />
Consider installing a remote access software.<br />
<br />
It could be useful to control the computer when an alert is trigged for example.<br />
<br />
==FAQ==<br />
''I use microsoft windows on chinese/japanese language. However, monitoring crash when I click on "refresh button". How to solve this ?''<br />
<br />
On windows regional settings, tab admin, let the unicode program on your language, however click on "beta : use the unicode UTF-8...". This solve the issue.<br />
<br />
[[File:faq.PNG|400px]]</div>Adminhttps://wiki.oros.com/index.php?title=Monitoring_Solution&diff=11506Monitoring Solution2023-06-16T11:49:48Z<p>Admin: </p>
<hr />
<div>==Introduction==<br />
The OROS Monitoring solution can continuously supervise the noise and vibration levels of your critical assets, notifying alerts autonomously when predetermined levels are exceeded and catching real time high added value data on the spot. <br />
<br />
[[File:monitoring_drawing.jpg|700px]]<br />
<br />
This solution is dedicated for mid to long term monitoring application, and the main features are:<br />
<br />
* Operate standalone: power cut and restart management<br />
* From basic to advanced event triggering conditions<br />
* Pre-trigger time domain signal recording remotely downloadable for further analysis<br />
* Advanced and flexible actions on events<br />
* Automatic alert notifications for rapid countermeasures<br />
* Database and remote access to event log, trend, and measurement data for initial diagnostics at any time <br />
* Flexible storage capabilities, suitable for site with or without a network connection<br />
<br />
==Installation==<br />
===Download===<br />
Download last version of [https://my.oros.com/categories/software/monitoring/ Monitoring Solution].<br />
<br />
===Equipment required for the installation===<br />
USB drive containing Monitoring software installation setups “SetupM-Logger.exe” and "SetupM-View.exe".<br />
<br />
NVGate software must have been installed first (from V16.00.002).<br />
<br />
===Installation of NVGate software===<br />
First you need to [[NVGate_V16:_Install_Process|install NVGate]].<br />
<br />
===Installation of Monitoring software===<br />
In the PC that is connected to OROS analyzer, run “SetupM-Logger.exe” program, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161522.png|400px]]<br />
<br />
Click on “Next”, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161641.png|400px]]<br />
<br />
Read the terms in the license agreement and check “I accept the terms in the License Agreement” if you agree. Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161737.png|400px]]<br />
<br />
Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\M-Logger. Click on “Install” to start the installation, and wait until the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161903.png|400px]]<br />
<br />
Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162029.png|400px]]<br />
<br />
Click on “Finish” to exit the setup wizard, and OROS M-Logger software is successfully installed. <br />
<br />
The drivers for the Autonomy kit are installed during the default installation.<br />
<br />
Next, run “SetupM-View.exe” program in the PC which is used for checking collected data (usually is not the same PC which runs M-Logger), and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162338.png|400px]]<br />
<br />
Click on “Next”, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162433.png|400px]]<br />
<br />
Read the terms in the license agreement and check “I accept the terms in the License Agreement” if you agree. Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 163249.png|400px]]<br />
<br />
Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\M-View. Click on “Install” to start the installation, and wait until the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 163430.png|400px]]<br />
<br />
<br />
Click on “Finish” to exit the setup wizard, and OROS M-View software is successfully installed.<br />
<br />
===Autonomy kit installation (optional)===<br />
The autonomy kit must be plugged to the analyzer<nowiki>'</nowiki>s RJ11 port and to the PC USB port, and drivers should be installed. Drivers are installed automatically during the installation of M-Logger, and can also be installed manually in case troubleshooting is necessary.<br />
<br />
This autonomy kit is dedicated to OROS analyzers. Do not use it with any other device.<br />
<br />
Only use original components provided.<br />
<br />
[[Image:Monitoring_OROS_03.gif|framed|none]]<br />
<br />
<font color="#1F497D"><br />
<br />
<br />
''Figure 1 – Autonomy kit installation with OR36''</font><br />
<br />
[[Image:Monitoring_OROS_01.png|50px]]This '''Autonomy Kit''' contains electronic equipment. It should not be mixed with general household waste. For proper treatment, return this product to OROS or to any local company authorized to recycle waste electrical and electronic equipment.<br />
<br />
<br />
[[File:CE.png]]This '''Autonomy Kit''' complies with following European Standards:<br />
<br />
* 2014/35/EU low voltage directive<br />
* 2011/65/EU and 2015/863 ROHS directive<br />
* 2012/19/EU WEEE directive<br />
<br />
<br />
===Database installation and management===<br />
<br />
====Database installation====<br />
<br />
MongoDB is a document-oriented NoSQL database used for high volume data storage and used by OROS Monitoring. OROS Monitoring solution is compatible with MongoDB 6.0.x only. MongoDB can be installed on different platform, and following instructions explain how to install it on Windows or Linux system.<br />
<br />
=====Installation on Windows system=====<br />
<br />
a. Pre-requisites<br />
MongoDB support these Windows versions :<br />
* Windows 10 et 11 64 bits<br />
* Windows Server 2016, 2019, 2021 64bits<br />
<br />
Download installation files:<br />
* MongoDB: https://fastdl.mongodb.org/windows/mongodb-windows-x86_64-6.0.5-signed.msi<br />
* Mongosh: https://github.com/mongodb-js/mongosh/releases/download/v1.8.0/mongosh-1.8.0-x64.msi<br />
<br />
b. MongoDB installation<br />
<br />
Execute mongodb-windows-x86_64-6.0.5-signed.msi and click on “Complete”:<br />
<br />
[[File:Picture1.png|400px]]<br />
<br />
Let default parameters filled:<br />
<br />
[[File:Picture2.png|400px]]<br />
<br />
Install<br />
<br />
c. Configure MongoDB<br />
Open with a text editor mongod.cfg file located in mongodb folder, default : "C:\Program Files\MongoDB\Server\6.0\bin\mongod.cfg".<br />
<br />
We need to enable zstd compression, find wiredTiger block and edit it as followed :<br />
<code><br />
wiredTiger:<br />
collectionConfig:<br />
blockCompressor: zstd<br />
</code><br />
<br />
Configure the net part as needed, example with port 27017 and allowing any external IP address :<code><br />
# network interfaces<br />
net:<br />
port: 27017<br />
bindIpAll: true<br />
# bindIp: 127.0.0.1"<br />
</code><br />
<br />
If you want to secure the connection to MongoDB, only allow know IP address.<br />
<br />
Documentation is available on official website: https://www.mongodb.com/docs/manual/reference/configuration-options/<br />
<br />
d. MongoDB Shell installation<br />
<br />
Run mongosh-1.8.0-x64.msi, uncheck “Install just for you” and continue installation.<br />
<br />
[[File:Picture3.png|400px]]<br />
<br />
Run mongosh.exe from "C:\Program Files\mongosh". A command window will popup asking MongoDB information, do not write anything and press Enter, connection should be done:<br />
<br />
[[File:Picture4.png|400px]]<br />
<br />
e. Create an admin user<br />
<br />
In the shell windows type: ''use admin''<br />
<br />
Then the following command will create an administrator user for MongoDB, which is mandatory. You will be able to create standard ReadOnly or Write access user using Monitoring dedicated M-DBTools.<br />
<br />
In this example the admin user created is named “oros” and his password is “oros”, please use a strong password for the admin user:<br />
<br />
''db.createUser({ user: "oros" , pwd: "oros", roles: ["userAdminAnyDatabase", "dbAdminAnyDatabase", "readWriteAnyDatabase"]})''<br />
<br />
[[File:Picture5.png|400px]]<br />
<br />
Restart the computer, and now MongoDB is configured and ready to be used.<br />
<br />
=====Installation on Linux system=====<br />
<br />
Installation on Debian<br />
<br />
https://www.mongodb.com/docs/v6.0/tutorial/install-mongodb-on-debian/<br />
<br />
https://www.mongodb.com/docs/mongodb-shell/install/<br />
<br />
a. Pre-requisites<br />
<br />
Packages: gnupg2, wget, sudo, net-tools, curl<br />
<br />
b. MongoDB installation<br />
<br />
* Add MongoDB server key<br />
<br />
wget -qO - https://www.mongodb.org/static/pgp/server-6.0.asc | sudo apt-key add –<br />
<br />
* Add MongoDB repository<br />
<br />
Debian 11 <br />
<br />
echo "deb http://repo.mongodb.org/apt/debian bullseye/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list<br />
<br />
Debian 10<br />
<br />
echo "deb http://repo.mongodb.org/apt/debian buster/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list<br />
<br />
Debian 9<br />
<br />
echo "deb http://repo.mongodb.org/apt/debian stretch/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list.<br />
<br />
* Install MongoDB<br />
<br />
sudo apt-get update<br />
<br />
sudo apt-get install -y mongodb-org<br />
<br />
sudo apt-get install -y mongodb-mongosh<br />
<br />
c. Configure MongoDB<br />
Open with a text editor mongod.cfg file : /etc/mongod.conf<br />
<br />
We need to enable zstd compression, find wiredTiger block and edit it as followed :<br />
<code><br />
wiredTiger:<br />
collectionConfig:<br />
blockCompressor: zstd<br />
</code><br />
<br />
Configure the net part as needed, example with port 27017 and allowing any external IP address :<code><br />
# network interfaces<br />
net:<br />
port: 27017<br />
bindIpAll: true<br />
# bindIp: 127.0.0.1"<br />
</code><br />
<br />
Documentation is available on official website: https://www.mongodb.com/docs/manual/reference/configuration-options/<br />
<br />
d. Enable MongoDB as a service<br />
<br />
systemctl enable mongod.service<br />
<br />
e. Create an admin user<br />
<br />
mongo<br />
<br />
use admin<br />
<br />
db.createUser({ user: "oros" , pwd: "oros", roles: ["userAdminAnyDatabase", "dbAdminAnyDatabase", "readWriteAnyDatabase"]})<br />
<br />
f. Start MongoDB<br />
<br />
sudo systemctl start mongod<br />
<br />
====Database management====<br />
<br />
MongoDB is the database engine, and at least one database needs to be created to be used by OROS Monitoring solution.<br />
<br />
Run M-DBTools.exe, which is installed in M-Logger or M-View folder (by default C:\OROS\Programs\M-Logger or C:\OROS\Programs\M-View), and login:<br />
<br />
* Server address: Your server address, localhost if database is installed on running PC<br />
* Server port: 27017 (by default, other if you changed it in your MongoDB configuration file)<br />
* User name: Defined in “Create an admin user” chapter<br />
* Password: Defined in “Create an admin user” chapter<br />
<br />
[[File:Picture6.png|400px]]<br />
<br />
Please note that only administrators are allowed to run this tool, otherwise it will not connect to MongoDB.<br />
<br />
Server information and databases list will be displayed once connected.<br />
<br />
[[File:Picture7.png|400px]]<br />
<br />
=====Manage databases=====<br />
<br />
a. Create a database<br />
<br />
Fill a name in the dedicated field then press create, after few seconds/minutes the database will appear into the list.<br />
<br />
[[File:Picture8.png|400px]]<br />
<br />
b. Database information<br />
<br />
Clicking on your database will show some information like the version, number of object, space used ...<br />
<br />
[[File:Picture9.png|400px]]<br />
<br />
c. Update database<br />
<br />
Due to an upgrade of M-Logger / M-View, it might be necessary to update your database, and thus M-DBTools is needed.<br />
<br />
Select the desired database and press update. Depending on the number of objects this may take some time, you will be notified once it's done.<br />
<br />
=====Manage users=====<br />
<br />
Users are manageable in the "Users" panel:<br />
<br />
[[File:Picture10.png|400px]]<br />
<br />
a. Create user<br />
<br />
Click on "Create new user" button, a dialog will popup asking for an username and a password, then click on create, the user will appears in the user list.<br />
<br />
b. Grant access to user<br />
<br />
* Grant access to a dedicated database<br />
<br />
Clicking on a user and a database will show the access rights for this user:<br />
<br />
[[File:Picture11.png|400px]]<br />
<br />
Access can be granted by clicking on the desired rights, below "READ_WRITE" is selected, allowing the user to write to the database, which is mandatory for a M-Logger user.<br />
<br />
[[File:Picture12.png|400px]]<br />
<br />
Then click on "Update rights" to apply the new rights.<br />
<br />
* Grant access to all databases<br />
<br />
Checking "Any databases" will display different access rights, which will be applied to all database + MongoDB instance. Also, if you need to create another MongoDB administrator then it’s an "Any Databases" rights, and select "ROOT" + "DB_ADMIN" + "USER_ADMIN" rights.<br />
<br />
[[File:Picture13.png|400px]]<br />
<br />
Then click on “Update rights” to apply the new rights.<br />
<br />
===PC and Windows configuration===<br />
In order to guarantee a full autonomy, the computer must be configured to reboot in case of any power failure. The following PC parameters are advised:<br />
<br />
<u>'''PC automatic restart due to power failure:'''</u><br />
<br />
To account for any potential power failure at the analyzers location the following settings should be programmed on the PC to automatically switch on the PC once the power is restored.<br />
<br />
Access the PC<nowiki>'</nowiki>s BIOS:<br />
<br />
* Restart PC, press F12 (on most PC<nowiki>'</nowiki>s) to access the PC<nowiki>'</nowiki>s Bios.<br />
* Check the Bios parameters.<br />
* On power management check the option "power on AC".<br />
<br />
Specific settings should be chosen in the computer<br />
* PC <br />
<br />
Contact you IT manager to properly configure the computer : disable low-power sleep mode, no password to automatically restart windows, no low-energy or powering-off option …). In addition, installation of Teamviewer is recommended in order to monitor from a remote access.<br />
<br />
If you plan to monitor your application for more than a couple of hours, it is advised to power both the computer and the OROS analyzer by mains (not on battery).<br />
<br />
Consider installing a remote access software.<br />
<br />
It could be useful to control the computer when an alert is trigged for example.<br />
<br />
==FAQ==<br />
''I use microsoft windows on chinese/japanese language. However, monitoring crash when I click on "refresh button". How to solve this ?''<br />
<br />
On windows regional settings, tab admin, let the unicode program on your language, however click on "beta : use the unicode UTF-8...". This solve the issue.<br />
<br />
[[File:faq.PNG|400px]]</div>Adminhttps://wiki.oros.com/index.php?title=Monitoring_Solution&diff=11505Monitoring Solution2023-06-16T11:47:04Z<p>Admin: </p>
<hr />
<div>==Introduction==<br />
The OROS Monitoring solution can continuously supervise the noise and vibration levels of your critical assets, notifying alerts autonomously when predetermined levels are exceeded and catching real time high added value data on the spot. <br />
<br />
[[File:monitoring_drawing.jpg|700px]]<br />
<br />
This solution is dedicated for mid to long term monitoring application, and the main features are:<br />
<br />
* Operate standalone: power cut and restart management<br />
* From basic to advanced event triggering conditions<br />
* Pre-trigger time domain signal recording remotely downloadable for further analysis<br />
* Advanced and flexible actions on events<br />
* Automatic alert notifications for rapid countermeasures<br />
* Database and remote access to event log, trend, and measurement data for initial diagnostics at any time <br />
* Flexible storage capabilities, suitable for site with or without a network connection<br />
<br />
==Installation==<br />
===Download===<br />
Download last version of [https://my.oros.com/categories/software/monitoring/ Monitoring Solution].<br />
<br />
===Equipment required for the installation===<br />
USB drive containing Monitoring software installation setups “SetupM-Logger.exe” and "SetupM-View.exe".<br />
<br />
NVGate software must have been installed first (from V16.00.002).<br />
<br />
===Installation of NVGate software===<br />
First you need to [[NVGate_V16:_Install_Process|install NVGate]].<br />
<br />
===Installation of Monitoring software===<br />
In the PC that is connected to OROS analyzer, run “SetupM-Logger.exe” program, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161522.png|400px]]<br />
<br />
Click on “Next”, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161641.png|400px]]<br />
<br />
Read the terms in the license agreement and check “I accept the terms in the License Agreement” if you agree. Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161737.png|400px]]<br />
<br />
Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\M-Logger. Click on “Install” to start the installation, and wait until the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161903.png|400px]]<br />
<br />
Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162029.png|400px]]<br />
<br />
Click on “Finish” to exit the setup wizard, and OROS M-Logger software is successfully installed. <br />
<br />
The drivers for the Autonomy kit are installed during the default installation.<br />
<br />
Next, run “SetupM-View.exe” program in the PC which is used for checking collected data (usually is not the same PC which runs M-Logger), and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162338.png|400px]]<br />
<br />
Click on “Next”, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162433.png|400px]]<br />
<br />
Read the terms in the license agreement and check “I accept the terms in the License Agreement” if you agree. Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 163249.png|400px]]<br />
<br />
Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\M-View. Click on “Install” to start the installation, and wait until the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 163430.png|400px]]<br />
<br />
<br />
Click on “Finish” to exit the setup wizard, and OROS M-View software is successfully installed.<br />
<br />
===Autonomy kit installation (optional)===<br />
The autonomy kit must be plugged to the analyzer<nowiki>'</nowiki>s RJ11 port and to the PC USB port, and drivers should be installed. Drivers are installed automatically during the installation of M-Logger, and can also be installed manually in case troubleshooting is necessary.<br />
<br />
This autonomy kit is dedicated to OROS analyzers. Do not use it with any other device.<br />
<br />
Only use original components provided.<br />
<br />
[[Image:Monitoring_OROS_03.gif|framed|none]]<br />
<br />
<font color="#1F497D"><br />
<br />
<br />
''Figure 1 – Autonomy kit installation with OR36''</font><br />
<br />
[[Image:Monitoring_OROS_01.png|50px]]This '''Autonomy Kit''' contains electronic equipment. It should not be mixed with general household waste. For proper treatment, return this product to OROS or to any local company authorized to recycle waste electrical and electronic equipment.<br />
<br />
<br />
[[File:CE.png]]This '''Autonomy Kit''' complies with following European Standards:<br />
<br />
* 2014/35/EU low voltage directive<br />
* 2011/65/EU and 2015/863 ROHS directive<br />
* 2012/19/EU WEEE directive<br />
<br />
<br />
===Database installation and management===<br />
<br />
====Database installation====<br />
<br />
MongoDB is a document-oriented NoSQL database used for high volume data storage and used by OROS Monitoring. OROS Monitoring solution is compatible with MongoDB 6.0.x only. MongoDB can be installed on different platform, and following instructions explain how to install it on Windows or Linux system.<br />
<br />
=====Installation on Windows system=====<br />
<br />
a. Pre-requisites<br />
MongoDB support these Windows versions :<br />
* Windows 10 et 11 64 bits<br />
* Windows Server 2016, 2019, 2021 64bits<br />
<br />
Download installation files:<br />
* MongoDB: https://fastdl.mongodb.org/windows/mongodb-windows-x86_64-6.0.5-signed.msi<br />
* Mongosh: https://github.com/mongodb-js/mongosh/releases/download/v1.8.0/mongosh-1.8.0-x64.msi<br />
<br />
b. MongoDB installation<br />
<br />
Execute mongodb-windows-x86_64-6.0.5-signed.msi and click on “Complete”:<br />
<br />
[[File:Picture1.png|400px]]<br />
<br />
Let default parameters filled:<br />
<br />
[[File:Picture2.png|400px]]<br />
<br />
Install<br />
<br />
c. Configure MongoDB<br />
Open with a text editor mongod.cfg file located in mongodb folder, default : "C:\Program Files\MongoDB\Server\6.0\bin\mongod.cfg".<br />
<br />
We need to enable zstd compression, find wiredTiger block and edit it as followed :<br />
<br />
<code><br />
wiredTiger:<br />
collectionConfig:<br />
blockCompressor: zstd<br />
</code><br />
Configure the net part as needed, example with port 27017 and allowing any external IP address :<code><br />
# network interfaces<br />
net:<br />
port: 27017<br />
bindIpAll: true<br />
# bindIp: 127.0.0.1"<br />
</code><br />
<br />
Copy file Windows\mongod.cfg to MongoDB directory "C:\Program Files\MongoDB\Server\6.0\bin\mongod.cfg". It enables compression which is needed for Monitoring. If you want to secure the connection to MongoDB, allowing specific IP address or change port ''etc''., you can edit this file. <br />
<br />
<br />
Documentation is available on official website: https://www.mongodb.com/docs/manual/reference/configuration-options/<br />
<br />
d. MongoDB Shell installation<br />
<br />
Run mongosh-1.8.0-x64.msi, uncheck “Install just for you” and continue installation.<br />
<br />
[[File:Picture3.png|400px]]<br />
<br />
Run mongosh.exe from "C:\Program Files\mongosh". A command window will popup asking MongoDB information, do not write anything and press Enter, connection should be done:<br />
<br />
[[File:Picture4.png|400px]]<br />
<br />
e. Create an admin user<br />
<br />
In the shell windows type: ''use admin''<br />
<br />
Then the following command will create an administrator user for MongoDB, which is mandatory. You will be able to create standard ReadOnly or Write access user using Monitoring dedicated M-DBTools.<br />
<br />
In this example the admin user created is named “oros” and his password is “oros”, please use a strong password for the admin user:<br />
<br />
''db.createUser({ user: "oros" , pwd: "oros", roles: ["userAdminAnyDatabase", "dbAdminAnyDatabase", "readWriteAnyDatabase"]})''<br />
<br />
[[File:Picture5.png|400px]]<br />
<br />
Restart the computer, and now MongoDB is configured and ready to be used.<br />
<br />
=====Installation on Linux system=====<br />
<br />
Installation on Debian<br />
<br />
https://www.mongodb.com/docs/v6.0/tutorial/install-mongodb-on-debian/<br />
<br />
https://www.mongodb.com/docs/mongodb-shell/install/<br />
<br />
a. Pre-requisites<br />
<br />
Packages: gnupg2, wget, sudo, net-tools, curl<br />
<br />
b. MongoDB installation<br />
<br />
* Add MongoDB server key<br />
<br />
wget -qO - https://www.mongodb.org/static/pgp/server-6.0.asc | sudo apt-key add –<br />
<br />
* Add MongoDB repository<br />
<br />
Debian 11 <br />
<br />
echo "deb http://repo.mongodb.org/apt/debian bullseye/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list<br />
<br />
Debian 10<br />
<br />
echo "deb http://repo.mongodb.org/apt/debian buster/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list<br />
<br />
Debian 9<br />
<br />
echo "deb http://repo.mongodb.org/apt/debian stretch/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list.<br />
<br />
* Install MongoDB<br />
<br />
sudo apt-get update<br />
<br />
sudo apt-get install -y mongodb-org<br />
<br />
sudo apt-get install -y mongodb-mongosh<br />
<br />
c. Configure MongoDB<br />
<br />
Copy file from package folder debian/mongod.conf to /etc/mongod.conf. It enables compression which is needed for Monitoring. If you want to secure the connection to MongoDB, allowing specific IP address or change port ''etc''., you can edit this file. Documentation is available on official website: https://www.mongodb.com/docs/manual/reference/configuration-options/<br />
<br />
d. Enable MongoDB as a service<br />
<br />
systemctl enable mongod.service<br />
<br />
e. Create an admin user<br />
<br />
mongo<br />
<br />
use admin<br />
<br />
db.createUser({ user: "oros" , pwd: "oros", roles: ["userAdminAnyDatabase", "dbAdminAnyDatabase", "readWriteAnyDatabase"]})<br />
<br />
f. Start MongoDB<br />
<br />
sudo systemctl start mongod<br />
<br />
====Database management====<br />
<br />
MongoDB is the database engine, and at least one database needs to be created to be used by OROS Monitoring solution.<br />
<br />
Run M-DBTools.exe, which is installed in M-Logger or M-View folder (by default C:\OROS\Programs\M-Logger or C:\OROS\Programs\M-View), and login:<br />
<br />
* Server address: Your server address, localhost if database is installed on running PC<br />
* Server port: 27017 (by default, other if you changed it in your MongoDB configuration file)<br />
* User name: Defined in “Create an admin user” chapter<br />
* Password: Defined in “Create an admin user” chapter<br />
<br />
[[File:Picture6.png|400px]]<br />
<br />
Please note that only administrators are allowed to run this tool, otherwise it will not connect to MongoDB.<br />
<br />
Server information and databases list will be displayed once connected.<br />
<br />
[[File:Picture7.png|400px]]<br />
<br />
=====Manage databases=====<br />
<br />
a. Create a database<br />
<br />
Fill a name in the dedicated field then press create, after few seconds/minutes the database will appear into the list.<br />
<br />
[[File:Picture8.png|400px]]<br />
<br />
b. Database information<br />
<br />
Clicking on your database will show some information like the version, number of object, space used ...<br />
<br />
[[File:Picture9.png|400px]]<br />
<br />
c. Update database<br />
<br />
Due to an upgrade of M-Logger / M-View, it might be necessary to update your database, and thus M-DBTools is needed.<br />
<br />
Select the desired database and press update. Depending on the number of objects this may take some time, you will be notified once it's done.<br />
<br />
=====Manage users=====<br />
<br />
Users are manageable in the "Users" panel:<br />
<br />
[[File:Picture10.png|400px]]<br />
<br />
a. Create user<br />
<br />
Click on "Create new user" button, a dialog will popup asking for an username and a password, then click on create, the user will appears in the user list.<br />
<br />
b. Grant access to user<br />
<br />
* Grant access to a dedicated database<br />
<br />
Clicking on a user and a database will show the access rights for this user:<br />
<br />
[[File:Picture11.png|400px]]<br />
<br />
Access can be granted by clicking on the desired rights, below "READ_WRITE" is selected, allowing the user to write to the database, which is mandatory for a M-Logger user.<br />
<br />
[[File:Picture12.png|400px]]<br />
<br />
Then click on "Update rights" to apply the new rights.<br />
<br />
* Grant access to all databases<br />
<br />
Checking "Any databases" will display different access rights, which will be applied to all database + MongoDB instance. Also, if you need to create another MongoDB administrator then it’s an "Any Databases" rights, and select "ROOT" + "DB_ADMIN" + "USER_ADMIN" rights.<br />
<br />
[[File:Picture13.png|400px]]<br />
<br />
Then click on “Update rights” to apply the new rights.<br />
<br />
===PC and Windows configuration===<br />
In order to guarantee a full autonomy, the computer must be configured to reboot in case of any power failure. The following PC parameters are advised:<br />
<br />
<u>'''PC automatic restart due to power failure:'''</u><br />
<br />
To account for any potential power failure at the analyzers location the following settings should be programmed on the PC to automatically switch on the PC once the power is restored.<br />
<br />
Access the PC<nowiki>'</nowiki>s BIOS:<br />
<br />
* Restart PC, press F12 (on most PC<nowiki>'</nowiki>s) to access the PC<nowiki>'</nowiki>s Bios.<br />
* Check the Bios parameters.<br />
* On power management check the option "power on AC".<br />
<br />
Specific settings should be chosen in the computer<br />
* PC <br />
<br />
Contact you IT manager to properly configure the computer : disable low-power sleep mode, no password to automatically restart windows, no low-energy or powering-off option …). In addition, installation of Teamviewer is recommended in order to monitor from a remote access.<br />
<br />
If you plan to monitor your application for more than a couple of hours, it is advised to power both the computer and the OROS analyzer by mains (not on battery).<br />
<br />
Consider installing a remote access software.<br />
<br />
It could be useful to control the computer when an alert is trigged for example.<br />
<br />
==FAQ==<br />
''I use microsoft windows on chinese/japanese language. However, monitoring crash when I click on "refresh button". How to solve this ?''<br />
<br />
On windows regional settings, tab admin, let the unicode program on your language, however click on "beta : use the unicode UTF-8...". This solve the issue.<br />
<br />
[[File:faq.PNG|400px]]</div>Adminhttps://wiki.oros.com/index.php?title=Monitoring_Solution&diff=11504Monitoring Solution2023-06-16T11:46:41Z<p>Admin: </p>
<hr />
<div>==Introduction==<br />
The OROS Monitoring solution can continuously supervise the noise and vibration levels of your critical assets, notifying alerts autonomously when predetermined levels are exceeded and catching real time high added value data on the spot. <br />
<br />
[[File:monitoring_drawing.jpg|700px]]<br />
<br />
This solution is dedicated for mid to long term monitoring application, and the main features are:<br />
<br />
* Operate standalone: power cut and restart management<br />
* From basic to advanced event triggering conditions<br />
* Pre-trigger time domain signal recording remotely downloadable for further analysis<br />
* Advanced and flexible actions on events<br />
* Automatic alert notifications for rapid countermeasures<br />
* Database and remote access to event log, trend, and measurement data for initial diagnostics at any time <br />
* Flexible storage capabilities, suitable for site with or without a network connection<br />
<br />
==Installation==<br />
===Download===<br />
Download last version of [https://my.oros.com/categories/software/monitoring/ Monitoring Solution].<br />
<br />
===Equipment required for the installation===<br />
USB drive containing Monitoring software installation setups “SetupM-Logger.exe” and "SetupM-View.exe".<br />
<br />
NVGate software must have been installed first (from V16.00.002).<br />
<br />
===Installation of NVGate software===<br />
First you need to [[NVGate_V16:_Install_Process|install NVGate]].<br />
<br />
===Installation of Monitoring software===<br />
In the PC that is connected to OROS analyzer, run “SetupM-Logger.exe” program, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161522.png|400px]]<br />
<br />
Click on “Next”, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161641.png|400px]]<br />
<br />
Read the terms in the license agreement and check “I accept the terms in the License Agreement” if you agree. Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161737.png|400px]]<br />
<br />
Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\M-Logger. Click on “Install” to start the installation, and wait until the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161903.png|400px]]<br />
<br />
Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162029.png|400px]]<br />
<br />
Click on “Finish” to exit the setup wizard, and OROS M-Logger software is successfully installed. <br />
<br />
The drivers for the Autonomy kit are installed during the default installation.<br />
<br />
Next, run “SetupM-View.exe” program in the PC which is used for checking collected data (usually is not the same PC which runs M-Logger), and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162338.png|400px]]<br />
<br />
Click on “Next”, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162433.png|400px]]<br />
<br />
Read the terms in the license agreement and check “I accept the terms in the License Agreement” if you agree. Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 163249.png|400px]]<br />
<br />
Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\M-View. Click on “Install” to start the installation, and wait until the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 163430.png|400px]]<br />
<br />
<br />
Click on “Finish” to exit the setup wizard, and OROS M-View software is successfully installed.<br />
<br />
===Autonomy kit installation (optional)===<br />
The autonomy kit must be plugged to the analyzer<nowiki>'</nowiki>s RJ11 port and to the PC USB port, and drivers should be installed. Drivers are installed automatically during the installation of M-Logger, and can also be installed manually in case troubleshooting is necessary.<br />
<br />
This autonomy kit is dedicated to OROS analyzers. Do not use it with any other device.<br />
<br />
Only use original components provided.<br />
<br />
[[Image:Monitoring_OROS_03.gif|framed|none]]<br />
<br />
<font color="#1F497D"><br />
<br />
<br />
''Figure 1 – Autonomy kit installation with OR36''</font><br />
<br />
[[Image:Monitoring_OROS_01.png|50px]]This '''Autonomy Kit''' contains electronic equipment. It should not be mixed with general household waste. For proper treatment, return this product to OROS or to any local company authorized to recycle waste electrical and electronic equipment.<br />
<br />
<br />
[[File:CE.png]]This '''Autonomy Kit''' complies with following European Standards:<br />
<br />
* 2014/35/EU low voltage directive<br />
* 2011/65/EU and 2015/863 ROHS directive<br />
* 2012/19/EU WEEE directive<br />
<br />
<br />
===Database installation and management===<br />
<br />
====Database installation====<br />
<br />
MongoDB is a document-oriented NoSQL database used for high volume data storage and used by OROS Monitoring. OROS Monitoring solution is compatible with MongoDB 6.0.x only. MongoDB can be installed on different platform, and following instructions explain how to install it on Windows or Linux system.<br />
<br />
=====Installation on Windows system=====<br />
<br />
a. Pre-requisites<br />
MongoDB support these Windows versions :<br />
* Windows 10 et 11 64 bits<br />
* Windows Server 2016, 2019, 2021 64bits<br />
<br />
Download installation files:<br />
* MongoDB: https://fastdl.mongodb.org/windows/mongodb-windows-x86_64-6.0.5-signed.msi<br />
* Mongosh: https://github.com/mongodb-js/mongosh/releases/download/v1.8.0/mongosh-1.8.0-x64.msi<br />
<br />
b. MongoDB installation<br />
<br />
Execute mongodb-windows-x86_64-6.0.5-signed.msi and click on “Complete”:<br />
<br />
[[File:Picture1.png|400px]]<br />
<br />
Let default parameters filled:<br />
<br />
[[File:Picture2.png|400px]]<br />
<br />
Install<br />
<br />
c. Configure MongoDB<br />
Open with a text editor mongod.cfg file located in mongodb folder, default : "C:\Program Files\MongoDB\Server\6.0\bin\mongod.cfg"<br />
We need to enable zstd compression, find wiredTiger block and edit it as followed :<code><br />
wiredTiger:<br />
collectionConfig:<br />
blockCompressor: zstd<br />
</code><br />
Configure the net part as needed, example with port 27017 and allowing any external IP address :<code><br />
# network interfaces<br />
net:<br />
port: 27017<br />
bindIpAll: true<br />
# bindIp: 127.0.0.1"<br />
</code><br />
<br />
Copy file Windows\mongod.cfg to MongoDB directory "C:\Program Files\MongoDB\Server\6.0\bin\mongod.cfg". It enables compression which is needed for Monitoring. If you want to secure the connection to MongoDB, allowing specific IP address or change port ''etc''., you can edit this file. <br />
<br />
<br />
Documentation is available on official website: https://www.mongodb.com/docs/manual/reference/configuration-options/<br />
<br />
d. MongoDB Shell installation<br />
<br />
Run mongosh-1.8.0-x64.msi, uncheck “Install just for you” and continue installation.<br />
<br />
[[File:Picture3.png|400px]]<br />
<br />
Run mongosh.exe from "C:\Program Files\mongosh". A command window will popup asking MongoDB information, do not write anything and press Enter, connection should be done:<br />
<br />
[[File:Picture4.png|400px]]<br />
<br />
e. Create an admin user<br />
<br />
In the shell windows type: ''use admin''<br />
<br />
Then the following command will create an administrator user for MongoDB, which is mandatory. You will be able to create standard ReadOnly or Write access user using Monitoring dedicated M-DBTools.<br />
<br />
In this example the admin user created is named “oros” and his password is “oros”, please use a strong password for the admin user:<br />
<br />
''db.createUser({ user: "oros" , pwd: "oros", roles: ["userAdminAnyDatabase", "dbAdminAnyDatabase", "readWriteAnyDatabase"]})''<br />
<br />
[[File:Picture5.png|400px]]<br />
<br />
Restart the computer, and now MongoDB is configured and ready to be used.<br />
<br />
=====Installation on Linux system=====<br />
<br />
Installation on Debian<br />
<br />
https://www.mongodb.com/docs/v6.0/tutorial/install-mongodb-on-debian/<br />
<br />
https://www.mongodb.com/docs/mongodb-shell/install/<br />
<br />
a. Pre-requisites<br />
<br />
Packages: gnupg2, wget, sudo, net-tools, curl<br />
<br />
b. MongoDB installation<br />
<br />
* Add MongoDB server key<br />
<br />
wget -qO - https://www.mongodb.org/static/pgp/server-6.0.asc | sudo apt-key add –<br />
<br />
* Add MongoDB repository<br />
<br />
Debian 11 <br />
<br />
echo "deb http://repo.mongodb.org/apt/debian bullseye/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list<br />
<br />
Debian 10<br />
<br />
echo "deb http://repo.mongodb.org/apt/debian buster/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list<br />
<br />
Debian 9<br />
<br />
echo "deb http://repo.mongodb.org/apt/debian stretch/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list.<br />
<br />
* Install MongoDB<br />
<br />
sudo apt-get update<br />
<br />
sudo apt-get install -y mongodb-org<br />
<br />
sudo apt-get install -y mongodb-mongosh<br />
<br />
c. Configure MongoDB<br />
<br />
Copy file from package folder debian/mongod.conf to /etc/mongod.conf. It enables compression which is needed for Monitoring. If you want to secure the connection to MongoDB, allowing specific IP address or change port ''etc''., you can edit this file. Documentation is available on official website: https://www.mongodb.com/docs/manual/reference/configuration-options/<br />
<br />
d. Enable MongoDB as a service<br />
<br />
systemctl enable mongod.service<br />
<br />
e. Create an admin user<br />
<br />
mongo<br />
<br />
use admin<br />
<br />
db.createUser({ user: "oros" , pwd: "oros", roles: ["userAdminAnyDatabase", "dbAdminAnyDatabase", "readWriteAnyDatabase"]})<br />
<br />
f. Start MongoDB<br />
<br />
sudo systemctl start mongod<br />
<br />
====Database management====<br />
<br />
MongoDB is the database engine, and at least one database needs to be created to be used by OROS Monitoring solution.<br />
<br />
Run M-DBTools.exe, which is installed in M-Logger or M-View folder (by default C:\OROS\Programs\M-Logger or C:\OROS\Programs\M-View), and login:<br />
<br />
* Server address: Your server address, localhost if database is installed on running PC<br />
* Server port: 27017 (by default, other if you changed it in your MongoDB configuration file)<br />
* User name: Defined in “Create an admin user” chapter<br />
* Password: Defined in “Create an admin user” chapter<br />
<br />
[[File:Picture6.png|400px]]<br />
<br />
Please note that only administrators are allowed to run this tool, otherwise it will not connect to MongoDB.<br />
<br />
Server information and databases list will be displayed once connected.<br />
<br />
[[File:Picture7.png|400px]]<br />
<br />
=====Manage databases=====<br />
<br />
a. Create a database<br />
<br />
Fill a name in the dedicated field then press create, after few seconds/minutes the database will appear into the list.<br />
<br />
[[File:Picture8.png|400px]]<br />
<br />
b. Database information<br />
<br />
Clicking on your database will show some information like the version, number of object, space used ...<br />
<br />
[[File:Picture9.png|400px]]<br />
<br />
c. Update database<br />
<br />
Due to an upgrade of M-Logger / M-View, it might be necessary to update your database, and thus M-DBTools is needed.<br />
<br />
Select the desired database and press update. Depending on the number of objects this may take some time, you will be notified once it's done.<br />
<br />
=====Manage users=====<br />
<br />
Users are manageable in the "Users" panel:<br />
<br />
[[File:Picture10.png|400px]]<br />
<br />
a. Create user<br />
<br />
Click on "Create new user" button, a dialog will popup asking for an username and a password, then click on create, the user will appears in the user list.<br />
<br />
b. Grant access to user<br />
<br />
* Grant access to a dedicated database<br />
<br />
Clicking on a user and a database will show the access rights for this user:<br />
<br />
[[File:Picture11.png|400px]]<br />
<br />
Access can be granted by clicking on the desired rights, below "READ_WRITE" is selected, allowing the user to write to the database, which is mandatory for a M-Logger user.<br />
<br />
[[File:Picture12.png|400px]]<br />
<br />
Then click on "Update rights" to apply the new rights.<br />
<br />
* Grant access to all databases<br />
<br />
Checking "Any databases" will display different access rights, which will be applied to all database + MongoDB instance. Also, if you need to create another MongoDB administrator then it’s an "Any Databases" rights, and select "ROOT" + "DB_ADMIN" + "USER_ADMIN" rights.<br />
<br />
[[File:Picture13.png|400px]]<br />
<br />
Then click on “Update rights” to apply the new rights.<br />
<br />
===PC and Windows configuration===<br />
In order to guarantee a full autonomy, the computer must be configured to reboot in case of any power failure. The following PC parameters are advised:<br />
<br />
<u>'''PC automatic restart due to power failure:'''</u><br />
<br />
To account for any potential power failure at the analyzers location the following settings should be programmed on the PC to automatically switch on the PC once the power is restored.<br />
<br />
Access the PC<nowiki>'</nowiki>s BIOS:<br />
<br />
* Restart PC, press F12 (on most PC<nowiki>'</nowiki>s) to access the PC<nowiki>'</nowiki>s Bios.<br />
* Check the Bios parameters.<br />
* On power management check the option "power on AC".<br />
<br />
Specific settings should be chosen in the computer<br />
* PC <br />
<br />
Contact you IT manager to properly configure the computer : disable low-power sleep mode, no password to automatically restart windows, no low-energy or powering-off option …). In addition, installation of Teamviewer is recommended in order to monitor from a remote access.<br />
<br />
If you plan to monitor your application for more than a couple of hours, it is advised to power both the computer and the OROS analyzer by mains (not on battery).<br />
<br />
Consider installing a remote access software.<br />
<br />
It could be useful to control the computer when an alert is trigged for example.<br />
<br />
==FAQ==<br />
''I use microsoft windows on chinese/japanese language. However, monitoring crash when I click on "refresh button". How to solve this ?''<br />
<br />
On windows regional settings, tab admin, let the unicode program on your language, however click on "beta : use the unicode UTF-8...". This solve the issue.<br />
<br />
[[File:faq.PNG|400px]]</div>Adminhttps://wiki.oros.com/index.php?title=Monitoring_Solution&diff=11503Monitoring Solution2023-06-16T11:46:15Z<p>Admin: </p>
<hr />
<div>==Introduction==<br />
The OROS Monitoring solution can continuously supervise the noise and vibration levels of your critical assets, notifying alerts autonomously when predetermined levels are exceeded and catching real time high added value data on the spot. <br />
<br />
[[File:monitoring_drawing.jpg|700px]]<br />
<br />
This solution is dedicated for mid to long term monitoring application, and the main features are:<br />
<br />
* Operate standalone: power cut and restart management<br />
* From basic to advanced event triggering conditions<br />
* Pre-trigger time domain signal recording remotely downloadable for further analysis<br />
* Advanced and flexible actions on events<br />
* Automatic alert notifications for rapid countermeasures<br />
* Database and remote access to event log, trend, and measurement data for initial diagnostics at any time <br />
* Flexible storage capabilities, suitable for site with or without a network connection<br />
<br />
==Installation==<br />
===Download===<br />
Download last version of [https://my.oros.com/categories/software/monitoring/ Monitoring Solution].<br />
<br />
===Equipment required for the installation===<br />
USB drive containing Monitoring software installation setups “SetupM-Logger.exe” and "SetupM-View.exe".<br />
<br />
NVGate software must have been installed first (from V16.00.002).<br />
<br />
===Installation of NVGate software===<br />
First you need to [[NVGate_V16:_Install_Process|install NVGate]].<br />
<br />
===Installation of Monitoring software===<br />
In the PC that is connected to OROS analyzer, run “SetupM-Logger.exe” program, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161522.png|400px]]<br />
<br />
Click on “Next”, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161641.png|400px]]<br />
<br />
Read the terms in the license agreement and check “I accept the terms in the License Agreement” if you agree. Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161737.png|400px]]<br />
<br />
Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\M-Logger. Click on “Install” to start the installation, and wait until the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161903.png|400px]]<br />
<br />
Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162029.png|400px]]<br />
<br />
Click on “Finish” to exit the setup wizard, and OROS M-Logger software is successfully installed. <br />
<br />
The drivers for the Autonomy kit are installed during the default installation.<br />
<br />
Next, run “SetupM-View.exe” program in the PC which is used for checking collected data (usually is not the same PC which runs M-Logger), and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162338.png|400px]]<br />
<br />
Click on “Next”, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162433.png|400px]]<br />
<br />
Read the terms in the license agreement and check “I accept the terms in the License Agreement” if you agree. Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 163249.png|400px]]<br />
<br />
Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\M-View. Click on “Install” to start the installation, and wait until the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 163430.png|400px]]<br />
<br />
<br />
Click on “Finish” to exit the setup wizard, and OROS M-View software is successfully installed.<br />
<br />
===Autonomy kit installation (optional)===<br />
The autonomy kit must be plugged to the analyzer<nowiki>'</nowiki>s RJ11 port and to the PC USB port, and drivers should be installed. Drivers are installed automatically during the installation of M-Logger, and can also be installed manually in case troubleshooting is necessary.<br />
<br />
This autonomy kit is dedicated to OROS analyzers. Do not use it with any other device.<br />
<br />
Only use original components provided.<br />
<br />
[[Image:Monitoring_OROS_03.gif|framed|none]]<br />
<br />
<font color="#1F497D"><br />
<br />
<br />
''Figure 1 – Autonomy kit installation with OR36''</font><br />
<br />
[[Image:Monitoring_OROS_01.png|50px]]This '''Autonomy Kit''' contains electronic equipment. It should not be mixed with general household waste. For proper treatment, return this product to OROS or to any local company authorized to recycle waste electrical and electronic equipment.<br />
<br />
<br />
[[File:CE.png]]This '''Autonomy Kit''' complies with following European Standards:<br />
<br />
* 2014/35/EU low voltage directive<br />
* 2011/65/EU and 2015/863 ROHS directive<br />
* 2012/19/EU WEEE directive<br />
<br />
<br />
===Database installation and management===<br />
<br />
====Database installation====<br />
<br />
MongoDB is a document-oriented NoSQL database used for high volume data storage and used by OROS Monitoring. OROS Monitoring solution is compatible with MongoDB 6.0.x only. MongoDB can be installed on different platform, and following instructions explain how to install it on Windows or Linux system.<br />
<br />
=====Installation on Windows system=====<br />
<br />
a. Pre-requisites<br />
MongoDB support these Windows versions :<br />
* Windows 10 et 11 64 bits<br />
* Windows Server 2016, 2019, 2021 64bits<br />
<br />
Download installation files:<br />
* MongoDB: https://fastdl.mongodb.org/windows/mongodb-windows-x86_64-6.0.5-signed.msi<br />
* Mongosh: https://github.com/mongodb-js/mongosh/releases/download/v1.8.0/mongosh-1.8.0-x64.msi<br />
<br />
b. MongoDB installation<br />
<br />
Execute mongodb-windows-x86_64-6.0.5-signed.msi and click on “Complete”:<br />
<br />
[[File:Picture1.png|400px]]<br />
<br />
Let default parameters filled:<br />
<br />
[[File:Picture2.png|400px]]<br />
<br />
Install<br />
<br />
c. Configure MongoDB<br />
Open with a text editor mongod.cfg file located in mongodb folder, default : "C:\Program Files\MongoDB\Server\6.0\bin\mongod.cfg"<br />
We need to enable zstd compression, find wiredTiger block and edit it as followed :<br />
<code><br />
wiredTiger:<br />
collectionConfig:<br />
blockCompressor: zstd<br />
</code><br />
Configure the net part as needed, example with port 27017 and allowing any external IP address :<br />
<code><br />
# network interfaces<br />
net:<br />
port: 27017<br />
bindIpAll: true<br />
# bindIp: 127.0.0.1"<br />
</code><br />
<br />
Copy file Windows\mongod.cfg to MongoDB directory "C:\Program Files\MongoDB\Server\6.0\bin\mongod.cfg". It enables compression which is needed for Monitoring. If you want to secure the connection to MongoDB, allowing specific IP address or change port ''etc''., you can edit this file. <br />
<br />
<br />
Documentation is available on official website: https://www.mongodb.com/docs/manual/reference/configuration-options/<br />
<br />
d. MongoDB Shell installation<br />
<br />
Run mongosh-1.8.0-x64.msi, uncheck “Install just for you” and continue installation.<br />
<br />
[[File:Picture3.png|400px]]<br />
<br />
Run mongosh.exe from "C:\Program Files\mongosh". A command window will popup asking MongoDB information, do not write anything and press Enter, connection should be done:<br />
<br />
[[File:Picture4.png|400px]]<br />
<br />
e. Create an admin user<br />
<br />
In the shell windows type: ''use admin''<br />
<br />
Then the following command will create an administrator user for MongoDB, which is mandatory. You will be able to create standard ReadOnly or Write access user using Monitoring dedicated M-DBTools.<br />
<br />
In this example the admin user created is named “oros” and his password is “oros”, please use a strong password for the admin user:<br />
<br />
''db.createUser({ user: "oros" , pwd: "oros", roles: ["userAdminAnyDatabase", "dbAdminAnyDatabase", "readWriteAnyDatabase"]})''<br />
<br />
[[File:Picture5.png|400px]]<br />
<br />
Restart the computer, and now MongoDB is configured and ready to be used.<br />
<br />
=====Installation on Linux system=====<br />
<br />
Installation on Debian<br />
<br />
https://www.mongodb.com/docs/v6.0/tutorial/install-mongodb-on-debian/<br />
<br />
https://www.mongodb.com/docs/mongodb-shell/install/<br />
<br />
a. Pre-requisites<br />
<br />
Packages: gnupg2, wget, sudo, net-tools, curl<br />
<br />
b. MongoDB installation<br />
<br />
* Add MongoDB server key<br />
<br />
wget -qO - https://www.mongodb.org/static/pgp/server-6.0.asc | sudo apt-key add –<br />
<br />
* Add MongoDB repository<br />
<br />
Debian 11 <br />
<br />
echo "deb http://repo.mongodb.org/apt/debian bullseye/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list<br />
<br />
Debian 10<br />
<br />
echo "deb http://repo.mongodb.org/apt/debian buster/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list<br />
<br />
Debian 9<br />
<br />
echo "deb http://repo.mongodb.org/apt/debian stretch/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list.<br />
<br />
* Install MongoDB<br />
<br />
sudo apt-get update<br />
<br />
sudo apt-get install -y mongodb-org<br />
<br />
sudo apt-get install -y mongodb-mongosh<br />
<br />
c. Configure MongoDB<br />
<br />
Copy file from package folder debian/mongod.conf to /etc/mongod.conf. It enables compression which is needed for Monitoring. If you want to secure the connection to MongoDB, allowing specific IP address or change port ''etc''., you can edit this file. Documentation is available on official website: https://www.mongodb.com/docs/manual/reference/configuration-options/<br />
<br />
d. Enable MongoDB as a service<br />
<br />
systemctl enable mongod.service<br />
<br />
e. Create an admin user<br />
<br />
mongo<br />
<br />
use admin<br />
<br />
db.createUser({ user: "oros" , pwd: "oros", roles: ["userAdminAnyDatabase", "dbAdminAnyDatabase", "readWriteAnyDatabase"]})<br />
<br />
f. Start MongoDB<br />
<br />
sudo systemctl start mongod<br />
<br />
====Database management====<br />
<br />
MongoDB is the database engine, and at least one database needs to be created to be used by OROS Monitoring solution.<br />
<br />
Run M-DBTools.exe, which is installed in M-Logger or M-View folder (by default C:\OROS\Programs\M-Logger or C:\OROS\Programs\M-View), and login:<br />
<br />
* Server address: Your server address, localhost if database is installed on running PC<br />
* Server port: 27017 (by default, other if you changed it in your MongoDB configuration file)<br />
* User name: Defined in “Create an admin user” chapter<br />
* Password: Defined in “Create an admin user” chapter<br />
<br />
[[File:Picture6.png|400px]]<br />
<br />
Please note that only administrators are allowed to run this tool, otherwise it will not connect to MongoDB.<br />
<br />
Server information and databases list will be displayed once connected.<br />
<br />
[[File:Picture7.png|400px]]<br />
<br />
=====Manage databases=====<br />
<br />
a. Create a database<br />
<br />
Fill a name in the dedicated field then press create, after few seconds/minutes the database will appear into the list.<br />
<br />
[[File:Picture8.png|400px]]<br />
<br />
b. Database information<br />
<br />
Clicking on your database will show some information like the version, number of object, space used ...<br />
<br />
[[File:Picture9.png|400px]]<br />
<br />
c. Update database<br />
<br />
Due to an upgrade of M-Logger / M-View, it might be necessary to update your database, and thus M-DBTools is needed.<br />
<br />
Select the desired database and press update. Depending on the number of objects this may take some time, you will be notified once it's done.<br />
<br />
=====Manage users=====<br />
<br />
Users are manageable in the "Users" panel:<br />
<br />
[[File:Picture10.png|400px]]<br />
<br />
a. Create user<br />
<br />
Click on "Create new user" button, a dialog will popup asking for an username and a password, then click on create, the user will appears in the user list.<br />
<br />
b. Grant access to user<br />
<br />
* Grant access to a dedicated database<br />
<br />
Clicking on a user and a database will show the access rights for this user:<br />
<br />
[[File:Picture11.png|400px]]<br />
<br />
Access can be granted by clicking on the desired rights, below "READ_WRITE" is selected, allowing the user to write to the database, which is mandatory for a M-Logger user.<br />
<br />
[[File:Picture12.png|400px]]<br />
<br />
Then click on "Update rights" to apply the new rights.<br />
<br />
* Grant access to all databases<br />
<br />
Checking "Any databases" will display different access rights, which will be applied to all database + MongoDB instance. Also, if you need to create another MongoDB administrator then it’s an "Any Databases" rights, and select "ROOT" + "DB_ADMIN" + "USER_ADMIN" rights.<br />
<br />
[[File:Picture13.png|400px]]<br />
<br />
Then click on “Update rights” to apply the new rights.<br />
<br />
===PC and Windows configuration===<br />
In order to guarantee a full autonomy, the computer must be configured to reboot in case of any power failure. The following PC parameters are advised:<br />
<br />
<u>'''PC automatic restart due to power failure:'''</u><br />
<br />
To account for any potential power failure at the analyzers location the following settings should be programmed on the PC to automatically switch on the PC once the power is restored.<br />
<br />
Access the PC<nowiki>'</nowiki>s BIOS:<br />
<br />
* Restart PC, press F12 (on most PC<nowiki>'</nowiki>s) to access the PC<nowiki>'</nowiki>s Bios.<br />
* Check the Bios parameters.<br />
* On power management check the option "power on AC".<br />
<br />
Specific settings should be chosen in the computer<br />
* PC <br />
<br />
Contact you IT manager to properly configure the computer : disable low-power sleep mode, no password to automatically restart windows, no low-energy or powering-off option …). In addition, installation of Teamviewer is recommended in order to monitor from a remote access.<br />
<br />
If you plan to monitor your application for more than a couple of hours, it is advised to power both the computer and the OROS analyzer by mains (not on battery).<br />
<br />
Consider installing a remote access software.<br />
<br />
It could be useful to control the computer when an alert is trigged for example.<br />
<br />
==FAQ==<br />
''I use microsoft windows on chinese/japanese language. However, monitoring crash when I click on "refresh button". How to solve this ?''<br />
<br />
On windows regional settings, tab admin, let the unicode program on your language, however click on "beta : use the unicode UTF-8...". This solve the issue.<br />
<br />
[[File:faq.PNG|400px]]</div>Adminhttps://wiki.oros.com/index.php?title=Monitoring_Solution&diff=11502Monitoring Solution2023-06-16T11:44:53Z<p>Admin: </p>
<hr />
<div>==Introduction==<br />
The OROS Monitoring solution can continuously supervise the noise and vibration levels of your critical assets, notifying alerts autonomously when predetermined levels are exceeded and catching real time high added value data on the spot. <br />
<br />
[[File:monitoring_drawing.jpg|700px]]<br />
<br />
This solution is dedicated for mid to long term monitoring application, and the main features are:<br />
<br />
* Operate standalone: power cut and restart management<br />
* From basic to advanced event triggering conditions<br />
* Pre-trigger time domain signal recording remotely downloadable for further analysis<br />
* Advanced and flexible actions on events<br />
* Automatic alert notifications for rapid countermeasures<br />
* Database and remote access to event log, trend, and measurement data for initial diagnostics at any time <br />
* Flexible storage capabilities, suitable for site with or without a network connection<br />
<br />
==Installation==<br />
===Download===<br />
Download last version of [https://my.oros.com/categories/software/monitoring/ Monitoring Solution].<br />
<br />
===Equipment required for the installation===<br />
USB drive containing Monitoring software installation setups “SetupM-Logger.exe” and "SetupM-View.exe".<br />
<br />
NVGate software must have been installed first (from V16.00.002).<br />
<br />
===Installation of NVGate software===<br />
First you need to [[NVGate_V16:_Install_Process|install NVGate]].<br />
<br />
===Installation of Monitoring software===<br />
In the PC that is connected to OROS analyzer, run “SetupM-Logger.exe” program, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161522.png|400px]]<br />
<br />
Click on “Next”, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161641.png|400px]]<br />
<br />
Read the terms in the license agreement and check “I accept the terms in the License Agreement” if you agree. Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161737.png|400px]]<br />
<br />
Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\M-Logger. Click on “Install” to start the installation, and wait until the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161903.png|400px]]<br />
<br />
Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162029.png|400px]]<br />
<br />
Click on “Finish” to exit the setup wizard, and OROS M-Logger software is successfully installed. <br />
<br />
The drivers for the Autonomy kit are installed during the default installation.<br />
<br />
Next, run “SetupM-View.exe” program in the PC which is used for checking collected data (usually is not the same PC which runs M-Logger), and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162338.png|400px]]<br />
<br />
Click on “Next”, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162433.png|400px]]<br />
<br />
Read the terms in the license agreement and check “I accept the terms in the License Agreement” if you agree. Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 163249.png|400px]]<br />
<br />
Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\M-View. Click on “Install” to start the installation, and wait until the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 163430.png|400px]]<br />
<br />
<br />
Click on “Finish” to exit the setup wizard, and OROS M-View software is successfully installed.<br />
<br />
===Autonomy kit installation (optional)===<br />
The autonomy kit must be plugged to the analyzer<nowiki>'</nowiki>s RJ11 port and to the PC USB port, and drivers should be installed. Drivers are installed automatically during the installation of M-Logger, and can also be installed manually in case troubleshooting is necessary.<br />
<br />
This autonomy kit is dedicated to OROS analyzers. Do not use it with any other device.<br />
<br />
Only use original components provided.<br />
<br />
[[Image:Monitoring_OROS_03.gif|framed|none]]<br />
<br />
<font color="#1F497D"><br />
<br />
<br />
''Figure 1 – Autonomy kit installation with OR36''</font><br />
<br />
[[Image:Monitoring_OROS_01.png|50px]]This '''Autonomy Kit''' contains electronic equipment. It should not be mixed with general household waste. For proper treatment, return this product to OROS or to any local company authorized to recycle waste electrical and electronic equipment.<br />
<br />
<br />
[[File:CE.png]]This '''Autonomy Kit''' complies with following European Standards:<br />
<br />
* 2014/35/EU low voltage directive<br />
* 2011/65/EU and 2015/863 ROHS directive<br />
* 2012/19/EU WEEE directive<br />
<br />
<br />
===Database installation and management===<br />
<br />
====Database installation====<br />
<br />
MongoDB is a document-oriented NoSQL database used for high volume data storage and used by OROS Monitoring. OROS Monitoring solution is compatible with MongoDB 6.0.x only. MongoDB can be installed on different platform, and following instructions explain how to install it on Windows or Linux system.<br />
<br />
=====Installation on Windows system=====<br />
<br />
a. Pre-requisites<br />
MongoDB support these Windows versions :<br />
* Windows 10 et 11 64 bits<br />
* Windows Server 2016, 2019, 2021 64bits<br />
<br />
Download installation files:<br />
* MongoDB: https://fastdl.mongodb.org/windows/mongodb-windows-x86_64-6.0.5-signed.msi<br />
* Mongosh: https://github.com/mongodb-js/mongosh/releases/download/v1.8.0/mongosh-1.8.0-x64.msi<br />
<br />
b. MongoDB installation<br />
<br />
Execute mongodb-windows-x86_64-6.0.5-signed.msi and click on “Complete”:<br />
<br />
[[File:Picture1.png|400px]]<br />
<br />
Let default parameters filled:<br />
<br />
[[File:Picture2.png|400px]]<br />
<br />
Install<br />
<br />
c. Configure MongoDB<br />
Open with a text editor mongod.cfg file located in mongodb folder, default : "C:\Program Files\MongoDB\Server\6.0\bin\mongod.cfg"<br />
We need to enable zstd compression, find wiredTiger block and edit it as followed :<br />
<code><br />
wiredTiger:<br />
collectionConfig:<br />
blockCompressor: zstd<br />
</code><br />
Configure the net part as needed, example with port 27017 and allowing any external IP address :<br />
<code blabla><br />
# network interfaces<br />
{net:<br />
port: 27017<br />
bindIpAll: true<br />
# bindIp: 127.0.0.1"}<br />
</code><br />
<br />
Copy file Windows\mongod.cfg to MongoDB directory "C:\Program Files\MongoDB\Server\6.0\bin\mongod.cfg". It enables compression which is needed for Monitoring. If you want to secure the connection to MongoDB, allowing specific IP address or change port ''etc''., you can edit this file. <br />
<br />
<br />
Documentation is available on official website: https://www.mongodb.com/docs/manual/reference/configuration-options/<br />
<br />
d. MongoDB Shell installation<br />
<br />
Run mongosh-1.8.0-x64.msi, uncheck “Install just for you” and continue installation.<br />
<br />
[[File:Picture3.png|400px]]<br />
<br />
Run mongosh.exe from "C:\Program Files\mongosh". A command window will popup asking MongoDB information, do not write anything and press Enter, connection should be done:<br />
<br />
[[File:Picture4.png|400px]]<br />
<br />
e. Create an admin user<br />
<br />
In the shell windows type: ''use admin''<br />
<br />
Then the following command will create an administrator user for MongoDB, which is mandatory. You will be able to create standard ReadOnly or Write access user using Monitoring dedicated M-DBTools.<br />
<br />
In this example the admin user created is named “oros” and his password is “oros”, please use a strong password for the admin user:<br />
<br />
''db.createUser({ user: "oros" , pwd: "oros", roles: ["userAdminAnyDatabase", "dbAdminAnyDatabase", "readWriteAnyDatabase"]})''<br />
<br />
[[File:Picture5.png|400px]]<br />
<br />
Restart the computer, and now MongoDB is configured and ready to be used.<br />
<br />
=====Installation on Linux system=====<br />
<br />
Installation on Debian<br />
<br />
https://www.mongodb.com/docs/v6.0/tutorial/install-mongodb-on-debian/<br />
<br />
https://www.mongodb.com/docs/mongodb-shell/install/<br />
<br />
a. Pre-requisites<br />
<br />
Packages: gnupg2, wget, sudo, net-tools, curl<br />
<br />
b. MongoDB installation<br />
<br />
* Add MongoDB server key<br />
<br />
wget -qO - https://www.mongodb.org/static/pgp/server-6.0.asc | sudo apt-key add –<br />
<br />
* Add MongoDB repository<br />
<br />
Debian 11 <br />
<br />
echo "deb http://repo.mongodb.org/apt/debian bullseye/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list<br />
<br />
Debian 10<br />
<br />
echo "deb http://repo.mongodb.org/apt/debian buster/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list<br />
<br />
Debian 9<br />
<br />
echo "deb http://repo.mongodb.org/apt/debian stretch/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list.<br />
<br />
* Install MongoDB<br />
<br />
sudo apt-get update<br />
<br />
sudo apt-get install -y mongodb-org<br />
<br />
sudo apt-get install -y mongodb-mongosh<br />
<br />
c. Configure MongoDB<br />
<br />
Copy file from package folder debian/mongod.conf to /etc/mongod.conf. It enables compression which is needed for Monitoring. If you want to secure the connection to MongoDB, allowing specific IP address or change port ''etc''., you can edit this file. Documentation is available on official website: https://www.mongodb.com/docs/manual/reference/configuration-options/<br />
<br />
d. Enable MongoDB as a service<br />
<br />
systemctl enable mongod.service<br />
<br />
e. Create an admin user<br />
<br />
mongo<br />
<br />
use admin<br />
<br />
db.createUser({ user: "oros" , pwd: "oros", roles: ["userAdminAnyDatabase", "dbAdminAnyDatabase", "readWriteAnyDatabase"]})<br />
<br />
f. Start MongoDB<br />
<br />
sudo systemctl start mongod<br />
<br />
====Database management====<br />
<br />
MongoDB is the database engine, and at least one database needs to be created to be used by OROS Monitoring solution.<br />
<br />
Run M-DBTools.exe, which is installed in M-Logger or M-View folder (by default C:\OROS\Programs\M-Logger or C:\OROS\Programs\M-View), and login:<br />
<br />
* Server address: Your server address, localhost if database is installed on running PC<br />
* Server port: 27017 (by default, other if you changed it in your MongoDB configuration file)<br />
* User name: Defined in “Create an admin user” chapter<br />
* Password: Defined in “Create an admin user” chapter<br />
<br />
[[File:Picture6.png|400px]]<br />
<br />
Please note that only administrators are allowed to run this tool, otherwise it will not connect to MongoDB.<br />
<br />
Server information and databases list will be displayed once connected.<br />
<br />
[[File:Picture7.png|400px]]<br />
<br />
=====Manage databases=====<br />
<br />
a. Create a database<br />
<br />
Fill a name in the dedicated field then press create, after few seconds/minutes the database will appear into the list.<br />
<br />
[[File:Picture8.png|400px]]<br />
<br />
b. Database information<br />
<br />
Clicking on your database will show some information like the version, number of object, space used ...<br />
<br />
[[File:Picture9.png|400px]]<br />
<br />
c. Update database<br />
<br />
Due to an upgrade of M-Logger / M-View, it might be necessary to update your database, and thus M-DBTools is needed.<br />
<br />
Select the desired database and press update. Depending on the number of objects this may take some time, you will be notified once it's done.<br />
<br />
=====Manage users=====<br />
<br />
Users are manageable in the "Users" panel:<br />
<br />
[[File:Picture10.png|400px]]<br />
<br />
a. Create user<br />
<br />
Click on "Create new user" button, a dialog will popup asking for an username and a password, then click on create, the user will appears in the user list.<br />
<br />
b. Grant access to user<br />
<br />
* Grant access to a dedicated database<br />
<br />
Clicking on a user and a database will show the access rights for this user:<br />
<br />
[[File:Picture11.png|400px]]<br />
<br />
Access can be granted by clicking on the desired rights, below "READ_WRITE" is selected, allowing the user to write to the database, which is mandatory for a M-Logger user.<br />
<br />
[[File:Picture12.png|400px]]<br />
<br />
Then click on "Update rights" to apply the new rights.<br />
<br />
* Grant access to all databases<br />
<br />
Checking "Any databases" will display different access rights, which will be applied to all database + MongoDB instance. Also, if you need to create another MongoDB administrator then it’s an "Any Databases" rights, and select "ROOT" + "DB_ADMIN" + "USER_ADMIN" rights.<br />
<br />
[[File:Picture13.png|400px]]<br />
<br />
Then click on “Update rights” to apply the new rights.<br />
<br />
===PC and Windows configuration===<br />
In order to guarantee a full autonomy, the computer must be configured to reboot in case of any power failure. The following PC parameters are advised:<br />
<br />
<u>'''PC automatic restart due to power failure:'''</u><br />
<br />
To account for any potential power failure at the analyzers location the following settings should be programmed on the PC to automatically switch on the PC once the power is restored.<br />
<br />
Access the PC<nowiki>'</nowiki>s BIOS:<br />
<br />
* Restart PC, press F12 (on most PC<nowiki>'</nowiki>s) to access the PC<nowiki>'</nowiki>s Bios.<br />
* Check the Bios parameters.<br />
* On power management check the option "power on AC".<br />
<br />
Specific settings should be chosen in the computer<br />
* PC <br />
<br />
Contact you IT manager to properly configure the computer : disable low-power sleep mode, no password to automatically restart windows, no low-energy or powering-off option …). In addition, installation of Teamviewer is recommended in order to monitor from a remote access.<br />
<br />
If you plan to monitor your application for more than a couple of hours, it is advised to power both the computer and the OROS analyzer by mains (not on battery).<br />
<br />
Consider installing a remote access software.<br />
<br />
It could be useful to control the computer when an alert is trigged for example.<br />
<br />
==FAQ==<br />
''I use microsoft windows on chinese/japanese language. However, monitoring crash when I click on "refresh button". How to solve this ?''<br />
<br />
On windows regional settings, tab admin, let the unicode program on your language, however click on "beta : use the unicode UTF-8...". This solve the issue.<br />
<br />
[[File:faq.PNG|400px]]</div>Adminhttps://wiki.oros.com/index.php?title=Monitoring_Solution&diff=11501Monitoring Solution2023-06-16T11:44:39Z<p>Admin: </p>
<hr />
<div>==Introduction==<br />
The OROS Monitoring solution can continuously supervise the noise and vibration levels of your critical assets, notifying alerts autonomously when predetermined levels are exceeded and catching real time high added value data on the spot. <br />
<br />
[[File:monitoring_drawing.jpg|700px]]<br />
<br />
This solution is dedicated for mid to long term monitoring application, and the main features are:<br />
<br />
* Operate standalone: power cut and restart management<br />
* From basic to advanced event triggering conditions<br />
* Pre-trigger time domain signal recording remotely downloadable for further analysis<br />
* Advanced and flexible actions on events<br />
* Automatic alert notifications for rapid countermeasures<br />
* Database and remote access to event log, trend, and measurement data for initial diagnostics at any time <br />
* Flexible storage capabilities, suitable for site with or without a network connection<br />
<br />
==Installation==<br />
===Download===<br />
Download last version of [https://my.oros.com/categories/software/monitoring/ Monitoring Solution].<br />
<br />
===Equipment required for the installation===<br />
USB drive containing Monitoring software installation setups “SetupM-Logger.exe” and "SetupM-View.exe".<br />
<br />
NVGate software must have been installed first (from V16.00.002).<br />
<br />
===Installation of NVGate software===<br />
First you need to [[NVGate_V16:_Install_Process|install NVGate]].<br />
<br />
===Installation of Monitoring software===<br />
In the PC that is connected to OROS analyzer, run “SetupM-Logger.exe” program, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161522.png|400px]]<br />
<br />
Click on “Next”, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161641.png|400px]]<br />
<br />
Read the terms in the license agreement and check “I accept the terms in the License Agreement” if you agree. Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161737.png|400px]]<br />
<br />
Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\M-Logger. Click on “Install” to start the installation, and wait until the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161903.png|400px]]<br />
<br />
Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162029.png|400px]]<br />
<br />
Click on “Finish” to exit the setup wizard, and OROS M-Logger software is successfully installed. <br />
<br />
The drivers for the Autonomy kit are installed during the default installation.<br />
<br />
Next, run “SetupM-View.exe” program in the PC which is used for checking collected data (usually is not the same PC which runs M-Logger), and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162338.png|400px]]<br />
<br />
Click on “Next”, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162433.png|400px]]<br />
<br />
Read the terms in the license agreement and check “I accept the terms in the License Agreement” if you agree. Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 163249.png|400px]]<br />
<br />
Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\M-View. Click on “Install” to start the installation, and wait until the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 163430.png|400px]]<br />
<br />
<br />
Click on “Finish” to exit the setup wizard, and OROS M-View software is successfully installed.<br />
<br />
===Autonomy kit installation (optional)===<br />
The autonomy kit must be plugged to the analyzer<nowiki>'</nowiki>s RJ11 port and to the PC USB port, and drivers should be installed. Drivers are installed automatically during the installation of M-Logger, and can also be installed manually in case troubleshooting is necessary.<br />
<br />
This autonomy kit is dedicated to OROS analyzers. Do not use it with any other device.<br />
<br />
Only use original components provided.<br />
<br />
[[Image:Monitoring_OROS_03.gif|framed|none]]<br />
<br />
<font color="#1F497D"><br />
<br />
<br />
''Figure 1 – Autonomy kit installation with OR36''</font><br />
<br />
[[Image:Monitoring_OROS_01.png|50px]]This '''Autonomy Kit''' contains electronic equipment. It should not be mixed with general household waste. For proper treatment, return this product to OROS or to any local company authorized to recycle waste electrical and electronic equipment.<br />
<br />
<br />
[[File:CE.png]]This '''Autonomy Kit''' complies with following European Standards:<br />
<br />
* 2014/35/EU low voltage directive<br />
* 2011/65/EU and 2015/863 ROHS directive<br />
* 2012/19/EU WEEE directive<br />
<br />
<br />
===Database installation and management===<br />
<br />
====Database installation====<br />
<br />
MongoDB is a document-oriented NoSQL database used for high volume data storage and used by OROS Monitoring. OROS Monitoring solution is compatible with MongoDB 6.0.x only. MongoDB can be installed on different platform, and following instructions explain how to install it on Windows or Linux system.<br />
<br />
=====Installation on Windows system=====<br />
<br />
a. Pre-requisites<br />
MongoDB support these Windows versions :<br />
* Windows 10 et 11 64 bits<br />
* Windows Server 2016, 2019, 2021 64bits<br />
<br />
Download installation files:<br />
* MongoDB: https://fastdl.mongodb.org/windows/mongodb-windows-x86_64-6.0.5-signed.msi<br />
* Mongosh: https://github.com/mongodb-js/mongosh/releases/download/v1.8.0/mongosh-1.8.0-x64.msi<br />
<br />
b. MongoDB installation<br />
<br />
Execute mongodb-windows-x86_64-6.0.5-signed.msi and click on “Complete”:<br />
<br />
[[File:Picture1.png|400px]]<br />
<br />
Let default parameters filled:<br />
<br />
[[File:Picture2.png|400px]]<br />
<br />
Install<br />
<br />
c. Configure MongoDB<br />
Open with a text editor mongod.cfg file located in mongodb folder, default : "C:\Program Files\MongoDB\Server\6.0\bin\mongod.cfg"<br />
We need to enable zstd compression, find wiredTiger block and edit it as followed :<br />
<code><br />
wiredTiger:<br />
collectionConfig:<br />
blockCompressor: zstd<br />
</code><br />
Configure the net part as needed, example with port 27017 and allowing any external IP address :<br />
<code blabla><br />
# network interfaces<br />
"net:<br />
port: 27017<br />
bindIpAll: true<br />
# bindIp: 127.0.0.1"<br />
</code><br />
<br />
Copy file Windows\mongod.cfg to MongoDB directory "C:\Program Files\MongoDB\Server\6.0\bin\mongod.cfg". It enables compression which is needed for Monitoring. If you want to secure the connection to MongoDB, allowing specific IP address or change port ''etc''., you can edit this file. <br />
<br />
<br />
Documentation is available on official website: https://www.mongodb.com/docs/manual/reference/configuration-options/<br />
<br />
d. MongoDB Shell installation<br />
<br />
Run mongosh-1.8.0-x64.msi, uncheck “Install just for you” and continue installation.<br />
<br />
[[File:Picture3.png|400px]]<br />
<br />
Run mongosh.exe from "C:\Program Files\mongosh". A command window will popup asking MongoDB information, do not write anything and press Enter, connection should be done:<br />
<br />
[[File:Picture4.png|400px]]<br />
<br />
e. Create an admin user<br />
<br />
In the shell windows type: ''use admin''<br />
<br />
Then the following command will create an administrator user for MongoDB, which is mandatory. You will be able to create standard ReadOnly or Write access user using Monitoring dedicated M-DBTools.<br />
<br />
In this example the admin user created is named “oros” and his password is “oros”, please use a strong password for the admin user:<br />
<br />
''db.createUser({ user: "oros" , pwd: "oros", roles: ["userAdminAnyDatabase", "dbAdminAnyDatabase", "readWriteAnyDatabase"]})''<br />
<br />
[[File:Picture5.png|400px]]<br />
<br />
Restart the computer, and now MongoDB is configured and ready to be used.<br />
<br />
=====Installation on Linux system=====<br />
<br />
Installation on Debian<br />
<br />
https://www.mongodb.com/docs/v6.0/tutorial/install-mongodb-on-debian/<br />
<br />
https://www.mongodb.com/docs/mongodb-shell/install/<br />
<br />
a. Pre-requisites<br />
<br />
Packages: gnupg2, wget, sudo, net-tools, curl<br />
<br />
b. MongoDB installation<br />
<br />
* Add MongoDB server key<br />
<br />
wget -qO - https://www.mongodb.org/static/pgp/server-6.0.asc | sudo apt-key add –<br />
<br />
* Add MongoDB repository<br />
<br />
Debian 11 <br />
<br />
echo "deb http://repo.mongodb.org/apt/debian bullseye/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list<br />
<br />
Debian 10<br />
<br />
echo "deb http://repo.mongodb.org/apt/debian buster/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list<br />
<br />
Debian 9<br />
<br />
echo "deb http://repo.mongodb.org/apt/debian stretch/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list.<br />
<br />
* Install MongoDB<br />
<br />
sudo apt-get update<br />
<br />
sudo apt-get install -y mongodb-org<br />
<br />
sudo apt-get install -y mongodb-mongosh<br />
<br />
c. Configure MongoDB<br />
<br />
Copy file from package folder debian/mongod.conf to /etc/mongod.conf. It enables compression which is needed for Monitoring. If you want to secure the connection to MongoDB, allowing specific IP address or change port ''etc''., you can edit this file. Documentation is available on official website: https://www.mongodb.com/docs/manual/reference/configuration-options/<br />
<br />
d. Enable MongoDB as a service<br />
<br />
systemctl enable mongod.service<br />
<br />
e. Create an admin user<br />
<br />
mongo<br />
<br />
use admin<br />
<br />
db.createUser({ user: "oros" , pwd: "oros", roles: ["userAdminAnyDatabase", "dbAdminAnyDatabase", "readWriteAnyDatabase"]})<br />
<br />
f. Start MongoDB<br />
<br />
sudo systemctl start mongod<br />
<br />
====Database management====<br />
<br />
MongoDB is the database engine, and at least one database needs to be created to be used by OROS Monitoring solution.<br />
<br />
Run M-DBTools.exe, which is installed in M-Logger or M-View folder (by default C:\OROS\Programs\M-Logger or C:\OROS\Programs\M-View), and login:<br />
<br />
* Server address: Your server address, localhost if database is installed on running PC<br />
* Server port: 27017 (by default, other if you changed it in your MongoDB configuration file)<br />
* User name: Defined in “Create an admin user” chapter<br />
* Password: Defined in “Create an admin user” chapter<br />
<br />
[[File:Picture6.png|400px]]<br />
<br />
Please note that only administrators are allowed to run this tool, otherwise it will not connect to MongoDB.<br />
<br />
Server information and databases list will be displayed once connected.<br />
<br />
[[File:Picture7.png|400px]]<br />
<br />
=====Manage databases=====<br />
<br />
a. Create a database<br />
<br />
Fill a name in the dedicated field then press create, after few seconds/minutes the database will appear into the list.<br />
<br />
[[File:Picture8.png|400px]]<br />
<br />
b. Database information<br />
<br />
Clicking on your database will show some information like the version, number of object, space used ...<br />
<br />
[[File:Picture9.png|400px]]<br />
<br />
c. Update database<br />
<br />
Due to an upgrade of M-Logger / M-View, it might be necessary to update your database, and thus M-DBTools is needed.<br />
<br />
Select the desired database and press update. Depending on the number of objects this may take some time, you will be notified once it's done.<br />
<br />
=====Manage users=====<br />
<br />
Users are manageable in the "Users" panel:<br />
<br />
[[File:Picture10.png|400px]]<br />
<br />
a. Create user<br />
<br />
Click on "Create new user" button, a dialog will popup asking for an username and a password, then click on create, the user will appears in the user list.<br />
<br />
b. Grant access to user<br />
<br />
* Grant access to a dedicated database<br />
<br />
Clicking on a user and a database will show the access rights for this user:<br />
<br />
[[File:Picture11.png|400px]]<br />
<br />
Access can be granted by clicking on the desired rights, below "READ_WRITE" is selected, allowing the user to write to the database, which is mandatory for a M-Logger user.<br />
<br />
[[File:Picture12.png|400px]]<br />
<br />
Then click on "Update rights" to apply the new rights.<br />
<br />
* Grant access to all databases<br />
<br />
Checking "Any databases" will display different access rights, which will be applied to all database + MongoDB instance. Also, if you need to create another MongoDB administrator then it’s an "Any Databases" rights, and select "ROOT" + "DB_ADMIN" + "USER_ADMIN" rights.<br />
<br />
[[File:Picture13.png|400px]]<br />
<br />
Then click on “Update rights” to apply the new rights.<br />
<br />
===PC and Windows configuration===<br />
In order to guarantee a full autonomy, the computer must be configured to reboot in case of any power failure. The following PC parameters are advised:<br />
<br />
<u>'''PC automatic restart due to power failure:'''</u><br />
<br />
To account for any potential power failure at the analyzers location the following settings should be programmed on the PC to automatically switch on the PC once the power is restored.<br />
<br />
Access the PC<nowiki>'</nowiki>s BIOS:<br />
<br />
* Restart PC, press F12 (on most PC<nowiki>'</nowiki>s) to access the PC<nowiki>'</nowiki>s Bios.<br />
* Check the Bios parameters.<br />
* On power management check the option "power on AC".<br />
<br />
Specific settings should be chosen in the computer<br />
* PC <br />
<br />
Contact you IT manager to properly configure the computer : disable low-power sleep mode, no password to automatically restart windows, no low-energy or powering-off option …). In addition, installation of Teamviewer is recommended in order to monitor from a remote access.<br />
<br />
If you plan to monitor your application for more than a couple of hours, it is advised to power both the computer and the OROS analyzer by mains (not on battery).<br />
<br />
Consider installing a remote access software.<br />
<br />
It could be useful to control the computer when an alert is trigged for example.<br />
<br />
==FAQ==<br />
''I use microsoft windows on chinese/japanese language. However, monitoring crash when I click on "refresh button". How to solve this ?''<br />
<br />
On windows regional settings, tab admin, let the unicode program on your language, however click on "beta : use the unicode UTF-8...". This solve the issue.<br />
<br />
[[File:faq.PNG|400px]]</div>Adminhttps://wiki.oros.com/index.php?title=Monitoring_Solution&diff=11500Monitoring Solution2023-06-16T11:43:54Z<p>Admin: </p>
<hr />
<div>==Introduction==<br />
The OROS Monitoring solution can continuously supervise the noise and vibration levels of your critical assets, notifying alerts autonomously when predetermined levels are exceeded and catching real time high added value data on the spot. <br />
<br />
[[File:monitoring_drawing.jpg|700px]]<br />
<br />
This solution is dedicated for mid to long term monitoring application, and the main features are:<br />
<br />
* Operate standalone: power cut and restart management<br />
* From basic to advanced event triggering conditions<br />
* Pre-trigger time domain signal recording remotely downloadable for further analysis<br />
* Advanced and flexible actions on events<br />
* Automatic alert notifications for rapid countermeasures<br />
* Database and remote access to event log, trend, and measurement data for initial diagnostics at any time <br />
* Flexible storage capabilities, suitable for site with or without a network connection<br />
<br />
==Installation==<br />
===Download===<br />
Download last version of [https://my.oros.com/categories/software/monitoring/ Monitoring Solution].<br />
<br />
===Equipment required for the installation===<br />
USB drive containing Monitoring software installation setups “SetupM-Logger.exe” and "SetupM-View.exe".<br />
<br />
NVGate software must have been installed first (from V16.00.002).<br />
<br />
===Installation of NVGate software===<br />
First you need to [[NVGate_V16:_Install_Process|install NVGate]].<br />
<br />
===Installation of Monitoring software===<br />
In the PC that is connected to OROS analyzer, run “SetupM-Logger.exe” program, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161522.png|400px]]<br />
<br />
Click on “Next”, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161641.png|400px]]<br />
<br />
Read the terms in the license agreement and check “I accept the terms in the License Agreement” if you agree. Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161737.png|400px]]<br />
<br />
Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\M-Logger. Click on “Install” to start the installation, and wait until the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161903.png|400px]]<br />
<br />
Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162029.png|400px]]<br />
<br />
Click on “Finish” to exit the setup wizard, and OROS M-Logger software is successfully installed. <br />
<br />
The drivers for the Autonomy kit are installed during the default installation.<br />
<br />
Next, run “SetupM-View.exe” program in the PC which is used for checking collected data (usually is not the same PC which runs M-Logger), and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162338.png|400px]]<br />
<br />
Click on “Next”, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162433.png|400px]]<br />
<br />
Read the terms in the license agreement and check “I accept the terms in the License Agreement” if you agree. Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 163249.png|400px]]<br />
<br />
Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\M-View. Click on “Install” to start the installation, and wait until the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 163430.png|400px]]<br />
<br />
<br />
Click on “Finish” to exit the setup wizard, and OROS M-View software is successfully installed.<br />
<br />
===Autonomy kit installation (optional)===<br />
The autonomy kit must be plugged to the analyzer<nowiki>'</nowiki>s RJ11 port and to the PC USB port, and drivers should be installed. Drivers are installed automatically during the installation of M-Logger, and can also be installed manually in case troubleshooting is necessary.<br />
<br />
This autonomy kit is dedicated to OROS analyzers. Do not use it with any other device.<br />
<br />
Only use original components provided.<br />
<br />
[[Image:Monitoring_OROS_03.gif|framed|none]]<br />
<br />
<font color="#1F497D"><br />
<br />
<br />
''Figure 1 – Autonomy kit installation with OR36''</font><br />
<br />
[[Image:Monitoring_OROS_01.png|50px]]This '''Autonomy Kit''' contains electronic equipment. It should not be mixed with general household waste. For proper treatment, return this product to OROS or to any local company authorized to recycle waste electrical and electronic equipment.<br />
<br />
<br />
[[File:CE.png]]This '''Autonomy Kit''' complies with following European Standards:<br />
<br />
* 2014/35/EU low voltage directive<br />
* 2011/65/EU and 2015/863 ROHS directive<br />
* 2012/19/EU WEEE directive<br />
<br />
<br />
===Database installation and management===<br />
<br />
====Database installation====<br />
<br />
MongoDB is a document-oriented NoSQL database used for high volume data storage and used by OROS Monitoring. OROS Monitoring solution is compatible with MongoDB 6.0.x only. MongoDB can be installed on different platform, and following instructions explain how to install it on Windows or Linux system.<br />
<br />
=====Installation on Windows system=====<br />
<br />
a. Pre-requisites<br />
MongoDB support these Windows versions :<br />
* Windows 10 et 11 64 bits<br />
* Windows Server 2016, 2019, 2021 64bits<br />
<br />
Download installation files:<br />
* MongoDB: https://fastdl.mongodb.org/windows/mongodb-windows-x86_64-6.0.5-signed.msi<br />
* Mongosh: https://github.com/mongodb-js/mongosh/releases/download/v1.8.0/mongosh-1.8.0-x64.msi<br />
<br />
b. MongoDB installation<br />
<br />
Execute mongodb-windows-x86_64-6.0.5-signed.msi and click on “Complete”:<br />
<br />
[[File:Picture1.png|400px]]<br />
<br />
Let default parameters filled:<br />
<br />
[[File:Picture2.png|400px]]<br />
<br />
Install<br />
<br />
c. Configure MongoDB<br />
Open with a text editor mongod.cfg file located in mongodb folder, default : "C:\Program Files\MongoDB\Server\6.0\bin\mongod.cfg"<br />
We need to enable zstd compression, find wiredTiger block and edit it as followed :<br />
<code><br />
wiredTiger:<br />
collectionConfig:<br />
blockCompressor: zstd<br />
</code><br />
Configure the net part as needed, example with port 27017 and allowing any external IP address :<br />
<code blabla><br />
# network interfaces<br />
net:<br />
port: 27017<br />
bindIpAll: true<br />
# bindIp: 127.0.0.1<br />
</code><br />
<br />
Copy file Windows\mongod.cfg to MongoDB directory "C:\Program Files\MongoDB\Server\6.0\bin\mongod.cfg". It enables compression which is needed for Monitoring. If you want to secure the connection to MongoDB, allowing specific IP address or change port ''etc''., you can edit this file. <br />
<br />
<br />
Documentation is available on official website: https://www.mongodb.com/docs/manual/reference/configuration-options/<br />
<br />
d. MongoDB Shell installation<br />
<br />
Run mongosh-1.8.0-x64.msi, uncheck “Install just for you” and continue installation.<br />
<br />
[[File:Picture3.png|400px]]<br />
<br />
Run mongosh.exe from "C:\Program Files\mongosh". A command window will popup asking MongoDB information, do not write anything and press Enter, connection should be done:<br />
<br />
[[File:Picture4.png|400px]]<br />
<br />
e. Create an admin user<br />
<br />
In the shell windows type: ''use admin''<br />
<br />
Then the following command will create an administrator user for MongoDB, which is mandatory. You will be able to create standard ReadOnly or Write access user using Monitoring dedicated M-DBTools.<br />
<br />
In this example the admin user created is named “oros” and his password is “oros”, please use a strong password for the admin user:<br />
<br />
''db.createUser({ user: "oros" , pwd: "oros", roles: ["userAdminAnyDatabase", "dbAdminAnyDatabase", "readWriteAnyDatabase"]})''<br />
<br />
[[File:Picture5.png|400px]]<br />
<br />
Restart the computer, and now MongoDB is configured and ready to be used.<br />
<br />
=====Installation on Linux system=====<br />
<br />
Installation on Debian<br />
<br />
https://www.mongodb.com/docs/v6.0/tutorial/install-mongodb-on-debian/<br />
<br />
https://www.mongodb.com/docs/mongodb-shell/install/<br />
<br />
a. Pre-requisites<br />
<br />
Packages: gnupg2, wget, sudo, net-tools, curl<br />
<br />
b. MongoDB installation<br />
<br />
* Add MongoDB server key<br />
<br />
wget -qO - https://www.mongodb.org/static/pgp/server-6.0.asc | sudo apt-key add –<br />
<br />
* Add MongoDB repository<br />
<br />
Debian 11 <br />
<br />
echo "deb http://repo.mongodb.org/apt/debian bullseye/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list<br />
<br />
Debian 10<br />
<br />
echo "deb http://repo.mongodb.org/apt/debian buster/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list<br />
<br />
Debian 9<br />
<br />
echo "deb http://repo.mongodb.org/apt/debian stretch/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list.<br />
<br />
* Install MongoDB<br />
<br />
sudo apt-get update<br />
<br />
sudo apt-get install -y mongodb-org<br />
<br />
sudo apt-get install -y mongodb-mongosh<br />
<br />
c. Configure MongoDB<br />
<br />
Copy file from package folder debian/mongod.conf to /etc/mongod.conf. It enables compression which is needed for Monitoring. If you want to secure the connection to MongoDB, allowing specific IP address or change port ''etc''., you can edit this file. Documentation is available on official website: https://www.mongodb.com/docs/manual/reference/configuration-options/<br />
<br />
d. Enable MongoDB as a service<br />
<br />
systemctl enable mongod.service<br />
<br />
e. Create an admin user<br />
<br />
mongo<br />
<br />
use admin<br />
<br />
db.createUser({ user: "oros" , pwd: "oros", roles: ["userAdminAnyDatabase", "dbAdminAnyDatabase", "readWriteAnyDatabase"]})<br />
<br />
f. Start MongoDB<br />
<br />
sudo systemctl start mongod<br />
<br />
====Database management====<br />
<br />
MongoDB is the database engine, and at least one database needs to be created to be used by OROS Monitoring solution.<br />
<br />
Run M-DBTools.exe, which is installed in M-Logger or M-View folder (by default C:\OROS\Programs\M-Logger or C:\OROS\Programs\M-View), and login:<br />
<br />
* Server address: Your server address, localhost if database is installed on running PC<br />
* Server port: 27017 (by default, other if you changed it in your MongoDB configuration file)<br />
* User name: Defined in “Create an admin user” chapter<br />
* Password: Defined in “Create an admin user” chapter<br />
<br />
[[File:Picture6.png|400px]]<br />
<br />
Please note that only administrators are allowed to run this tool, otherwise it will not connect to MongoDB.<br />
<br />
Server information and databases list will be displayed once connected.<br />
<br />
[[File:Picture7.png|400px]]<br />
<br />
=====Manage databases=====<br />
<br />
a. Create a database<br />
<br />
Fill a name in the dedicated field then press create, after few seconds/minutes the database will appear into the list.<br />
<br />
[[File:Picture8.png|400px]]<br />
<br />
b. Database information<br />
<br />
Clicking on your database will show some information like the version, number of object, space used ...<br />
<br />
[[File:Picture9.png|400px]]<br />
<br />
c. Update database<br />
<br />
Due to an upgrade of M-Logger / M-View, it might be necessary to update your database, and thus M-DBTools is needed.<br />
<br />
Select the desired database and press update. Depending on the number of objects this may take some time, you will be notified once it's done.<br />
<br />
=====Manage users=====<br />
<br />
Users are manageable in the "Users" panel:<br />
<br />
[[File:Picture10.png|400px]]<br />
<br />
a. Create user<br />
<br />
Click on "Create new user" button, a dialog will popup asking for an username and a password, then click on create, the user will appears in the user list.<br />
<br />
b. Grant access to user<br />
<br />
* Grant access to a dedicated database<br />
<br />
Clicking on a user and a database will show the access rights for this user:<br />
<br />
[[File:Picture11.png|400px]]<br />
<br />
Access can be granted by clicking on the desired rights, below "READ_WRITE" is selected, allowing the user to write to the database, which is mandatory for a M-Logger user.<br />
<br />
[[File:Picture12.png|400px]]<br />
<br />
Then click on "Update rights" to apply the new rights.<br />
<br />
* Grant access to all databases<br />
<br />
Checking "Any databases" will display different access rights, which will be applied to all database + MongoDB instance. Also, if you need to create another MongoDB administrator then it’s an "Any Databases" rights, and select "ROOT" + "DB_ADMIN" + "USER_ADMIN" rights.<br />
<br />
[[File:Picture13.png|400px]]<br />
<br />
Then click on “Update rights” to apply the new rights.<br />
<br />
===PC and Windows configuration===<br />
In order to guarantee a full autonomy, the computer must be configured to reboot in case of any power failure. The following PC parameters are advised:<br />
<br />
<u>'''PC automatic restart due to power failure:'''</u><br />
<br />
To account for any potential power failure at the analyzers location the following settings should be programmed on the PC to automatically switch on the PC once the power is restored.<br />
<br />
Access the PC<nowiki>'</nowiki>s BIOS:<br />
<br />
* Restart PC, press F12 (on most PC<nowiki>'</nowiki>s) to access the PC<nowiki>'</nowiki>s Bios.<br />
* Check the Bios parameters.<br />
* On power management check the option "power on AC".<br />
<br />
Specific settings should be chosen in the computer<br />
* PC <br />
<br />
Contact you IT manager to properly configure the computer : disable low-power sleep mode, no password to automatically restart windows, no low-energy or powering-off option …). In addition, installation of Teamviewer is recommended in order to monitor from a remote access.<br />
<br />
If you plan to monitor your application for more than a couple of hours, it is advised to power both the computer and the OROS analyzer by mains (not on battery).<br />
<br />
Consider installing a remote access software.<br />
<br />
It could be useful to control the computer when an alert is trigged for example.<br />
<br />
==FAQ==<br />
''I use microsoft windows on chinese/japanese language. However, monitoring crash when I click on "refresh button". How to solve this ?''<br />
<br />
On windows regional settings, tab admin, let the unicode program on your language, however click on "beta : use the unicode UTF-8...". This solve the issue.<br />
<br />
[[File:faq.PNG|400px]]</div>Adminhttps://wiki.oros.com/index.php?title=Monitoring_Solution&diff=11499Monitoring Solution2023-06-16T11:43:38Z<p>Admin: </p>
<hr />
<div>==Introduction==<br />
The OROS Monitoring solution can continuously supervise the noise and vibration levels of your critical assets, notifying alerts autonomously when predetermined levels are exceeded and catching real time high added value data on the spot. <br />
<br />
[[File:monitoring_drawing.jpg|700px]]<br />
<br />
This solution is dedicated for mid to long term monitoring application, and the main features are:<br />
<br />
* Operate standalone: power cut and restart management<br />
* From basic to advanced event triggering conditions<br />
* Pre-trigger time domain signal recording remotely downloadable for further analysis<br />
* Advanced and flexible actions on events<br />
* Automatic alert notifications for rapid countermeasures<br />
* Database and remote access to event log, trend, and measurement data for initial diagnostics at any time <br />
* Flexible storage capabilities, suitable for site with or without a network connection<br />
<br />
==Installation==<br />
===Download===<br />
Download last version of [https://my.oros.com/categories/software/monitoring/ Monitoring Solution].<br />
<br />
===Equipment required for the installation===<br />
USB drive containing Monitoring software installation setups “SetupM-Logger.exe” and "SetupM-View.exe".<br />
<br />
NVGate software must have been installed first (from V16.00.002).<br />
<br />
===Installation of NVGate software===<br />
First you need to [[NVGate_V16:_Install_Process|install NVGate]].<br />
<br />
===Installation of Monitoring software===<br />
In the PC that is connected to OROS analyzer, run “SetupM-Logger.exe” program, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161522.png|400px]]<br />
<br />
Click on “Next”, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161641.png|400px]]<br />
<br />
Read the terms in the license agreement and check “I accept the terms in the License Agreement” if you agree. Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161737.png|400px]]<br />
<br />
Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\M-Logger. Click on “Install” to start the installation, and wait until the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161903.png|400px]]<br />
<br />
Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162029.png|400px]]<br />
<br />
Click on “Finish” to exit the setup wizard, and OROS M-Logger software is successfully installed. <br />
<br />
The drivers for the Autonomy kit are installed during the default installation.<br />
<br />
Next, run “SetupM-View.exe” program in the PC which is used for checking collected data (usually is not the same PC which runs M-Logger), and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162338.png|400px]]<br />
<br />
Click on “Next”, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162433.png|400px]]<br />
<br />
Read the terms in the license agreement and check “I accept the terms in the License Agreement” if you agree. Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 163249.png|400px]]<br />
<br />
Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\M-View. Click on “Install” to start the installation, and wait until the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 163430.png|400px]]<br />
<br />
<br />
Click on “Finish” to exit the setup wizard, and OROS M-View software is successfully installed.<br />
<br />
===Autonomy kit installation (optional)===<br />
The autonomy kit must be plugged to the analyzer<nowiki>'</nowiki>s RJ11 port and to the PC USB port, and drivers should be installed. Drivers are installed automatically during the installation of M-Logger, and can also be installed manually in case troubleshooting is necessary.<br />
<br />
This autonomy kit is dedicated to OROS analyzers. Do not use it with any other device.<br />
<br />
Only use original components provided.<br />
<br />
[[Image:Monitoring_OROS_03.gif|framed|none]]<br />
<br />
<font color="#1F497D"><br />
<br />
<br />
''Figure 1 – Autonomy kit installation with OR36''</font><br />
<br />
[[Image:Monitoring_OROS_01.png|50px]]This '''Autonomy Kit''' contains electronic equipment. It should not be mixed with general household waste. For proper treatment, return this product to OROS or to any local company authorized to recycle waste electrical and electronic equipment.<br />
<br />
<br />
[[File:CE.png]]This '''Autonomy Kit''' complies with following European Standards:<br />
<br />
* 2014/35/EU low voltage directive<br />
* 2011/65/EU and 2015/863 ROHS directive<br />
* 2012/19/EU WEEE directive<br />
<br />
<br />
===Database installation and management===<br />
<br />
====Database installation====<br />
<br />
MongoDB is a document-oriented NoSQL database used for high volume data storage and used by OROS Monitoring. OROS Monitoring solution is compatible with MongoDB 6.0.x only. MongoDB can be installed on different platform, and following instructions explain how to install it on Windows or Linux system.<br />
<br />
=====Installation on Windows system=====<br />
<br />
a. Pre-requisites<br />
MongoDB support these Windows versions :<br />
* Windows 10 et 11 64 bits<br />
* Windows Server 2016, 2019, 2021 64bits<br />
<br />
Download installation files:<br />
* MongoDB: https://fastdl.mongodb.org/windows/mongodb-windows-x86_64-6.0.5-signed.msi<br />
* Mongosh: https://github.com/mongodb-js/mongosh/releases/download/v1.8.0/mongosh-1.8.0-x64.msi<br />
<br />
b. MongoDB installation<br />
<br />
Execute mongodb-windows-x86_64-6.0.5-signed.msi and click on “Complete”:<br />
<br />
[[File:Picture1.png|400px]]<br />
<br />
Let default parameters filled:<br />
<br />
[[File:Picture2.png|400px]]<br />
<br />
Install<br />
<br />
c. Configure MongoDB<br />
Open with a text editor mongod.cfg file located in mongodb folder, default : "C:\Program Files\MongoDB\Server\6.0\bin\mongod.cfg"<br />
We need to enable zstd compression, find wiredTiger block and edit it as followed :<br />
<code><br />
wiredTiger:<br />
collectionConfig:<br />
blockCompressor: zstd<br />
</code><br />
Configure the net part as needed, example with port 27017 and allowing any external IP address :<br />
<code 7><br />
# network interfaces<br />
net:<br />
port: 27017<br />
bindIpAll: true<br />
# bindIp: 127.0.0.1<br />
</code><br />
<br />
Copy file Windows\mongod.cfg to MongoDB directory "C:\Program Files\MongoDB\Server\6.0\bin\mongod.cfg". It enables compression which is needed for Monitoring. If you want to secure the connection to MongoDB, allowing specific IP address or change port ''etc''., you can edit this file. <br />
<br />
<br />
Documentation is available on official website: https://www.mongodb.com/docs/manual/reference/configuration-options/<br />
<br />
d. MongoDB Shell installation<br />
<br />
Run mongosh-1.8.0-x64.msi, uncheck “Install just for you” and continue installation.<br />
<br />
[[File:Picture3.png|400px]]<br />
<br />
Run mongosh.exe from "C:\Program Files\mongosh". A command window will popup asking MongoDB information, do not write anything and press Enter, connection should be done:<br />
<br />
[[File:Picture4.png|400px]]<br />
<br />
e. Create an admin user<br />
<br />
In the shell windows type: ''use admin''<br />
<br />
Then the following command will create an administrator user for MongoDB, which is mandatory. You will be able to create standard ReadOnly or Write access user using Monitoring dedicated M-DBTools.<br />
<br />
In this example the admin user created is named “oros” and his password is “oros”, please use a strong password for the admin user:<br />
<br />
''db.createUser({ user: "oros" , pwd: "oros", roles: ["userAdminAnyDatabase", "dbAdminAnyDatabase", "readWriteAnyDatabase"]})''<br />
<br />
[[File:Picture5.png|400px]]<br />
<br />
Restart the computer, and now MongoDB is configured and ready to be used.<br />
<br />
=====Installation on Linux system=====<br />
<br />
Installation on Debian<br />
<br />
https://www.mongodb.com/docs/v6.0/tutorial/install-mongodb-on-debian/<br />
<br />
https://www.mongodb.com/docs/mongodb-shell/install/<br />
<br />
a. Pre-requisites<br />
<br />
Packages: gnupg2, wget, sudo, net-tools, curl<br />
<br />
b. MongoDB installation<br />
<br />
* Add MongoDB server key<br />
<br />
wget -qO - https://www.mongodb.org/static/pgp/server-6.0.asc | sudo apt-key add –<br />
<br />
* Add MongoDB repository<br />
<br />
Debian 11 <br />
<br />
echo "deb http://repo.mongodb.org/apt/debian bullseye/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list<br />
<br />
Debian 10<br />
<br />
echo "deb http://repo.mongodb.org/apt/debian buster/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list<br />
<br />
Debian 9<br />
<br />
echo "deb http://repo.mongodb.org/apt/debian stretch/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list.<br />
<br />
* Install MongoDB<br />
<br />
sudo apt-get update<br />
<br />
sudo apt-get install -y mongodb-org<br />
<br />
sudo apt-get install -y mongodb-mongosh<br />
<br />
c. Configure MongoDB<br />
<br />
Copy file from package folder debian/mongod.conf to /etc/mongod.conf. It enables compression which is needed for Monitoring. If you want to secure the connection to MongoDB, allowing specific IP address or change port ''etc''., you can edit this file. Documentation is available on official website: https://www.mongodb.com/docs/manual/reference/configuration-options/<br />
<br />
d. Enable MongoDB as a service<br />
<br />
systemctl enable mongod.service<br />
<br />
e. Create an admin user<br />
<br />
mongo<br />
<br />
use admin<br />
<br />
db.createUser({ user: "oros" , pwd: "oros", roles: ["userAdminAnyDatabase", "dbAdminAnyDatabase", "readWriteAnyDatabase"]})<br />
<br />
f. Start MongoDB<br />
<br />
sudo systemctl start mongod<br />
<br />
====Database management====<br />
<br />
MongoDB is the database engine, and at least one database needs to be created to be used by OROS Monitoring solution.<br />
<br />
Run M-DBTools.exe, which is installed in M-Logger or M-View folder (by default C:\OROS\Programs\M-Logger or C:\OROS\Programs\M-View), and login:<br />
<br />
* Server address: Your server address, localhost if database is installed on running PC<br />
* Server port: 27017 (by default, other if you changed it in your MongoDB configuration file)<br />
* User name: Defined in “Create an admin user” chapter<br />
* Password: Defined in “Create an admin user” chapter<br />
<br />
[[File:Picture6.png|400px]]<br />
<br />
Please note that only administrators are allowed to run this tool, otherwise it will not connect to MongoDB.<br />
<br />
Server information and databases list will be displayed once connected.<br />
<br />
[[File:Picture7.png|400px]]<br />
<br />
=====Manage databases=====<br />
<br />
a. Create a database<br />
<br />
Fill a name in the dedicated field then press create, after few seconds/minutes the database will appear into the list.<br />
<br />
[[File:Picture8.png|400px]]<br />
<br />
b. Database information<br />
<br />
Clicking on your database will show some information like the version, number of object, space used ...<br />
<br />
[[File:Picture9.png|400px]]<br />
<br />
c. Update database<br />
<br />
Due to an upgrade of M-Logger / M-View, it might be necessary to update your database, and thus M-DBTools is needed.<br />
<br />
Select the desired database and press update. Depending on the number of objects this may take some time, you will be notified once it's done.<br />
<br />
=====Manage users=====<br />
<br />
Users are manageable in the "Users" panel:<br />
<br />
[[File:Picture10.png|400px]]<br />
<br />
a. Create user<br />
<br />
Click on "Create new user" button, a dialog will popup asking for an username and a password, then click on create, the user will appears in the user list.<br />
<br />
b. Grant access to user<br />
<br />
* Grant access to a dedicated database<br />
<br />
Clicking on a user and a database will show the access rights for this user:<br />
<br />
[[File:Picture11.png|400px]]<br />
<br />
Access can be granted by clicking on the desired rights, below "READ_WRITE" is selected, allowing the user to write to the database, which is mandatory for a M-Logger user.<br />
<br />
[[File:Picture12.png|400px]]<br />
<br />
Then click on "Update rights" to apply the new rights.<br />
<br />
* Grant access to all databases<br />
<br />
Checking "Any databases" will display different access rights, which will be applied to all database + MongoDB instance. Also, if you need to create another MongoDB administrator then it’s an "Any Databases" rights, and select "ROOT" + "DB_ADMIN" + "USER_ADMIN" rights.<br />
<br />
[[File:Picture13.png|400px]]<br />
<br />
Then click on “Update rights” to apply the new rights.<br />
<br />
===PC and Windows configuration===<br />
In order to guarantee a full autonomy, the computer must be configured to reboot in case of any power failure. The following PC parameters are advised:<br />
<br />
<u>'''PC automatic restart due to power failure:'''</u><br />
<br />
To account for any potential power failure at the analyzers location the following settings should be programmed on the PC to automatically switch on the PC once the power is restored.<br />
<br />
Access the PC<nowiki>'</nowiki>s BIOS:<br />
<br />
* Restart PC, press F12 (on most PC<nowiki>'</nowiki>s) to access the PC<nowiki>'</nowiki>s Bios.<br />
* Check the Bios parameters.<br />
* On power management check the option "power on AC".<br />
<br />
Specific settings should be chosen in the computer<br />
* PC <br />
<br />
Contact you IT manager to properly configure the computer : disable low-power sleep mode, no password to automatically restart windows, no low-energy or powering-off option …). In addition, installation of Teamviewer is recommended in order to monitor from a remote access.<br />
<br />
If you plan to monitor your application for more than a couple of hours, it is advised to power both the computer and the OROS analyzer by mains (not on battery).<br />
<br />
Consider installing a remote access software.<br />
<br />
It could be useful to control the computer when an alert is trigged for example.<br />
<br />
==FAQ==<br />
''I use microsoft windows on chinese/japanese language. However, monitoring crash when I click on "refresh button". How to solve this ?''<br />
<br />
On windows regional settings, tab admin, let the unicode program on your language, however click on "beta : use the unicode UTF-8...". This solve the issue.<br />
<br />
[[File:faq.PNG|400px]]</div>Adminhttps://wiki.oros.com/index.php?title=Monitoring_Solution&diff=11498Monitoring Solution2023-06-16T11:41:28Z<p>Admin: </p>
<hr />
<div>==Introduction==<br />
The OROS Monitoring solution can continuously supervise the noise and vibration levels of your critical assets, notifying alerts autonomously when predetermined levels are exceeded and catching real time high added value data on the spot. <br />
<br />
[[File:monitoring_drawing.jpg|700px]]<br />
<br />
This solution is dedicated for mid to long term monitoring application, and the main features are:<br />
<br />
* Operate standalone: power cut and restart management<br />
* From basic to advanced event triggering conditions<br />
* Pre-trigger time domain signal recording remotely downloadable for further analysis<br />
* Advanced and flexible actions on events<br />
* Automatic alert notifications for rapid countermeasures<br />
* Database and remote access to event log, trend, and measurement data for initial diagnostics at any time <br />
* Flexible storage capabilities, suitable for site with or without a network connection<br />
<br />
==Installation==<br />
===Download===<br />
Download last version of [https://my.oros.com/categories/software/monitoring/ Monitoring Solution].<br />
<br />
===Equipment required for the installation===<br />
USB drive containing Monitoring software installation setups “SetupM-Logger.exe” and "SetupM-View.exe".<br />
<br />
NVGate software must have been installed first (from V16.00.002).<br />
<br />
===Installation of NVGate software===<br />
First you need to [[NVGate_V16:_Install_Process|install NVGate]].<br />
<br />
===Installation of Monitoring software===<br />
In the PC that is connected to OROS analyzer, run “SetupM-Logger.exe” program, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161522.png|400px]]<br />
<br />
Click on “Next”, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161641.png|400px]]<br />
<br />
Read the terms in the license agreement and check “I accept the terms in the License Agreement” if you agree. Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161737.png|400px]]<br />
<br />
Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\M-Logger. Click on “Install” to start the installation, and wait until the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 161903.png|400px]]<br />
<br />
Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162029.png|400px]]<br />
<br />
Click on “Finish” to exit the setup wizard, and OROS M-Logger software is successfully installed. <br />
<br />
The drivers for the Autonomy kit are installed during the default installation.<br />
<br />
Next, run “SetupM-View.exe” program in the PC which is used for checking collected data (usually is not the same PC which runs M-Logger), and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162338.png|400px]]<br />
<br />
Click on “Next”, and the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 162433.png|400px]]<br />
<br />
Read the terms in the license agreement and check “I accept the terms in the License Agreement” if you agree. Click on “Next”, the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 163249.png|400px]]<br />
<br />
Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\M-View. Click on “Install” to start the installation, and wait until the following window is displayed:<br />
<br />
[[File:Screenshot 2023-05-05 163430.png|400px]]<br />
<br />
<br />
Click on “Finish” to exit the setup wizard, and OROS M-View software is successfully installed.<br />
<br />
===Autonomy kit installation (optional)===<br />
The autonomy kit must be plugged to the analyzer<nowiki>'</nowiki>s RJ11 port and to the PC USB port, and drivers should be installed. Drivers are installed automatically during the installation of M-Logger, and can also be installed manually in case troubleshooting is necessary.<br />
<br />
This autonomy kit is dedicated to OROS analyzers. Do not use it with any other device.<br />
<br />
Only use original components provided.<br />
<br />
[[Image:Monitoring_OROS_03.gif|framed|none]]<br />
<br />
<font color="#1F497D"><br />
<br />
<br />
''Figure 1 – Autonomy kit installation with OR36''</font><br />
<br />
[[Image:Monitoring_OROS_01.png|50px]]This '''Autonomy Kit''' contains electronic equipment. It should not be mixed with general household waste. For proper treatment, return this product to OROS or to any local company authorized to recycle waste electrical and electronic equipment.<br />
<br />
<br />
[[File:CE.png]]This '''Autonomy Kit''' complies with following European Standards:<br />
<br />
* 2014/35/EU low voltage directive<br />
* 2011/65/EU and 2015/863 ROHS directive<br />
* 2012/19/EU WEEE directive<br />
<br />
<br />
===Database installation and management===<br />
<br />
====Database installation====<br />
<br />
MongoDB is a document-oriented NoSQL database used for high volume data storage and used by OROS Monitoring. OROS Monitoring solution is compatible with MongoDB 6.0.x only. MongoDB can be installed on different platform, and following instructions explain how to install it on Windows or Linux system.<br />
<br />
=====Installation on Windows system=====<br />
<br />
a. Pre-requisites<br />
MongoDB support these Windows versions :<br />
* Windows 10 et 11 64 bits<br />
* Windows Server 2016, 2019, 2021 64bits<br />
<br />
Download installation files:<br />
* MongoDB: https://fastdl.mongodb.org/windows/mongodb-windows-x86_64-6.0.5-signed.msi<br />
* Mongosh: https://github.com/mongodb-js/mongosh/releases/download/v1.8.0/mongosh-1.8.0-x64.msi<br />
<br />
b. MongoDB installation<br />
<br />
Execute mongodb-windows-x86_64-6.0.5-signed.msi and click on “Complete”:<br />
<br />
[[File:Picture1.png|400px]]<br />
<br />
Let default parameters filled:<br />
<br />
[[File:Picture2.png|400px]]<br />
<br />
Install<br />
<br />
c. Configure MongoDB<br />
Open with a text editor mongod.cfg file located in mongodb folder, default : "C:\Program Files\MongoDB\Server\6.0\bin\mongod.cfg"<br />
We need to enable zstd compression, find wiredTiger block and edit it as followed :<br />
<code><br />
wiredTiger:<br />
collectionConfig:<br />
blockCompressor: zstd<br />
</code><br />
Configure the net part as needed, example with port 27017 and allowing any external IP address :<br />
<code><br />
# network interfaces<br />
net:<br />
port: 27017<br />
bindIpAll: true<br />
# bindIp: 127.0.0.1<br />
</code><br />
<br />
Copy file Windows\mongod.cfg to MongoDB directory "C:\Program Files\MongoDB\Server\6.0\bin\mongod.cfg". It enables compression which is needed for Monitoring. If you want to secure the connection to MongoDB, allowing specific IP address or change port ''etc''., you can edit this file. <br />
<br />
<br />
Documentation is available on official website: https://www.mongodb.com/docs/manual/reference/configuration-options/<br />
<br />
d. MongoDB Shell installation<br />
<br />
Run mongosh-1.8.0-x64.msi, uncheck “Install just for you” and continue installation.<br />
<br />
[[File:Picture3.png|400px]]<br />
<br />
Run mongosh.exe from "C:\Program Files\mongosh". A command window will popup asking MongoDB information, do not write anything and press Enter, connection should be done:<br />
<br />
[[File:Picture4.png|400px]]<br />
<br />
e. Create an admin user<br />
<br />
In the shell windows type: ''use admin''<br />
<br />
Then the following command will create an administrator user for MongoDB, which is mandatory. You will be able to create standard ReadOnly or Write access user using Monitoring dedicated M-DBTools.<br />
<br />
In this example the admin user created is named “oros” and his password is “oros”, please use a strong password for the admin user:<br />
<br />
''db.createUser({ user: "oros" , pwd: "oros", roles: ["userAdminAnyDatabase", "dbAdminAnyDatabase", "readWriteAnyDatabase"]})''<br />
<br />
[[File:Picture5.png|400px]]<br />
<br />
Restart the computer, and now MongoDB is configured and ready to be used.<br />
<br />
=====Installation on Linux system=====<br />
<br />
Installation on Debian<br />
<br />
https://www.mongodb.com/docs/v6.0/tutorial/install-mongodb-on-debian/<br />
<br />
https://www.mongodb.com/docs/mongodb-shell/install/<br />
<br />
a. Pre-requisites<br />
<br />
Packages: gnupg2, wget, sudo, net-tools, curl<br />
<br />
b. MongoDB installation<br />
<br />
* Add MongoDB server key<br />
<br />
wget -qO - https://www.mongodb.org/static/pgp/server-6.0.asc | sudo apt-key add –<br />
<br />
* Add MongoDB repository<br />
<br />
Debian 11 <br />
<br />
echo "deb http://repo.mongodb.org/apt/debian bullseye/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list<br />
<br />
Debian 10<br />
<br />
echo "deb http://repo.mongodb.org/apt/debian buster/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list<br />
<br />
Debian 9<br />
<br />
echo "deb http://repo.mongodb.org/apt/debian stretch/mongodb-org/6.0 main" | sudo tee /etc/apt/sources.list.d/mongodb-org-6.0.list.<br />
<br />
* Install MongoDB<br />
<br />
sudo apt-get update<br />
<br />
sudo apt-get install -y mongodb-org<br />
<br />
sudo apt-get install -y mongodb-mongosh<br />
<br />
c. Configure MongoDB<br />
<br />
Copy file from package folder debian/mongod.conf to /etc/mongod.conf. It enables compression which is needed for Monitoring. If you want to secure the connection to MongoDB, allowing specific IP address or change port ''etc''., you can edit this file. Documentation is available on official website: https://www.mongodb.com/docs/manual/reference/configuration-options/<br />
<br />
d. Enable MongoDB as a service<br />
<br />
systemctl enable mongod.service<br />
<br />
e. Create an admin user<br />
<br />
mongo<br />
<br />
use admin<br />
<br />
db.createUser({ user: "oros" , pwd: "oros", roles: ["userAdminAnyDatabase", "dbAdminAnyDatabase", "readWriteAnyDatabase"]})<br />
<br />
f. Start MongoDB<br />
<br />
sudo systemctl start mongod<br />
<br />
====Database management====<br />
<br />
MongoDB is the database engine, and at least one database needs to be created to be used by OROS Monitoring solution.<br />
<br />
Run M-DBTools.exe, which is installed in M-Logger or M-View folder (by default C:\OROS\Programs\M-Logger or C:\OROS\Programs\M-View), and login:<br />
<br />
* Server address: Your server address, localhost if database is installed on running PC<br />
* Server port: 27017 (by default, other if you changed it in your MongoDB configuration file)<br />
* User name: Defined in “Create an admin user” chapter<br />
* Password: Defined in “Create an admin user” chapter<br />
<br />
[[File:Picture6.png|400px]]<br />
<br />
Please note that only administrators are allowed to run this tool, otherwise it will not connect to MongoDB.<br />
<br />
Server information and databases list will be displayed once connected.<br />
<br />
[[File:Picture7.png|400px]]<br />
<br />
=====Manage databases=====<br />
<br />
a. Create a database<br />
<br />
Fill a name in the dedicated field then press create, after few seconds/minutes the database will appear into the list.<br />
<br />
[[File:Picture8.png|400px]]<br />
<br />
b. Database information<br />
<br />
Clicking on your database will show some information like the version, number of object, space used ...<br />
<br />
[[File:Picture9.png|400px]]<br />
<br />
c. Update database<br />
<br />
Due to an upgrade of M-Logger / M-View, it might be necessary to update your database, and thus M-DBTools is needed.<br />
<br />
Select the desired database and press update. Depending on the number of objects this may take some time, you will be notified once it's done.<br />
<br />
=====Manage users=====<br />
<br />
Users are manageable in the "Users" panel:<br />
<br />
[[File:Picture10.png|400px]]<br />
<br />
a. Create user<br />
<br />
Click on "Create new user" button, a dialog will popup asking for an username and a password, then click on create, the user will appears in the user list.<br />
<br />
b. Grant access to user<br />
<br />
* Grant access to a dedicated database<br />
<br />
Clicking on a user and a database will show the access rights for this user:<br />
<br />
[[File:Picture11.png|400px]]<br />
<br />
Access can be granted by clicking on the desired rights, below "READ_WRITE" is selected, allowing the user to write to the database, which is mandatory for a M-Logger user.<br />
<br />
[[File:Picture12.png|400px]]<br />
<br />
Then click on "Update rights" to apply the new rights.<br />
<br />
* Grant access to all databases<br />
<br />
Checking "Any databases" will display different access rights, which will be applied to all database + MongoDB instance. Also, if you need to create another MongoDB administrator then it’s an "Any Databases" rights, and select "ROOT" + "DB_ADMIN" + "USER_ADMIN" rights.<br />
<br />
[[File:Picture13.png|400px]]<br />
<br />
Then click on “Update rights” to apply the new rights.<br />
<br />
===PC and Windows configuration===<br />
In order to guarantee a full autonomy, the computer must be configured to reboot in case of any power failure. The following PC parameters are advised:<br />
<br />
<u>'''PC automatic restart due to power failure:'''</u><br />
<br />
To account for any potential power failure at the analyzers location the following settings should be programmed on the PC to automatically switch on the PC once the power is restored.<br />
<br />
Access the PC<nowiki>'</nowiki>s BIOS:<br />
<br />
* Restart PC, press F12 (on most PC<nowiki>'</nowiki>s) to access the PC<nowiki>'</nowiki>s Bios.<br />
* Check the Bios parameters.<br />
* On power management check the option "power on AC".<br />
<br />
Specific settings should be chosen in the computer<br />
* PC <br />
<br />
Contact you IT manager to properly configure the computer : disable low-power sleep mode, no password to automatically restart windows, no low-energy or powering-off option …). In addition, installation of Teamviewer is recommended in order to monitor from a remote access.<br />
<br />
If you plan to monitor your application for more than a couple of hours, it is advised to power both the computer and the OROS analyzer by mains (not on battery).<br />
<br />
Consider installing a remote access software.<br />
<br />
It could be useful to control the computer when an alert is trigged for example.<br />
<br />
==FAQ==<br />
''I use microsoft windows on chinese/japanese language. However, monitoring crash when I click on "refresh button". How to solve this ?''<br />
<br />
On windows regional settings, tab admin, let the unicode program on your language, however click on "beta : use the unicode UTF-8...". This solve the issue.<br />
<br />
[[File:faq.PNG|400px]]</div>Adminhttps://wiki.oros.com/index.php?title=ORBIGate&diff=11230ORBIGate2022-04-01T09:34:21Z<p>Admin: </p>
<hr />
<div>{{Software<br />
|Logo= [[image:rotating-B-256.png|80px]]<br />
|Name= ORBIGate Software<br />
|Screenshot=[[File:ORBIGATE4.jpg|120px]]<br />
|Developers= [http://www.OROS.com Oros SA]<br />
|Type= [https://en.wikipedia.org/wiki/Turbomachinery Turbomachinery], Rotating machinery diagnostics, [https://en.wikipedia.org/wiki/Data_acquisition Data Acquisition], Orbit Analysis, [https://en.wikipedia.org/wiki/Vibration Vibration].<br />
|First release= 2007<br />
<br />
|Latest Version= [[ORBIGate_Manual_Install|V7- 2022]] (Compatible with NVGate 2022)<br />
|Download= [[ORBIGate_Manual_Install|Here]]<br />
|Update=<br />
|Operating system= Windows 10, Windows 11 (and W7) ([[PC_Requirements|see PC requirements]])<br />
|Language= English, [https://www.toyo.co.jp/mecha/products/detail/oros-fft.html Japanese]<br />
|Licence = Proprietery<br />
|website=[https://www.oros.com/solutions/rotating-analysis/turbomachinery-vibration-and-rotordynamics/ ORBIGate on oros.com] and here!<br />
}}<br />
[[ORBIGate_Manual_Install|Install]]<br><br />
[[ORBIGate_Manual_User's_guide|User's Guide]]<br><br><br />
<br />
'''Faq:'''<br><br />
[[ORBIGate_Phase_Measurement|Phase Measurement and Polar diagrams]]<br><br />
[[ORBIGate_Run_Wait_Stop_Macro|Macro: Run, wait x seconds, Stop]]<br><br />
[[ORBIGate_Run_Out_from_a_measurement|"Run out" from another measurement]]<br />
<br />
==Practical==<br />
[[ORBIGate_DemoData|ORBIGate Rotorkit Demo Data]] <br />
<br />
'''Video Presentation:'''<br><br />
<Youtube>https://youtu.be/tEubfDRDYj4</Youtube><br />
<Youtube>https://youtu.be/oUgEhAD-_5U</Youtube></div>Adminhttps://wiki.oros.com/index.php?title=ORBIGate&diff=11229ORBIGate2022-04-01T09:34:10Z<p>Admin: </p>
<hr />
<div>[[:File:Auto_anechoic_chamber3.webp]]{{Software<br />
|Logo= [[image:rotating-B-256.png|80px]]<br />
|Name= ORBIGate Software<br />
|Screenshot=[[File:ORBIGATE4.jpg|120px]]<br />
|Developers= [http://www.OROS.com Oros SA]<br />
|Type= [https://en.wikipedia.org/wiki/Turbomachinery Turbomachinery], Rotating machinery diagnostics, [https://en.wikipedia.org/wiki/Data_acquisition Data Acquisition], Orbit Analysis, [https://en.wikipedia.org/wiki/Vibration Vibration].<br />
|First release= 2007<br />
<br />
|Latest Version= [[ORBIGate_Manual_Install|V7- 2022]] (Compatible with NVGate 2022)<br />
|Download= [[ORBIGate_Manual_Install|Here]]<br />
|Update=<br />
|Operating system= Windows 10, Windows 11 (and W7) ([[PC_Requirements|see PC requirements]])<br />
|Language= English, [https://www.toyo.co.jp/mecha/products/detail/oros-fft.html Japanese]<br />
|Licence = Proprietery<br />
|website=[https://www.oros.com/solutions/rotating-analysis/turbomachinery-vibration-and-rotordynamics/ ORBIGate on oros.com] and here!<br />
}}<br />
[[ORBIGate_Manual_Install|Install]]<br><br />
[[ORBIGate_Manual_User's_guide|User's Guide]]<br><br><br />
<br />
'''Faq:'''<br><br />
[[ORBIGate_Phase_Measurement|Phase Measurement and Polar diagrams]]<br><br />
[[ORBIGate_Run_Wait_Stop_Macro|Macro: Run, wait x seconds, Stop]]<br><br />
[[ORBIGate_Run_Out_from_a_measurement|"Run out" from another measurement]]<br />
<br />
==Practical==<br />
[[ORBIGate_DemoData|ORBIGate Rotorkit Demo Data]] <br />
<br />
'''Video Presentation:'''<br><br />
<Youtube>https://youtu.be/tEubfDRDYj4</Youtube><br />
<Youtube>https://youtu.be/oUgEhAD-_5U</Youtube></div>Adminhttps://wiki.oros.com/index.php?title=File:Auto_anechoic_chamber3.webp&diff=11228File:Auto anechoic chamber3.webp2022-04-01T09:34:05Z<p>Admin: File uploaded with MsUpload</p>
<hr />
<div>File uploaded with MsUpload</div>Adminhttps://wiki.oros.com/index.php?title=MediaWiki:Sidebar&diff=11210MediaWiki:Sidebar2022-03-30T13:45:29Z<p>Admin: </p>
<hr />
<div>* SEARCH<br />
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** Sound_Intensity_Manual|Sound Intensity<br />
** NVGate_EVHV|Electrical Motor: EVHV<br />
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<br />
<br />
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** http://myoros.com|myOROS Download<br />
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** Wiki_documentation_help|Generate wiki .pdf</div>Adminhttps://wiki.oros.com/index.php?title=MediaWiki:Sidebar&diff=11203MediaWiki:Sidebar2022-03-30T13:40:30Z<p>Admin: </p>
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** Monitoring_Solution|Monitoring<br />
** Sound Power|Sound Power<br />
** Sound Intensity<br />
** Sound_Quality_Lite|Sound Quality Lite<br />
** Sound_Intensity_Manual|Sound Intensity<br />
** NVGate_EVHV|Electrical Motor: EVHV<br />
** NVGate_Diesel_Engine_Vibration_Solution:_EngineDiag|Diesel Engine: EngineDiag<br />
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** NVGo| NVGo: Android OR10<br />
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** http://myoros.com|myOROS Download<br />
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** Wiki_documentation_help|Generate wiki .pdf</div>Adminhttps://wiki.oros.com/index.php?title=FFT_Spectrum_Analyzer_Multipurpose&diff=11199FFT Spectrum Analyzer Multipurpose2022-03-30T09:44:09Z<p>Admin: </p>
<hr />
<div>{{#seo:<br />
|title=FFT Spectrum analyzer for acoustic and vibration<br />
<br />
|keywords= FFT analyzer, Spectrum analyzer, analyzer acoustic and vibration, Octave analyzer, third octave, FFT analysis software, order tracking measurement, turbomachinery Orbit.<br />
|description= OROS portable hardware multichannels Instrument with real time software, easy to operate .<br />
|image=FFT analyzer hardware.jpg<br />
<br />
}}<br />
<br />
__NOTOC__<br />
[[File:FFT analyzer hardware.png|frame|150px|left|FFT analyzers]]<br />
The OROS series multi-function FFT analyzer is PC-based, high-performance, high reliability and easy to operate. <br />
<br />
We have further increased the arithmetic processing speed and increased the real-time analysis capacity to more than 16 times that of the conventional model (OR20 series). An ethernet LAN cable is used as the interface. <br />
<br />
In addition, the number of simultaneous recording channels in the frequency range (40 kHz) has been expanded to a maximum of 1000 channels and the dynamic range has been improved to 140 dB (125 dB for OR34). These improvements allow a user to measure time signals over a wide frequency range simultaneously on multiple channels.<br />
<br />
<br />
{|class="wikitable" style="width:100%;" <br />
|style="background: #0000A0; text-align:center;"|<big>[https://www.oros.com/demo-request/ <span style="color:white;">Schedule a demo]</big><br />
|style="background: red; text-align:center;"|<big>[https://www.oros.com/quote-request-form/ <span style="color:white;"> Get a quotation]</big><br />
|style="background: green; text-align:center;"|<big>[[FFT_Spectrum_Analyzer_Multipurpose#Full_technical_support|<span style="color:white;">Contact support]]</big><br />
|}<br />
<br />
<br />
<gallery gallery mode="packed-hover" align= left ><br />
TWanalyzer2.jpg|Analyzer Cascade mode<br />
Situation_auto_hammer_pc.jpg|Modal FRF measurement<br />
Auto_anechoic_chamber3.jpg|Acoustic Sound intensity<br />
turbo orbit.JPG|Vibration on trubomachinery<br />
Or34_situation.jpg|NVH automotive measurement<br />
airfrance.jpg|In flight measurement<br />
</gallery><br />
<br />
<br />
<br />
==Main Features==<br />
<br />
<br />
* From 2-32 channels<br />
* Synchronous measurements up to 1000ch is possible by combining multiple analyzers (*)<br />
* Compact and lightweight (4ch model 1.5kg, 10ch model 3.0kg) <br />
* Achieves high-speed communication with a PC through an ethernet LAN interface<br />
* Equipped with an output channel as a standard <br />
* Built-in internal battery as a standard<br />
* Record, FFT analysis, octave analysis, and tracking analysis can be performed simultaneously at high sampling frequencies<br />
* Realtime measurements and post-analysis can be performed with the same software platform ([[NVGate]])<br />
* In addition to sound and vibration, strain and temperature can be measured at the same time using XPODS (**)<br />
* CAN-bus module compatible (***)<br />
* Recording is possible with analyzer in standalone mode or in conjunction with a PC (****)<br />
<br />
<br />
(*) Synchronous measurements that combine multiple analyzers is possible only for TW OR35 / TW OR36 / TW OR38.<br />
<br />
(**) The strain / temperature module(XPOD) can be installed only on TW OR35 / TW OR36 / TW OR38.<br />
<br />
(***) CAN-bus module can be installed only on OR10/ TW OR35 / TW OR36 / TW OR38.<br />
<br />
(****) Stand-alone measurements are possible only with SSD-equipped models OR10 / TW OR35 / TW OR36 / TW OR38.<br />
<br />
==Introducing the hardware==<br />
<br />
===Small and lightweight===<br />
[[File:model.jpg|200px|right|Spectrum analyzer]]<br />
<br />
OR10-8ch model: 0.8kg<br />
<br />
OR34: 4ch model: 1.5kg<br />
<br />
Or35 TW: 10ch model: 3.0kg<br />
<br />
OR36 TW: 16ch model: 5.2kg<br />
<br />
OR38 TW: 32ch model: 8.2kg<br />
<br><br />
<br><br />
<br><br />
<br />
===Ethernet LAN interface===<br />
[[image:laninterface.PNG|right|FFT analyzer ethernet]]<br />
Achieves high-speed communication with a PC through an ethernet LAN interface<br />
<br><br />
<br><br />
<br><br />
<br><br />
<br><br />
<br><br />
<br />
===Built-in battery===<br />
OR10/ OR34/ OR35/ TW OR36 / TW OR38: Models have a built-in battery.<br />
<br />
OR10 can be operated by battery for 4hours<br />
<br />
OR35 can be operated by battery for 3 hours.<br />
<br />
TW OR36 / TW OR38 can be operated by battery for 2 hours.<br />
<br />
===External battery===<br />
[[File:external battery.PNG|200px|right|external battery on analyzer]]<br />
<br />
We provide a compact and lightweight external battery that can be installed on all models.<br />
<br />
Can be used for up to 8 hours with one external battery.<br />
<br />
Can be stored in a "PC integrated carrying case".<br />
<br><br />
<br />
<br><br />
<br />
<br><br />
<br><br />
<br />
<br><br />
<br />
===Synchronous Measurement Of Up To 1000 Channels is Possible by Combining Multiple Analyzers===<br />
(TW OR35 / TW OR36 / TW OR38 only)<br />
<br />
High-precision synchronous measurements (0.2 ° @ 20kHz) are possible by simply connecting each analyzer using a general-purpose LAN cable. Function measurements can be taken with the hammer connected to the third unit in the chain and the accelerometers connected to each unit. Tracking analysis can be completed with the accelerometers connected to each unit while using a tachometer connected to the second unit in the chain.<br />
<br />
[[File:teamworkanalyzer.png|700px|cascade mode]]<br />
<br />
=== Measure From Sound / Vibration and Strain Gauge / Temperature ===<br />
(OR35 / TW OR36 / TW OR38 only)<br />
[[File:Usersmanual_32.jpg|200px|right|Conditioner on analyzer]]<br />
By mounting a [[XPod_Bridge_-_Strain_gauge|strain gauge conditioner]] and [[NVGate_X-Pod:_Temperature_probe_conditioner|thermocouple conditioner]] on the Oros FFT analyzer, it is possible to measure strain and temperature data in addition to sound and vibration data.<br />
<br />
Thermocouple amplifier: Supports types J, K, T, N, E (with temperature compensation)<br />
<br><br />
<br><br />
<br><br />
<br><br />
<br />
===CAN-bus Module Available ===<br />
[[File:Can_Bus.jpg|150px|right|Can bus measurement]]<br />
(OR10/ TW OR35 / TW OR36 / TW OR38 only)<br />
<br />
By using the [[NVGate_Can_BUS|CAN-bus module]], tracking analysis can be performed using information such as the engine speed flowing from the CAN-bus. By using this function, tracking analysis can be performed without using a tachometer. <br />
<br><br />
<br><br />
<br />
===Recording is possible without the use of a PC by using the FFT analyzer in stand alone mode ===<br />
(OR35 / TW OR36 / TW OR38 only)<br />
<br />
[[File:d_rec.PNG|150px|right|Data acquisition recorder]]<br />
The FFT analyzer is equipped with a [[NVGate_D-Rec|record-only button]]. Simply select a predefined measurement setup and press the record button to record onto the FFT analyzer alone without the use of a PC.<br />
<br />
<br><br />
<br><br />
<br><br />
<br><br />
<br />
<br />
In addition, the back of the FFT Spectrum Analyzer Multipurpose is equipped with an audio terminal and power supply. It is possible to record audio data while also measuring the time signal. The analyzer also can supply power to required sensors, such as proximity probes, tachometers and DC sensors. <br />
<br />
[[File:FFT_analyzer.jpg|600px|Back of the hardware]]<br />
<br><br />
<br><br />
<br><br />
<br />
==Software Introduction==<br />
<br />
*Easy-to-use interface<br />
*Real-time measurement / post-analysis can be performed with the same software platform (NVGate)<br />
*One-click report creation function<br />
<br />
===Start the Measurement Quickly and Easily===<br />
<br />
<br />
You can start measuring immediately by using the quick function provided in the OROS FFT analyzer mult function. This is completed by defining the number of input channels in the channel field and the measurement/analysis content in the show results area.<br />
<br />
<br />
<br />
The Oros series FFT spectrum analyzer multifunction uses an interface similar to the ribbon interface used by Microsoft Office. All menus are accessible via the ribbon interface, making it easy to change measurement settings.<br />
<br />
[[File:home3.PNG|800px|software ribbon]]<br />
<br />
===One-click Setting Function===<br />
With the Oros series multi-purpose FFT analyzer, you can display related measurement condition settings by double-clicking on the measurement screen. For example, if you double-click on the FFT analysis screen, the dialog for setting the measurement conditions for FFT analysis will be displayed on the screen as shown below.<br />
<br />
<br />
[[File:FFT_analyzer_spectrum.png|500px|FFT spectrum]]<br />
<br />
===Control Panel===<br />
In addition, the OROS FFT spectrum analyzer is equipped with a control panel function that allows users to save frequently used measurement settings for quick access. By using this function, all settings can be changed on the [[NVGate_Control_Panel|control panel]]. For example, the following is the setting screen for a hammer test. By saving the input settings, threshold settings, and FFT analysis settings to the control panel as shown below, it is possible to make all the necessary settings quickly by only using the control panel.<br />
<br />
[[File:control pannel_test.png|700px|Software FFT settings]]<br />
<br />
===Various filters can be applied to recorded signals & FFT analysis results===<br />
Four types of filters: Low-pass filter, high-pass filter, band-bus filter, and band-stop filter, can be applied to the results of recorded signal and FFT analysis. By using a [[NVGate_Filter_Builder|filter]], it is possible to remove abnormal noise components from the recorded signal and perform processing such as reproducing the extracted abnormal noise components.<br />
<br />
[[File:filter_fft.png|600px|Filter analyzer]]<br />
<br />
===Extract arbitrary order components from the color spectrum graph in real time===<br />
<br />
Any order component can be extracted in real time from the color spectrum graph.<br />
<br />
[[File:extraction.jpg|Synchronous order analysis extraction]]<br />
<br />
Easy-to-read Layout<br />
<br />
The area for arranging windows is called a layout.<br />
The OROS multi function FFT analyzer can create up to 16 layouts per project. You can easily arrange your windows by using the layout function. And your windows will open the same way each time. <br />
<br />
It is possible to display up to 32 screens in one layout.<br />
<br />
Up to 512 windows (= 16 x 32) can be displayed.<br />
<br />
<br />
<big>'''Layout utilization example:'''</big><br />
<br />
<br />
'''Layout 1''': Record waveform, FFT analysis result, order ratio analysis result displayed<br />
<br />
[[File:Fft_extraction_data.jpg|Order extraction]]<br />
<br />
<br />
'''Layout 2''': Display 3D frequency analysis results and 3D order ratio analysis results<br />
<br />
[[File:waterfall_extract_order.jpg|3d display order spectrum ]]<br />
<br />
<br />
<br />
<br />
'''Layout 3''': Display 3D '''octave analyzer''' analysis results<br />
<br />
[[File:octave waterfall.jpg|Octave acoustic measurement 3d display]]<br />
<br />
===Easy operation <Graph layout selection button>===<br />
<br />
<br />
You can easily arrange windows just by selecting the grid menu.<br />
<br />
[[File:gridwindows_PNG.PNG|NVGate icone]]<br />
<br />
<br />
Batch copy of measurement data with one menu. Numerical data can be transferred to Excel all at once.<br />
<br />
[[File:excel_report.jpg|400px|FFT spectrum Report function]]<br />
<br />
<br />
Data measured at different times can be overwritten by dragging which allows for easily comparing measurement data.<br />
<br />
[[File:drag_drop_report.jpg|Software NVGate]]<br />
<br />
===One-click report creation function===<br />
<br />
<br />
Simply click the report button located on the ribbon interface to create a [[NVGate_Report|report]] file containing the current measurement results.<br />
<br />
[[File:allwindows_.PNG|NVGate report]]<br />
<br />
• The content of the report is customizable. Customize it to the format that best suits your needs.<br />
<br />
[[File:report-customize.jpg|500px|customize FFT analyzer software report]]<br />
<br />
===Measurement data search function===<br />
[[File:pc cloud.PNG|right|Data stored]]<br />
Various information (meta-data) can be added when saving measurement data.<br />
You then can search for measurement data and projects based on the added information. <br />
<br />
Filter:<br />
* Project name <br />
* Measurement date and time<br />
* Measurement conditions <br />
* Measurement target <br />
* Measurement site <br />
* User<br />
[[File:filter_project.PNG|550px|meta data on noise and vibration software NVGate]]<br />
<br />
===Fail judgment function as standard===<br />
The [https://youtu.be/kx2HbcvfG_w pass / fail feature] of NVGate can be performed automatically after setting the desired bounds. <br />
<br />
In the example below, a dialog is displayed when the product fails, but it is also possible to output a contact signal instead of the dialog.<br />
<br />
[[File:fail_test.JPG|Pass/fail test on resonnance frequency impact hammer test]]<br />
<br />
===Automate post-analysis processing===<br />
<br />
The same processing can be continuously performed for record files measured multiple times. By using this function, it is possible to automate the generation of reports, and it is possible to generate the same number of post-analysis results and EXCEL-based reports as record files with one click. Processing that used to take more than a week can now be done in a few hours.<br />
<br />
<br />
[[File:BPP2.jpg|Post processing acoustic measurement batch ]]<br />
<br />
==specification==<br />
===Main specifications===<br />
<br />
{| class=wikitable style="width:100%;" style="text-align:center;"<br />
! style="width:15%|<br />
! style="width:17%|OR34<br />
! style="width:17%|OR10<br />
! style="width:17%|OR35<br />
! style="width:17%|OR36<br />
! style="width:17%|OR38<br />
|-<br />
!colspan=6 style="text-align:center;" | Dynamical Input channel<br />
|-<br />
! Number of analysis channels <br />
| 2, 4 <br />
| 4, 8<br />
| 6, 10 <br> (Select Analysis or tachometer on 2 channels)<br />
| 4, 8, 12, 16<br />
| 8, 16, 24, 32<br />
|-<br />
! Terminal shape<br />
| colspan=1| BNC<br />
| colspan=1| Lemo (deliverd with "Lemo to BNC" cable)<br />
| colspan=3| BNC<br />
|-<br />
!Input coupling and sensor support <br />
|colspan=5| Compatible with AC, DC / ICP (sensor with built-in amplifier) and TEDS<br />
|-<br />
!Cutoff frequency <br />
|colspan=5| -3dB at AC cutoff frequency 0.35Hz <br />
|-<br />
! Input voltage range<br />
| +/- : 17.5mV - 10V with auto range function<br />
|colspan=4| +/-: 100mV to +/-: 40V (auto range function)<br />
|-<br />
! Maximum voltage<br />
| 40V<br />
|colspan=4| 60V<br />
|-<br />
!Anti-Aliasing filter <br />
|colspan=5| 400dB / OCT <br />
|-<br />
!Input impedance<br />
|colspan=5| 1MΩ <100pF<br />
|-<br />
!A / D converter <br />
|colspan=5| 24-bit <br />
|-<br />
!Dynamic range<br />
|colspan=5| ± 0.05dB (1kHz<br />
|-<br />
!Channels-to-channels phase accuracy<br />
|colspan=5| ± 0.02 ° (10V, 20kHz range)<br />
|-<br />
!Input filter <br />
|colspan=5| Acoustic A, C r, low pass, high pass, band pass, integrator, differentiator, time axis integration function<br />
|-<br />
!Sampling frequency of the signal <br />
|colspan=5|Select from 13 ranges between 102.4kHz and 2.048kHz.<br />
|-<br />
!colspan=6| Tachometer channel (Ext synch channels)<br />
|-<br />
!Number of input channels<br />
|colspan=3|2 channels<br />
|colspan=3|2 channels (up to 6 channels as an option)<br />
|-<br />
!Sampling frequency<br />
|colspan=5|6.4MHz (counter method)<br />
|-<br />
!Voltage range<br />
|colspan=1|+/- 300mV 10V<br />
|colspan=4|+/- 300mV 40V<br />
|-<br />
!colspan=6| DC input<br />
|-<br />
!number of input channels<br />
|colspan=2|none<br />
|colspan=4|Analysis channel can be switched and used<br />
|-<br />
!Voltage range<br />
|colspan=2|none<br />
|colspan=3|22 bits, ± 40V, offset DC 100μV or less<br />
|-<br />
!Samplingfrequency<br />
|colspan=2|none<br />
|colspan=3|15Hz or 12.5Hz<br />
|-<br />
!colspan=6|Calibration function<br />
|-<br />
!Calibration method<br />
|colspan=5| Automatic sensitivity calculation by numerical input or reference signal (for position and standard vibration oscillatory meter)<br />
|-<br />
!How to use at the time of measurement<br />
|colspan=5|Select by registered sensor name such as model name and machine number<br />
|-<br />
!colspan=6|Trigger function<br />
|-<br />
!Trigger type<br />
|colspan=5|Edge, period, △ RPM, △ level, manual, multi (A or B, A and B, A after B)<br />
|-<br />
!Trigger delay<br />
|colspan=5|Pre- and post-trigger functions<br />
|-<br />
!Trigger signal<br />
|colspan=5|Select from any input channel<br />
|-<br />
!colspan=6|Record function<br />
|-<br />
!Sampling frequency<br />
|colspan=5|13 ranges from 102.4kHz to 2.048kHz possible to select 2 types of range together<br />
|-<br />
!A / D converter resolution<br />
|colspan=5| 24-bit or 16-bit<br />
|-<br />
!Hard drive size<br />
|PC hard drive<br />
|colspan=2|64 GB SSD<br />
|colspan=2|128 GB removable SSD hard drive (256GB or 512 GB optional)<br />
|-<br />
!colspan=6|FFT analysis performance<br />
|-<br />
!Analysis frequency range<br />
|colspan=5|0.8Hz-40kHz<br />
|-<br />
!FFT block size<br />
|colspan=5|256, 512, 1024, 2048, 4096, 8192, 1638<br />
|-<br />
!Number of analysis lines<br />
|colspan=5|101, 201, 401, 801, 1601, 3201, 6401<br />
|-<br />
!Zoom analysis<br />
|colspan=5|2 to 128 times (all channels at the same time)<br />
|-<br />
!Overlap setting<br />
|colspan=5|0-99.99%<br />
|-<br />
!Window function<br />
|colspan=5|Flat Top, Hanning, Humming, Kaiser Vessel, Rectangular, Force / Response<br />
|-<br />
!Average mode<br />
|colspan=5|Time, frequency, fdsa / linear, exponential, peak hold<br />
|-<br />
!colspan=6|Analysis / display function<br />
|-<br />
!Time series<br />
|colspan=5|Real-time waveform, record waveform, DC, Max, Min, RMS<br />
|-<br />
!FFT analysis<br />
|colspan=5|Linear power spectrum, average spectrum, PSD, cross spectrum,<br />
transfer function (H1, H2), copying function<br />
|-<br />
!Display color<br />
|colspan=5|Display color: Arbitrary specification of trace, cursor, background, and grid display colors<br />
<br />
|-<br />
|-<br />
!colspan=6|Options:<br />
|-<br />
<br />
!colspan=6|Time domain analysis (ORNV-TDA)<br />
|-<br />
!Analysis items<br />
|colspan=5|Monitor display for arbitrary time (msec to day), effective value for arbitrary section, Min, Max, Peak,<br />
Peak / Peak, RMS, DC, crest factor, Skew, Kurtosis<br />
|-<br />
!colspan=6| 1/n octave analysis (ORNV-OCT)<br />
|-<br />
!method<br />
|colspan=5|Digital filter operation on time domain<br />
|-<br />
!Analysis band<br />
|colspan=5|1/1, 1/3, 1/12, 1/24 octave (IEC1260: 1995 Class 1, ANSI S1.11-1986)<br />
|-<br />
!Analysis frequency<br />
|colspan=5|Simultaneous analysis of all channels at 20kHz is possible (DSP option may be required)<br />
|-<br />
!Average<br />
|colspan=5|Fast, Slow, lmpulse, LEQ, constantBT, linear repeat,exponential<br />
|-<br />
<br />
<br />
<br />
!colspan=6| Multi-sound level meter [ORNV-OVA]<br />
|-<br />
!Operation method<br />
|colspan=6|Time series signal digital operation<br />
|-<br />
!Acoustic weithing<br />
|colspan=6|Linear, A, C <br />
|-<br />
!Measurement <br />
|colspan=6|Leq, Fast, Slow, lmpulse, average, Peak, Max, Min<br />
|-<br />
!Average<br />
|colspan=6|Fast, Slow, lmpulse, LEQ, constantBT, linear repeat,exponential<br />
|-<br />
<br />
<br />
!colspan=6| Synchronous Order tracking analysis [ORNV-ORD]<br />
|-<br />
!Analysis function<br />
|colspan=5| Instantaneous and average spectrum,phase, order profile and overall.<br />
|-<br />
!Maximum rotation speed<br />
|colspan=5|1,200,000 RPM<br />
|-<br />
!Max analysis ordersetting <br />
|colspan=5|6.25, 12.5, 25, 50, 100, 200, 400<br />
|-<br />
!Number of analysis lines<br />
|colspan=5|25-800<br />
|-<br />
!Analysis bandwidth<br />
|colspan=5|resampling method and fixed sampling method<br />
|-<br />
!display<br />
|colspan=5|Simultaneous display of 3D display and tracking order, simultaneous display of time signal<br />
|-<br />
<br />
!colspan=6| Rotational torsion analysis [ORNV-IVC]<br />
|-<br />
!Operation method<br />
|colspan=5| Digital Frequnecy Voltage converter<br />
|-<br />
!Number of analysis channels<br />
|colspan=2|2ch<br />
|colspan=3|2ch (up to 6ch as an option)<br />
|-<br />
<br />
|-<br />
!colspan=6| Rotation diagnosis function [ORNV-FFTDiag]<br />
|-<br />
!Analysis items<br />
|colspan=5| Envelope analysis, cepstrum, self-cross function, MAX, MIN, peak detection from block data, simulated tach, <br />
|-<br />
<br />
!colspan=6| Output Channel<br />
|-<br />
!Number of output channels<br />
|colspan=1| 1ch<br />
|colspan=1| no output<br />
|colspan=1| 2ch<br />
|colspan=2| 2ch (up to 6ch as an option)<br />
|-<br />
!Output waveform<br />
|colspan=1|Sinus, step sinus, sweep sinus, chirp, multi-sinus, random (pink and white), DC voltage, record signal <br />
|colspan=1| <br />
|colspan=3|Sinus, step sinus, sweep sinus, chirp, multi-sinus, random (pink and white), DC voltage, record signal <br />
|-<br />
!Digital / Analogic converter<br />
|colspan=1|24 bits<br />
|colspan=1|<br />
|colspan=3|24 bits<br />
<br />
|-<br />
!Output voltage<br />
|colspan=1|+/- 10V<br />
|colspan=1|<br />
|colspan=3|+/- 10V<br />
<br />
|-<br />
!Output Inpedence<br />
|colspan=1|50 Ω<br />
|colspan=1|<br />
|colspan=3|50 Ω<br />
|-<br />
!Frequency range<br />
|colspan=1|~ 40kHz<br />
|colspan=1|<br />
|colspan=3|~ 40kHz<br />
|-<br />
!Sweep mode<br />
|colspan=1|Sweep and step, analyze, trigger and sync, linear and log<br />
|colspan=1|<br />
|colspan=3|Sweep and step, analyze, trigger and sync, linear and log<br />
<br />
|-<br />
!Synchronization with the analysis <br />
|colspan=1|Synchronization and free run<br />
|colspan=1|<br />
|colspan=3|Synchronization and free run<br />
|-<br />
!Output protection<br />
|colspan=1|Stabilization with time specification and forced stop button<br />
|colspan=1|<br />
|colspan=3|Stabilization with time specification and forced stop buttoz<br />
|-<br />
|-<br />
!colspan=6|Data<br />
|-<br />
!Image and print<br />
|colspan=5|Image, printing for Windows and user template creation function for Word and Excel<br />
|-<br />
!File<br />
|colspan=5| TXT, UFF, MATLAB, WAV (OROS and Audio) SDF, binary, ATFX (optional)<br />
|-<br />
!Data entry<br />
|colspan=5|WAV, TXT, UFF and OR20 series AE2 <br />
|-<br />
|-<br />
!colspan=6|Dimensions / weight <br />
|-<br />
!Dimensions (width x height x depth mm)<br />
|45 x 205 x 154<br />
|37 x 174 x 120<br />
|56 × 246 × 222<br />
|102 x 260 x 311<br />
|102 x 364 x 311<br />
|-<br />
!Weight<br />
| 1.5kg<br />
| 0.85kg<br />
| 2.8kg<br />
| 5.2 kg<br />
| 8.2 kg<br />
|-<br />
!colspan=6|Power supply<br />
|-<br />
!AC<br />
|colspan=5|AC 100V-240V<br />
|-<br />
!DC <br />
| 10V-28V, 15VA<br />
| USB 15V<br />
| 10V-28V, 20VA<br />
| 10V-28V, 60VA<br />
| 10V-28V, 100VA<br />
|-<br />
!DC battery internal operating time (built-in) <br />
| 15 minutes<br />
| 4h<br />
| 3h<br />
| 2h<br />
| 2h<br />
|-<br />
!Recommended operating temperature range<br />
|colspan=4| 0 ℃ ~ 50 ℃<br />
|0 ℃ ~ 45 ℃<br />
|-<br />
!cooling fan<br />
|colspan=1|Automatic control by built-in temperature sensor, forced stop possible (however, forced ON when the temperature rises above 50 ° C)<br />
|colspan=1|Fan less<br />
|colspan=4|Automatic control by built-in temperature sensor, forced stop possible (however, forced ON when the temperature rises above 50 ° C)<br />
|}<br><br />
<br />
===PC requirement===<br />
<br />
<br />
{| class=wikitable style="width:100%;" style="text-align:center;"<br />
|-<br />
!Connections<br />
|Type: '''Ethernet''', Connector: '''RJ45'''<br><br />
<br />
|-<br />
!Operating systems<br />
|Windows 7 / '''Windows 10''' / '''Windows 11''' <br />
<br />
|-<br />
!Recommended<br />
|'''CPU : Quad core processor''' (Desktop : Intel Core i3 or Ryzen 3, Laptop : Intel Core i5 or Ryzen 5)<br> <br />
'''RAM : 6 GB'''<br><br />
'''Storage : SSD''', 1 GB free <nowiki>+</nowiki> storage for signals<br />
|}<br />
<br />
<br />
<br><br />
<br />
==Function==<br />
<br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Overall_Acoustic_-_Sound_Level_meter|Sound Level Meter]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall|Waterfall analysis (three-dimensional display)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Recorder|Signal record and post analysis]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT_Analyzer|Resonance frequency measurement by vibration]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[ORBIGate|Vibration and rotordynamics]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[Modal|Modal Anlysis]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[Sound_Power|Sound Power]]<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
<br />
{| class="wikitable" <br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT_Analyzer|Frequency analysis, spectrum analysis]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Octave_Analyzer|Noise / acoustic analysis]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_D-Rec|Time series analysis (data logger)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Synchronous_Order_Analysis|Vibration / noise analysis of rotating machines]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Ribbons:_Automation|Customization such as automatic measurement]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[Sound_Quality_Lite|Sound Quality]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[Monitoring_Solution|Monitoring]]<br />
|} </li><br />
<br />
<br />
<br />
===Catalog download===<br />
[[File:download_brochure.jpg|left|250px|noise and vibration catalog download]]<br />
<br><br />
<br><br />
<br><br />
<br><br />
<br><br />
<br />
[https://www.oros.com/wp-content/uploads/2020/08/m002-103-10_oros_range_brochure.pdf Download]<br />
<br><br />
<br><br />
<br><br />
<br><br />
<br><br />
<br><br />
<br><br />
<br><br />
<br><br />
<br><br />
<br><br />
<br><br />
<br />
===Applications/ Case study===<br />
<br />
<br />
'''Main application and commonly used functions:'''<br />
<br />
FFT analyzers are used in research and development, quality control, inspection, service departments, etc. <br />
<br />
'''Improvements in vehicle quietness, ride quality, comfort, maneuverability, etc.'''<br />
<br />
[[File:car_NVH.PNG|right|Automotive noise and vibration]]<br />
<br />
* [https://www.oros.com/solutions/data-acquisition-and-signal-processing/narrow-band-spectral-analysis/ Frequency analysis]<br />
* [https://www.oros.com/solutions/acoustics/1-n-octave-analysis/ 1 / N octave analysis]<br />
* [https://www.oros.com/solutions/structural-dynamics/frequency-response-function-frf-acquisitions/ Resonance frequency measurement by vibration]<br />
* [https://www.oros.com/solutions/structural-dynamics/modal-analysis/ Experimental mode analysis]<br />
<br />
<br />
'''Responding to quality problems caused by vibration and noise of vehicles and rotating equipment'''<br />
<br />
[[File:rotating.PNG|right|rotating machine vibration]]<br />
<br />
*[https://www.oros.com/solutions/acoustics/sound-level-meter/ Overall measurement]<br />
*[https://www.oros.com/solutions/data-acquisition-and-signal-processing/narrow-band-spectral-analysis/ Frequency analysis]<br />
*[https://www.oros.com/solutions/rotating-analysis/turbomachinery-vibration-and-rotordynamics/ Turbomachinery Analysis] <br />
*[https://www.oros.com/solutions/rotating-analysis/order-tracking-analysis/ Rotation order ratio / RPM tracking analysis]<br />
*[https://www.oros.com/solutions/rotating-analysis/torsion-twist/ Rotational torsional vibration analysis]<br />
*[https://www.oros.com/solutions/structural-dynamics/frequency-response-function-frf-acquisitions/ Resonance frequency measurement by vibration]<br />
<br />
<br />
'''Environmental problems caused by noise from construction machinery, office machines, home appliances, etc.'''<br />
<br />
[[File:machinery.PNG|right|Acoutsic and vibration application]]<br />
*[https://www.oros.com/solutions/acoustics/sound-level-meter/ Overall measurement]<br />
*[https://www.oros.com/solutions/data-acquisition-and-signal-processing/narrow-band-spectral-analysis/ Frequency analysis]<br />
*[https://www.oros.com/solutions/acoustics/1-n-octave-analysis/ 1/N octave analysis]<br />
<br />
<br />
'''Problems with processing accuracy due to minute vibrations in microscopes, machine tools, semiconductor manufacturing equipment, etc'''.<br />
<br />
[[File:accuracy.PNG|right| Accuracy measurement]]<br />
*[https://www.oros.com/solutions/data-acquisition-and-signal-processing/narrow-band-spectral-analysis/ Frequency analysis]<br />
*[https://www.oros.com/solutions/structural-dynamics/frequency-response-function-frf-acquisitions/ Resonance frequency measurement by vibration]<br />
*[https://www.oros.com/solutions/structural-dynamics/modal-analysis/ Experimental mode analysis]<br />
<br />
<br />
'''A collection of application examples using the OROS FFT analyzer OROS series'''<br />
<br />
Introducing solution examples that can be provided by various functions unique to OROS FFT analyzers.<br />
<br />
<br />
*'''Vibration measurement of cutting machine'''<br />
<br />
[[File:cutting tools machine.jpg|150px|left|Vibration measurement of cutting machine]]<br />
<br />
<br />
Introducing what approach can be taken using the OROS FFT Analyzer to identify mechanical resonance problems due to changes in cutting conditions.<br />
<br><br />
[https://my.oros.com/categories/application-notes/ Download on my.oros.com (need register)]<br />
<br><br />
<br><br />
<br><br />
<br><br />
<br />
<br />
*'''Monitoring of wind power generation equipment and abnormality diagnosis''' <br />
<br />
[[File:eolienne.PNG|left|Monitoring vibration]]<br />
<br />
Measuring vibration noise generated from rotating machines (gearboxes, generators, etc.) in wind power generation equipment is indispensable for equipment maintenance and longevity. In addition to the real-time analysis capability of rotating machinery, which is the strength of the OROS FFT analyzer, remote control / monitoring and stand-alone functions can be used to more efficiently diagnose equipment for wind power generation equipment.<br />
<br><br />
[https://my.oros.com/categories/application-notes/ Download on my.oros.com (need to register)]<br />
<br><br />
<br><br />
<br />
*'''Diesel engine camshaft rotational twist measurement''' <br />
[[File:danielson torsionnal.PNG|left|Diesel engine camshaft rotational twist]]<br />
<br />
In the prototype of a small diesel engine, there is a problem that the rotational torsional vibration of the timing belt and the camshaft resonates, causing a large vibration. By measuring rotational fluctuations and rotational twists with high accuracy using the six tachometer channels mounted on the OROS FFT analyzer, it is clarified which rotational order is dominant for vibration.<br><br />
<br><br />
[https://my.oros.com/categories/application-notes/ Download on my.oros.com (need register)]<br />
<br><br />
<br />
*'''Much more Application note on [https://my.oros.com/ my.oros.com]'''<br />
<br />
<gallery gallery mode="packed-hover" align= left><br />
File:end of line turbine test.jpg|Allen Gears: gear box rotating vibration<br />
File:in flisght helicopter vibration measurement.PNG|Conrad: On helicopter vibration measurement<br />
File:mecalac sound power.jpg|Mecalac: Sound power acoustic measurement <br />
File:In-porsche.JPG|Porsche: acoustic sound quality measurement <br />
File:sound power2.jpg|Bosch: Sound power acoustic measurement on anechoic chamber<br />
File:vibration on block press.jpg|IFF Weimar: Vibration on block press<br />
File:blade vibration.jpg|Blade vibration<br />
File:elevator shaft vibration.jpg|Sicor: Elevator motor vibration<br />
File:dBVib_01.JPG|dBVib: On site measurement on turbomachinery<br />
File:equilibrage 005.jpg|BSCA: Vibration balancing test<br />
File:washingmachine.jpg| Washing macine FRF resonnance frequnecy test<br />
File:master_at_work.jpg| Vibration measurement<br />
File:windturbine.jpg|GDF SUEZ: Windturbine monitoring measurement<br />
File:3 OR38.JPG|3 analyzers working together<br />
File:turbine.JPG|Alstom: Measurement on turbine<br />
</gallery><br />
<br />
<br />
<br />
<br />
'''Some references:'''<br />
<br />
[[File:reference.PNG|800px|Analyzer reference]]<br />
<br />
===Full technical support===<br />
<br />
<br />
* '''Hotline dedicated'''<br />
<br />
[[File:Custcare team2 web-1.jpg|OROS Customer Care Team|right|150px|left|support FFT analyzer]]<br />
Responsiveness is the key to offer the best level of services. OROS relies on a powerful network of subsidiaries, offices, resellers, maintenance centers and qualified partners. They are the first steps of efficiency.<br />
<br />
Tel: +33.4.76.90.52.40<br><br />
Email: [http://customer.care@oros.com customer.care@oros.com]<br />
<br />
[https://www.oros.com/find-us/ Your local distributor]<br><br />
<br> <br />
<br />
* '''User training course''' <br />
OROS proposes training specially dedicated to customers every year for free (depending on countries). This is an opportunity to take advantage of your analyzer system capabilities, to get premium information on OROS range evolution, to discuss with your peers, and for OROS, to listen to your product enhancement desires.<br />
<br><br />
[[File:user_day.jpg|Acoutsic and vibration training]]<br />
<br><br />
<br><br />
<br />
* '''Worldwide presence and accredited maintenance center'''<br />
<br />
With a worldwide coverage of distributor network and maintenance center (China, Europe, India, Japan, Saudi Arabia, South Korea, USA), OROS is in close proximity to its customers, reducing maintenance downtime.<br />
<br><br />
[[File:map_world_distributor.JPG|Spectrum analyzer worldwild seller]]<br><br />
[https://www.oros.com/find-us/ Find Your local distributor]<br />
[[File:repair.jpg|200px|right|repair hardware analyzer]]<br />
<br><br />
<br><br />
Technicians are certified on a regular basis by OROS specialists, enabling them to repair, calibrate and upgrade all OROS systems.<br />
<br />
<br />
<br />
*'''Premium contract'''<br />
<br />
1, 2 or 4 years renewable [https://www.oros.com/services/contracts/ contracts] to extend your warranty.<br />
<br />
* Access to the latest software version.<br />
* Full coverage on your instrument (calibration and maintenance)<br />
* Guaranteed turn around time (4 days) for hardware repairs and calibration<br />
* Privileged access to extended services at a preferential rate: urgent loan within 1 day.<br />
<br />
===Video content ===<br />
<br />
We have released videos such as product introductions and demonstrations.<br />
<br />
[https://www.youtube.com/user/OROSanalyzers/videos Click here for the youtube video content page]<br />
<br><br />
<br />
{|class="wikitable" style="width:100%;" <br />
|style="background: #0000A0; text-align:center;"|<big>[https://www.oros.com/demo-request/ <span style="color:white;">Schedule a demo]</big><br />
|style="background: red; text-align:center;"|<big>[https://www.oros.com/quote-request-form/ <span style="color:white;"> Get a quotation]</big><br />
|style="background: green; text-align:center;"|<big>[[FFT_Spectrum_Analyzer_Multipurpose#Full_technical_support|<span style="color:white;">Contact support]]</big><br />
|}</div>Adminhttps://wiki.oros.com/index.php?title=FFT_Spectrum_Analyzer_Multipurpose&diff=11198FFT Spectrum Analyzer Multipurpose2022-03-30T09:43:52Z<p>Admin: </p>
<hr />
<div>{{#seo:<br />
|title=FFT Spectrum analyzer for acoustic and vibration<br />
<br />
|keywords= FFT analyzer, Spectrum analyzer, analyzer acoustic and vibration, Octave analyzer, third octave, FFT analysis software, order tracking measurement, turbomachinery Orbit.<br />
|description= OROS portable hardware multichannels Instrument with real time software, easy to operate .<br />
|image=FFT analyzer hardware.jpg<br />
<br />
}}<br />
<br />
__NOTOC__<br />
[[File:FFT analyzer hardware.webp|frame|150px|left|FFT analyzers]]<br />
The OROS series multi-function FFT analyzer is PC-based, high-performance, high reliability and easy to operate. <br />
<br />
We have further increased the arithmetic processing speed and increased the real-time analysis capacity to more than 16 times that of the conventional model (OR20 series). An ethernet LAN cable is used as the interface. <br />
<br />
In addition, the number of simultaneous recording channels in the frequency range (40 kHz) has been expanded to a maximum of 1000 channels and the dynamic range has been improved to 140 dB (125 dB for OR34). These improvements allow a user to measure time signals over a wide frequency range simultaneously on multiple channels.<br />
<br />
<br />
{|class="wikitable" style="width:100%;" <br />
|style="background: #0000A0; text-align:center;"|<big>[https://www.oros.com/demo-request/ <span style="color:white;">Schedule a demo]</big><br />
|style="background: red; text-align:center;"|<big>[https://www.oros.com/quote-request-form/ <span style="color:white;"> Get a quotation]</big><br />
|style="background: green; text-align:center;"|<big>[[FFT_Spectrum_Analyzer_Multipurpose#Full_technical_support|<span style="color:white;">Contact support]]</big><br />
|}<br />
<br />
<br />
<gallery gallery mode="packed-hover" align= left ><br />
TWanalyzer2.jpg|Analyzer Cascade mode<br />
Situation_auto_hammer_pc.jpg|Modal FRF measurement<br />
Auto_anechoic_chamber3.jpg|Acoustic Sound intensity<br />
turbo orbit.JPG|Vibration on trubomachinery<br />
Or34_situation.jpg|NVH automotive measurement<br />
airfrance.jpg|In flight measurement<br />
</gallery><br />
<br />
<br />
<br />
==Main Features==<br />
<br />
<br />
* From 2-32 channels<br />
* Synchronous measurements up to 1000ch is possible by combining multiple analyzers (*)<br />
* Compact and lightweight (4ch model 1.5kg, 10ch model 3.0kg) <br />
* Achieves high-speed communication with a PC through an ethernet LAN interface<br />
* Equipped with an output channel as a standard <br />
* Built-in internal battery as a standard<br />
* Record, FFT analysis, octave analysis, and tracking analysis can be performed simultaneously at high sampling frequencies<br />
* Realtime measurements and post-analysis can be performed with the same software platform ([[NVGate]])<br />
* In addition to sound and vibration, strain and temperature can be measured at the same time using XPODS (**)<br />
* CAN-bus module compatible (***)<br />
* Recording is possible with analyzer in standalone mode or in conjunction with a PC (****)<br />
<br />
<br />
(*) Synchronous measurements that combine multiple analyzers is possible only for TW OR35 / TW OR36 / TW OR38.<br />
<br />
(**) The strain / temperature module(XPOD) can be installed only on TW OR35 / TW OR36 / TW OR38.<br />
<br />
(***) CAN-bus module can be installed only on OR10/ TW OR35 / TW OR36 / TW OR38.<br />
<br />
(****) Stand-alone measurements are possible only with SSD-equipped models OR10 / TW OR35 / TW OR36 / TW OR38.<br />
<br />
==Introducing the hardware==<br />
<br />
===Small and lightweight===<br />
[[File:model.jpg|200px|right|Spectrum analyzer]]<br />
<br />
OR10-8ch model: 0.8kg<br />
<br />
OR34: 4ch model: 1.5kg<br />
<br />
Or35 TW: 10ch model: 3.0kg<br />
<br />
OR36 TW: 16ch model: 5.2kg<br />
<br />
OR38 TW: 32ch model: 8.2kg<br />
<br><br />
<br><br />
<br><br />
<br />
===Ethernet LAN interface===<br />
[[image:laninterface.PNG|right|FFT analyzer ethernet]]<br />
Achieves high-speed communication with a PC through an ethernet LAN interface<br />
<br><br />
<br><br />
<br><br />
<br><br />
<br><br />
<br><br />
<br />
===Built-in battery===<br />
OR10/ OR34/ OR35/ TW OR36 / TW OR38: Models have a built-in battery.<br />
<br />
OR10 can be operated by battery for 4hours<br />
<br />
OR35 can be operated by battery for 3 hours.<br />
<br />
TW OR36 / TW OR38 can be operated by battery for 2 hours.<br />
<br />
===External battery===<br />
[[File:external battery.PNG|200px|right|external battery on analyzer]]<br />
<br />
We provide a compact and lightweight external battery that can be installed on all models.<br />
<br />
Can be used for up to 8 hours with one external battery.<br />
<br />
Can be stored in a "PC integrated carrying case".<br />
<br><br />
<br />
<br><br />
<br />
<br><br />
<br><br />
<br />
<br><br />
<br />
===Synchronous Measurement Of Up To 1000 Channels is Possible by Combining Multiple Analyzers===<br />
(TW OR35 / TW OR36 / TW OR38 only)<br />
<br />
High-precision synchronous measurements (0.2 ° @ 20kHz) are possible by simply connecting each analyzer using a general-purpose LAN cable. Function measurements can be taken with the hammer connected to the third unit in the chain and the accelerometers connected to each unit. Tracking analysis can be completed with the accelerometers connected to each unit while using a tachometer connected to the second unit in the chain.<br />
<br />
[[File:teamworkanalyzer.png|700px|cascade mode]]<br />
<br />
=== Measure From Sound / Vibration and Strain Gauge / Temperature ===<br />
(OR35 / TW OR36 / TW OR38 only)<br />
[[File:Usersmanual_32.jpg|200px|right|Conditioner on analyzer]]<br />
By mounting a [[XPod_Bridge_-_Strain_gauge|strain gauge conditioner]] and [[NVGate_X-Pod:_Temperature_probe_conditioner|thermocouple conditioner]] on the Oros FFT analyzer, it is possible to measure strain and temperature data in addition to sound and vibration data.<br />
<br />
Thermocouple amplifier: Supports types J, K, T, N, E (with temperature compensation)<br />
<br><br />
<br><br />
<br><br />
<br><br />
<br />
===CAN-bus Module Available ===<br />
[[File:Can_Bus.jpg|150px|right|Can bus measurement]]<br />
(OR10/ TW OR35 / TW OR36 / TW OR38 only)<br />
<br />
By using the [[NVGate_Can_BUS|CAN-bus module]], tracking analysis can be performed using information such as the engine speed flowing from the CAN-bus. By using this function, tracking analysis can be performed without using a tachometer. <br />
<br><br />
<br><br />
<br />
===Recording is possible without the use of a PC by using the FFT analyzer in stand alone mode ===<br />
(OR35 / TW OR36 / TW OR38 only)<br />
<br />
[[File:d_rec.PNG|150px|right|Data acquisition recorder]]<br />
The FFT analyzer is equipped with a [[NVGate_D-Rec|record-only button]]. Simply select a predefined measurement setup and press the record button to record onto the FFT analyzer alone without the use of a PC.<br />
<br />
<br><br />
<br><br />
<br><br />
<br><br />
<br />
<br />
In addition, the back of the FFT Spectrum Analyzer Multipurpose is equipped with an audio terminal and power supply. It is possible to record audio data while also measuring the time signal. The analyzer also can supply power to required sensors, such as proximity probes, tachometers and DC sensors. <br />
<br />
[[File:FFT_analyzer.jpg|600px|Back of the hardware]]<br />
<br><br />
<br><br />
<br><br />
<br />
==Software Introduction==<br />
<br />
*Easy-to-use interface<br />
*Real-time measurement / post-analysis can be performed with the same software platform (NVGate)<br />
*One-click report creation function<br />
<br />
===Start the Measurement Quickly and Easily===<br />
<br />
<br />
You can start measuring immediately by using the quick function provided in the OROS FFT analyzer mult function. This is completed by defining the number of input channels in the channel field and the measurement/analysis content in the show results area.<br />
<br />
<br />
<br />
The Oros series FFT spectrum analyzer multifunction uses an interface similar to the ribbon interface used by Microsoft Office. All menus are accessible via the ribbon interface, making it easy to change measurement settings.<br />
<br />
[[File:home3.PNG|800px|software ribbon]]<br />
<br />
===One-click Setting Function===<br />
With the Oros series multi-purpose FFT analyzer, you can display related measurement condition settings by double-clicking on the measurement screen. For example, if you double-click on the FFT analysis screen, the dialog for setting the measurement conditions for FFT analysis will be displayed on the screen as shown below.<br />
<br />
<br />
[[File:FFT_analyzer_spectrum.png|500px|FFT spectrum]]<br />
<br />
===Control Panel===<br />
In addition, the OROS FFT spectrum analyzer is equipped with a control panel function that allows users to save frequently used measurement settings for quick access. By using this function, all settings can be changed on the [[NVGate_Control_Panel|control panel]]. For example, the following is the setting screen for a hammer test. By saving the input settings, threshold settings, and FFT analysis settings to the control panel as shown below, it is possible to make all the necessary settings quickly by only using the control panel.<br />
<br />
[[File:control pannel_test.png|700px|Software FFT settings]]<br />
<br />
===Various filters can be applied to recorded signals & FFT analysis results===<br />
Four types of filters: Low-pass filter, high-pass filter, band-bus filter, and band-stop filter, can be applied to the results of recorded signal and FFT analysis. By using a [[NVGate_Filter_Builder|filter]], it is possible to remove abnormal noise components from the recorded signal and perform processing such as reproducing the extracted abnormal noise components.<br />
<br />
[[File:filter_fft.png|600px|Filter analyzer]]<br />
<br />
===Extract arbitrary order components from the color spectrum graph in real time===<br />
<br />
Any order component can be extracted in real time from the color spectrum graph.<br />
<br />
[[File:extraction.jpg|Synchronous order analysis extraction]]<br />
<br />
Easy-to-read Layout<br />
<br />
The area for arranging windows is called a layout.<br />
The OROS multi function FFT analyzer can create up to 16 layouts per project. You can easily arrange your windows by using the layout function. And your windows will open the same way each time. <br />
<br />
It is possible to display up to 32 screens in one layout.<br />
<br />
Up to 512 windows (= 16 x 32) can be displayed.<br />
<br />
<br />
<big>'''Layout utilization example:'''</big><br />
<br />
<br />
'''Layout 1''': Record waveform, FFT analysis result, order ratio analysis result displayed<br />
<br />
[[File:Fft_extraction_data.jpg|Order extraction]]<br />
<br />
<br />
'''Layout 2''': Display 3D frequency analysis results and 3D order ratio analysis results<br />
<br />
[[File:waterfall_extract_order.jpg|3d display order spectrum ]]<br />
<br />
<br />
<br />
<br />
'''Layout 3''': Display 3D '''octave analyzer''' analysis results<br />
<br />
[[File:octave waterfall.jpg|Octave acoustic measurement 3d display]]<br />
<br />
===Easy operation <Graph layout selection button>===<br />
<br />
<br />
You can easily arrange windows just by selecting the grid menu.<br />
<br />
[[File:gridwindows_PNG.PNG|NVGate icone]]<br />
<br />
<br />
Batch copy of measurement data with one menu. Numerical data can be transferred to Excel all at once.<br />
<br />
[[File:excel_report.jpg|400px|FFT spectrum Report function]]<br />
<br />
<br />
Data measured at different times can be overwritten by dragging which allows for easily comparing measurement data.<br />
<br />
[[File:drag_drop_report.jpg|Software NVGate]]<br />
<br />
===One-click report creation function===<br />
<br />
<br />
Simply click the report button located on the ribbon interface to create a [[NVGate_Report|report]] file containing the current measurement results.<br />
<br />
[[File:allwindows_.PNG|NVGate report]]<br />
<br />
• The content of the report is customizable. Customize it to the format that best suits your needs.<br />
<br />
[[File:report-customize.jpg|500px|customize FFT analyzer software report]]<br />
<br />
===Measurement data search function===<br />
[[File:pc cloud.PNG|right|Data stored]]<br />
Various information (meta-data) can be added when saving measurement data.<br />
You then can search for measurement data and projects based on the added information. <br />
<br />
Filter:<br />
* Project name <br />
* Measurement date and time<br />
* Measurement conditions <br />
* Measurement target <br />
* Measurement site <br />
* User<br />
[[File:filter_project.PNG|550px|meta data on noise and vibration software NVGate]]<br />
<br />
===Fail judgment function as standard===<br />
The [https://youtu.be/kx2HbcvfG_w pass / fail feature] of NVGate can be performed automatically after setting the desired bounds. <br />
<br />
In the example below, a dialog is displayed when the product fails, but it is also possible to output a contact signal instead of the dialog.<br />
<br />
[[File:fail_test.JPG|Pass/fail test on resonnance frequency impact hammer test]]<br />
<br />
===Automate post-analysis processing===<br />
<br />
The same processing can be continuously performed for record files measured multiple times. By using this function, it is possible to automate the generation of reports, and it is possible to generate the same number of post-analysis results and EXCEL-based reports as record files with one click. Processing that used to take more than a week can now be done in a few hours.<br />
<br />
<br />
[[File:BPP2.jpg|Post processing acoustic measurement batch ]]<br />
<br />
==specification==<br />
===Main specifications===<br />
<br />
{| class=wikitable style="width:100%;" style="text-align:center;"<br />
! style="width:15%|<br />
! style="width:17%|OR34<br />
! style="width:17%|OR10<br />
! style="width:17%|OR35<br />
! style="width:17%|OR36<br />
! style="width:17%|OR38<br />
|-<br />
!colspan=6 style="text-align:center;" | Dynamical Input channel<br />
|-<br />
! Number of analysis channels <br />
| 2, 4 <br />
| 4, 8<br />
| 6, 10 <br> (Select Analysis or tachometer on 2 channels)<br />
| 4, 8, 12, 16<br />
| 8, 16, 24, 32<br />
|-<br />
! Terminal shape<br />
| colspan=1| BNC<br />
| colspan=1| Lemo (deliverd with "Lemo to BNC" cable)<br />
| colspan=3| BNC<br />
|-<br />
!Input coupling and sensor support <br />
|colspan=5| Compatible with AC, DC / ICP (sensor with built-in amplifier) and TEDS<br />
|-<br />
!Cutoff frequency <br />
|colspan=5| -3dB at AC cutoff frequency 0.35Hz <br />
|-<br />
! Input voltage range<br />
| +/- : 17.5mV - 10V with auto range function<br />
|colspan=4| +/-: 100mV to +/-: 40V (auto range function)<br />
|-<br />
! Maximum voltage<br />
| 40V<br />
|colspan=4| 60V<br />
|-<br />
!Anti-Aliasing filter <br />
|colspan=5| 400dB / OCT <br />
|-<br />
!Input impedance<br />
|colspan=5| 1MΩ <100pF<br />
|-<br />
!A / D converter <br />
|colspan=5| 24-bit <br />
|-<br />
!Dynamic range<br />
|colspan=5| ± 0.05dB (1kHz<br />
|-<br />
!Channels-to-channels phase accuracy<br />
|colspan=5| ± 0.02 ° (10V, 20kHz range)<br />
|-<br />
!Input filter <br />
|colspan=5| Acoustic A, C r, low pass, high pass, band pass, integrator, differentiator, time axis integration function<br />
|-<br />
!Sampling frequency of the signal <br />
|colspan=5|Select from 13 ranges between 102.4kHz and 2.048kHz.<br />
|-<br />
!colspan=6| Tachometer channel (Ext synch channels)<br />
|-<br />
!Number of input channels<br />
|colspan=3|2 channels<br />
|colspan=3|2 channels (up to 6 channels as an option)<br />
|-<br />
!Sampling frequency<br />
|colspan=5|6.4MHz (counter method)<br />
|-<br />
!Voltage range<br />
|colspan=1|+/- 300mV 10V<br />
|colspan=4|+/- 300mV 40V<br />
|-<br />
!colspan=6| DC input<br />
|-<br />
!number of input channels<br />
|colspan=2|none<br />
|colspan=4|Analysis channel can be switched and used<br />
|-<br />
!Voltage range<br />
|colspan=2|none<br />
|colspan=3|22 bits, ± 40V, offset DC 100μV or less<br />
|-<br />
!Samplingfrequency<br />
|colspan=2|none<br />
|colspan=3|15Hz or 12.5Hz<br />
|-<br />
!colspan=6|Calibration function<br />
|-<br />
!Calibration method<br />
|colspan=5| Automatic sensitivity calculation by numerical input or reference signal (for position and standard vibration oscillatory meter)<br />
|-<br />
!How to use at the time of measurement<br />
|colspan=5|Select by registered sensor name such as model name and machine number<br />
|-<br />
!colspan=6|Trigger function<br />
|-<br />
!Trigger type<br />
|colspan=5|Edge, period, △ RPM, △ level, manual, multi (A or B, A and B, A after B)<br />
|-<br />
!Trigger delay<br />
|colspan=5|Pre- and post-trigger functions<br />
|-<br />
!Trigger signal<br />
|colspan=5|Select from any input channel<br />
|-<br />
!colspan=6|Record function<br />
|-<br />
!Sampling frequency<br />
|colspan=5|13 ranges from 102.4kHz to 2.048kHz possible to select 2 types of range together<br />
|-<br />
!A / D converter resolution<br />
|colspan=5| 24-bit or 16-bit<br />
|-<br />
!Hard drive size<br />
|PC hard drive<br />
|colspan=2|64 GB SSD<br />
|colspan=2|128 GB removable SSD hard drive (256GB or 512 GB optional)<br />
|-<br />
!colspan=6|FFT analysis performance<br />
|-<br />
!Analysis frequency range<br />
|colspan=5|0.8Hz-40kHz<br />
|-<br />
!FFT block size<br />
|colspan=5|256, 512, 1024, 2048, 4096, 8192, 1638<br />
|-<br />
!Number of analysis lines<br />
|colspan=5|101, 201, 401, 801, 1601, 3201, 6401<br />
|-<br />
!Zoom analysis<br />
|colspan=5|2 to 128 times (all channels at the same time)<br />
|-<br />
!Overlap setting<br />
|colspan=5|0-99.99%<br />
|-<br />
!Window function<br />
|colspan=5|Flat Top, Hanning, Humming, Kaiser Vessel, Rectangular, Force / Response<br />
|-<br />
!Average mode<br />
|colspan=5|Time, frequency, fdsa / linear, exponential, peak hold<br />
|-<br />
!colspan=6|Analysis / display function<br />
|-<br />
!Time series<br />
|colspan=5|Real-time waveform, record waveform, DC, Max, Min, RMS<br />
|-<br />
!FFT analysis<br />
|colspan=5|Linear power spectrum, average spectrum, PSD, cross spectrum,<br />
transfer function (H1, H2), copying function<br />
|-<br />
!Display color<br />
|colspan=5|Display color: Arbitrary specification of trace, cursor, background, and grid display colors<br />
<br />
|-<br />
|-<br />
!colspan=6|Options:<br />
|-<br />
<br />
!colspan=6|Time domain analysis (ORNV-TDA)<br />
|-<br />
!Analysis items<br />
|colspan=5|Monitor display for arbitrary time (msec to day), effective value for arbitrary section, Min, Max, Peak,<br />
Peak / Peak, RMS, DC, crest factor, Skew, Kurtosis<br />
|-<br />
!colspan=6| 1/n octave analysis (ORNV-OCT)<br />
|-<br />
!method<br />
|colspan=5|Digital filter operation on time domain<br />
|-<br />
!Analysis band<br />
|colspan=5|1/1, 1/3, 1/12, 1/24 octave (IEC1260: 1995 Class 1, ANSI S1.11-1986)<br />
|-<br />
!Analysis frequency<br />
|colspan=5|Simultaneous analysis of all channels at 20kHz is possible (DSP option may be required)<br />
|-<br />
!Average<br />
|colspan=5|Fast, Slow, lmpulse, LEQ, constantBT, linear repeat,exponential<br />
|-<br />
<br />
<br />
<br />
!colspan=6| Multi-sound level meter [ORNV-OVA]<br />
|-<br />
!Operation method<br />
|colspan=6|Time series signal digital operation<br />
|-<br />
!Acoustic weithing<br />
|colspan=6|Linear, A, C <br />
|-<br />
!Measurement <br />
|colspan=6|Leq, Fast, Slow, lmpulse, average, Peak, Max, Min<br />
|-<br />
!Average<br />
|colspan=6|Fast, Slow, lmpulse, LEQ, constantBT, linear repeat,exponential<br />
|-<br />
<br />
<br />
!colspan=6| Synchronous Order tracking analysis [ORNV-ORD]<br />
|-<br />
!Analysis function<br />
|colspan=5| Instantaneous and average spectrum,phase, order profile and overall.<br />
|-<br />
!Maximum rotation speed<br />
|colspan=5|1,200,000 RPM<br />
|-<br />
!Max analysis ordersetting <br />
|colspan=5|6.25, 12.5, 25, 50, 100, 200, 400<br />
|-<br />
!Number of analysis lines<br />
|colspan=5|25-800<br />
|-<br />
!Analysis bandwidth<br />
|colspan=5|resampling method and fixed sampling method<br />
|-<br />
!display<br />
|colspan=5|Simultaneous display of 3D display and tracking order, simultaneous display of time signal<br />
|-<br />
<br />
!colspan=6| Rotational torsion analysis [ORNV-IVC]<br />
|-<br />
!Operation method<br />
|colspan=5| Digital Frequnecy Voltage converter<br />
|-<br />
!Number of analysis channels<br />
|colspan=2|2ch<br />
|colspan=3|2ch (up to 6ch as an option)<br />
|-<br />
<br />
|-<br />
!colspan=6| Rotation diagnosis function [ORNV-FFTDiag]<br />
|-<br />
!Analysis items<br />
|colspan=5| Envelope analysis, cepstrum, self-cross function, MAX, MIN, peak detection from block data, simulated tach, <br />
|-<br />
<br />
!colspan=6| Output Channel<br />
|-<br />
!Number of output channels<br />
|colspan=1| 1ch<br />
|colspan=1| no output<br />
|colspan=1| 2ch<br />
|colspan=2| 2ch (up to 6ch as an option)<br />
|-<br />
!Output waveform<br />
|colspan=1|Sinus, step sinus, sweep sinus, chirp, multi-sinus, random (pink and white), DC voltage, record signal <br />
|colspan=1| <br />
|colspan=3|Sinus, step sinus, sweep sinus, chirp, multi-sinus, random (pink and white), DC voltage, record signal <br />
|-<br />
!Digital / Analogic converter<br />
|colspan=1|24 bits<br />
|colspan=1|<br />
|colspan=3|24 bits<br />
<br />
|-<br />
!Output voltage<br />
|colspan=1|+/- 10V<br />
|colspan=1|<br />
|colspan=3|+/- 10V<br />
<br />
|-<br />
!Output Inpedence<br />
|colspan=1|50 Ω<br />
|colspan=1|<br />
|colspan=3|50 Ω<br />
|-<br />
!Frequency range<br />
|colspan=1|~ 40kHz<br />
|colspan=1|<br />
|colspan=3|~ 40kHz<br />
|-<br />
!Sweep mode<br />
|colspan=1|Sweep and step, analyze, trigger and sync, linear and log<br />
|colspan=1|<br />
|colspan=3|Sweep and step, analyze, trigger and sync, linear and log<br />
<br />
|-<br />
!Synchronization with the analysis <br />
|colspan=1|Synchronization and free run<br />
|colspan=1|<br />
|colspan=3|Synchronization and free run<br />
|-<br />
!Output protection<br />
|colspan=1|Stabilization with time specification and forced stop button<br />
|colspan=1|<br />
|colspan=3|Stabilization with time specification and forced stop buttoz<br />
|-<br />
|-<br />
!colspan=6|Data<br />
|-<br />
!Image and print<br />
|colspan=5|Image, printing for Windows and user template creation function for Word and Excel<br />
|-<br />
!File<br />
|colspan=5| TXT, UFF, MATLAB, WAV (OROS and Audio) SDF, binary, ATFX (optional)<br />
|-<br />
!Data entry<br />
|colspan=5|WAV, TXT, UFF and OR20 series AE2 <br />
|-<br />
|-<br />
!colspan=6|Dimensions / weight <br />
|-<br />
!Dimensions (width x height x depth mm)<br />
|45 x 205 x 154<br />
|37 x 174 x 120<br />
|56 × 246 × 222<br />
|102 x 260 x 311<br />
|102 x 364 x 311<br />
|-<br />
!Weight<br />
| 1.5kg<br />
| 0.85kg<br />
| 2.8kg<br />
| 5.2 kg<br />
| 8.2 kg<br />
|-<br />
!colspan=6|Power supply<br />
|-<br />
!AC<br />
|colspan=5|AC 100V-240V<br />
|-<br />
!DC <br />
| 10V-28V, 15VA<br />
| USB 15V<br />
| 10V-28V, 20VA<br />
| 10V-28V, 60VA<br />
| 10V-28V, 100VA<br />
|-<br />
!DC battery internal operating time (built-in) <br />
| 15 minutes<br />
| 4h<br />
| 3h<br />
| 2h<br />
| 2h<br />
|-<br />
!Recommended operating temperature range<br />
|colspan=4| 0 ℃ ~ 50 ℃<br />
|0 ℃ ~ 45 ℃<br />
|-<br />
!cooling fan<br />
|colspan=1|Automatic control by built-in temperature sensor, forced stop possible (however, forced ON when the temperature rises above 50 ° C)<br />
|colspan=1|Fan less<br />
|colspan=4|Automatic control by built-in temperature sensor, forced stop possible (however, forced ON when the temperature rises above 50 ° C)<br />
|}<br><br />
<br />
===PC requirement===<br />
<br />
<br />
{| class=wikitable style="width:100%;" style="text-align:center;"<br />
|-<br />
!Connections<br />
|Type: '''Ethernet''', Connector: '''RJ45'''<br><br />
<br />
|-<br />
!Operating systems<br />
|Windows 7 / '''Windows 10''' / '''Windows 11''' <br />
<br />
|-<br />
!Recommended<br />
|'''CPU : Quad core processor''' (Desktop : Intel Core i3 or Ryzen 3, Laptop : Intel Core i5 or Ryzen 5)<br> <br />
'''RAM : 6 GB'''<br><br />
'''Storage : SSD''', 1 GB free <nowiki>+</nowiki> storage for signals<br />
|}<br />
<br />
<br />
<br><br />
<br />
==Function==<br />
<br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Overall_Acoustic_-_Sound_Level_meter|Sound Level Meter]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall|Waterfall analysis (three-dimensional display)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Recorder|Signal record and post analysis]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT_Analyzer|Resonance frequency measurement by vibration]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[ORBIGate|Vibration and rotordynamics]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[Modal|Modal Anlysis]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[Sound_Power|Sound Power]]<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
<br />
{| class="wikitable" <br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT_Analyzer|Frequency analysis, spectrum analysis]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Octave_Analyzer|Noise / acoustic analysis]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_D-Rec|Time series analysis (data logger)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Synchronous_Order_Analysis|Vibration / noise analysis of rotating machines]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Ribbons:_Automation|Customization such as automatic measurement]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[Sound_Quality_Lite|Sound Quality]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[Monitoring_Solution|Monitoring]]<br />
|} </li><br />
<br />
<br />
<br />
===Catalog download===<br />
[[File:download_brochure.jpg|left|250px|noise and vibration catalog download]]<br />
<br><br />
<br><br />
<br><br />
<br><br />
<br><br />
<br />
[https://www.oros.com/wp-content/uploads/2020/08/m002-103-10_oros_range_brochure.pdf Download]<br />
<br><br />
<br><br />
<br><br />
<br><br />
<br><br />
<br><br />
<br><br />
<br><br />
<br><br />
<br><br />
<br><br />
<br><br />
<br />
===Applications/ Case study===<br />
<br />
<br />
'''Main application and commonly used functions:'''<br />
<br />
FFT analyzers are used in research and development, quality control, inspection, service departments, etc. <br />
<br />
'''Improvements in vehicle quietness, ride quality, comfort, maneuverability, etc.'''<br />
<br />
[[File:car_NVH.PNG|right|Automotive noise and vibration]]<br />
<br />
* [https://www.oros.com/solutions/data-acquisition-and-signal-processing/narrow-band-spectral-analysis/ Frequency analysis]<br />
* [https://www.oros.com/solutions/acoustics/1-n-octave-analysis/ 1 / N octave analysis]<br />
* [https://www.oros.com/solutions/structural-dynamics/frequency-response-function-frf-acquisitions/ Resonance frequency measurement by vibration]<br />
* [https://www.oros.com/solutions/structural-dynamics/modal-analysis/ Experimental mode analysis]<br />
<br />
<br />
'''Responding to quality problems caused by vibration and noise of vehicles and rotating equipment'''<br />
<br />
[[File:rotating.PNG|right|rotating machine vibration]]<br />
<br />
*[https://www.oros.com/solutions/acoustics/sound-level-meter/ Overall measurement]<br />
*[https://www.oros.com/solutions/data-acquisition-and-signal-processing/narrow-band-spectral-analysis/ Frequency analysis]<br />
*[https://www.oros.com/solutions/rotating-analysis/turbomachinery-vibration-and-rotordynamics/ Turbomachinery Analysis] <br />
*[https://www.oros.com/solutions/rotating-analysis/order-tracking-analysis/ Rotation order ratio / RPM tracking analysis]<br />
*[https://www.oros.com/solutions/rotating-analysis/torsion-twist/ Rotational torsional vibration analysis]<br />
*[https://www.oros.com/solutions/structural-dynamics/frequency-response-function-frf-acquisitions/ Resonance frequency measurement by vibration]<br />
<br />
<br />
'''Environmental problems caused by noise from construction machinery, office machines, home appliances, etc.'''<br />
<br />
[[File:machinery.PNG|right|Acoutsic and vibration application]]<br />
*[https://www.oros.com/solutions/acoustics/sound-level-meter/ Overall measurement]<br />
*[https://www.oros.com/solutions/data-acquisition-and-signal-processing/narrow-band-spectral-analysis/ Frequency analysis]<br />
*[https://www.oros.com/solutions/acoustics/1-n-octave-analysis/ 1/N octave analysis]<br />
<br />
<br />
'''Problems with processing accuracy due to minute vibrations in microscopes, machine tools, semiconductor manufacturing equipment, etc'''.<br />
<br />
[[File:accuracy.PNG|right| Accuracy measurement]]<br />
*[https://www.oros.com/solutions/data-acquisition-and-signal-processing/narrow-band-spectral-analysis/ Frequency analysis]<br />
*[https://www.oros.com/solutions/structural-dynamics/frequency-response-function-frf-acquisitions/ Resonance frequency measurement by vibration]<br />
*[https://www.oros.com/solutions/structural-dynamics/modal-analysis/ Experimental mode analysis]<br />
<br />
<br />
'''A collection of application examples using the OROS FFT analyzer OROS series'''<br />
<br />
Introducing solution examples that can be provided by various functions unique to OROS FFT analyzers.<br />
<br />
<br />
*'''Vibration measurement of cutting machine'''<br />
<br />
[[File:cutting tools machine.jpg|150px|left|Vibration measurement of cutting machine]]<br />
<br />
<br />
Introducing what approach can be taken using the OROS FFT Analyzer to identify mechanical resonance problems due to changes in cutting conditions.<br />
<br><br />
[https://my.oros.com/categories/application-notes/ Download on my.oros.com (need register)]<br />
<br><br />
<br><br />
<br><br />
<br><br />
<br />
<br />
*'''Monitoring of wind power generation equipment and abnormality diagnosis''' <br />
<br />
[[File:eolienne.PNG|left|Monitoring vibration]]<br />
<br />
Measuring vibration noise generated from rotating machines (gearboxes, generators, etc.) in wind power generation equipment is indispensable for equipment maintenance and longevity. In addition to the real-time analysis capability of rotating machinery, which is the strength of the OROS FFT analyzer, remote control / monitoring and stand-alone functions can be used to more efficiently diagnose equipment for wind power generation equipment.<br />
<br><br />
[https://my.oros.com/categories/application-notes/ Download on my.oros.com (need to register)]<br />
<br><br />
<br><br />
<br />
*'''Diesel engine camshaft rotational twist measurement''' <br />
[[File:danielson torsionnal.PNG|left|Diesel engine camshaft rotational twist]]<br />
<br />
In the prototype of a small diesel engine, there is a problem that the rotational torsional vibration of the timing belt and the camshaft resonates, causing a large vibration. By measuring rotational fluctuations and rotational twists with high accuracy using the six tachometer channels mounted on the OROS FFT analyzer, it is clarified which rotational order is dominant for vibration.<br><br />
<br><br />
[https://my.oros.com/categories/application-notes/ Download on my.oros.com (need register)]<br />
<br><br />
<br />
*'''Much more Application note on [https://my.oros.com/ my.oros.com]'''<br />
<br />
<gallery gallery mode="packed-hover" align= left><br />
File:end of line turbine test.jpg|Allen Gears: gear box rotating vibration<br />
File:in flisght helicopter vibration measurement.PNG|Conrad: On helicopter vibration measurement<br />
File:mecalac sound power.jpg|Mecalac: Sound power acoustic measurement <br />
File:In-porsche.JPG|Porsche: acoustic sound quality measurement <br />
File:sound power2.jpg|Bosch: Sound power acoustic measurement on anechoic chamber<br />
File:vibration on block press.jpg|IFF Weimar: Vibration on block press<br />
File:blade vibration.jpg|Blade vibration<br />
File:elevator shaft vibration.jpg|Sicor: Elevator motor vibration<br />
File:dBVib_01.JPG|dBVib: On site measurement on turbomachinery<br />
File:equilibrage 005.jpg|BSCA: Vibration balancing test<br />
File:washingmachine.jpg| Washing macine FRF resonnance frequnecy test<br />
File:master_at_work.jpg| Vibration measurement<br />
File:windturbine.jpg|GDF SUEZ: Windturbine monitoring measurement<br />
File:3 OR38.JPG|3 analyzers working together<br />
File:turbine.JPG|Alstom: Measurement on turbine<br />
</gallery><br />
<br />
<br />
<br />
<br />
'''Some references:'''<br />
<br />
[[File:reference.PNG|800px|Analyzer reference]]<br />
<br />
===Full technical support===<br />
<br />
<br />
* '''Hotline dedicated'''<br />
<br />
[[File:Custcare team2 web-1.jpg|OROS Customer Care Team|right|150px|left|support FFT analyzer]]<br />
Responsiveness is the key to offer the best level of services. OROS relies on a powerful network of subsidiaries, offices, resellers, maintenance centers and qualified partners. They are the first steps of efficiency.<br />
<br />
Tel: +33.4.76.90.52.40<br><br />
Email: [http://customer.care@oros.com customer.care@oros.com]<br />
<br />
[https://www.oros.com/find-us/ Your local distributor]<br><br />
<br> <br />
<br />
* '''User training course''' <br />
OROS proposes training specially dedicated to customers every year for free (depending on countries). This is an opportunity to take advantage of your analyzer system capabilities, to get premium information on OROS range evolution, to discuss with your peers, and for OROS, to listen to your product enhancement desires.<br />
<br><br />
[[File:user_day.jpg|Acoutsic and vibration training]]<br />
<br><br />
<br><br />
<br />
* '''Worldwide presence and accredited maintenance center'''<br />
<br />
With a worldwide coverage of distributor network and maintenance center (China, Europe, India, Japan, Saudi Arabia, South Korea, USA), OROS is in close proximity to its customers, reducing maintenance downtime.<br />
<br><br />
[[File:map_world_distributor.JPG|Spectrum analyzer worldwild seller]]<br><br />
[https://www.oros.com/find-us/ Find Your local distributor]<br />
[[File:repair.jpg|200px|right|repair hardware analyzer]]<br />
<br><br />
<br><br />
Technicians are certified on a regular basis by OROS specialists, enabling them to repair, calibrate and upgrade all OROS systems.<br />
<br />
<br />
<br />
*'''Premium contract'''<br />
<br />
1, 2 or 4 years renewable [https://www.oros.com/services/contracts/ contracts] to extend your warranty.<br />
<br />
* Access to the latest software version.<br />
* Full coverage on your instrument (calibration and maintenance)<br />
* Guaranteed turn around time (4 days) for hardware repairs and calibration<br />
* Privileged access to extended services at a preferential rate: urgent loan within 1 day.<br />
<br />
===Video content ===<br />
<br />
We have released videos such as product introductions and demonstrations.<br />
<br />
[https://www.youtube.com/user/OROSanalyzers/videos Click here for the youtube video content page]<br />
<br><br />
<br />
{|class="wikitable" style="width:100%;" <br />
|style="background: #0000A0; text-align:center;"|<big>[https://www.oros.com/demo-request/ <span style="color:white;">Schedule a demo]</big><br />
|style="background: red; text-align:center;"|<big>[https://www.oros.com/quote-request-form/ <span style="color:white;"> Get a quotation]</big><br />
|style="background: green; text-align:center;"|<big>[[FFT_Spectrum_Analyzer_Multipurpose#Full_technical_support|<span style="color:white;">Contact support]]</big><br />
|}</div>Adminhttps://wiki.oros.com/index.php?title=NVGate&diff=11195NVGate2022-03-30T09:19:27Z<p>Admin: </p>
<hr />
<div>{{#seo:<br />
|title=NVGate Noise and vibration software<br />
|keywords= NVgate manual, nois and vibration soft<are, FFT analyzer software<br />
|description=How to use NVGate acoutsic and vibration software ? Official and complete documentation on this page.<br />
}}<br />
<br />
{{Software<br />
|Logo= [[image:general-B-256.png|90px]]<br />
|Name= NVGate Software<br />
|Screenshot=[[File:nvGate 7 550pxls.jpg|120px]]<br />
|Developers= [http://www.OROS.com Oros SA]<br />
|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] <br />
|First release= 2001<br />
<br />
|Latest Version= NVGate 2022 - February 2022<br />
|Download= [[NVGate_2022:_Install_Process|Here]]<br />
|Update=<br />
|Operating system= Windows 10 - Windows 11 - (and W7) ([[PC_Requirements|see PC requirements]])<br />
|Language= English, [https://www.toyo.co.jp/mecha/products/detail/oros-fft.html Japanese], Russian<br />
|Licence = Proprietery<br />
|website=[http://www.oros.com oros.com] and here!<br />
}}<br />
+========================='''<big>NVGate 2022 now available !</big>'''======================+<br />
==Install NVGate 2022==<br />
<br />
[[NVGate_2022:_Install_Process|Update to the latest version]]<br><br />
<br />
[[NVGate 2022: Release note|Release note NVGate 2022]]<br />
<br />
[[NVGate Installation and Connection|First Installation and Connection]]<br><br />
<br />
==First step==<br />
[[FFT_Spectrum_Analyzer_Multipurpose|OROS analyzer overview]]<br />
<br />
[[NVGate_Software_overview|First Start With NVGate]]<br><br />
<br />
<br />
<br />
<youtube>https://youtu.be/MRGE2-VLBFg?t=30</youtube><br />
<br />
[https://www.oros.com/services/tutorial-videos/ NVGate Video Tutorial]<br><br />
<br><br />
<br />
== Complete documentation ==<br />
<br />
<br />
<div><ul><br />
<li style="display: inline-table;"><br />
{| class="wikitable"<br />
|+ <br />
|-<br />
! [[NVGate Ribbons: Home Tab|Home]] <br />
|-<br />
| [[File:GoToR.png|link=http://wiki.oros.com/wiki/index.php/NVGate_GoToResult]][[NVGate_GoToResult|Start GoToResult]]<br />
|-<br />
| [[File:PA_icone.png|25px]] [[NVGate Post Analysis|Post Analyze]]<br />
|-<br />
|[[File:Save_i.png|25px]][[NVGate_Ribbons:_Home_Tab#Save_group|Save setup]]<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate Ribbons: Acquisition Tab|Acquisition]]<br />
|-<br />
|[[File:connect_wiz.png|25px]][[NVGate_Connection_Wizard|Connect Inputs]] <br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Player|Player]]<br />
|-<br />
| <br />
|-<br />
| [[File:Reports_Tools_Ribbons_255.png|25px]] [[NVGate_Transducer_and_Calibration|Transducer and Calibration]]<br />
|-<br />
|[[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Virtual Input|Virtual Input]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate Output Signals|Output Signals]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Event_definition|Event definition]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Filter_Builder|Filter]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Tachometer|Tachometer]]<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate Ribbons: Analysis Tab|Analysis]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Front_End|Front End]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Recorder|Recorder]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT_Analyzer|FFT]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Synchronous_Order_Analysis|Synchronous Order Analysis (SOA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Time_Domain_Analysis|Time Domain Analysis (TDA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Octave_Analyzer|1/n Octave Analyzer]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Overall_Acoustic_-_Sound_Level_meter|Overall Acoustic (OVA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate Monitor Plug In|Monitor]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall|Waterfall]]<br />
|-<br />
|[[NVGate_Time_windows|Force / response windows]]<br />
|-<br />
|[[NVGate Torsional|Torsional Analysis]]<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate Ribbons: Data|Data]] <br />
|-<br />
| [[File:dataset_i.png|25px]][[NVGate dataset management|Dataset management]]<br />
|-<br />
| [[File:edit_icone.png|25px]] [[NVGate_Edit_Measurement|Edit Measurement]]<br />
|-<br />
| [[File:Data_download_2022.PNG|25px]] [[Disk(Hard-drive)_management|Disk management]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_503.jpg|25px]] [[NVGate_Export/import|Export/Import file]]<br />
|-<br />
| [[File:OR10_stand_alone.png|25px]] [[NVGate_OR10_Stand_alone|OR10 Stand Alone]]<br />
|-<br />
| [[NVGate D-Rec|D-Rec : record without PC]]<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Ribbons:_Display|Display]]<br />
|-<br />
|[[File:ADD_re.png|25px]] [[NVGate Ribbons: Display|Add/remove windows]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_467.png|25px]] [[NVGate Marker|Marker]]<br />
|-<br />
|[[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall#Waterfall_Display|Waterfall Display]]<br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Report|Report]]<br />
|-<br />
|} </li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Ribbons:_Automation|Automation]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_71.jpg|25px]] [[NVGate Macro|Macro]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_134.png|25px]] [[NVGate_Sequence|Sequencer]]<br />
|-<br />
|[[File:CP.png|25px]][[NVGate_Control_Panel|Control Panel]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_162.png|25px]] [[NVGate_Mask_And_Alarm|Mask And Alarm]]<br />
|-<br />
|} </li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Ribbons:_Preferences|Preferences]] <br />
|-<br />
| [[File:preference.png|25px]] [[NVGate User Preferences|User Preferences]]<br />
|-<br />
| [[File:properties.png|25px]] [[NVGate:_Properties|Properties]] <br />
|}</li><br />
</ul></div><br />
</ul></div><br />
<br />
<br />
<br />
<div><ul><br />
<li style="display: inline-table;"><br />
{| class="wikitable"<br />
|+ <br />
|-<br />
! Workspace View <br />
|-<br />
| [[NVGate_Architecture|Architecture]]<br />
|-<br />
| [[File:ASB_.png|link=NVGate_Analyzer_Setting_Browser_(ASB)]]<br />
|-<br />
| [[File:Control_pannel.png|link=NVGate_Control_Panel]]<br />
|-<br />
| [[File:Project manager.png|link=NVGate_Project_manager]]<br />
|-<br />
|<br />
|-<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Display - windows - Trace<br />
|-<br />
|[[NVGate Display|Display Overview]] <br />
|-<br />
| [[NVGate Integrate - Differentiate - Unit|Integrate/Differentiate - Unit (RMS, pk, PSD...)]]<br />
<br />
|-<br />
|[[NVGate_Operator|Graphical Operator]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Zoomed signal|Player Zoomed signal]] <br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Signal processing note<br />
|-<br />
|[[NVGate CBT principle and settings|CBT principle and settings]]<br />
|-<br />
|[[NVGate_SOA_and_CBT_techniques|SOA vs CBT]]<br />
|-<br />
|[[NVGate_Envelope_analysis|Envelope Analysis]]<br />
|-<br />
|[[NVGate_time_shift_resampling|Ext synch: time shift resampling]]<br />
|-<br />
|[[User_note:_FFT_averaging|FFT Averaging]]<br />
|-<br />
|[[NVGate: How do I|NVGate: How do I?]]<br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Appendix:<br />
|-<br />
|[[NVGate_Formula_Computation|NVGate FFT Computation]]<br />
|-<br />
|[[NVGate_filter_formula_appendix|Filter: curve and formula]]<br />
|-<br />
|[[NVGate_Weighting_Windows_appendix|Weighting Windows]]<br />
|-<br />
|[[NVGate_time_shift_resampling|Ext synch: time shift resampling]]<br />
|-<br />
|[[NVGate Specification]]<br />
|-<br />
|[[NVGate Shortcuts|Shortcuts]]<br />
|-<br />
|[[NVGate_Glossary|Glossary]]<br />
|} </li><br />
<br />
{| class="wikitable"<br />
|-<br />
| [[NVGate_Status_bar|Status bar]]<br />
|}<br />
<br />
==NVGate Add on== <br />
<br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Add ons<br />
|-<br />
|[[External_Tools:_TachTool|TachTool : Extract tach]]<br />
|-<br />
|[[NVGate_BatchPostProcess_tool|BatchPostProcess]]<br />
|-<br />
|[[External tools: Rosette computation|Rosette computation]]<br />
|-<br />
|[[RT60_Calculator|RT60 calculator]]<br />
|-<br />
|[[NVGate_Tools:_AutoReport|Automatic production test report]]<br />
|-<br />
|[[NVGate_Tools:_EditSignal|Edit Time Signal]]<br />
|-<br />
|[[NVGate_Tools:_CanBus_Import_.dbc|CanBus Import .dbc files]]<br />
|-<br />
|[[NVGate_IRIG_Marker|IRIG Marker]]<br />
|-<br />
|[[NVGate_HP_Spectrum_Analyzer|HP Spectrum Analyzer Model]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#GPS|GPS]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#GPS|Display Tortion ODS]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#Weather_station|Weather station]]<br />
|-<br />
| [[Human Vibration]]<br />
|-<br />
|[[Addons:PV_Diagram|PV(Pressure-Volume) diagram]]<br />
|-<br />
|} </li></div>Adminhttps://wiki.oros.com/index.php?title=NVGate&diff=11194NVGate2022-03-30T09:19:18Z<p>Admin: </p>
<hr />
<div>[[:File:Auto_anechoic_chamber3.webp]]<br />
{{#seo:<br />
|title=NVGate Noise and vibration software<br />
|keywords= NVgate manual, nois and vibration soft<are, FFT analyzer software<br />
|description=How to use NVGate acoutsic and vibration software ? Official and complete documentation on this page.<br />
}}<br />
<br />
{{Software<br />
|Logo= [[image:general-B-256.png|90px]]<br />
|Name= NVGate Software<br />
|Screenshot=[[File:nvGate 7 550pxls.jpg|120px]]<br />
|Developers= [http://www.OROS.com Oros SA]<br />
|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] <br />
|First release= 2001<br />
<br />
|Latest Version= NVGate 2022 - February 2022<br />
|Download= [[NVGate_2022:_Install_Process|Here]]<br />
|Update=<br />
|Operating system= Windows 10 - Windows 11 - (and W7) ([[PC_Requirements|see PC requirements]])<br />
|Language= English, [https://www.toyo.co.jp/mecha/products/detail/oros-fft.html Japanese], Russian<br />
|Licence = Proprietery<br />
|website=[http://www.oros.com oros.com] and here!<br />
}}<br />
+========================='''<big>NVGate 2022 now available !</big>'''======================+<br />
==Install NVGate 2022==<br />
<br />
[[NVGate_2022:_Install_Process|Update to the latest version]]<br><br />
<br />
[[NVGate 2022: Release note|Release note NVGate 2022]]<br />
<br />
[[NVGate Installation and Connection|First Installation and Connection]]<br><br />
<br />
==First step==<br />
[[FFT_Spectrum_Analyzer_Multipurpose|OROS analyzer overview]]<br />
<br />
[[NVGate_Software_overview|First Start With NVGate]]<br><br />
<br />
<br />
<br />
<youtube>https://youtu.be/MRGE2-VLBFg?t=30</youtube><br />
<br />
[https://www.oros.com/services/tutorial-videos/ NVGate Video Tutorial]<br><br />
<br><br />
<br />
== Complete documentation ==<br />
<br />
<br />
<div><ul><br />
<li style="display: inline-table;"><br />
{| class="wikitable"<br />
|+ <br />
|-<br />
! [[NVGate Ribbons: Home Tab|Home]] <br />
|-<br />
| [[File:GoToR.png|link=http://wiki.oros.com/wiki/index.php/NVGate_GoToResult]][[NVGate_GoToResult|Start GoToResult]]<br />
|-<br />
| [[File:PA_icone.png|25px]] [[NVGate Post Analysis|Post Analyze]]<br />
|-<br />
|[[File:Save_i.png|25px]][[NVGate_Ribbons:_Home_Tab#Save_group|Save setup]]<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate Ribbons: Acquisition Tab|Acquisition]]<br />
|-<br />
|[[File:connect_wiz.png|25px]][[NVGate_Connection_Wizard|Connect Inputs]] <br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Player|Player]]<br />
|-<br />
| <br />
|-<br />
| [[File:Reports_Tools_Ribbons_255.png|25px]] [[NVGate_Transducer_and_Calibration|Transducer and Calibration]]<br />
|-<br />
|[[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Virtual Input|Virtual Input]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate Output Signals|Output Signals]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Event_definition|Event definition]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Filter_Builder|Filter]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Tachometer|Tachometer]]<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate Ribbons: Analysis Tab|Analysis]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Front_End|Front End]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Recorder|Recorder]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT_Analyzer|FFT]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Synchronous_Order_Analysis|Synchronous Order Analysis (SOA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Time_Domain_Analysis|Time Domain Analysis (TDA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Octave_Analyzer|1/n Octave Analyzer]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Overall_Acoustic_-_Sound_Level_meter|Overall Acoustic (OVA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate Monitor Plug In|Monitor]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall|Waterfall]]<br />
|-<br />
|[[NVGate_Time_windows|Force / response windows]]<br />
|-<br />
|[[NVGate Torsional|Torsional Analysis]]<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate Ribbons: Data|Data]] <br />
|-<br />
| [[File:dataset_i.png|25px]][[NVGate dataset management|Dataset management]]<br />
|-<br />
| [[File:edit_icone.png|25px]] [[NVGate_Edit_Measurement|Edit Measurement]]<br />
|-<br />
| [[File:Data_download_2022.PNG|25px]] [[Disk(Hard-drive)_management|Disk management]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_503.jpg|25px]] [[NVGate_Export/import|Export/Import file]]<br />
|-<br />
| [[File:OR10_stand_alone.png|25px]] [[NVGate_OR10_Stand_alone|OR10 Stand Alone]]<br />
|-<br />
| [[NVGate D-Rec|D-Rec : record without PC]]<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Ribbons:_Display|Display]]<br />
|-<br />
|[[File:ADD_re.png|25px]] [[NVGate Ribbons: Display|Add/remove windows]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_467.png|25px]] [[NVGate Marker|Marker]]<br />
|-<br />
|[[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall#Waterfall_Display|Waterfall Display]]<br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Report|Report]]<br />
|-<br />
|} </li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Ribbons:_Automation|Automation]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_71.jpg|25px]] [[NVGate Macro|Macro]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_134.png|25px]] [[NVGate_Sequence|Sequencer]]<br />
|-<br />
|[[File:CP.png|25px]][[NVGate_Control_Panel|Control Panel]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_162.png|25px]] [[NVGate_Mask_And_Alarm|Mask And Alarm]]<br />
|-<br />
|} </li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Ribbons:_Preferences|Preferences]] <br />
|-<br />
| [[File:preference.png|25px]] [[NVGate User Preferences|User Preferences]]<br />
|-<br />
| [[File:properties.png|25px]] [[NVGate:_Properties|Properties]] <br />
|}</li><br />
</ul></div><br />
</ul></div><br />
<br />
<br />
<br />
<div><ul><br />
<li style="display: inline-table;"><br />
{| class="wikitable"<br />
|+ <br />
|-<br />
! Workspace View <br />
|-<br />
| [[NVGate_Architecture|Architecture]]<br />
|-<br />
| [[File:ASB_.png|link=NVGate_Analyzer_Setting_Browser_(ASB)]]<br />
|-<br />
| [[File:Control_pannel.png|link=NVGate_Control_Panel]]<br />
|-<br />
| [[File:Project manager.png|link=NVGate_Project_manager]]<br />
|-<br />
|<br />
|-<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Display - windows - Trace<br />
|-<br />
|[[NVGate Display|Display Overview]] <br />
|-<br />
| [[NVGate Integrate - Differentiate - Unit|Integrate/Differentiate - Unit (RMS, pk, PSD...)]]<br />
<br />
|-<br />
|[[NVGate_Operator|Graphical Operator]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Zoomed signal|Player Zoomed signal]] <br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Signal processing note<br />
|-<br />
|[[NVGate CBT principle and settings|CBT principle and settings]]<br />
|-<br />
|[[NVGate_SOA_and_CBT_techniques|SOA vs CBT]]<br />
|-<br />
|[[NVGate_Envelope_analysis|Envelope Analysis]]<br />
|-<br />
|[[NVGate_time_shift_resampling|Ext synch: time shift resampling]]<br />
|-<br />
|[[User_note:_FFT_averaging|FFT Averaging]]<br />
|-<br />
|[[NVGate: How do I|NVGate: How do I?]]<br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Appendix:<br />
|-<br />
|[[NVGate_Formula_Computation|NVGate FFT Computation]]<br />
|-<br />
|[[NVGate_filter_formula_appendix|Filter: curve and formula]]<br />
|-<br />
|[[NVGate_Weighting_Windows_appendix|Weighting Windows]]<br />
|-<br />
|[[NVGate_time_shift_resampling|Ext synch: time shift resampling]]<br />
|-<br />
|[[NVGate Specification]]<br />
|-<br />
|[[NVGate Shortcuts|Shortcuts]]<br />
|-<br />
|[[NVGate_Glossary|Glossary]]<br />
|} </li><br />
<br />
{| class="wikitable"<br />
|-<br />
| [[NVGate_Status_bar|Status bar]]<br />
|}<br />
<br />
==NVGate Add on== <br />
<br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Add ons<br />
|-<br />
|[[External_Tools:_TachTool|TachTool : Extract tach]]<br />
|-<br />
|[[NVGate_BatchPostProcess_tool|BatchPostProcess]]<br />
|-<br />
|[[External tools: Rosette computation|Rosette computation]]<br />
|-<br />
|[[RT60_Calculator|RT60 calculator]]<br />
|-<br />
|[[NVGate_Tools:_AutoReport|Automatic production test report]]<br />
|-<br />
|[[NVGate_Tools:_EditSignal|Edit Time Signal]]<br />
|-<br />
|[[NVGate_Tools:_CanBus_Import_.dbc|CanBus Import .dbc files]]<br />
|-<br />
|[[NVGate_IRIG_Marker|IRIG Marker]]<br />
|-<br />
|[[NVGate_HP_Spectrum_Analyzer|HP Spectrum Analyzer Model]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#GPS|GPS]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#GPS|Display Tortion ODS]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#Weather_station|Weather station]]<br />
|-<br />
| [[Human Vibration]]<br />
|-<br />
|[[Addons:PV_Diagram|PV(Pressure-Volume) diagram]]<br />
|-<br />
|} </li></div>Adminhttps://wiki.oros.com/index.php?title=NVGate&diff=11190NVGate2022-03-30T09:18:02Z<p>Admin: </p>
<hr />
<div><br />
{{#seo:<br />
|title=NVGate Noise and vibration software<br />
|keywords= NVgate manual, nois and vibration soft<are, FFT analyzer software<br />
|description=How to use NVGate acoutsic and vibration software ? Official and complete documentation on this page.<br />
}}<br />
<br />
{{Software<br />
|Logo= [[image:general-B-256.png|90px]]<br />
|Name= NVGate Software<br />
|Screenshot=[[File:nvGate 7 550pxls.jpg|120px]]<br />
|Developers= [http://www.OROS.com Oros SA]<br />
|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] <br />
|First release= 2001<br />
<br />
|Latest Version= NVGate 2022 - February 2022<br />
|Download= [[NVGate_2022:_Install_Process|Here]]<br />
|Update=<br />
|Operating system= Windows 10 - Windows 11 - (and W7) ([[PC_Requirements|see PC requirements]])<br />
|Language= English, [https://www.toyo.co.jp/mecha/products/detail/oros-fft.html Japanese], Russian<br />
|Licence = Proprietery<br />
|website=[http://www.oros.com oros.com] and here!<br />
}}<br />
+========================='''<big>NVGate 2022 now available !</big>'''======================+<br />
==Install NVGate 2022==<br />
<br />
[[NVGate_2022:_Install_Process|Update to the latest version]]<br><br />
<br />
[[NVGate 2022: Release note|Release note NVGate 2022]]<br />
<br />
[[NVGate Installation and Connection|First Installation and Connection]]<br><br />
<br />
==First step==<br />
[[FFT_Spectrum_Analyzer_Multipurpose|OROS analyzer overview]]<br />
<br />
[[NVGate_Software_overview|First Start With NVGate]]<br><br />
<br />
<br />
<br />
<youtube>https://youtu.be/MRGE2-VLBFg?t=30</youtube><br />
<br />
[https://www.oros.com/services/tutorial-videos/ NVGate Video Tutorial]<br><br />
<br><br />
<br />
== Complete documentation ==<br />
<br />
<br />
<div><ul><br />
<li style="display: inline-table;"><br />
{| class="wikitable"<br />
|+ <br />
|-<br />
! [[NVGate Ribbons: Home Tab|Home]] <br />
|-<br />
| [[File:GoToR.png|link=http://wiki.oros.com/wiki/index.php/NVGate_GoToResult]][[NVGate_GoToResult|Start GoToResult]]<br />
|-<br />
| [[File:PA_icone.png|25px]] [[NVGate Post Analysis|Post Analyze]]<br />
|-<br />
|[[File:Save_i.png|25px]][[NVGate_Ribbons:_Home_Tab#Save_group|Save setup]]<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate Ribbons: Acquisition Tab|Acquisition]]<br />
|-<br />
|[[File:connect_wiz.png|25px]][[NVGate_Connection_Wizard|Connect Inputs]] <br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Player|Player]]<br />
|-<br />
| <br />
|-<br />
| [[File:Reports_Tools_Ribbons_255.png|25px]] [[NVGate_Transducer_and_Calibration|Transducer and Calibration]]<br />
|-<br />
|[[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Virtual Input|Virtual Input]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate Output Signals|Output Signals]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Event_definition|Event definition]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Filter_Builder|Filter]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Tachometer|Tachometer]]<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate Ribbons: Analysis Tab|Analysis]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Front_End|Front End]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Recorder|Recorder]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT_Analyzer|FFT]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Synchronous_Order_Analysis|Synchronous Order Analysis (SOA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Time_Domain_Analysis|Time Domain Analysis (TDA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Octave_Analyzer|1/n Octave Analyzer]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Overall_Acoustic_-_Sound_Level_meter|Overall Acoustic (OVA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate Monitor Plug In|Monitor]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall|Waterfall]]<br />
|-<br />
|[[NVGate_Time_windows|Force / response windows]]<br />
|-<br />
|[[NVGate Torsional|Torsional Analysis]]<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate Ribbons: Data|Data]] <br />
|-<br />
| [[File:dataset_i.png|25px]][[NVGate dataset management|Dataset management]]<br />
|-<br />
| [[File:edit_icone.png|25px]] [[NVGate_Edit_Measurement|Edit Measurement]]<br />
|-<br />
| [[File:Data_download_2022.PNG|25px]] [[Disk(Hard-drive)_management|Disk management]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_503.jpg|25px]] [[NVGate_Export/import|Export/Import file]]<br />
|-<br />
| [[File:OR10_stand_alone.png|25px]] [[NVGate_OR10_Stand_alone|OR10 Stand Alone]]<br />
|-<br />
| [[NVGate D-Rec|D-Rec : record without PC]]<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Ribbons:_Display|Display]]<br />
|-<br />
|[[File:ADD_re.png|25px]] [[NVGate Ribbons: Display|Add/remove windows]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_467.png|25px]] [[NVGate Marker|Marker]]<br />
|-<br />
|[[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall#Waterfall_Display|Waterfall Display]]<br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Report|Report]]<br />
|-<br />
|} </li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Ribbons:_Automation|Automation]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_71.jpg|25px]] [[NVGate Macro|Macro]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_134.png|25px]] [[NVGate_Sequence|Sequencer]]<br />
|-<br />
|[[File:CP.png|25px]][[NVGate_Control_Panel|Control Panel]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_162.png|25px]] [[NVGate_Mask_And_Alarm|Mask And Alarm]]<br />
|-<br />
|} </li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Ribbons:_Preferences|Preferences]] <br />
|-<br />
| [[File:preference.png|25px]] [[NVGate User Preferences|User Preferences]]<br />
|-<br />
| [[File:properties.png|25px]] [[NVGate:_Properties|Properties]] <br />
|}</li><br />
</ul></div><br />
</ul></div><br />
<br />
<br />
<br />
<div><ul><br />
<li style="display: inline-table;"><br />
{| class="wikitable"<br />
|+ <br />
|-<br />
! Workspace View <br />
|-<br />
| [[NVGate_Architecture|Architecture]]<br />
|-<br />
| [[File:ASB_.png|link=NVGate_Analyzer_Setting_Browser_(ASB)]]<br />
|-<br />
| [[File:Control_pannel.png|link=NVGate_Control_Panel]]<br />
|-<br />
| [[File:Project manager.png|link=NVGate_Project_manager]]<br />
|-<br />
|<br />
|-<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Display - windows - Trace<br />
|-<br />
|[[NVGate Display|Display Overview]] <br />
|-<br />
| [[NVGate Integrate - Differentiate - Unit|Integrate/Differentiate - Unit (RMS, pk, PSD...)]]<br />
<br />
|-<br />
|[[NVGate_Operator|Graphical Operator]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Zoomed signal|Player Zoomed signal]] <br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Signal processing note<br />
|-<br />
|[[NVGate CBT principle and settings|CBT principle and settings]]<br />
|-<br />
|[[NVGate_SOA_and_CBT_techniques|SOA vs CBT]]<br />
|-<br />
|[[NVGate_Envelope_analysis|Envelope Analysis]]<br />
|-<br />
|[[NVGate_time_shift_resampling|Ext synch: time shift resampling]]<br />
|-<br />
|[[User_note:_FFT_averaging|FFT Averaging]]<br />
|-<br />
|[[NVGate: How do I|NVGate: How do I?]]<br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Appendix:<br />
|-<br />
|[[NVGate_Formula_Computation|NVGate FFT Computation]]<br />
|-<br />
|[[NVGate_filter_formula_appendix|Filter: curve and formula]]<br />
|-<br />
|[[NVGate_Weighting_Windows_appendix|Weighting Windows]]<br />
|-<br />
|[[NVGate_time_shift_resampling|Ext synch: time shift resampling]]<br />
|-<br />
|[[NVGate Specification]]<br />
|-<br />
|[[NVGate Shortcuts|Shortcuts]]<br />
|-<br />
|[[NVGate_Glossary|Glossary]]<br />
|} </li><br />
<br />
{| class="wikitable"<br />
|-<br />
| [[NVGate_Status_bar|Status bar]]<br />
|}<br />
<br />
==NVGate Add on== <br />
<br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Add ons<br />
|-<br />
|[[External_Tools:_TachTool|TachTool : Extract tach]]<br />
|-<br />
|[[NVGate_BatchPostProcess_tool|BatchPostProcess]]<br />
|-<br />
|[[External tools: Rosette computation|Rosette computation]]<br />
|-<br />
|[[RT60_Calculator|RT60 calculator]]<br />
|-<br />
|[[NVGate_Tools:_AutoReport|Automatic production test report]]<br />
|-<br />
|[[NVGate_Tools:_EditSignal|Edit Time Signal]]<br />
|-<br />
|[[NVGate_Tools:_CanBus_Import_.dbc|CanBus Import .dbc files]]<br />
|-<br />
|[[NVGate_IRIG_Marker|IRIG Marker]]<br />
|-<br />
|[[NVGate_HP_Spectrum_Analyzer|HP Spectrum Analyzer Model]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#GPS|GPS]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#GPS|Display Tortion ODS]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#Weather_station|Weather station]]<br />
|-<br />
| [[Human Vibration]]<br />
|-<br />
|[[Addons:PV_Diagram|PV(Pressure-Volume) diagram]]<br />
|-<br />
|} </li></div>Adminhttps://wiki.oros.com/index.php?title=NVGate&diff=11188NVGate2022-03-30T09:15:38Z<p>Admin: </p>
<hr />
<div>[[:File:Auto_anechoic_chamber3.webp]]<br />
{{#seo:<br />
|title=NVGate Noise and vibration software<br />
|keywords= NVgate manual, nois and vibration soft<are, FFT analyzer software<br />
|description=How to use NVGate acoutsic and vibration software ? Official and complete documentation on this page.<br />
}}<br />
<br />
{{Software<br />
|Logo= [[image:general-B-256.png|90px]]<br />
|Name= NVGate Software<br />
|Screenshot=[[File:nvGate 7 550pxls.jpg|120px]]<br />
|Developers= [http://www.OROS.com Oros SA]<br />
|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] <br />
|First release= 2001<br />
<br />
|Latest Version= NVGate 2022 - February 2022<br />
|Download= [[NVGate_2022:_Install_Process|Here]]<br />
|Update=<br />
|Operating system= Windows 10 - Windows 11 - (and W7) ([[PC_Requirements|see PC requirements]])<br />
|Language= English, [https://www.toyo.co.jp/mecha/products/detail/oros-fft.html Japanese], Russian<br />
|Licence = Proprietery<br />
|website=[http://www.oros.com oros.com] and here!<br />
}}<br />
+========================='''<big>NVGate 2022 now available !</big>'''======================+<br />
==Install NVGate 2022==<br />
<br />
[[NVGate_2022:_Install_Process|Update to the latest version]]<br><br />
<br />
[[NVGate 2022: Release note|Release note NVGate 2022]]<br />
<br />
[[NVGate Installation and Connection|First Installation and Connection]]<br><br />
<br />
==First step==<br />
[[FFT_Spectrum_Analyzer_Multipurpose|OROS analyzer overview]]<br />
<br />
[[NVGate_Software_overview|First Start With NVGate]]<br><br />
<br />
<br />
<br />
<youtube>https://youtu.be/MRGE2-VLBFg?t=30</youtube><br />
<br />
[https://www.oros.com/services/tutorial-videos/ NVGate Video Tutorial]<br><br />
<br><br />
<br />
== Complete documentation ==<br />
<br />
<br />
<div><ul><br />
<li style="display: inline-table;"><br />
{| class="wikitable"<br />
|+ <br />
|-<br />
! [[NVGate Ribbons: Home Tab|Home]] <br />
|-<br />
| [[File:GoToR.png|link=http://wiki.oros.com/wiki/index.php/NVGate_GoToResult]][[NVGate_GoToResult|Start GoToResult]]<br />
|-<br />
| [[File:PA_icone.png|25px]] [[NVGate Post Analysis|Post Analyze]]<br />
|-<br />
|[[File:Save_i.png|25px]][[NVGate_Ribbons:_Home_Tab#Save_group|Save setup]]<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate Ribbons: Acquisition Tab|Acquisition]]<br />
|-<br />
|[[File:connect_wiz.png|25px]][[NVGate_Connection_Wizard|Connect Inputs]] <br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Player|Player]]<br />
|-<br />
| <br />
|-<br />
| [[File:Reports_Tools_Ribbons_255.png|25px]] [[NVGate_Transducer_and_Calibration|Transducer and Calibration]]<br />
|-<br />
|[[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Virtual Input|Virtual Input]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate Output Signals|Output Signals]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Event_definition|Event definition]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Filter_Builder|Filter]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Tachometer|Tachometer]]<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate Ribbons: Analysis Tab|Analysis]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Front_End|Front End]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Recorder|Recorder]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT_Analyzer|FFT]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Synchronous_Order_Analysis|Synchronous Order Analysis (SOA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Time_Domain_Analysis|Time Domain Analysis (TDA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Octave_Analyzer|1/n Octave Analyzer]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Overall_Acoustic_-_Sound_Level_meter|Overall Acoustic (OVA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate Monitor Plug In|Monitor]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall|Waterfall]]<br />
|-<br />
|[[NVGate_Time_windows|Force / response windows]]<br />
|-<br />
|[[NVGate Torsional|Torsional Analysis]]<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate Ribbons: Data|Data]] <br />
|-<br />
| [[File:dataset_i.png|25px]][[NVGate dataset management|Dataset management]]<br />
|-<br />
| [[File:edit_icone.png|25px]] [[NVGate_Edit_Measurement|Edit Measurement]]<br />
|-<br />
| [[File:Data_download_2022.PNG|25px]] [[Disk(Hard-drive)_management|Disk management]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_503.jpg|25px]] [[NVGate_Export/import|Export/Import file]]<br />
|-<br />
| [[File:OR10_stand_alone.png|25px]] [[NVGate_OR10_Stand_alone|OR10 Stand Alone]]<br />
|-<br />
| [[NVGate D-Rec|D-Rec : record without PC]]<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Ribbons:_Display|Display]]<br />
|-<br />
|[[File:ADD_re.png|25px]] [[NVGate Ribbons: Display|Add/remove windows]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_467.png|25px]] [[NVGate Marker|Marker]]<br />
|-<br />
|[[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall#Waterfall_Display|Waterfall Display]]<br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Report|Report]]<br />
|-<br />
|} </li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Ribbons:_Automation|Automation]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_71.jpg|25px]] [[NVGate Macro|Macro]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_134.png|25px]] [[NVGate_Sequence|Sequencer]]<br />
|-<br />
|[[File:CP.png|25px]][[NVGate_Control_Panel|Control Panel]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_162.png|25px]] [[NVGate_Mask_And_Alarm|Mask And Alarm]]<br />
|-<br />
|} </li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Ribbons:_Preferences|Preferences]] <br />
|-<br />
| [[File:preference.png|25px]] [[NVGate User Preferences|User Preferences]]<br />
|-<br />
| [[File:properties.png|25px]] [[NVGate:_Properties|Properties]] <br />
|}</li><br />
</ul></div><br />
</ul></div><br />
<br />
<br />
<br />
<div><ul><br />
<li style="display: inline-table;"><br />
{| class="wikitable"<br />
|+ <br />
|-<br />
! Workspace View <br />
|-<br />
| [[NVGate_Architecture|Architecture]]<br />
|-<br />
| [[File:ASB_.png|link=NVGate_Analyzer_Setting_Browser_(ASB)]]<br />
|-<br />
| [[File:Control_pannel.png|link=NVGate_Control_Panel]]<br />
|-<br />
| [[File:Project manager.png|link=NVGate_Project_manager]]<br />
|-<br />
|<br />
|-<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Display - windows - Trace<br />
|-<br />
|[[NVGate Display|Display Overview]] <br />
|-<br />
| [[NVGate Integrate - Differentiate - Unit|Integrate/Differentiate - Unit (RMS, pk, PSD...)]]<br />
<br />
|-<br />
|[[NVGate_Operator|Graphical Operator]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Zoomed signal|Player Zoomed signal]] <br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Signal processing note<br />
|-<br />
|[[NVGate CBT principle and settings|CBT principle and settings]]<br />
|-<br />
|[[NVGate_SOA_and_CBT_techniques|SOA vs CBT]]<br />
|-<br />
|[[NVGate_Envelope_analysis|Envelope Analysis]]<br />
|-<br />
|[[NVGate_time_shift_resampling|Ext synch: time shift resampling]]<br />
|-<br />
|[[User_note:_FFT_averaging|FFT Averaging]]<br />
|-<br />
|[[NVGate: How do I|NVGate: How do I?]]<br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Appendix:<br />
|-<br />
|[[NVGate_Formula_Computation|NVGate FFT Computation]]<br />
|-<br />
|[[NVGate_filter_formula_appendix|Filter: curve and formula]]<br />
|-<br />
|[[NVGate_Weighting_Windows_appendix|Weighting Windows]]<br />
|-<br />
|[[NVGate_time_shift_resampling|Ext synch: time shift resampling]]<br />
|-<br />
|[[NVGate Specification]]<br />
|-<br />
|[[NVGate Shortcuts|Shortcuts]]<br />
|-<br />
|[[NVGate_Glossary|Glossary]]<br />
|} </li><br />
<br />
{| class="wikitable"<br />
|-<br />
| [[NVGate_Status_bar|Status bar]]<br />
|}<br />
<br />
==NVGate Add on== <br />
<br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Add ons<br />
|-<br />
|[[External_Tools:_TachTool|TachTool : Extract tach]]<br />
|-<br />
|[[NVGate_BatchPostProcess_tool|BatchPostProcess]]<br />
|-<br />
|[[External tools: Rosette computation|Rosette computation]]<br />
|-<br />
|[[RT60_Calculator|RT60 calculator]]<br />
|-<br />
|[[NVGate_Tools:_AutoReport|Automatic production test report]]<br />
|-<br />
|[[NVGate_Tools:_EditSignal|Edit Time Signal]]<br />
|-<br />
|[[NVGate_Tools:_CanBus_Import_.dbc|CanBus Import .dbc files]]<br />
|-<br />
|[[NVGate_IRIG_Marker|IRIG Marker]]<br />
|-<br />
|[[NVGate_HP_Spectrum_Analyzer|HP Spectrum Analyzer Model]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#GPS|GPS]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#GPS|Display Tortion ODS]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#Weather_station|Weather station]]<br />
|-<br />
| [[Human Vibration]]<br />
|-<br />
|[[Addons:PV_Diagram|PV(Pressure-Volume) diagram]]<br />
|-<br />
|} </li></div>Adminhttps://wiki.oros.com/index.php?title=NVGate&diff=11186NVGate2022-03-30T09:14:12Z<p>Admin: </p>
<hr />
<div>{{#seo:<br />
|title=NVGate Noise and vibration software<br />
|keywords= NVgate manual, nois and vibration soft<are, FFT analyzer software<br />
|description=How to use NVGate acoutsic and vibration software ? Official and complete documentation on this page.<br />
}}<br />
<br />
{{Software<br />
|Logo= [[image:general-B-256.png|90px]]<br />
|Name= NVGate Software<br />
|Screenshot=[[File:nvGate 7 550pxls.jpg|120px]]<br />
|Developers= [http://www.OROS.com Oros SA]<br />
|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] <br />
|First release= 2001<br />
<br />
|Latest Version= NVGate 2022 - February 2022<br />
|Download= [[NVGate_2022:_Install_Process|Here]]<br />
|Update=<br />
|Operating system= Windows 10 - Windows 11 - (and W7) ([[PC_Requirements|see PC requirements]])<br />
|Language= English, [https://www.toyo.co.jp/mecha/products/detail/oros-fft.html Japanese], Russian<br />
|Licence = Proprietery<br />
|website=[http://www.oros.com oros.com] and here!<br />
}}<br />
+========================='''<big>NVGate 2022 now available !</big>'''======================+<br />
==Install NVGate 2022==<br />
<br />
[[NVGate_2022:_Install_Process|Update to the latest version]]<br><br />
<br />
[[NVGate 2022: Release note|Release note NVGate 2022]]<br />
<br />
[[NVGate Installation and Connection|First Installation and Connection]]<br><br />
<br />
==First step==<br />
[[FFT_Spectrum_Analyzer_Multipurpose|OROS analyzer overview]]<br />
<br />
[[NVGate_Software_overview|First Start With NVGate]]<br><br />
<br />
<br />
<br />
<youtube>https://youtu.be/MRGE2-VLBFg?t=30</youtube><br />
<br />
[https://www.oros.com/services/tutorial-videos/ NVGate Video Tutorial]<br><br />
<br><br />
<br />
== Complete documentation ==<br />
<br />
<br />
<div><ul><br />
<li style="display: inline-table;"><br />
{| class="wikitable"<br />
|+ <br />
|-<br />
! [[NVGate Ribbons: Home Tab|Home]] <br />
|-<br />
| [[File:GoToR.png|link=http://wiki.oros.com/wiki/index.php/NVGate_GoToResult]][[NVGate_GoToResult|Start GoToResult]]<br />
|-<br />
| [[File:PA_icone.png|25px]] [[NVGate Post Analysis|Post Analyze]]<br />
|-<br />
|[[File:Save_i.png|25px]][[NVGate_Ribbons:_Home_Tab#Save_group|Save setup]]<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate Ribbons: Acquisition Tab|Acquisition]]<br />
|-<br />
|[[File:connect_wiz.png|25px]][[NVGate_Connection_Wizard|Connect Inputs]] <br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Player|Player]]<br />
|-<br />
| <br />
|-<br />
| [[File:Reports_Tools_Ribbons_255.png|25px]] [[NVGate_Transducer_and_Calibration|Transducer and Calibration]]<br />
|-<br />
|[[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Virtual Input|Virtual Input]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate Output Signals|Output Signals]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Event_definition|Event definition]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Filter_Builder|Filter]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Tachometer|Tachometer]]<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate Ribbons: Analysis Tab|Analysis]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Front_End|Front End]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Recorder|Recorder]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT_Analyzer|FFT]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Synchronous_Order_Analysis|Synchronous Order Analysis (SOA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Time_Domain_Analysis|Time Domain Analysis (TDA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Octave_Analyzer|1/n Octave Analyzer]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Overall_Acoustic_-_Sound_Level_meter|Overall Acoustic (OVA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate Monitor Plug In|Monitor]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall|Waterfall]]<br />
|-<br />
|[[NVGate_Time_windows|Force / response windows]]<br />
|-<br />
|[[NVGate Torsional|Torsional Analysis]]<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate Ribbons: Data|Data]] <br />
|-<br />
| [[File:dataset_i.png|25px]][[NVGate dataset management|Dataset management]]<br />
|-<br />
| [[File:edit_icone.png|25px]] [[NVGate_Edit_Measurement|Edit Measurement]]<br />
|-<br />
| [[File:Data_download_2022.PNG|25px]] [[Disk(Hard-drive)_management|Disk management]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_503.jpg|25px]] [[NVGate_Export/import|Export/Import file]]<br />
|-<br />
| [[File:OR10_stand_alone.png|25px]] [[NVGate_OR10_Stand_alone|OR10 Stand Alone]]<br />
|-<br />
| [[NVGate D-Rec|D-Rec : record without PC]]<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Ribbons:_Display|Display]]<br />
|-<br />
|[[File:ADD_re.png|25px]] [[NVGate Ribbons: Display|Add/remove windows]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_467.png|25px]] [[NVGate Marker|Marker]]<br />
|-<br />
|[[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall#Waterfall_Display|Waterfall Display]]<br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Report|Report]]<br />
|-<br />
|} </li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Ribbons:_Automation|Automation]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_71.jpg|25px]] [[NVGate Macro|Macro]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_134.png|25px]] [[NVGate_Sequence|Sequencer]]<br />
|-<br />
|[[File:CP.png|25px]][[NVGate_Control_Panel|Control Panel]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_162.png|25px]] [[NVGate_Mask_And_Alarm|Mask And Alarm]]<br />
|-<br />
|} </li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Ribbons:_Preferences|Preferences]] <br />
|-<br />
| [[File:preference.png|25px]] [[NVGate User Preferences|User Preferences]]<br />
|-<br />
| [[File:properties.png|25px]] [[NVGate:_Properties|Properties]] <br />
|}</li><br />
</ul></div><br />
</ul></div><br />
<br />
<br />
<br />
<div><ul><br />
<li style="display: inline-table;"><br />
{| class="wikitable"<br />
|+ <br />
|-<br />
! Workspace View <br />
|-<br />
| [[NVGate_Architecture|Architecture]]<br />
|-<br />
| [[File:ASB_.png|link=NVGate_Analyzer_Setting_Browser_(ASB)]]<br />
|-<br />
| [[File:Control_pannel.png|link=NVGate_Control_Panel]]<br />
|-<br />
| [[File:Project manager.png|link=NVGate_Project_manager]]<br />
|-<br />
|<br />
|-<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Display - windows - Trace<br />
|-<br />
|[[NVGate Display|Display Overview]] <br />
|-<br />
| [[NVGate Integrate - Differentiate - Unit|Integrate/Differentiate - Unit (RMS, pk, PSD...)]]<br />
<br />
|-<br />
|[[NVGate_Operator|Graphical Operator]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Zoomed signal|Player Zoomed signal]] <br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Signal processing note<br />
|-<br />
|[[NVGate CBT principle and settings|CBT principle and settings]]<br />
|-<br />
|[[NVGate_SOA_and_CBT_techniques|SOA vs CBT]]<br />
|-<br />
|[[NVGate_Envelope_analysis|Envelope Analysis]]<br />
|-<br />
|[[NVGate_time_shift_resampling|Ext synch: time shift resampling]]<br />
|-<br />
|[[User_note:_FFT_averaging|FFT Averaging]]<br />
|-<br />
|[[NVGate: How do I|NVGate: How do I?]]<br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Appendix:<br />
|-<br />
|[[NVGate_Formula_Computation|NVGate FFT Computation]]<br />
|-<br />
|[[NVGate_filter_formula_appendix|Filter: curve and formula]]<br />
|-<br />
|[[NVGate_Weighting_Windows_appendix|Weighting Windows]]<br />
|-<br />
|[[NVGate_time_shift_resampling|Ext synch: time shift resampling]]<br />
|-<br />
|[[NVGate Specification]]<br />
|-<br />
|[[NVGate Shortcuts|Shortcuts]]<br />
|-<br />
|[[NVGate_Glossary|Glossary]]<br />
|} </li><br />
<br />
{| class="wikitable"<br />
|-<br />
| [[NVGate_Status_bar|Status bar]]<br />
|}<br />
<br />
==NVGate Add on== <br />
<br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Add ons<br />
|-<br />
|[[External_Tools:_TachTool|TachTool : Extract tach]]<br />
|-<br />
|[[NVGate_BatchPostProcess_tool|BatchPostProcess]]<br />
|-<br />
|[[External tools: Rosette computation|Rosette computation]]<br />
|-<br />
|[[RT60_Calculator|RT60 calculator]]<br />
|-<br />
|[[NVGate_Tools:_AutoReport|Automatic production test report]]<br />
|-<br />
|[[NVGate_Tools:_EditSignal|Edit Time Signal]]<br />
|-<br />
|[[NVGate_Tools:_CanBus_Import_.dbc|CanBus Import .dbc files]]<br />
|-<br />
|[[NVGate_IRIG_Marker|IRIG Marker]]<br />
|-<br />
|[[NVGate_HP_Spectrum_Analyzer|HP Spectrum Analyzer Model]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#GPS|GPS]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#GPS|Display Tortion ODS]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#Weather_station|Weather station]]<br />
|-<br />
| [[Human Vibration]]<br />
|-<br />
|[[Addons:PV_Diagram|PV(Pressure-Volume) diagram]]<br />
|-<br />
|} </li></div>Adminhttps://wiki.oros.com/index.php?title=NVGate&diff=11175NVGate2022-03-30T08:30:38Z<p>Admin: </p>
<hr />
<div>{{Software<br />
|Logo= [[image:general-B-256.png|90px]]<br />
|Name= NVGate Software<br />
|Screenshot=[[File:nvGate 7 550pxls.jpg|120px]]<br />
|Developers= [http://www.OROS.com Oros SA]<br />
|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] <br />
|First release= 2001<br />
<br />
|Latest Version= NVGate 2022 - February 2022<br />
|Download= [[NVGate_2022:_Install_Process|Here]]<br />
|Update=<br />
|Operating system= Windows 10 - Windows 11 - (and W7) ([[PC_Requirements|see PC requirements]])<br />
|Language= English, [https://www.toyo.co.jp/mecha/products/detail/oros-fft.html Japanese], Russian<br />
|Licence = Proprietery<br />
|website=[http://www.oros.com oros.com] and here!<br />
}}<br />
+========================='''<big>NVGate 2022 now available !</big>'''======================+<br />
==Install NVGate 2022==<br />
<br />
[[NVGate_2022:_Install_Process|Update to the latest version]]<br><br />
<br />
[[NVGate 2022: Release note|Release note NVGate 2022]]<br />
<br />
[[NVGate Installation and Connection|First Installation and Connection]]<br><br />
<br />
==First step==<br />
[[FFT_Spectrum_Analyzer_Multipurpose|OROS analyzer overview]]<br />
<br />
[[NVGate_Software_overview|First Start With NVGate]]<br><br />
<br />
<br />
<br />
<youtube>https://youtu.be/MRGE2-VLBFg?t=30</youtube><br />
<br />
[https://www.oros.com/services/tutorial-videos/ NVGate Video Tutorial]<br><br />
<br><br />
<br />
== Complete documentation ==<br />
<br />
<br />
<div><ul><br />
<li style="display: inline-table;"><br />
{| class="wikitable"<br />
|+ <br />
|-<br />
! [[NVGate Ribbons: Home Tab|Home]] <br />
|-<br />
| [[File:GoToR.png|link=http://wiki.oros.com/wiki/index.php/NVGate_GoToResult]][[NVGate_GoToResult|Start GoToResult]]<br />
|-<br />
| [[File:PA_icone.png|25px]] [[NVGate Post Analysis|Post Analyze]]<br />
|-<br />
|[[File:Save_i.png|25px]][[NVGate_Ribbons:_Home_Tab#Save_group|Save setup]]<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate Ribbons: Acquisition Tab|Acquisition]]<br />
|-<br />
|[[File:connect_wiz.png|25px]][[NVGate_Connection_Wizard|Connect Inputs]] <br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Player|Player]]<br />
|-<br />
| <br />
|-<br />
| [[File:Reports_Tools_Ribbons_255.png|25px]] [[NVGate_Transducer_and_Calibration|Transducer and Calibration]]<br />
|-<br />
|[[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Virtual Input|Virtual Input]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate Output Signals|Output Signals]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Event_definition|Event definition]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Filter_Builder|Filter]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Tachometer|Tachometer]]<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate Ribbons: Analysis Tab|Analysis]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Front_End|Front End]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Recorder|Recorder]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT_Analyzer|FFT]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Synchronous_Order_Analysis|Synchronous Order Analysis (SOA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Time_Domain_Analysis|Time Domain Analysis (TDA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Octave_Analyzer|1/n Octave Analyzer]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Overall_Acoustic_-_Sound_Level_meter|Overall Acoustic (OVA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate Monitor Plug In|Monitor]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall|Waterfall]]<br />
|-<br />
|[[NVGate_Time_windows|Force / response windows]]<br />
|-<br />
|[[NVGate Torsional|Torsional Analysis]]<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate Ribbons: Data|Data]] <br />
|-<br />
| [[File:dataset_i.png|25px]][[NVGate dataset management|Dataset management]]<br />
|-<br />
| [[File:edit_icone.png|25px]] [[NVGate_Edit_Measurement|Edit Measurement]]<br />
|-<br />
| [[File:Data_download_2022.PNG|25px]] [[Disk(Hard-drive)_management|Disk management]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_503.jpg|25px]] [[NVGate_Export/import|Export/Import file]]<br />
|-<br />
| [[File:OR10_stand_alone.png|25px]] [[NVGate_OR10_Stand_alone|OR10 Stand Alone]]<br />
|-<br />
| [[NVGate D-Rec|D-Rec : record without PC]]<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Ribbons:_Display|Display]]<br />
|-<br />
|[[File:ADD_re.png|25px]] [[NVGate Ribbons: Display|Add/remove windows]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_467.png|25px]] [[NVGate Marker|Marker]]<br />
|-<br />
|[[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall#Waterfall_Display|Waterfall Display]]<br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Report|Report]]<br />
|-<br />
|} </li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Ribbons:_Automation|Automation]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_71.jpg|25px]] [[NVGate Macro|Macro]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_134.png|25px]] [[NVGate_Sequence|Sequencer]]<br />
|-<br />
|[[File:CP.png|25px]][[NVGate_Control_Panel|Control Panel]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_162.png|25px]] [[NVGate_Mask_And_Alarm|Mask And Alarm]]<br />
|-<br />
|} </li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Ribbons:_Preferences|Preferences]] <br />
|-<br />
| [[File:preference.png|25px]] [[NVGate User Preferences|User Preferences]]<br />
|-<br />
| [[File:properties.png|25px]] [[NVGate:_Properties|Properties]] <br />
|}</li><br />
</ul></div><br />
</ul></div><br />
<br />
<br />
<br />
<div><ul><br />
<li style="display: inline-table;"><br />
{| class="wikitable"<br />
|+ <br />
|-<br />
! Workspace View <br />
|-<br />
| [[NVGate_Architecture|Architecture]]<br />
|-<br />
| [[File:ASB_.png|link=NVGate_Analyzer_Setting_Browser_(ASB)]]<br />
|-<br />
| [[File:Control_pannel.png|link=NVGate_Control_Panel]]<br />
|-<br />
| [[File:Project manager.png|link=NVGate_Project_manager]]<br />
|-<br />
|<br />
|-<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Display - windows - Trace<br />
|-<br />
|[[NVGate Display|Display Overview]] <br />
|-<br />
| [[NVGate Integrate - Differentiate - Unit|Integrate/Differentiate - Unit (RMS, pk, PSD...)]]<br />
<br />
|-<br />
|[[NVGate_Operator|Graphical Operator]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Zoomed signal|Player Zoomed signal]] <br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Signal processing note<br />
|-<br />
|[[NVGate CBT principle and settings|CBT principle and settings]]<br />
|-<br />
|[[NVGate_SOA_and_CBT_techniques|SOA vs CBT]]<br />
|-<br />
|[[NVGate_Envelope_analysis|Envelope Analysis]]<br />
|-<br />
|[[NVGate_time_shift_resampling|Ext synch: time shift resampling]]<br />
|-<br />
|[[User_note:_FFT_averaging|FFT Averaging]]<br />
|-<br />
|[[NVGate: How do I|NVGate: How do I?]]<br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Appendix:<br />
|-<br />
|[[NVGate_Formula_Computation|NVGate FFT Computation]]<br />
|-<br />
|[[NVGate_filter_formula_appendix|Filter: curve and formula]]<br />
|-<br />
|[[NVGate_Weighting_Windows_appendix|Weighting Windows]]<br />
|-<br />
|[[NVGate_time_shift_resampling|Ext synch: time shift resampling]]<br />
|-<br />
|[[NVGate Specification]]<br />
|-<br />
|[[NVGate Shortcuts|Shortcuts]]<br />
|-<br />
|[[NVGate_Glossary|Glossary]]<br />
|} </li><br />
<br />
{| class="wikitable"<br />
|-<br />
| [[NVGate_Status_bar|Status bar]]<br />
|}<br />
<br />
==NVGate Add on== <br />
<br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Add ons<br />
|-<br />
|[[External_Tools:_TachTool|TachTool : Extract tach]]<br />
|-<br />
|[[NVGate_BatchPostProcess_tool|BatchPostProcess]]<br />
|-<br />
|[[External tools: Rosette computation|Rosette computation]]<br />
|-<br />
|[[RT60_Calculator|RT60 calculator]]<br />
|-<br />
|[[NVGate_Tools:_AutoReport|Automatic production test report]]<br />
|-<br />
|[[NVGate_Tools:_EditSignal|Edit Time Signal]]<br />
|-<br />
|[[NVGate_Tools:_CanBus_Import_.dbc|CanBus Import .dbc files]]<br />
|-<br />
|[[NVGate_IRIG_Marker|IRIG Marker]]<br />
|-<br />
|[[NVGate_HP_Spectrum_Analyzer|HP Spectrum Analyzer Model]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#GPS|GPS]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#GPS|Display Tortion ODS]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#Weather_station|Weather station]]<br />
|-<br />
| [[Human Vibration]]<br />
|-<br />
|[[Addons:PV_Diagram|PV(Pressure-Volume) diagram]]<br />
|-<br />
|} </li></div>Adminhttps://wiki.oros.com/index.php?title=NVGate&diff=11174NVGate2022-03-30T08:09:10Z<p>Admin: </p>
<hr />
<div>{{#seo:<br />
|title=Your page title<br />
|title_mode=append<br />
|keywords=these,are,your,keywords<br />
|description=Your meta description<br />
|image=Uploaded_file.png<br />
|image_alt=Wiki Logo<br />
}}<br />
{{Software<br />
|Logo= [[image:general-B-256.png|90px]]<br />
|Name= NVGate Software<br />
|Screenshot=[[File:nvGate 7 550pxls.jpg|120px]]<br />
|Developers= [http://www.OROS.com Oros SA]<br />
|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] <br />
|First release= 2001<br />
<br />
|Latest Version= NVGate 2022 - February 2022<br />
|Download= [[NVGate_2022:_Install_Process|Here]]<br />
|Update=<br />
|Operating system= Windows 10 - Windows 11 - (and W7) ([[PC_Requirements|see PC requirements]])<br />
|Language= English, [https://www.toyo.co.jp/mecha/products/detail/oros-fft.html Japanese], Russian<br />
|Licence = Proprietery<br />
|website=[http://www.oros.com oros.com] and here!<br />
}}<br />
+========================='''<big>NVGate 2022 now available !</big>'''======================+<br />
==Install NVGate 2022==<br />
<br />
[[NVGate_2022:_Install_Process|Update to the latest version]]<br><br />
<br />
[[NVGate 2022: Release note|Release note NVGate 2022]]<br />
<br />
[[NVGate Installation and Connection|First Installation and Connection]]<br><br />
<br />
==First step==<br />
[[FFT_Spectrum_Analyzer_Multipurpose|OROS analyzer overview]]<br />
<br />
[[NVGate_Software_overview|First Start With NVGate]]<br><br />
<br />
<br />
<br />
<youtube>https://youtu.be/MRGE2-VLBFg?t=30</youtube><br />
<br />
[https://www.oros.com/services/tutorial-videos/ NVGate Video Tutorial]<br><br />
<br><br />
<br />
== Complete documentation ==<br />
<br />
<br />
<div><ul><br />
<li style="display: inline-table;"><br />
{| class="wikitable"<br />
|+ <br />
|-<br />
! [[NVGate Ribbons: Home Tab|Home]] <br />
|-<br />
| [[File:GoToR.png|link=http://wiki.oros.com/wiki/index.php/NVGate_GoToResult]][[NVGate_GoToResult|Start GoToResult]]<br />
|-<br />
| [[File:PA_icone.png|25px]] [[NVGate Post Analysis|Post Analyze]]<br />
|-<br />
|[[File:Save_i.png|25px]][[NVGate_Ribbons:_Home_Tab#Save_group|Save setup]]<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate Ribbons: Acquisition Tab|Acquisition]]<br />
|-<br />
|[[File:connect_wiz.png|25px]][[NVGate_Connection_Wizard|Connect Inputs]] <br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Player|Player]]<br />
|-<br />
| <br />
|-<br />
| [[File:Reports_Tools_Ribbons_255.png|25px]] [[NVGate_Transducer_and_Calibration|Transducer and Calibration]]<br />
|-<br />
|[[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Virtual Input|Virtual Input]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate Output Signals|Output Signals]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Event_definition|Event definition]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Filter_Builder|Filter]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Tachometer|Tachometer]]<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate Ribbons: Analysis Tab|Analysis]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Front_End|Front End]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Recorder|Recorder]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT_Analyzer|FFT]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Synchronous_Order_Analysis|Synchronous Order Analysis (SOA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Time_Domain_Analysis|Time Domain Analysis (TDA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Octave_Analyzer|1/n Octave Analyzer]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Overall_Acoustic_-_Sound_Level_meter|Overall Acoustic (OVA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate Monitor Plug In|Monitor]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall|Waterfall]]<br />
|-<br />
|[[NVGate_Time_windows|Force / response windows]]<br />
|-<br />
|[[NVGate Torsional|Torsional Analysis]]<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate Ribbons: Data|Data]] <br />
|-<br />
| [[File:dataset_i.png|25px]][[NVGate dataset management|Dataset management]]<br />
|-<br />
| [[File:edit_icone.png|25px]] [[NVGate_Edit_Measurement|Edit Measurement]]<br />
|-<br />
| [[File:Data_download_2022.PNG|25px]] [[Disk(Hard-drive)_management|Disk management]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_503.jpg|25px]] [[NVGate_Export/import|Export/Import file]]<br />
|-<br />
| [[File:OR10_stand_alone.png|25px]] [[NVGate_OR10_Stand_alone|OR10 Stand Alone]]<br />
|-<br />
| [[NVGate D-Rec|D-Rec : record without PC]]<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Ribbons:_Display|Display]]<br />
|-<br />
|[[File:ADD_re.png|25px]] [[NVGate Ribbons: Display|Add/remove windows]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_467.png|25px]] [[NVGate Marker|Marker]]<br />
|-<br />
|[[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall#Waterfall_Display|Waterfall Display]]<br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Report|Report]]<br />
|-<br />
|} </li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Ribbons:_Automation|Automation]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_71.jpg|25px]] [[NVGate Macro|Macro]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_134.png|25px]] [[NVGate_Sequence|Sequencer]]<br />
|-<br />
|[[File:CP.png|25px]][[NVGate_Control_Panel|Control Panel]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_162.png|25px]] [[NVGate_Mask_And_Alarm|Mask And Alarm]]<br />
|-<br />
|} </li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[NVGate_Ribbons:_Preferences|Preferences]] <br />
|-<br />
| [[File:preference.png|25px]] [[NVGate User Preferences|User Preferences]]<br />
|-<br />
| [[File:properties.png|25px]] [[NVGate:_Properties|Properties]] <br />
|}</li><br />
</ul></div><br />
</ul></div><br />
<br />
<br />
<br />
<div><ul><br />
<li style="display: inline-table;"><br />
{| class="wikitable"<br />
|+ <br />
|-<br />
! Workspace View <br />
|-<br />
| [[NVGate_Architecture|Architecture]]<br />
|-<br />
| [[File:ASB_.png|link=NVGate_Analyzer_Setting_Browser_(ASB)]]<br />
|-<br />
| [[File:Control_pannel.png|link=NVGate_Control_Panel]]<br />
|-<br />
| [[File:Project manager.png|link=NVGate_Project_manager]]<br />
|-<br />
|<br />
|-<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Display - windows - Trace<br />
|-<br />
|[[NVGate Display|Display Overview]] <br />
|-<br />
| [[NVGate Integrate - Differentiate - Unit|Integrate/Differentiate - Unit (RMS, pk, PSD...)]]<br />
<br />
|-<br />
|[[NVGate_Operator|Graphical Operator]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Zoomed signal|Player Zoomed signal]] <br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Signal processing note<br />
|-<br />
|[[NVGate CBT principle and settings|CBT principle and settings]]<br />
|-<br />
|[[NVGate_SOA_and_CBT_techniques|SOA vs CBT]]<br />
|-<br />
|[[NVGate_Envelope_analysis|Envelope Analysis]]<br />
|-<br />
|[[NVGate_time_shift_resampling|Ext synch: time shift resampling]]<br />
|-<br />
|[[User_note:_FFT_averaging|FFT Averaging]]<br />
|-<br />
|[[NVGate: How do I|NVGate: How do I?]]<br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Appendix:<br />
|-<br />
|[[NVGate_Formula_Computation|NVGate FFT Computation]]<br />
|-<br />
|[[NVGate_filter_formula_appendix|Filter: curve and formula]]<br />
|-<br />
|[[NVGate_Weighting_Windows_appendix|Weighting Windows]]<br />
|-<br />
|[[NVGate_time_shift_resampling|Ext synch: time shift resampling]]<br />
|-<br />
|[[NVGate Specification]]<br />
|-<br />
|[[NVGate Shortcuts|Shortcuts]]<br />
|-<br />
|[[NVGate_Glossary|Glossary]]<br />
|} </li><br />
<br />
{| class="wikitable"<br />
|-<br />
| [[NVGate_Status_bar|Status bar]]<br />
|}<br />
<br />
==NVGate Add on== <br />
<br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Add ons<br />
|-<br />
|[[External_Tools:_TachTool|TachTool : Extract tach]]<br />
|-<br />
|[[NVGate_BatchPostProcess_tool|BatchPostProcess]]<br />
|-<br />
|[[External tools: Rosette computation|Rosette computation]]<br />
|-<br />
|[[RT60_Calculator|RT60 calculator]]<br />
|-<br />
|[[NVGate_Tools:_AutoReport|Automatic production test report]]<br />
|-<br />
|[[NVGate_Tools:_EditSignal|Edit Time Signal]]<br />
|-<br />
|[[NVGate_Tools:_CanBus_Import_.dbc|CanBus Import .dbc files]]<br />
|-<br />
|[[NVGate_IRIG_Marker|IRIG Marker]]<br />
|-<br />
|[[NVGate_HP_Spectrum_Analyzer|HP Spectrum Analyzer Model]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#GPS|GPS]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#GPS|Display Tortion ODS]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#Weather_station|Weather station]]<br />
|-<br />
| [[Human Vibration]]<br />
|-<br />
|[[Addons:PV_Diagram|PV(Pressure-Volume) diagram]]<br />
|-<br />
|} </li></div>Adminhttps://wiki.oros.com/index.php?title=NVGate&diff=8917NVGate2021-12-07T08:43:36Z<p>Admin: </p>
<hr />
<div>{{Software<br />
|Logo= [[image:general-B-256.png|90px]]<br />
|Name= NVGate Software<br />
|Screenshot=[[File:nvGate 7 550pxls.jpg|120px]]<br />
|Developers= [http://www.OROS.com Oros SA]<br />
|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] <br />
|First release= 2001<br />
<br />
|Latest Version= NVGate 2021 - January 2021<br />
|Download= [[NVGate_2021:_Install_Process|Here]]<br />
|Update=<br />
|Operating system= Windows 10 (and W7) ([[PC_Requirements|see PC requirements]])<br />
|Language= English, [https://www.toyo.co.jp/mecha/products/detail/oros-fft.html Japanese], Russian<br />
|Licence = Proprietery<br />
|website=[http://www.oros.com oros.com] and here!<br />
}}<br />
<br />
---<big>'''New version: [[NVGate 2021: Release note|NVGate 2021]]'''</big>---<br />
<br />
==Install==<br />
[[NVGate_2021:_Install_Process|Update to the latest version]]<br><br />
<br />
[[NVGate Installation and Connection|Installation and Connection]]<br><br />
<br />
<br />
<br />
==First step==<br />
[[NVGate Software overview]]<br><br />
[https://www.oros.com/services/tutorial-videos/ NVGate Video Tutorial]<br><br />
[[NVGate: How do I|NVGate: How do I?]]<br><br />
<br />
== Complete documentation ==<br />
<br />
{| class="wikitable"<br />
| [[NVGate Ribbons overview|Interface and Ribbon Overview]]<br />
|}<br />
<div><ul><br />
<li style="display: inline-table;"><br />
{| class="wikitable"<br />
|+ <br />
|-<br />
! [[File:home_50.png|65px|link=NVGate Ribbons: Home Tab]] <br />
|-<br />
| [[File:GoToR.png|link=http://wiki.oros.com/mediawiki/index.php/NVGate_Software_overview#GoToResult]][[NVGate_Software_overview#Starting_NVGate|Start GoToResult]]<br />
|-<br />
| [[File:dataset_i.png|25px]][[NVGate dataset management|Dataset management]]<br />
|-<br />
| [[File:preference.png|25px]] [[NVGate User Preferences|User Preferences]]<br />
|-<br />
| [[File:properties.png|25px]] [[NVGate:_Properties|Properties]] <br />
|-<br />
| [[File:PA_icone.png|25px]] [[NVGate Post Analysis|Post Analyze]]<br />
|-<br />
| [[File:edit_icone.png|25px]] [[NVGate_Ribbons:_Home_Tab#Edit_Measurement|Edit Measurement]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_255.png|25px]] [[NVGate_Transducer_and_Calibration|Transducer and Calibration]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_503.jpg|25px]] [[NVGate_Export/import|Export/Import file]]<br />
|-<br />
| [[NVGate D-Rec|D-Rec : record without PC]]<br />
|-<br />
| [[File:OR10_stand_alone.png|25px]] [[NVGate_OR10_Stand_alone|OR10 Stand Alone]] <br />
|}</li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Measurement_50.png|124px|link=NVGate Ribbons: Measurement Tab]]<br />
|-<br />
|[[File:Save_i.png|25px]][[NVGate_Ribbons:_Measurement_Tab#Save_setup_tab|Save setup]] <br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Acquisition_50.png|95px|link=NVGate Ribbons: Acquisition Tab]]<br />
|-<br />
|[[File:connect_wiz.png|25px]][[NVGate_Connection_Wizard|Connect Track]] <br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Front_End|Front End]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Recorder|Recorder]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Player|Player]]<br />
|-<br />
| <br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate Output Signals|Output Signals]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Event_definition|Event definition]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Filter_Builder|Filter]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Tachometer|Tachometer]]<br />
|-<br />
|[[NVGate_Time_windows|Force / response windows]]<br />
|-<br />
|[[NVGate Torsional|Torsional Analysis]]<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Analyses_50.png|90px|link=NVGate Ribbons: Analysis Tab]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT_Analyzer|FFT]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Synchronous_Order_Analysis|Synchronous Order Analysis (SOA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Time_Domain_Analysis|Time Domain Analysis (TDA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Octave_Analyzer|1/n Octave Analyzer]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Overall_Acoustic_-_Sound_Level_meter|Overall Acoustic (OVA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate Monitor Plug In|Monitor]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall|Waterfall]]<br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Display_Graph_50.png|134px|link=NVGate Ribbons: Display/Graph Tab]]<br />
|-<br />
|[[File:ADD_re.png|25px]] [[NVGate Ribbons: Display/Graph Tab|Add/remove windows]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_467.png|25px]] [[NVGate Marker|Marker]]<br />
|-<br />
|[[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall#Waterfall_Display|Waterfall Display]]<br />
<br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Report_50.png|70px|link=NVGate_Report]]<br />
|-<br />
|} </li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Tools_50.png|57px|link=NVGate Ribbons: Tools Tab]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_71.jpg|25px]] [[NVGate Macro|Macro]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_134.png|25px]] [[NVGate_Sequence|Sequencer]]<br />
|-<br />
|[[File:CP.png|25px]][[NVGate_Control_Panel|Control Panel]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_162.png|25px]] [[NVGate_Mask_And_Alarm|Mask And Alarm]]<br />
|-<br />
|[[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Virtual Input|Virtual Input]]<br />
|-<br />
<br />
|} </li><br />
</ul></div><br />
<br />
{| class="wikitable"<br />
|-<br />
| [[NVGate_Status_bar|Status bar]]|| [[NVGate Shortcuts|Shortcuts]]||[[NVGate_Glossary|Glossary]]<br />
|}<br />
<br />
<br />
<div><ul><br />
<li style="display: inline-table;"><br />
{| class="wikitable"<br />
|+ <br />
|-<br />
! Workspace View <br />
|-<br />
| [[NVGate_Architecture|Architecture]]<br />
|-<br />
| [[File:ASB_.png|link=NVGate_Analyzer_Setting_Browser_(ASB)]]<br />
|-<br />
| Sources [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]]:<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Front_End|Front End]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Recorder|Recorder]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Player|Player]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Virtual Input|Virtual Input]]<br />
|-<br />
|<br />
|-<br />
| Resources [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]]:<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate Output Signals|Output Signals]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Event_definition|Event definition]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Filter_Builder|Filter]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Time_windows|Time windows]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Tachometer|Tachometer]]<br />
|-<br />
|<br />
|-<br />
| Plug in [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]]: <br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT_Analyzer|FFT]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Synchronous_Order_Analysis|Synchronous Order Analysis (SOA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Time_Domain_Analysis|Time Domain Analysis (TDA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate Octave Analyzer]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Overall_Acoustic_-_Sound_Level_meter|Overall Acoustic (OVA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate Monitor Plug In|Monitor]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall|Waterfall]]<br />
|-<br />
|<br />
|-<br />
| [[File:Control_pannel.png|link=NVGate_Control_Panel]]<br />
|-<br />
| [[File:Project manager.png|link=NVGate_Project_manager]]<br />
|-<br />
|<br />
|-<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Display - windows - Trace<br />
|-<br />
|[[NVGate Display|Display Overview]] <br />
|-<br />
| [[NVGate Integrate - Differentiate - Unit|Integrate/Differentiate - Unit (RMS, pk, PSD...)]]<br />
<br />
|-<br />
|[[NVGate_Operator|Graphical Operator]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Zoomed signal|Player Zoomed signal]] <br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Add ons<br />
|-<br />
|[[External_Tools:_TachTool|TachTool : Extract tach]]<br />
|-<br />
|[[NVGate_BatchPostProcess_tool|BatchPostProcess]]<br />
|-<br />
|[[External tools: Rosette computation|Rosette computation]]<br />
|-<br />
|[[NVGate_RT60|RT60 computation]]<br />
|-<br />
|[[NVGate_Tools:_AutoReport|Automatic production test report]]<br />
|-<br />
|[[NVGate_Tools:_EditSignal|Edit Time Signal]]<br />
|-<br />
|[[NVGate_Tools:_CanBus_Import_.dbc|CanBus Import .dbc files]]<br />
|-<br />
|[[NVGate_IRIG_Marker|IRIG Marker]]<br />
|-<br />
|[[NVGate_HP_Spectrum_Analyzer|HP Spectrum Analyzer Model]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#GPS|GPS]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#Weather_station|Weather station]]<br />
|-<br />
| [[Human Vibration]]<br />
|-<br />
|} </li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Signal processing note<br />
|-<br />
|[[NVGate CBT principle and settings|CBT principle and settings]]<br />
|-<br />
|[[NVGate_SOA_and_CBT_techniques|SOA vs CBT]]<br />
|-<br />
|[[NVGate_Envelope_analysis|Envelope Analysis]]<br />
|-<br />
|[[NVGate_time_shift_resampling|Ext synch: time shift resampling]]<br />
|-<br />
|[[User_note:_FFT_averaging|FFT Averaging]]<br />
|-<br />
|} </li><br />
<br />
{| class="wikitable"<br />
|-<br />
| Appendix:||[[NVGate_Formula_Computation|NVGate FFT Computation]]||[[NVGate_filter_formula_appendix|Filter: curve and formula]]||[[NVGate_Weighting_Windows_appendix|Weighting Windows]]||[[NVGate Specification]]<br />
|}</div>Adminhttps://wiki.oros.com/index.php?title=NVGate&diff=8916NVGate2021-12-07T08:43:17Z<p>Admin: Admin moved page Draft:NVGate to NVGate without leaving a redirect</p>
<hr />
<div>{{Software<br />
test<br />
|Logo= [[image:general-B-256.png|90px]]<br />
|Name= NVGate Software<br />
|Screenshot=[[File:nvGate 7 550pxls.jpg|120px]]<br />
|Developers= [http://www.OROS.com Oros SA]<br />
|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] <br />
|First release= 2001<br />
<br />
|Latest Version= NVGate 2021 - January 2021<br />
|Download= [[NVGate_2021:_Install_Process|Here]]<br />
|Update=<br />
|Operating system= Windows 10 (and W7) ([[PC_Requirements|see PC requirements]])<br />
|Language= English, [https://www.toyo.co.jp/mecha/products/detail/oros-fft.html Japanese], Russian<br />
|Licence = Proprietery<br />
|website=[http://www.oros.com oros.com] and here!<br />
}}<br />
<br />
---<big>'''New version: [[NVGate 2021: Release note|NVGate 2021]]'''</big>---<br />
<br />
==Install==<br />
[[NVGate_2021:_Install_Process|Update to the latest version]]<br><br />
<br />
[[NVGate Installation and Connection|Installation and Connection]]<br><br />
<br />
<br />
<br />
==First step==<br />
[[NVGate Software overview]]<br><br />
[https://www.oros.com/services/tutorial-videos/ NVGate Video Tutorial]<br><br />
[[NVGate: How do I|NVGate: How do I?]]<br><br />
<br />
== Complete documentation ==<br />
<br />
{| class="wikitable"<br />
| [[NVGate Ribbons overview|Interface and Ribbon Overview]]<br />
|}<br />
<div><ul><br />
<li style="display: inline-table;"><br />
{| class="wikitable"<br />
|+ <br />
|-<br />
! [[File:home_50.png|65px|link=NVGate Ribbons: Home Tab]] <br />
|-<br />
| [[File:GoToR.png|link=http://wiki.oros.com/mediawiki/index.php/NVGate_Software_overview#GoToResult]][[NVGate_Software_overview#Starting_NVGate|Start GoToResult]]<br />
|-<br />
| [[File:dataset_i.png|25px]][[NVGate dataset management|Dataset management]]<br />
|-<br />
| [[File:preference.png|25px]] [[NVGate User Preferences|User Preferences]]<br />
|-<br />
| [[File:properties.png|25px]] [[NVGate:_Properties|Properties]] <br />
|-<br />
| [[File:PA_icone.png|25px]] [[NVGate Post Analysis|Post Analyze]]<br />
|-<br />
| [[File:edit_icone.png|25px]] [[NVGate_Ribbons:_Home_Tab#Edit_Measurement|Edit Measurement]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_255.png|25px]] [[NVGate_Transducer_and_Calibration|Transducer and Calibration]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_503.jpg|25px]] [[NVGate_Export/import|Export/Import file]]<br />
|-<br />
| [[NVGate D-Rec|D-Rec : record without PC]]<br />
|-<br />
| [[File:OR10_stand_alone.png|25px]] [[NVGate_OR10_Stand_alone|OR10 Stand Alone]] <br />
|}</li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Measurement_50.png|124px|link=NVGate Ribbons: Measurement Tab]]<br />
|-<br />
|[[File:Save_i.png|25px]][[NVGate_Ribbons:_Measurement_Tab#Save_setup_tab|Save setup]] <br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Acquisition_50.png|95px|link=NVGate Ribbons: Acquisition Tab]]<br />
|-<br />
|[[File:connect_wiz.png|25px]][[NVGate_Connection_Wizard|Connect Track]] <br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Front_End|Front End]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Recorder|Recorder]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Player|Player]]<br />
|-<br />
| <br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate Output Signals|Output Signals]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Event_definition|Event definition]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Filter_Builder|Filter]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Tachometer|Tachometer]]<br />
|-<br />
|[[NVGate_Time_windows|Force / response windows]]<br />
|-<br />
|[[NVGate Torsional|Torsional Analysis]]<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Analyses_50.png|90px|link=NVGate Ribbons: Analysis Tab]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT_Analyzer|FFT]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Synchronous_Order_Analysis|Synchronous Order Analysis (SOA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Time_Domain_Analysis|Time Domain Analysis (TDA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Octave_Analyzer|1/n Octave Analyzer]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Overall_Acoustic_-_Sound_Level_meter|Overall Acoustic (OVA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate Monitor Plug In|Monitor]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall|Waterfall]]<br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Display_Graph_50.png|134px|link=NVGate Ribbons: Display/Graph Tab]]<br />
|-<br />
|[[File:ADD_re.png|25px]] [[NVGate Ribbons: Display/Graph Tab|Add/remove windows]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_467.png|25px]] [[NVGate Marker|Marker]]<br />
|-<br />
|[[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall#Waterfall_Display|Waterfall Display]]<br />
<br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Report_50.png|70px|link=NVGate_Report]]<br />
|-<br />
|} </li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Tools_50.png|57px|link=NVGate Ribbons: Tools Tab]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_71.jpg|25px]] [[NVGate Macro|Macro]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_134.png|25px]] [[NVGate_Sequence|Sequencer]]<br />
|-<br />
|[[File:CP.png|25px]][[NVGate_Control_Panel|Control Panel]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_162.png|25px]] [[NVGate_Mask_And_Alarm|Mask And Alarm]]<br />
|-<br />
|[[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Virtual Input|Virtual Input]]<br />
|-<br />
<br />
|} </li><br />
</ul></div><br />
<br />
{| class="wikitable"<br />
|-<br />
| [[NVGate_Status_bar|Status bar]]|| [[NVGate Shortcuts|Shortcuts]]||[[NVGate_Glossary|Glossary]]<br />
|}<br />
<br />
<br />
<div><ul><br />
<li style="display: inline-table;"><br />
{| class="wikitable"<br />
|+ <br />
|-<br />
! Workspace View <br />
|-<br />
| [[NVGate_Architecture|Architecture]]<br />
|-<br />
| [[File:ASB_.png|link=NVGate_Analyzer_Setting_Browser_(ASB)]]<br />
|-<br />
| Sources [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]]:<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Front_End|Front End]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Recorder|Recorder]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Player|Player]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Virtual Input|Virtual Input]]<br />
|-<br />
|<br />
|-<br />
| Resources [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]]:<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate Output Signals|Output Signals]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Event_definition|Event definition]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Filter_Builder|Filter]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Time_windows|Time windows]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Tachometer|Tachometer]]<br />
|-<br />
|<br />
|-<br />
| Plug in [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]]: <br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT_Analyzer|FFT]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Synchronous_Order_Analysis|Synchronous Order Analysis (SOA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Time_Domain_Analysis|Time Domain Analysis (TDA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate Octave Analyzer]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Overall_Acoustic_-_Sound_Level_meter|Overall Acoustic (OVA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate Monitor Plug In|Monitor]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall|Waterfall]]<br />
|-<br />
|<br />
|-<br />
| [[File:Control_pannel.png|link=NVGate_Control_Panel]]<br />
|-<br />
| [[File:Project manager.png|link=NVGate_Project_manager]]<br />
|-<br />
|<br />
|-<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Display - windows - Trace<br />
|-<br />
|[[NVGate Display|Display Overview]] <br />
|-<br />
| [[NVGate Integrate - Differentiate - Unit|Integrate/Differentiate - Unit (RMS, pk, PSD...)]]<br />
<br />
|-<br />
|[[NVGate_Operator|Graphical Operator]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Zoomed signal|Player Zoomed signal]] <br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Add ons<br />
|-<br />
|[[External_Tools:_TachTool|TachTool : Extract tach]]<br />
|-<br />
|[[NVGate_BatchPostProcess_tool|BatchPostProcess]]<br />
|-<br />
|[[External tools: Rosette computation|Rosette computation]]<br />
|-<br />
|[[NVGate_RT60|RT60 computation]]<br />
|-<br />
|[[NVGate_Tools:_AutoReport|Automatic production test report]]<br />
|-<br />
|[[NVGate_Tools:_EditSignal|Edit Time Signal]]<br />
|-<br />
|[[NVGate_Tools:_CanBus_Import_.dbc|CanBus Import .dbc files]]<br />
|-<br />
|[[NVGate_IRIG_Marker|IRIG Marker]]<br />
|-<br />
|[[NVGate_HP_Spectrum_Analyzer|HP Spectrum Analyzer Model]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#GPS|GPS]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#Weather_station|Weather station]]<br />
|-<br />
| [[Human Vibration]]<br />
|-<br />
|} </li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Signal processing note<br />
|-<br />
|[[NVGate CBT principle and settings|CBT principle and settings]]<br />
|-<br />
|[[NVGate_SOA_and_CBT_techniques|SOA vs CBT]]<br />
|-<br />
|[[NVGate_Envelope_analysis|Envelope Analysis]]<br />
|-<br />
|[[NVGate_time_shift_resampling|Ext synch: time shift resampling]]<br />
|-<br />
|[[User_note:_FFT_averaging|FFT Averaging]]<br />
|-<br />
|} </li><br />
<br />
{| class="wikitable"<br />
|-<br />
| Appendix:||[[NVGate_Formula_Computation|NVGate FFT Computation]]||[[NVGate_filter_formula_appendix|Filter: curve and formula]]||[[NVGate_Weighting_Windows_appendix|Weighting Windows]]||[[NVGate Specification]]<br />
|}</div>Adminhttps://wiki.oros.com/index.php?title=NVGate&diff=8915NVGate2021-12-07T08:42:59Z<p>Admin: </p>
<hr />
<div>{{Software<br />
test<br />
|Logo= [[image:general-B-256.png|90px]]<br />
|Name= NVGate Software<br />
|Screenshot=[[File:nvGate 7 550pxls.jpg|120px]]<br />
|Developers= [http://www.OROS.com Oros SA]<br />
|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] <br />
|First release= 2001<br />
<br />
|Latest Version= NVGate 2021 - January 2021<br />
|Download= [[NVGate_2021:_Install_Process|Here]]<br />
|Update=<br />
|Operating system= Windows 10 (and W7) ([[PC_Requirements|see PC requirements]])<br />
|Language= English, [https://www.toyo.co.jp/mecha/products/detail/oros-fft.html Japanese], Russian<br />
|Licence = Proprietery<br />
|website=[http://www.oros.com oros.com] and here!<br />
}}<br />
<br />
---<big>'''New version: [[NVGate 2021: Release note|NVGate 2021]]'''</big>---<br />
<br />
==Install==<br />
[[NVGate_2021:_Install_Process|Update to the latest version]]<br><br />
<br />
[[NVGate Installation and Connection|Installation and Connection]]<br><br />
<br />
<br />
<br />
==First step==<br />
[[NVGate Software overview]]<br><br />
[https://www.oros.com/services/tutorial-videos/ NVGate Video Tutorial]<br><br />
[[NVGate: How do I|NVGate: How do I?]]<br><br />
<br />
== Complete documentation ==<br />
<br />
{| class="wikitable"<br />
| [[NVGate Ribbons overview|Interface and Ribbon Overview]]<br />
|}<br />
<div><ul><br />
<li style="display: inline-table;"><br />
{| class="wikitable"<br />
|+ <br />
|-<br />
! [[File:home_50.png|65px|link=NVGate Ribbons: Home Tab]] <br />
|-<br />
| [[File:GoToR.png|link=http://wiki.oros.com/mediawiki/index.php/NVGate_Software_overview#GoToResult]][[NVGate_Software_overview#Starting_NVGate|Start GoToResult]]<br />
|-<br />
| [[File:dataset_i.png|25px]][[NVGate dataset management|Dataset management]]<br />
|-<br />
| [[File:preference.png|25px]] [[NVGate User Preferences|User Preferences]]<br />
|-<br />
| [[File:properties.png|25px]] [[NVGate:_Properties|Properties]] <br />
|-<br />
| [[File:PA_icone.png|25px]] [[NVGate Post Analysis|Post Analyze]]<br />
|-<br />
| [[File:edit_icone.png|25px]] [[NVGate_Ribbons:_Home_Tab#Edit_Measurement|Edit Measurement]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_255.png|25px]] [[NVGate_Transducer_and_Calibration|Transducer and Calibration]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_503.jpg|25px]] [[NVGate_Export/import|Export/Import file]]<br />
|-<br />
| [[NVGate D-Rec|D-Rec : record without PC]]<br />
|-<br />
| [[File:OR10_stand_alone.png|25px]] [[NVGate_OR10_Stand_alone|OR10 Stand Alone]] <br />
|}</li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Measurement_50.png|124px|link=NVGate Ribbons: Measurement Tab]]<br />
|-<br />
|[[File:Save_i.png|25px]][[NVGate_Ribbons:_Measurement_Tab#Save_setup_tab|Save setup]] <br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Acquisition_50.png|95px|link=NVGate Ribbons: Acquisition Tab]]<br />
|-<br />
|[[File:connect_wiz.png|25px]][[NVGate_Connection_Wizard|Connect Track]] <br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Front_End|Front End]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Recorder|Recorder]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Player|Player]]<br />
|-<br />
| <br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate Output Signals|Output Signals]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Event_definition|Event definition]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Filter_Builder|Filter]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Tachometer|Tachometer]]<br />
|-<br />
|[[NVGate_Time_windows|Force / response windows]]<br />
|-<br />
|[[NVGate Torsional|Torsional Analysis]]<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Analyses_50.png|90px|link=NVGate Ribbons: Analysis Tab]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT_Analyzer|FFT]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Synchronous_Order_Analysis|Synchronous Order Analysis (SOA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Time_Domain_Analysis|Time Domain Analysis (TDA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Octave_Analyzer|1/n Octave Analyzer]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Overall_Acoustic_-_Sound_Level_meter|Overall Acoustic (OVA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate Monitor Plug In|Monitor]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall|Waterfall]]<br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Display_Graph_50.png|134px|link=NVGate Ribbons: Display/Graph Tab]]<br />
|-<br />
|[[File:ADD_re.png|25px]] [[NVGate Ribbons: Display/Graph Tab|Add/remove windows]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_467.png|25px]] [[NVGate Marker|Marker]]<br />
|-<br />
|[[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall#Waterfall_Display|Waterfall Display]]<br />
<br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Report_50.png|70px|link=NVGate_Report]]<br />
|-<br />
|} </li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Tools_50.png|57px|link=NVGate Ribbons: Tools Tab]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_71.jpg|25px]] [[NVGate Macro|Macro]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_134.png|25px]] [[NVGate_Sequence|Sequencer]]<br />
|-<br />
|[[File:CP.png|25px]][[NVGate_Control_Panel|Control Panel]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_162.png|25px]] [[NVGate_Mask_And_Alarm|Mask And Alarm]]<br />
|-<br />
|[[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Virtual Input|Virtual Input]]<br />
|-<br />
<br />
|} </li><br />
</ul></div><br />
<br />
{| class="wikitable"<br />
|-<br />
| [[NVGate_Status_bar|Status bar]]|| [[NVGate Shortcuts|Shortcuts]]||[[NVGate_Glossary|Glossary]]<br />
|}<br />
<br />
<br />
<div><ul><br />
<li style="display: inline-table;"><br />
{| class="wikitable"<br />
|+ <br />
|-<br />
! Workspace View <br />
|-<br />
| [[NVGate_Architecture|Architecture]]<br />
|-<br />
| [[File:ASB_.png|link=NVGate_Analyzer_Setting_Browser_(ASB)]]<br />
|-<br />
| Sources [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]]:<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Front_End|Front End]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Recorder|Recorder]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Player|Player]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Virtual Input|Virtual Input]]<br />
|-<br />
|<br />
|-<br />
| Resources [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]]:<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate Output Signals|Output Signals]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Event_definition|Event definition]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Filter_Builder|Filter]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Time_windows|Time windows]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Tachometer|Tachometer]]<br />
|-<br />
|<br />
|-<br />
| Plug in [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]]: <br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT_Analyzer|FFT]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Synchronous_Order_Analysis|Synchronous Order Analysis (SOA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Time_Domain_Analysis|Time Domain Analysis (TDA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate Octave Analyzer]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Overall_Acoustic_-_Sound_Level_meter|Overall Acoustic (OVA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate Monitor Plug In|Monitor]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall|Waterfall]]<br />
|-<br />
|<br />
|-<br />
| [[File:Control_pannel.png|link=NVGate_Control_Panel]]<br />
|-<br />
| [[File:Project manager.png|link=NVGate_Project_manager]]<br />
|-<br />
|<br />
|-<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Display - windows - Trace<br />
|-<br />
|[[NVGate Display|Display Overview]] <br />
|-<br />
| [[NVGate Integrate - Differentiate - Unit|Integrate/Differentiate - Unit (RMS, pk, PSD...)]]<br />
<br />
|-<br />
|[[NVGate_Operator|Graphical Operator]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Zoomed signal|Player Zoomed signal]] <br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Add ons<br />
|-<br />
|[[External_Tools:_TachTool|TachTool : Extract tach]]<br />
|-<br />
|[[NVGate_BatchPostProcess_tool|BatchPostProcess]]<br />
|-<br />
|[[External tools: Rosette computation|Rosette computation]]<br />
|-<br />
|[[NVGate_RT60|RT60 computation]]<br />
|-<br />
|[[NVGate_Tools:_AutoReport|Automatic production test report]]<br />
|-<br />
|[[NVGate_Tools:_EditSignal|Edit Time Signal]]<br />
|-<br />
|[[NVGate_Tools:_CanBus_Import_.dbc|CanBus Import .dbc files]]<br />
|-<br />
|[[NVGate_IRIG_Marker|IRIG Marker]]<br />
|-<br />
|[[NVGate_HP_Spectrum_Analyzer|HP Spectrum Analyzer Model]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#GPS|GPS]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#Weather_station|Weather station]]<br />
|-<br />
| [[Human Vibration]]<br />
|-<br />
|} </li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Signal processing note<br />
|-<br />
|[[NVGate CBT principle and settings|CBT principle and settings]]<br />
|-<br />
|[[NVGate_SOA_and_CBT_techniques|SOA vs CBT]]<br />
|-<br />
|[[NVGate_Envelope_analysis|Envelope Analysis]]<br />
|-<br />
|[[NVGate_time_shift_resampling|Ext synch: time shift resampling]]<br />
|-<br />
|[[User_note:_FFT_averaging|FFT Averaging]]<br />
|-<br />
|} </li><br />
<br />
{| class="wikitable"<br />
|-<br />
| Appendix:||[[NVGate_Formula_Computation|NVGate FFT Computation]]||[[NVGate_filter_formula_appendix|Filter: curve and formula]]||[[NVGate_Weighting_Windows_appendix|Weighting Windows]]||[[NVGate Specification]]<br />
|}</div>Adminhttps://wiki.oros.com/index.php?title=NVGate&diff=8914NVGate2021-12-07T08:42:31Z<p>Admin: Created page with "{{Software |Logo= 90px |Name= NVGate Software |Screenshot=120px |Developers= [http://www.OROS.com Oros SA] |Type= [ht..."</p>
<hr />
<div>{{Software<br />
|Logo= [[image:general-B-256.png|90px]]<br />
|Name= NVGate Software<br />
|Screenshot=[[File:nvGate 7 550pxls.jpg|120px]]<br />
|Developers= [http://www.OROS.com Oros SA]<br />
|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] <br />
|First release= 2001<br />
<br />
|Latest Version= NVGate 2021 - January 2021<br />
|Download= [[NVGate_2021:_Install_Process|Here]]<br />
|Update=<br />
|Operating system= Windows 10 (and W7) ([[PC_Requirements|see PC requirements]])<br />
|Language= English, [https://www.toyo.co.jp/mecha/products/detail/oros-fft.html Japanese], Russian<br />
|Licence = Proprietery<br />
|website=[http://www.oros.com oros.com] and here!<br />
}}<br />
<br />
---<big>'''New version: [[NVGate 2021: Release note|NVGate 2021]]'''</big>---<br />
<br />
==Install==<br />
[[NVGate_2021:_Install_Process|Update to the latest version]]<br><br />
<br />
[[NVGate Installation and Connection|Installation and Connection]]<br><br />
<br />
<br />
<br />
==First step==<br />
[[NVGate Software overview]]<br><br />
[https://www.oros.com/services/tutorial-videos/ NVGate Video Tutorial]<br><br />
[[NVGate: How do I|NVGate: How do I?]]<br><br />
<br />
== Complete documentation ==<br />
<br />
{| class="wikitable"<br />
| [[NVGate Ribbons overview|Interface and Ribbon Overview]]<br />
|}<br />
<div><ul><br />
<li style="display: inline-table;"><br />
{| class="wikitable"<br />
|+ <br />
|-<br />
! [[File:home_50.png|65px|link=NVGate Ribbons: Home Tab]] <br />
|-<br />
| [[File:GoToR.png|link=http://wiki.oros.com/mediawiki/index.php/NVGate_Software_overview#GoToResult]][[NVGate_Software_overview#Starting_NVGate|Start GoToResult]]<br />
|-<br />
| [[File:dataset_i.png|25px]][[NVGate dataset management|Dataset management]]<br />
|-<br />
| [[File:preference.png|25px]] [[NVGate User Preferences|User Preferences]]<br />
|-<br />
| [[File:properties.png|25px]] [[NVGate:_Properties|Properties]] <br />
|-<br />
| [[File:PA_icone.png|25px]] [[NVGate Post Analysis|Post Analyze]]<br />
|-<br />
| [[File:edit_icone.png|25px]] [[NVGate_Ribbons:_Home_Tab#Edit_Measurement|Edit Measurement]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_255.png|25px]] [[NVGate_Transducer_and_Calibration|Transducer and Calibration]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_503.jpg|25px]] [[NVGate_Export/import|Export/Import file]]<br />
|-<br />
| [[NVGate D-Rec|D-Rec : record without PC]]<br />
|-<br />
| [[File:OR10_stand_alone.png|25px]] [[NVGate_OR10_Stand_alone|OR10 Stand Alone]] <br />
|}</li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Measurement_50.png|124px|link=NVGate Ribbons: Measurement Tab]]<br />
|-<br />
|[[File:Save_i.png|25px]][[NVGate_Ribbons:_Measurement_Tab#Save_setup_tab|Save setup]] <br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Acquisition_50.png|95px|link=NVGate Ribbons: Acquisition Tab]]<br />
|-<br />
|[[File:connect_wiz.png|25px]][[NVGate_Connection_Wizard|Connect Track]] <br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Front_End|Front End]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Recorder|Recorder]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Player|Player]]<br />
|-<br />
| <br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate Output Signals|Output Signals]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Event_definition|Event definition]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Filter_Builder|Filter]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Tachometer|Tachometer]]<br />
|-<br />
|[[NVGate_Time_windows|Force / response windows]]<br />
|-<br />
|[[NVGate Torsional|Torsional Analysis]]<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Analyses_50.png|90px|link=NVGate Ribbons: Analysis Tab]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT_Analyzer|FFT]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Synchronous_Order_Analysis|Synchronous Order Analysis (SOA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Time_Domain_Analysis|Time Domain Analysis (TDA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Octave_Analyzer|1/n Octave Analyzer]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Overall_Acoustic_-_Sound_Level_meter|Overall Acoustic (OVA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate Monitor Plug In|Monitor]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall|Waterfall]]<br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Display_Graph_50.png|134px|link=NVGate Ribbons: Display/Graph Tab]]<br />
|-<br />
|[[File:ADD_re.png|25px]] [[NVGate Ribbons: Display/Graph Tab|Add/remove windows]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_467.png|25px]] [[NVGate Marker|Marker]]<br />
|-<br />
|[[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall#Waterfall_Display|Waterfall Display]]<br />
<br />
|-<br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Report_50.png|70px|link=NVGate_Report]]<br />
|-<br />
|} </li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! [[File:Tools_50.png|57px|link=NVGate Ribbons: Tools Tab]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_71.jpg|25px]] [[NVGate Macro|Macro]]<br />
|-<br />
|[[File:Reports_Tools_Ribbons_134.png|25px]] [[NVGate_Sequence|Sequencer]]<br />
|-<br />
|[[File:CP.png|25px]][[NVGate_Control_Panel|Control Panel]]<br />
|-<br />
| [[File:Reports_Tools_Ribbons_162.png|25px]] [[NVGate_Mask_And_Alarm|Mask And Alarm]]<br />
|-<br />
|[[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Virtual Input|Virtual Input]]<br />
|-<br />
<br />
|} </li><br />
</ul></div><br />
<br />
{| class="wikitable"<br />
|-<br />
| [[NVGate_Status_bar|Status bar]]|| [[NVGate Shortcuts|Shortcuts]]||[[NVGate_Glossary|Glossary]]<br />
|}<br />
<br />
<br />
<div><ul><br />
<li style="display: inline-table;"><br />
{| class="wikitable"<br />
|+ <br />
|-<br />
! Workspace View <br />
|-<br />
| [[NVGate_Architecture|Architecture]]<br />
|-<br />
| [[File:ASB_.png|link=NVGate_Analyzer_Setting_Browser_(ASB)]]<br />
|-<br />
| Sources [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]]:<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Front_End|Front End]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Recorder|Recorder]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Player|Player]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Virtual Input|Virtual Input]]<br />
|-<br />
|<br />
|-<br />
| Resources [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]]:<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate Output Signals|Output Signals]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Event_definition|Event definition]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Filter_Builder|Filter]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Time_windows|Time windows]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_11.png]] [[NVGate_Tachometer|Tachometer]]<br />
|-<br />
|<br />
|-<br />
| Plug in [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]]: <br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT_Analyzer|FFT]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Synchronous_Order_Analysis|Synchronous Order Analysis (SOA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Time_Domain_Analysis|Time Domain Analysis (TDA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate Octave Analyzer]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Overall_Acoustic_-_Sound_Level_meter|Overall Acoustic (OVA)]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate Monitor Plug In|Monitor]]<br />
|-<br />
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall|Waterfall]]<br />
|-<br />
|<br />
|-<br />
| [[File:Control_pannel.png|link=NVGate_Control_Panel]]<br />
|-<br />
| [[File:Project manager.png|link=NVGate_Project_manager]]<br />
|-<br />
|<br />
|-<br />
|}</li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Display - windows - Trace<br />
|-<br />
|[[NVGate Display|Display Overview]] <br />
|-<br />
| [[NVGate Integrate - Differentiate - Unit|Integrate/Differentiate - Unit (RMS, pk, PSD...)]]<br />
<br />
|-<br />
|[[NVGate_Operator|Graphical Operator]]<br />
|-<br />
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate Zoomed signal|Player Zoomed signal]] <br />
|} </li><br />
<br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Add ons<br />
|-<br />
|[[External_Tools:_TachTool|TachTool : Extract tach]]<br />
|-<br />
|[[NVGate_BatchPostProcess_tool|BatchPostProcess]]<br />
|-<br />
|[[External tools: Rosette computation|Rosette computation]]<br />
|-<br />
|[[NVGate_RT60|RT60 computation]]<br />
|-<br />
|[[NVGate_Tools:_AutoReport|Automatic production test report]]<br />
|-<br />
|[[NVGate_Tools:_EditSignal|Edit Time Signal]]<br />
|-<br />
|[[NVGate_Tools:_CanBus_Import_.dbc|CanBus Import .dbc files]]<br />
|-<br />
|[[NVGate_IRIG_Marker|IRIG Marker]]<br />
|-<br />
|[[NVGate_HP_Spectrum_Analyzer|HP Spectrum Analyzer Model]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#GPS|GPS]]<br />
|-<br />
|[[NVGate_DC_Simulated_Manager#Weather_station|Weather station]]<br />
|-<br />
| [[Human Vibration]]<br />
|-<br />
|} </li><br />
<li style="display: inline-table;"><br />
{| class="wikitable" <br />
! style="padding: 5px" |Signal processing note<br />
|-<br />
|[[NVGate CBT principle and settings|CBT principle and settings]]<br />
|-<br />
|[[NVGate_SOA_and_CBT_techniques|SOA vs CBT]]<br />
|-<br />
|[[NVGate_Envelope_analysis|Envelope Analysis]]<br />
|-<br />
|[[NVGate_time_shift_resampling|Ext synch: time shift resampling]]<br />
|-<br />
|[[User_note:_FFT_averaging|FFT Averaging]]<br />
|-<br />
|} </li><br />
<br />
{| class="wikitable"<br />
|-<br />
| Appendix:||[[NVGate_Formula_Computation|NVGate FFT Computation]]||[[NVGate_filter_formula_appendix|Filter: curve and formula]]||[[NVGate_Weighting_Windows_appendix|Weighting Windows]]||[[NVGate Specification]]<br />
|}</div>Adminhttps://wiki.oros.com/index.php?title=Addons:PV_Diagram&diff=8898Addons:PV Diagram2021-11-22T15:55:03Z<p>Admin: Created page with "TODO."</p>
<hr />
<div>TODO.</div>Adminhttps://wiki.oros.com/index.php?title=Monitoring_Solution_%E3%81%82&diff=8774Monitoring Solution あ2021-06-08T07:14:55Z<p>Admin: Admin moved page Monitoring Solution あ to Monitoring Solution over redirect</p>
<hr />
<div>#REDIRECT [[Monitoring Solution]]</div>Adminhttps://wiki.oros.com/index.php?title=Monitoring_Solution&diff=8773Monitoring Solution2021-06-08T07:14:55Z<p>Admin: Admin moved page Monitoring Solution あ to Monitoring Solution over redirect</p>
<hr />
<div>==Introduction==<br />
The OROS Monitoring solution is a tool dedicated to advanced triggering based on analysis results. It includes a "watch dog" feature to keep NVGate and analyzer running over a long period of time.<br />
<br />
It can manage the automatic recovery of the Monitoring module, restart the analysis, NVGate, as well as the analyzer (using the additional USB/RJ11 autonomy box).<br />
<br />
This module routinely identifies and evaluates user selected parameters and provides a panel of conditional actions to complete. The main features are:<br />
<br />
* Ensure that the analyzer is running.<br />
* Ensure that NVGate is running.<br />
* Trigger actions (macro, exe, etc.) depending on conditional measured scalar values.<br />
<br />
This module is dedicated for mid to long term monitoring in order to have an autonomous recording and analysis.<br />
<br />
<font color="#FFFFFF"><br />
[[Image:Monitoring_OROS_02.png|800px]]<br />
<br />
</font>''Figure 1 - Monitoring application interface''<br />
<br />
----<br />
<br />
==Installation==<br />
===Download===<br />
Download last version of [https://orossas.sharepoint.com/:u:/g/support/EVxwgs_YRy9Dud6Yp50-c9QBzdeEq6YkrMSnCtoZxr2nCw?e=DK6HQw Monitoring V1.0].<br />
<br />
===Equipment required for the installation===<br />
USB drive containing Monitoring software installation setup “SetupMonitoring.exe”.<br />
<br />
NVGate software must have been installed first.<br />
<br />
===Installation of NVGate software===<br />
First you need to [[NVGate_2021:_Install_Process|install NVGate]].<br />
<br />
===Installation of Monitoring software===<br />
Run “SetupMonitoring.exe” program, and the following window is displayed:<br />
<br />
[[File:image_2021-05-17_113913.png|400px]]<br />
<br />
Click on “Next”, and the following window is displayed:<br />
<br />
[[File:image_2021-05-17_113933.png|400px]]<br />
<br />
Read the terms in the license agreement and check “I accept the terms in the License Agreement” if you agree. Click on “Next”, the following window is displayed:<br />
<br />
[[File:image_2021-05-17_113955.png|400px]]<br />
<br />
Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\Monitoring. Click on “Install” to start the installation, and wait until the following window is displayed:<br />
<br />
[[File:image_2021-05-17_114021.png|400px]]<br />
<br />
Click on “Finish” to exit the setup wizard, and OROS Monitoring software is successfully installed. It will create a shortcut on your desktop but also to NVGate "Links" folder in order to have a direct access from NVGate via the link section.<br />
<br />
The drivers for the Autonomy Box are installed during the default installation.<br />
<br />
In order to ensure an autonomous monitoring, it is necessary that both the PC and Monitoring Application are able to be automatically restarted. To allow that, create a shortcut of the Monitoring application into the windows startup directory (C:\Users\USERNAME\AppData\Roaming\Microsoft\Windows\Start Menu\Programs\Startup). The monitoring application will take care of restarting NVGate if it is not already running.<br />
<br />
===Autonomy kit installation (optional)===<br />
The autonomy kit must be plugged on the RJ11 analyzer<nowiki>'</nowiki>s port and to the USB slot of the computer, and drivers should be installed. Drivers are provided in the installation and can also be installed manually in case troubleshooting is necessary.<br />
<br />
This autonomy kit is dedicated to OROS analyzers. Do not use with any other device.<br />
<br />
Only use original components furnished.<br />
<br />
[[Image:Monitoring_OROS_03.gif|framed|none]]<br />
<br />
<font color="#1F497D"><br />
<br />
<br />
''Figure 2 – Autonomy kit installation in case of OR36''</font><br />
<br />
[[Image:Monitoring_OROS_01.png|50px]]This '''Autonomy Kit''' contains electronic equipment. It should not be mixed with general household waste. For proper treatment, return this product to OROS or to any local company authorized to recycle waste electrical and electronic equipment.<br />
<br />
<br />
[[File:CE.png]]This '''Autonomy Kit''' complies with following European Standards:<br />
<br />
* 2014/35/EU low voltage directive<br />
* 2011/65/EU and 2015/863 ROHS directive<br />
* 2012/19/EU WEEE directive<br />
<br />
===PC and Windows configuration===<br />
In order to guarantee a full autonomy, the computer must be configured to reboot in case of any power failure. The following PC parameters are advised:<br />
<br />
<u>'''PC automatic restart due to power failure:'''</u><br />
<br />
To account for any potential power failure at the analyzers location the following settings should be programmed on the PC to automatically switch on the PC once the power is restored.<br />
<br />
Access the PC<nowiki>'</nowiki>s BIOS:<br />
<br />
* Restart PC, press F12 (on most PC<nowiki>'</nowiki>s) to access the PC<nowiki>'</nowiki>s Bios.<br />
* Check the Bios parameters.<br />
* On power management check the option "power on AC".<br />
<br />
Specific settings should be chosen in the computer<br />
* PC <br />
<br />
Contact you IT manager to properly configure the computer : disable low-power sleep mode, no password to automatically restart windows, no low-energy or powering-off option …). In addition, installation of Teamviewer is recommended in order to monitor from a remote access.<br />
<br />
If you plan to monitor your application for more than a couple of hours, it is advised to power both the computer and the OROS analyzer by mains (not on battery).<br />
<br />
Consider installing a remote access software.<br />
<br />
It could be useful to control the computer when an alert is trigged for example.<br />
<br />
==Operating the Monitoring solution==<br />
===First steps in NVGate===<br />
<br />
One should go first through the basic settings of the acquisition of NVGate. From NVGate, setup a project dedicated to monitoring and display the scalar values which should be monitored on the current layout.<br />
<br />
<font color="#4DA836">'''Create a new project'''</font><br />
<br />
A new project, with the name "Monitoring App", should be created as below when first starting.<br />
<br />
Then a new setup configuration should be started<br />
<br />
[[Image:Monitoring_OROS_04.png|framed|none]]<br />
<br />
<font color="#4DA836">'''Setting up the inputs and analysis'''</font><br />
<br />
Then one should go through inputs, analysis and display setups using for example ''Gotoresult''<br />
<br />
[[Image:Monitoring_OROS_05.png|framed|none]]<br />
<br />
<font color="#1F497D">''Figure 5 - Inputs setup''<br />
<br />
</font><br />
[[Image:Monitoring_OROS_06.png|framed|none]]<br />
<br />
Figure 6 - <font color="#1F497D">''Adding displays of Scalar values''</font><br />
<br />
It is necessary to display scalar values: those will be the ones to be monitored and trigger actions<br />
<br />
<font color="#4DA836">'''Adding/naming a layout:'''</font><br />
<br />
This current layout must be named "monitoring" (in lowercase). Here below is shown one way to rename the current layout: right click on "Layout1" and the rename possibility is shown<br />
<br />
[[Image:Monitoring_Layout_Rename.png|framed|none]]<br />
<br />
<font color="#1F497D">''Figure 7 - Renaming the layout''</font><br />
<br />
<font color="#4DA836">'''Saving the project and the model'''</font><br />
<br />
[[Image:Monitoring_OROS_08.png|framed|none]]<br />
<br />
Then the project should be saved<br />
<br />
===First steps in the Monitoring Application===<br />
Launch "Monitoring_Settings.exe" which is located into Monitoring folder. You will be able to fill some values which are necessary to monitor and operate the watchdog. Those are:<br />
<br />
* '''NVGate location''': NVGate folder location (containing NVGate.exe).<br />
* '''Workbook name''': Name of the monitoring model.<br />
* '''Project name''': Name of the monitoring project.<br />
* '''Autonomy kit connection''': Analyzer type should be detected automatically. This is necessary to ensure the Monitoring Box functions properly. It supports V2 and V3s instruments (for OR36 and OR38) as well as OR35TW<br />
* '''Analyzer IP''': If the IP is not defined correctly, the application will not be able to check if the unit is on and therefore will also not be able to boot or shutdown the Analyzer.<br />
* '''RebootBox COM:''' Select the Monitoring Box COM Port. This is required to boot/shutdown the analyzer. If the Monitoring Box is not connected, or the correct drivers are not installed the list will be empty. If more than one COM port are listed, please ensure you are selecting the rebootbox one.<br />
* '''Significant digits:''' Set significant digits to display.<br />
<br />
As shown in the dialog window as below<br />
<br />
[[Image:Monitoring_OROS_09.png|800px]]<br />
<br />
<font color="#1F497D">''Figure 10 - Monitoring and Autonomy box parameters settings''</font><br />
<br />
In the following window, settings can be entered in order to let the system use the email Action<br />
<br />
[[Image:Monitoring_OROS_10.png|800px]]<br />
<br />
<font color="#1F497D">''Figure 11 – Setup of the email''</font><br />
<br />
===First start of the Monitoring Application===<br />
After parameters set-up, launch the Monitoring application, press "Refresh", It will recognize some parameters and display your scalars in the current layout.<br />
<br />
Then, configure the condition you want for each scalar and linked actions. To do that, select an operator to compare the measured value with the target value (which must also be defined). For example, if you select "<nowiki>></nowiki>" and "2" for an acceleration scalar, when this value is larger than 2 the selected action will be triggered.<br />
<br />
Finally, close the Monitoring Application, close NVGate, shutdown your analyzer, and then launch the Monitoring Application. If everything starts by itself, Monitoring was setup properly and monitoring has initiated.<br />
<br />
===User interface===<br />
The user interface main window is as below. It is built with 3 main sections: Parameters (as described previously), Monitoring panel, and the Logbook.<br />
<br />
[[Image:Monitoring_OROS_11.png|framed|none]]<br />
<br />
<font color="#1F497D">''Figure 12 - Main user interface window''</font><br />
<br />
<br />
[[Image:Monitoring_OROS_12.png|800px]]<br />
<br />
<font color="#1F497D">''Figure 13 - Main user interface window''</font><br />
<br />
===Monitoring panel===<br />
<br />
[[Image:Monitoring_OROS_13.png|900px]]<br />
<br />
<font color="#1F497D">''Figure 14 - The Monitoring panel window''</font><br />
<br />
The columns have the following content:<br />
<br />
* Information retrieved from NVGate running project:<br />
* '''Window: '''Selected scalar window<nowiki>'</nowiki>s name.<br />
* '''Module: '''Selected scalar module<nowiki>'</nowiki>s name.<br />
* '''Result: '''Selected scalar process<nowiki>'</nowiki>s name.<br />
* '''Channel: '''Selected scalar channel<nowiki>'</nowiki>s number.<br />
* '''Label: '''Selected scalar input<nowiki>'</nowiki>s name.<br />
* '''Values: '''Selected scalar values (SI).<br />
* '''Units: '''Selected scalar units.<br />
* Information specified by the user:<br />
* '''Operator: '''Condition to be satisfied for actions:<br />
* '''<nowiki>></nowiki>: '''If the measured value is greater than the target value, then action.<br />
* '''<nowiki><</nowiki>: '''If the measured value is less than the target value, then action.<br />
* '''Cross: '''If the measured value crosses the target value, then action.<br />
* '''Trigger Values: '''Condition to be satisfied for actions.<br />
* '''Action: '''What do you want to do when the condition is satisfied:<br />
* Activate / Deactivate outputs.<br />
* Run / Stop analyzer.<br />
* Trigger a User Event.<br />
* Launch a macro (coming from NVGate).<br />
* Email<br />
* '''Hold off (s): '''Time holdoff is the delay between each action coming from this scalar (e.g.: 10s means the action cannot be triggered during the 10s following a triggered action.). Default value is 5 seconds and must be higher than 1 second.<br />
* '''Persistence (s): '''Time persistence is the time necessary to trig the action (e.g.: 2s means the action will be triggered only if the condition is respected during 2s).<br />
* '''Comments: '''Comments, it will be used for measurement name.<br />
* Information computed by the monitoring application:<br />
* '''Status: '''Green if the condition is not satisfied (no action). Red if the condition is satisfied (action).<br />
* '''Events: '''How many times it has been triggered.</div>Adminhttps://wiki.oros.com/index.php?title=Monitoring_Solution&diff=8771Monitoring Solution2021-06-08T07:14:41Z<p>Admin: Admin moved page Monitoring Solution to Monitoring Solution あ</p>
<hr />
<div>==Introduction==<br />
The OROS Monitoring solution is a tool dedicated to advanced triggering based on analysis results. It includes a "watch dog" feature to keep NVGate and analyzer running over a long period of time.<br />
<br />
It can manage the automatic recovery of the Monitoring module, restart the analysis, NVGate, as well as the analyzer (using the additional USB/RJ11 autonomy box).<br />
<br />
This module routinely identifies and evaluates user selected parameters and provides a panel of conditional actions to complete. The main features are:<br />
<br />
* Ensure that the analyzer is running.<br />
* Ensure that NVGate is running.<br />
* Trigger actions (macro, exe, etc.) depending on conditional measured scalar values.<br />
<br />
This module is dedicated for mid to long term monitoring in order to have an autonomous recording and analysis.<br />
<br />
<font color="#FFFFFF"><br />
[[Image:Monitoring_OROS_02.png|800px]]<br />
<br />
</font>''Figure 1 - Monitoring application interface''<br />
<br />
----<br />
<br />
==Installation==<br />
===Download===<br />
Download last version of [https://orossas.sharepoint.com/:u:/g/support/EVxwgs_YRy9Dud6Yp50-c9QBzdeEq6YkrMSnCtoZxr2nCw?e=DK6HQw Monitoring V1.0].<br />
<br />
===Equipment required for the installation===<br />
USB drive containing Monitoring software installation setup “SetupMonitoring.exe”.<br />
<br />
NVGate software must have been installed first.<br />
<br />
===Installation of NVGate software===<br />
First you need to [[NVGate_2021:_Install_Process|install NVGate]].<br />
<br />
===Installation of Monitoring software===<br />
Run “SetupMonitoring.exe” program, and the following window is displayed:<br />
<br />
[[File:image_2021-05-17_113913.png|400px]]<br />
<br />
Click on “Next”, and the following window is displayed:<br />
<br />
[[File:image_2021-05-17_113933.png|400px]]<br />
<br />
Read the terms in the license agreement and check “I accept the terms in the License Agreement” if you agree. Click on “Next”, the following window is displayed:<br />
<br />
[[File:image_2021-05-17_113955.png|400px]]<br />
<br />
Select the installation directory. It is highly recommended to keep the default location: C:\OROS\Programs\Monitoring. Click on “Install” to start the installation, and wait until the following window is displayed:<br />
<br />
[[File:image_2021-05-17_114021.png|400px]]<br />
<br />
Click on “Finish” to exit the setup wizard, and OROS Monitoring software is successfully installed. It will create a shortcut on your desktop but also to NVGate "Links" folder in order to have a direct access from NVGate via the link section.<br />
<br />
The drivers for the Autonomy Box are installed during the default installation.<br />
<br />
In order to ensure an autonomous monitoring, it is necessary that both the PC and Monitoring Application are able to be automatically restarted. To allow that, create a shortcut of the Monitoring application into the windows startup directory (C:\Users\USERNAME\AppData\Roaming\Microsoft\Windows\Start Menu\Programs\Startup). The monitoring application will take care of restarting NVGate if it is not already running.<br />
<br />
===Autonomy kit installation (optional)===<br />
The autonomy kit must be plugged on the RJ11 analyzer<nowiki>'</nowiki>s port and to the USB slot of the computer, and drivers should be installed. Drivers are provided in the installation and can also be installed manually in case troubleshooting is necessary.<br />
<br />
This autonomy kit is dedicated to OROS analyzers. Do not use with any other device.<br />
<br />
Only use original components furnished.<br />
<br />
[[Image:Monitoring_OROS_03.gif|framed|none]]<br />
<br />
<font color="#1F497D"><br />
<br />
<br />
''Figure 2 – Autonomy kit installation in case of OR36''</font><br />
<br />
[[Image:Monitoring_OROS_01.png|50px]]This '''Autonomy Kit''' contains electronic equipment. It should not be mixed with general household waste. For proper treatment, return this product to OROS or to any local company authorized to recycle waste electrical and electronic equipment.<br />
<br />
<br />
[[File:CE.png]]This '''Autonomy Kit''' complies with following European Standards:<br />
<br />
* 2014/35/EU low voltage directive<br />
* 2011/65/EU and 2015/863 ROHS directive<br />
* 2012/19/EU WEEE directive<br />
<br />
===PC and Windows configuration===<br />
In order to guarantee a full autonomy, the computer must be configured to reboot in case of any power failure. The following PC parameters are advised:<br />
<br />
<u>'''PC automatic restart due to power failure:'''</u><br />
<br />
To account for any potential power failure at the analyzers location the following settings should be programmed on the PC to automatically switch on the PC once the power is restored.<br />
<br />
Access the PC<nowiki>'</nowiki>s BIOS:<br />
<br />
* Restart PC, press F12 (on most PC<nowiki>'</nowiki>s) to access the PC<nowiki>'</nowiki>s Bios.<br />
* Check the Bios parameters.<br />
* On power management check the option "power on AC".<br />
<br />
Specific settings should be chosen in the computer<br />
* PC <br />
<br />
Contact you IT manager to properly configure the computer : disable low-power sleep mode, no password to automatically restart windows, no low-energy or powering-off option …). In addition, installation of Teamviewer is recommended in order to monitor from a remote access.<br />
<br />
If you plan to monitor your application for more than a couple of hours, it is advised to power both the computer and the OROS analyzer by mains (not on battery).<br />
<br />
Consider installing a remote access software.<br />
<br />
It could be useful to control the computer when an alert is trigged for example.<br />
<br />
==Operating the Monitoring solution==<br />
===First steps in NVGate===<br />
<br />
One should go first through the basic settings of the acquisition of NVGate. From NVGate, setup a project dedicated to monitoring and display the scalar values which should be monitored on the current layout.<br />
<br />
<font color="#4DA836">'''Create a new project'''</font><br />
<br />
A new project, with the name "Monitoring App", should be created as below when first starting.<br />
<br />
Then a new setup configuration should be started<br />
<br />
[[Image:Monitoring_OROS_04.png|framed|none]]<br />
<br />
<font color="#4DA836">'''Setting up the inputs and analysis'''</font><br />
<br />
Then one should go through inputs, analysis and display setups using for example ''Gotoresult''<br />
<br />
[[Image:Monitoring_OROS_05.png|framed|none]]<br />
<br />
<font color="#1F497D">''Figure 5 - Inputs setup''<br />
<br />
</font><br />
[[Image:Monitoring_OROS_06.png|framed|none]]<br />
<br />
Figure 6 - <font color="#1F497D">''Adding displays of Scalar values''</font><br />
<br />
It is necessary to display scalar values: those will be the ones to be monitored and trigger actions<br />
<br />
<font color="#4DA836">'''Adding/naming a layout:'''</font><br />
<br />
This current layout must be named "monitoring" (in lowercase). Here below is shown one way to rename the current layout: right click on "Layout1" and the rename possibility is shown<br />
<br />
[[Image:Monitoring_Layout_Rename.png|framed|none]]<br />
<br />
<font color="#1F497D">''Figure 7 - Renaming the layout''</font><br />
<br />
<font color="#4DA836">'''Saving the project and the model'''</font><br />
<br />
[[Image:Monitoring_OROS_08.png|framed|none]]<br />
<br />
Then the project should be saved<br />
<br />
===First steps in the Monitoring Application===<br />
Launch "Monitoring_Settings.exe" which is located into Monitoring folder. You will be able to fill some values which are necessary to monitor and operate the watchdog. Those are:<br />
<br />
* '''NVGate location''': NVGate folder location (containing NVGate.exe).<br />
* '''Workbook name''': Name of the monitoring model.<br />
* '''Project name''': Name of the monitoring project.<br />
* '''Autonomy kit connection''': Analyzer type should be detected automatically. This is necessary to ensure the Monitoring Box functions properly. It supports V2 and V3s instruments (for OR36 and OR38) as well as OR35TW<br />
* '''Analyzer IP''': If the IP is not defined correctly, the application will not be able to check if the unit is on and therefore will also not be able to boot or shutdown the Analyzer.<br />
* '''RebootBox COM:''' Select the Monitoring Box COM Port. This is required to boot/shutdown the analyzer. If the Monitoring Box is not connected, or the correct drivers are not installed the list will be empty. If more than one COM port are listed, please ensure you are selecting the rebootbox one.<br />
* '''Significant digits:''' Set significant digits to display.<br />
<br />
As shown in the dialog window as below<br />
<br />
[[Image:Monitoring_OROS_09.png|800px]]<br />
<br />
<font color="#1F497D">''Figure 10 - Monitoring and Autonomy box parameters settings''</font><br />
<br />
In the following window, settings can be entered in order to let the system use the email Action<br />
<br />
[[Image:Monitoring_OROS_10.png|800px]]<br />
<br />
<font color="#1F497D">''Figure 11 – Setup of the email''</font><br />
<br />
===First start of the Monitoring Application===<br />
After parameters set-up, launch the Monitoring application, press "Refresh", It will recognize some parameters and display your scalars in the current layout.<br />
<br />
Then, configure the condition you want for each scalar and linked actions. To do that, select an operator to compare the measured value with the target value (which must also be defined). For example, if you select "<nowiki>></nowiki>" and "2" for an acceleration scalar, when this value is larger than 2 the selected action will be triggered.<br />
<br />
Finally, close the Monitoring Application, close NVGate, shutdown your analyzer, and then launch the Monitoring Application. If everything starts by itself, Monitoring was setup properly and monitoring has initiated.<br />
<br />
===User interface===<br />
The user interface main window is as below. It is built with 3 main sections: Parameters (as described previously), Monitoring panel, and the Logbook.<br />
<br />
[[Image:Monitoring_OROS_11.png|framed|none]]<br />
<br />
<font color="#1F497D">''Figure 12 - Main user interface window''</font><br />
<br />
<br />
[[Image:Monitoring_OROS_12.png|800px]]<br />
<br />
<font color="#1F497D">''Figure 13 - Main user interface window''</font><br />
<br />
===Monitoring panel===<br />
<br />
[[Image:Monitoring_OROS_13.png|900px]]<br />
<br />
<font color="#1F497D">''Figure 14 - The Monitoring panel window''</font><br />
<br />
The columns have the following content:<br />
<br />
* Information retrieved from NVGate running project:<br />
* '''Window: '''Selected scalar window<nowiki>'</nowiki>s name.<br />
* '''Module: '''Selected scalar module<nowiki>'</nowiki>s name.<br />
* '''Result: '''Selected scalar process<nowiki>'</nowiki>s name.<br />
* '''Channel: '''Selected scalar channel<nowiki>'</nowiki>s number.<br />
* '''Label: '''Selected scalar input<nowiki>'</nowiki>s name.<br />
* '''Values: '''Selected scalar values (SI).<br />
* '''Units: '''Selected scalar units.<br />
* Information specified by the user:<br />
* '''Operator: '''Condition to be satisfied for actions:<br />
* '''<nowiki>></nowiki>: '''If the measured value is greater than the target value, then action.<br />
* '''<nowiki><</nowiki>: '''If the measured value is less than the target value, then action.<br />
* '''Cross: '''If the measured value crosses the target value, then action.<br />
* '''Trigger Values: '''Condition to be satisfied for actions.<br />
* '''Action: '''What do you want to do when the condition is satisfied:<br />
* Activate / Deactivate outputs.<br />
* Run / Stop analyzer.<br />
* Trigger a User Event.<br />
* Launch a macro (coming from NVGate).<br />
* Email<br />
* '''Hold off (s): '''Time holdoff is the delay between each action coming from this scalar (e.g.: 10s means the action cannot be triggered during the 10s following a triggered action.). Default value is 5 seconds and must be higher than 1 second.<br />
* '''Persistence (s): '''Time persistence is the time necessary to trig the action (e.g.: 2s means the action will be triggered only if the condition is respected during 2s).<br />
* '''Comments: '''Comments, it will be used for measurement name.<br />
* Information computed by the monitoring application:<br />
* '''Status: '''Green if the condition is not satisfied (no action). Red if the condition is satisfied (action).<br />
* '''Events: '''How many times it has been triggered.</div>Adminhttps://wiki.oros.com/index.php?title=NVGate/ja&diff=8760NVGate/ja2021-06-02T07:21:20Z<p>Admin: Redirected page to NVGate</p>
<hr />
<div>#REDIRECT [[NVGate]]</div>Adminhttps://wiki.oros.com/index.php?title=NVGate_2021:_Release_note&diff=8173NVGate 2021: Release note2020-12-21T10:23:47Z<p>Admin: </p>
<hr />
<div>OROS strives to be closer to its users, carefully listening to needs and requests. For that reason, OROS regularly releases new versions. Customers under contract automatically benefit from each release. <br />
<br />
[[File:Screenshot 2020-12-21 102850.png|500px]]<br />
<br />
The NVGate® 2021 major version is available from january 2021. This release of the OROS 3-Series analyzer’s software platform brings additional functionalities and brings significative performance improvements. Here is below a summary of the main enhancements of your NVGate experience:<br><br />
<br><br />
<br />
{| class="wikitable" style="width: 90%;"<br />
|-<br />
| style="width: 25%"| [[File:1250px-Wikipedia_logo_(svg).svg.png|50px]]<br>''' On line Wiki, how can I help you?''' <br> The help is now available online with a powerful search engine. An offline version is available as well when you are on the field <br />
| style="width: 25%"| [[File:filter__2021.png|50px]]<br> '''Relax the limits of filtering!'''<br> Cut off frequencies of filters can now be chosen very flexibly <br />
| style="width: 25%"| [[File:kinematik_2021.png|50px]]<br>'''- Tracking my bearing frequencies on RPMs variations''' <br> Kinematik markers are now tracking the frequency lines as the speed fluctuates <br />
| style="width: 25%"| [[File:gps_2021.png|50px]]<br> Enrich your measurements in real time with GPS information''' <br />
|-<br />
| [[File:simulated_dc.png|200px]]<br> Using the DC simulated function, one can now associate NVGate results with information from external software in real time using NVDrive<br />
| [[File:orbit_2021.jpg|50px]]<br> '''Draw those orbits!''' <br>Orbits can now be displayed directly in NVGate with FFt-Diag option<br />
| [[File:calibration_2021.png|50px]]<br> dynamical input can now calibrate sensor y = ax+b <br />
| [[File:human_2021.png|50px]]<br>'''- How much does this body shake?''' <br>A new add-on is available to apply human vibrations filters and calculate associated quantities.<br />
|}<br />
<br />
'''- Here is OROS Wiki on the line, how can I help you?''' <br><br />
The help is now available online with a powerful search engine. An offline version is available as well when you are on the field <br><br />
'''- Tracking my bearing frequencies on RPMs variations''' <br> <br />
Kinematik markers are now tracking the frequency lines as the speed fluctuates <br><br />
'''- Enrich your measurements in real time: from GPS to environment info''' <br><br />
Using the DC simulated function, one can now associate NVGate results with metada information in real time <br><br />
- '''Relax the limits of filtering!'''<br><br />
Cut off frequencies of filters can now be chosen very flexibly <br><br />
'''- Draw those orbits!''' <br><br />
Orbits can now be displayed directly in NVGate <br><br />
'''- How much does this body shake?''' <br><br />
A new add-on is available to apply human vibrations filters and calculate associated quantities <br><br />
<br><br />
<br />
This release note describes the content of version, with operating details.<br />
<br />
'''Compatibility:'''<br />
NVGate 2021 is compatible with all OROS instruments that have not been discontinued. Depending on the hardware options and version, some instrument features may or may not be available.<br />
<br />
= Here is OROS Wiki on the line, how can I help you? =<br />
<br />
All the documentation and help have been completely renewed. We have put an online wiki-based documentation with videos, manual, application notes, download.<br />
<br />
This page is in free access and can be consulted here: https://wiki.oros.com/wiki/index.php/Home<br />
<br />
== Online Help: wiki ==<br />
We advice to be connected to internet to enjoy the new documentation page. <br><br />
<br />
So if you are connected to Internet, now the following button will bring you to the NVGate wiki page.<br><br />
<br />
<br />
[[NVGate|https://wiki.oros.com/wiki/index.php/NVGate]]<br />
<br />
<gallery><br />
File:help_menu.png<br />
File:Help_ribbon.png<br />
File:Help_asb.png<br />
</gallery><br />
<br />
Be aware than this wiki page have a powerful research button if you need to search any setting.<br><br />
[[File:help search.png]]<br />
<br />
<br />
If you are using NVGate in another language than english, the wikipage will be opened with /XX at the end (XX correspond to the unicode language.<br><br />
<br />
For example if you are using NVGate in japanese, the help will bring you to the page: <br />
https://wiki.oros.com/wiki/index.php/NVGate/ja (==> ja is the internation japanese code)<br />
<br />
== Off line Help: PDF manual ==<br />
If you are not connected to internet which may often happen on the field, the NVGate.pdf manual will be opened. This file is located in the "Manuals" folder in the installation directory of NVGate.<br />
<br />
== Tutorials Videos ==<br />
<br />
The OROS Youtube channel is available here featuring a full panel of videos on how to use OROS products :<br />
<br />
[[File:youtube.png|600px]]<br><br />
<br />
[https://www.youtube.com/user/OROSanalyzers/ OROS Youtube channels page]<br />
<br />
We have included tutorial videos on this wiki, to help you to use the OROS software.<br />
<br />
= Tracking my bearing frequencies on RPMs variations =<br />
<br />
== Kinematik markers follow FFT tachometer==<br />
<br />
The Kinematik marker can now be associated to the speed of the tachometer.<br />
So during a Run up the kinematik marker will automatically move inside FFT spectrum in function of the speed.<br />
<br />
How to use it :<br />
Select a Tachometer on FFT tab from GoToResult page.<br />
<br />
[[File:kiné_fft.png|500px]]<br />
<br />
Then display a FFT spectrum. Select a kinematik marker and put it on the windows.<br />
<br />
[[File:kiné_select.png|400px]]<br />
<br />
Now this marker will be linked to the FFT speed.<br />
<br />
Then on properties, you can link (or not) this marker to the speed.<br />
<br />
<br />
[[File:kiné_select_active.png|300px]]<br />
<br />
== Automatic installation of the database ==<br />
<br />
Now the excel kinematik database including bearings from NSK, SKF, FAG, SNRn, GMN, INA, RHP is installed automatically.<br />
<br />
You can find it in the installation folder: "NVGate Data\Markers\Kinematic\"<br />
<br />
== Direct access to database==<br />
<br />
When clicking on the "open folder" button, you will directly access to the folder where the Excel kinematik database is stored.<br />
So you can now edit the database easily if you need to add the kinematic configuration of a rotating machine.<br />
<br />
[[File:kiné_select_edit.png|400px]]<br />
<br />
= Enrich your measurements in real time: from GPS to environmental metadata =<br />
<br />
The DC simulated allow you to inject up to 32 external DC channels in NVGate from external source (exemple : GPS, weather station, external can bus...). The frequency sampling is up to 15 samples / seconds.<br />
Thanks to the python developer toolkit, a developer can easily develop an interface to inject the value inside NVGate. The GPS and weather station below have been developed using the DC simulated.<br />
<br />
This option is included with the reference ORNV-VI-DC (which also includes the Virtual input).<br />
<br />
How to use it:<br />
<br><br />
<br />
on the Acquisition Tab, select connect input, select the DC inputs and select the DC simulated channels.<br />
<br />
[[File:DC simulat.png|600px]]<br />
<br />
These channels can be activated and connected to the recorder and/or waterfall like any other DC channels.<br />
<br />
[[File:DC_simul.png]]<br />
<br />
The settings '''Value''' (which can be controlled by an external software) will change the value of the inputs. <br />
<br />
[[NVGate_Front_End#Simulated_DC_Inputs|The others DC simulated settings details]] are explained on the front end settings page.<br />
<br />
== GPS ==<br />
Thanks to the "DC simulated channels" we have created an Add-on to record a GPS.<br />
<br />
The GPS have the following features<br />
<br />
* Record the X-Y GPS coordinates.<br />
* Record and display the speed profile.<br />
* Use the speed profile as a waterfall reference.<br />
* Creat a .gpx and display it on an internet website if you have an Internet connection).<br />
<br />
<br />
You can visit the dedicated page to download it and advanced configuration. : https://wiki.oros.com/wiki/index.php/NVGate_DC_Simulated_Manager<br />
<br />
<br />
We have 2 ways to acquire the GPS position, android phone or GPS Compliant with NMEA 0183 standard.<br />
<br />
<br />
=== Serial GPGGA GPS ===<br />
<br />
We are compatible with GPS USB Serial Interface Compliant with NMEA 0183 standard GPGGA <br><br />
<br />
We can advice the GPS USB Navilock NL-602U but other GPS will work.<br><br />
<br />
[[File:gps_navilock.jpg|200px]]<br />
<br />
=== Android GPS ===<br />
[[File:GPS_phone.png]]<br />
<br />
GPS data can also be retrieved using Android ADB (Android Debug Bridge).<br />
If you plug your android phone, we can inject the GPS position inside NVGate.<br />
<br />
<br />
=== How to use it ===<br />
<br />
Once the gps is plugged and configured, click on inject data, this will put the value on the DC simulated inputs.<br />
<br />
[[File:GPS process 2.png|400]]<br />
<br />
Then you can use these channels on NVGate.<br />
<br />
If you need to record the data, click on connect input, go on DC input tab, then drag and drop the DC simulated channels on recorder.<br />
[[File:GPS process.png]]<br />
<br />
If you have recorded the data you will be able to create a .gpx file<br />
<br />
=== Creating and visualize .gpx file ===<br />
<br />
We can create a .gpx from an .oxf (OROS) signal file. a .gpx is gps file to follow the <br />
<br />
You need to click on "Convert signal to gpx".<br />
[[File:GPS_creategpx.png]]<br />
<br />
This will open the windows below.<br />
[[File:signal_gpx.png]]<br />
<br />
Select the signal file that you need to convert and click on load data.<br />
You can modify the channels if needed.<br />
Click on create .gpx.<br />
The .gpx will be put in the "attachement" folder of the NVGate project.<br />
<br />
If you want to visualize the .gpx we advice to use the website : https://www.gpsvisualizer.com/<br />
Clicking on "Click here to visualize the .gpx on a website" opens a website allowing you to plot the gpx on a map.<br />
<br />
== Weather station==<br />
<br />
Precipitation, wind speed/direction, pressure, temperature, pressure can prejudice sound pressure levels or need to be recorded when you are doing sound measurement.<br />
<br />
Thanks to the DC simulated channels, we can now enter manually the value or we can connect a weather station to NVGate. <br />
<br />
=== Manual ===<br />
<br />
<br />
The user can enter manually the weather value.<br />
<br />
[[File:weather_manual.png]]<br><br />
<br />
===Davis instruments weather station ===<br />
<br />
[[File:weather.png|200px|right]]<br />
<br />
You need the 3 elements to make it work<br />
<br />
- [https://www.davisinstruments.com/product/wireless-vantage-pro2-integrated-sensor-suite/ 6322OV Wireless Vantage Pro2 Integrated Sensor Suite]<br />
<br />
- [https://www.davisinstruments.com/product/wireless-weather-envoy/ 6316 Wireless Envoy]<br />
<br />
- [https://www.davisinstruments.com/product/weatherlink-windows-usb/ 6510USB WeatherLink Data Logger].<br />
<br />
This weather station provide Accurate, reliable weather monitoring with real-time data updates every 2.5 seconds. Sensor suite includes outside temperature and humidity sensors in a passive radiation shield, wind speed and direction, and rainfall. <br />
<br />
Note : The weather Station need to pass by OROS SA for configuration.<br />
<br />
=== Other weather stations ===<br />
<br />
Please contact OROS to check the possibility to import the data (paid service).<br />
<br />
==DC Dynamical sensor y = ax+b calibration ==<br />
<br />
<br />
It is now possible to calibrate a dynamical sensor in "DC" or "DC floating" coupling using 2 values, then the software will automatically compute sensitivity and offset to obtain the "y = ax + b" formula.<br />
<br />
<br />
This function is practical for 4-20 mA sensors or “quasi-static” sensors acquired on dynamic channels. Wire sensor displacement sensor calibrated with a rule, pressure sensor with a calibrated compressor, proximity probe calibrated with a micrometer.<br />
<br />
For using it, first create a DC sensor on the sensor database. Then apply this sensor to a channel.<br />
<br />
Now on the calibration part, you can calibrate it using 2 values. Then the software will automatically apply the sensitivity and offset.<br />
<br />
[[File:calibrator.png|600px]]<br />
<br />
<br />
= Relax the limits of filtering! =<br />
<br />
All details on the filters can be read [[NVGate_Filter_Builder|here]]<br />
<br />
==New prototype filters==<br />
In addition to the Butterworth filter, now you can build the IIR filters with the Chebyshev type I (band-pass ripple) filter or Chebyshev type II (stop-band ripple) filter. <br />
<br />
The Butterworth filter has flat response in both the pass band and stop band, but its transition band is wide. <br />
<br />
The Chebyshev type I (band-pass ripple filter) has the steepest roll-off among the three filters, and its response in the stop band is flat. However, it has ripples in the pass band. <br />
<br />
The Chebyshev type II (stop-band ripple) filter has flat response in the pass band, but it has ripples in the stop band. Its transition band is narrower than the Butterworth filter, but wider than the Chebyshev type I. <br />
<br />
Below is an example showing these three filters with the same filter order. <br />
<br />
[[File:filters_3.png|600px]]<br />
<br />
Thanks to its maximal flat frequency response in the pass band, the Butterworth filter is commonly used in applications where signal distortion should be minimized, such as audio noise reduction. It is also widely used for anti-aliasing. The Chebyshev filters are optimized to provide steep roll-off, and they are usually used in applications where the maximum rejection of the nearby frequencies is required.<br />
<br />
==Increased filter order==<br />
The order of the filter affects the steepness of its roll-off. The higher the order is, the sharper the transition between the pass band and the stop band is. An example demonstrating the impact of the filter order is shown below.<br />
<br />
[[File:butterworth_freq_response.png|600px]]<br />
<br />
For the high pass and low pass filters, the filter order can be selected from 1 to 40 in the Office mode, and from 1 to 10 in the Connected mode now. In the previous NVGate version, the maximum filter order was 6.<br />
<br />
For the band pass and band stop filters, the filter order is 2*N, and N can be selected from 1 to 30 in the Office mode, and between 1 to 10 in the Connected mode now. In the previous NVGate version, the maximum value of N was 5.<br />
<br />
==Relaxed constraints on the cut-off frequency==<br />
<br />
To guarantee the stability of the filter, there are certain constraints on the value of the cut-off frequency. Compared with previous version of NVGate, such constraints are relaxed significantly now.<br />
<br />
[[File:image_2020-11-27_095451.png|600px]]<br />
<br />
For the high pass and low pass filters, the maximum value of the cut-off frequency is the input frequency range '''FR'''. The minimum value is '''FR''' / 50000 in the Office mode, and '''FR''' / 40000 in the Connected mode. In the previous NVGate version, the minimum value was '''FR''' / 40 for the low pass filter, and '''FR''' / 400 for the high pass filter. <br />
<br />
For the band pass and band stop filters, the low cut-off frequency ''f''<sub>low</sub> and the high cut-off frequency ''f''<sub>high</sub> need to meet the following conditions in the Office mode:<br />
<br />
* ''f''<sub>low</sub> ≥ 0.0001 * '''FR'''<br />
<br />
* ''f''<sub>high</sub> ≤ '''FR'''<br />
<br />
* 0.0004 * '''FR''' ≤ ''f''<sub>high</sub> - ''f''<sub>low</sub> ≤ 0.9998 * '''FR'''<br />
<br />
And in the Connected mode, the conditions are as below:<br />
<br />
* ''f''<sub>low</sub> ≥ 0.0005 * '''FR'''<br />
<br />
* ''f''<sub>high</sub> ≤ '''FR'''<br />
<br />
* 0.000675 * '''FR''' ≤ ''f''<sub>high</sub> - ''f''<sub>low</sub> ≤ 0.99 * '''FR'''<br />
<br />
In the previous NVGate version, the conditions on the cut-off frequencies were:<br />
<br />
* ''f''<sub>low</sub> ≥ 0.055 * '''FR'''<br />
<br />
* ''f''<sub>high</sub> ≤ '''FR'''<br />
<br />
* 0.0075 * '''FR''' ≤ ''f''<sub>high</sub> - ''f''<sub>low</sub> ≤ 0.99 * '''FR'''<br />
<br />
==Improved precision==<br />
Now, the filters are calculated in 64-bit floating point format in the Office mode, and in 40-bit floating point format in the Connected mode. In the previous NVGate version, the 32-bit floating point format was used in both modes.<br />
<br />
<br />
==Octave overall no limitation==<br />
<br />
1/n Octave Overall levels frequency range plug-in are now editable. You can define the min and max.<br />
This overall is computed in the time domain (weighting filter and detector). Processing weighting in the time domain provides accurate measurement for non-stationary signals (impulsive).<br />
<br />
[[File:octave_filter.png|octave_filter.png]]<br />
<br />
<br />
'''Full range mode''' computes the overall on the whole frequency range excluding the DC component. (The minimum range is defined by "CPB filters Lower central frequency"/5). <br />
'''Limited range''' lets the user define the range by changing the low cut off frequency and high cut off frequency.<br />
<br />
==Application==<br />
=== global level with filter===<br />
=== remove noise from spectrum=== <br />
===Listen signal with filter===<br />
<br />
<br />
== Remove a sensor from history ==<br />
<br />
If you have done a mistake during a sensor calibration, you can now delete a value from calbiration sensor history.<br />
[[File:remove_caibration.png|800px]]<br />
<br />
You need to go on history, select the sensor, select the value that you need to delete, then click on remove.<br />
<br />
== Displaying Time in Zoomed signal==<br />
<br />
== NVdrive : SetViewmeterLevels ==<br />
<br />
Using NVdrive, you can now control and set the alarm level, high level and low level.<br />
[[File:Viewmeter.jpg|none]]<br />
<br />
Check the NVDrive toolkit for more info.<br />
<br />
= How much does this body shake? = <br />
<br />
The OROS Body Vibration tool allows you to evaluate the affect of vibration on the human body according to standards ISO 2651 and ISO 5349. These standards define measurement practice and vibration signal analysis to evaluate the affect on health and comfort of environmental and equipment vibrations on the Human body.<br><br />
<br />
The ISO 2651 describes the affect on health and comfort of vibration on the whole-body in transportation system, and the ISO 5349 the affect on health of vibration on hands and arms when manipulating machine-tools or vibrating objects.<br><br />
<br><br />
This is a post analysis toolkit, operating after the recording of the signal. It will calculate time-weighted signal of acceleration and specific indicators both defined in the standards.<br><br />
<br />
[[Image:OROS_BodyVib.png|600px|none]]<br />
'''Standards compatible''': international standards about whole/body vibration including: ISO 5349, ISO 8041, ISO 2631-1 and ISO 2631-5.<br><br />
<br />
'''Whole/body Vibration Indicators include ''': VDV, MSDV, MTVV, Weighted raw, al(ISO 2631-5), D(ISO 2631-5) are available. RMS, Peak, Crest, peak-Peak, are also available in NVGate plug in.<br />
{| class="wikitable" style="margin: auto;"<br />
|+style="caption-side:bottom;"|''Body vibration indicators''<br />
|-<br />
|style="height:30px; width:100px;"|<math>MTVV</math><br />
|Maximum Transient Vibration Value, represent the maximal RMS value of the signal <br />
|-<br />
|style="height:30px; width:100px;"|<math>VDV</math><br />
|Vibration Dose Value, taking into account the temporal shocks in the signal<br />
|-<br />
|style="height:30px; width:100px;"|<math>MSDV</math><br />
|Motion Sickness Dose Value, representing the comfort in transportation measurement<br />
|-<br />
|style="height:30px; width:100px;"|<math>D_k</math> <br />
|The Acceleration Dose, representing the affect of the vibration on the spine<br />
|-<br />
|style="height:30px; width:100px;"|<math>A_w</math> <br />
|Daily maximal exposure value (Calculated from Post processing in NVGate)<br />
|-<br />
|style="height:30px; width:100px;"|<math>Peak</math> <br />
|Amplitude Peak of the vibration; maximal amplitude of the signal from the 0 (Calculated from Post processing in NVGate)<br />
|-<br />
|style="height:30px; width:100px;"|<math>Crest factor</math> <br />
|Ratio between the Peak level and the RMS of the weighted signal(Calculated from Post processing in NVGate)<br />
|}<br />
<br />
'''Signal fitering including''':<br />
{| class="wikitable" style="margin: auto;"<br />
|+style="caption-side:bottom;"|''Time-weighting filters''<br />
|-<br />
|style="height:30px; width:100px;"|<math>W_k</math><br />
|Time weighting for the Z axis for whole-body measurement (ISO 2651-1)<br />
|-<br />
|style="height:30px; width:100px;"|<math>W_d</math> <br />
|Time weighting for the X and Y axis for whole-body measurement (ISO 2651-1)<br />
|-<br />
|style="height:30px; width:100px;"|<math>W_h</math><br />
|Time weighting for the hand-arms measurement in any direction (ISO 5349-1) <br />
|-<br />
|style="height:30px; width:100px;"|<math>W_f</math><br />
|Time weighting for motion sickness measurement in the vertical direction (ISO 2651-1) <br />
|-<br />
|style="height:30px; width:100px;"|<math>W_c</math><br />
|Time weighting for the X axis for whole-body measurement (ISO 2651-1)<br />
|-<br />
|style="height:30px; width:100px;"|<math>W_e</math> <br />
|Time weighting for all rotational directions for whole-body measurement (ISO 2651-1) <br />
|-<br />
|style="height:30px; width:100px;"|<math>W_j</math><br />
|Time weighting for the Z axis for head comfort measurement (ISO 2651-1)<br />
|}<br />
<br />
How to use it:<br />
https://wiki.oros.com/wiki/index.php/Human_Vibration<br />
<br />
This Add-on is free of charge for NVGate 2021 users and TDA (?)<br />
<br />
= Orbit display included in FFT diag or ORD diag =<br />
<br />
For customer with option FFT-Diag or ORD-Diag, they will now have the Orbit display available in NVGate.<br />
<br />
[[File:Display_Graphs_Traces_122.png]]<br><br />
<br />
The orbit is available using the add/remove windows.<br />
<br />
For more details, please check the [[NVGate_Display#Orbit|orbit dipslay page.]]<br />
<br />
=Bug fixing=<br />
<br><br />
<br />
* 13728: [Fractional Tachometer] Using a fractional tachometer lead to DSP error -<br />
* 13729: [Drec] : Impossible to record more than 38 ch in Drec <br />
* 13672: Delta RPM with source DC tach (from monitor) - do not trig the waterfall <br />
* 10572: Low pass response for ICP and AC coupling poorly specified<br />
* 13811: NVDrive GetResultEx error while running without displaying result<br />
* 13774: Orbit display improvement <br />
* 13790: Change the number of displayed orbits<br />
* 13794: A problem of DRPM stop at 5000 RPM instead of 6000.<br />
* 13953: [General] A-weighting can be applied several times (report 13912)<br />
* 13938: Input type: Xpod bridge, one channel 5 doesn't work if 1 activated<br />
* 13767: Create a new unit : do not go on a "empty" windows, keep the previous configuration.</div>Adminhttps://wiki.oros.com/index.php?title=NVGate_2021:_Release_note&diff=8172NVGate 2021: Release note2020-12-21T10:23:33Z<p>Admin: </p>
<hr />
<div>OROS strives to be closer to its users, carefully listening to needs and requests. For that reason, OROS regularly releases new versions. Customers under contract automatically benefit from each release. <br />
<br />
[[File:Screenshot 2020-12-21 102850.png|500px]]<br />
<br />
The NVGate® 2021 major version is available from january 2021. This release of the OROS 3-Series analyzer’s software platform brings additional functionalities and brings significative performance improvements. Here is below a summary of the main enhancements of your NVGate experience:<br><br />
<br><br />
<br />
{| class="wikitable" style="width: 90%;"<br />
|-<br />
| style="width: 25%"|[[File:1250px-Wikipedia_logo_(svg).svg.png|50px]]<br>''' On line Wiki, how can I help you?''' <br> The help is now available online with a powerful search engine. An offline version is available as well when you are on the field <br />
| style="width: 25%"| [[File:filter__2021.png|50px]]<br> '''Relax the limits of filtering!'''<br> Cut off frequencies of filters can now be chosen very flexibly <br />
| style="width: 25%"| [[File:kinematik_2021.png|50px]]<br>'''- Tracking my bearing frequencies on RPMs variations''' <br> Kinematik markers are now tracking the frequency lines as the speed fluctuates <br />
| style="width: 25%"| [[File:gps_2021.png|50px]]<br> Enrich your measurements in real time with GPS information''' <br />
|-<br />
| [[File:simulated_dc.png|200px]]<br> Using the DC simulated function, one can now associate NVGate results with information from external software in real time using NVDrive<br />
| [[File:orbit_2021.jpg|50px]]<br> '''Draw those orbits!''' <br>Orbits can now be displayed directly in NVGate with FFt-Diag option<br />
| [[File:calibration_2021.png|50px]]<br> dynamical input can now calibrate sensor y = ax+b <br />
| [[File:human_2021.png|50px]]<br>'''- How much does this body shake?''' <br>A new add-on is available to apply human vibrations filters and calculate associated quantities.<br />
|}<br />
<br />
'''- Here is OROS Wiki on the line, how can I help you?''' <br><br />
The help is now available online with a powerful search engine. An offline version is available as well when you are on the field <br><br />
'''- Tracking my bearing frequencies on RPMs variations''' <br> <br />
Kinematik markers are now tracking the frequency lines as the speed fluctuates <br><br />
'''- Enrich your measurements in real time: from GPS to environment info''' <br><br />
Using the DC simulated function, one can now associate NVGate results with metada information in real time <br><br />
- '''Relax the limits of filtering!'''<br><br />
Cut off frequencies of filters can now be chosen very flexibly <br><br />
'''- Draw those orbits!''' <br><br />
Orbits can now be displayed directly in NVGate <br><br />
'''- How much does this body shake?''' <br><br />
A new add-on is available to apply human vibrations filters and calculate associated quantities <br><br />
<br><br />
<br />
This release note describes the content of version, with operating details.<br />
<br />
'''Compatibility:'''<br />
NVGate 2021 is compatible with all OROS instruments that have not been discontinued. Depending on the hardware options and version, some instrument features may or may not be available.<br />
<br />
= Here is OROS Wiki on the line, how can I help you? =<br />
<br />
All the documentation and help have been completely renewed. We have put an online wiki-based documentation with videos, manual, application notes, download.<br />
<br />
This page is in free access and can be consulted here: https://wiki.oros.com/wiki/index.php/Home<br />
<br />
== Online Help: wiki ==<br />
We advice to be connected to internet to enjoy the new documentation page. <br><br />
<br />
So if you are connected to Internet, now the following button will bring you to the NVGate wiki page.<br><br />
<br />
<br />
[[NVGate|https://wiki.oros.com/wiki/index.php/NVGate]]<br />
<br />
<gallery><br />
File:help_menu.png<br />
File:Help_ribbon.png<br />
File:Help_asb.png<br />
</gallery><br />
<br />
Be aware than this wiki page have a powerful research button if you need to search any setting.<br><br />
[[File:help search.png]]<br />
<br />
<br />
If you are using NVGate in another language than english, the wikipage will be opened with /XX at the end (XX correspond to the unicode language.<br><br />
<br />
For example if you are using NVGate in japanese, the help will bring you to the page: <br />
https://wiki.oros.com/wiki/index.php/NVGate/ja (==> ja is the internation japanese code)<br />
<br />
== Off line Help: PDF manual ==<br />
If you are not connected to internet which may often happen on the field, the NVGate.pdf manual will be opened. This file is located in the "Manuals" folder in the installation directory of NVGate.<br />
<br />
== Tutorials Videos ==<br />
<br />
The OROS Youtube channel is available here featuring a full panel of videos on how to use OROS products :<br />
<br />
[[File:youtube.png|600px]]<br><br />
<br />
[https://www.youtube.com/user/OROSanalyzers/ OROS Youtube channels page]<br />
<br />
We have included tutorial videos on this wiki, to help you to use the OROS software.<br />
<br />
= Tracking my bearing frequencies on RPMs variations =<br />
<br />
== Kinematik markers follow FFT tachometer==<br />
<br />
The Kinematik marker can now be associated to the speed of the tachometer.<br />
So during a Run up the kinematik marker will automatically move inside FFT spectrum in function of the speed.<br />
<br />
How to use it :<br />
Select a Tachometer on FFT tab from GoToResult page.<br />
<br />
[[File:kiné_fft.png|500px]]<br />
<br />
Then display a FFT spectrum. Select a kinematik marker and put it on the windows.<br />
<br />
[[File:kiné_select.png|400px]]<br />
<br />
Now this marker will be linked to the FFT speed.<br />
<br />
Then on properties, you can link (or not) this marker to the speed.<br />
<br />
<br />
[[File:kiné_select_active.png|300px]]<br />
<br />
== Automatic installation of the database ==<br />
<br />
Now the excel kinematik database including bearings from NSK, SKF, FAG, SNRn, GMN, INA, RHP is installed automatically.<br />
<br />
You can find it in the installation folder: "NVGate Data\Markers\Kinematic\"<br />
<br />
== Direct access to database==<br />
<br />
When clicking on the "open folder" button, you will directly access to the folder where the Excel kinematik database is stored.<br />
So you can now edit the database easily if you need to add the kinematic configuration of a rotating machine.<br />
<br />
[[File:kiné_select_edit.png|400px]]<br />
<br />
= Enrich your measurements in real time: from GPS to environmental metadata =<br />
<br />
The DC simulated allow you to inject up to 32 external DC channels in NVGate from external source (exemple : GPS, weather station, external can bus...). The frequency sampling is up to 15 samples / seconds.<br />
Thanks to the python developer toolkit, a developer can easily develop an interface to inject the value inside NVGate. The GPS and weather station below have been developed using the DC simulated.<br />
<br />
This option is included with the reference ORNV-VI-DC (which also includes the Virtual input).<br />
<br />
How to use it:<br />
<br><br />
<br />
on the Acquisition Tab, select connect input, select the DC inputs and select the DC simulated channels.<br />
<br />
[[File:DC simulat.png|600px]]<br />
<br />
These channels can be activated and connected to the recorder and/or waterfall like any other DC channels.<br />
<br />
[[File:DC_simul.png]]<br />
<br />
The settings '''Value''' (which can be controlled by an external software) will change the value of the inputs. <br />
<br />
[[NVGate_Front_End#Simulated_DC_Inputs|The others DC simulated settings details]] are explained on the front end settings page.<br />
<br />
== GPS ==<br />
Thanks to the "DC simulated channels" we have created an Add-on to record a GPS.<br />
<br />
The GPS have the following features<br />
<br />
* Record the X-Y GPS coordinates.<br />
* Record and display the speed profile.<br />
* Use the speed profile as a waterfall reference.<br />
* Creat a .gpx and display it on an internet website if you have an Internet connection).<br />
<br />
<br />
You can visit the dedicated page to download it and advanced configuration. : https://wiki.oros.com/wiki/index.php/NVGate_DC_Simulated_Manager<br />
<br />
<br />
We have 2 ways to acquire the GPS position, android phone or GPS Compliant with NMEA 0183 standard.<br />
<br />
<br />
=== Serial GPGGA GPS ===<br />
<br />
We are compatible with GPS USB Serial Interface Compliant with NMEA 0183 standard GPGGA <br><br />
<br />
We can advice the GPS USB Navilock NL-602U but other GPS will work.<br><br />
<br />
[[File:gps_navilock.jpg|200px]]<br />
<br />
=== Android GPS ===<br />
[[File:GPS_phone.png]]<br />
<br />
GPS data can also be retrieved using Android ADB (Android Debug Bridge).<br />
If you plug your android phone, we can inject the GPS position inside NVGate.<br />
<br />
<br />
=== How to use it ===<br />
<br />
Once the gps is plugged and configured, click on inject data, this will put the value on the DC simulated inputs.<br />
<br />
[[File:GPS process 2.png|400]]<br />
<br />
Then you can use these channels on NVGate.<br />
<br />
If you need to record the data, click on connect input, go on DC input tab, then drag and drop the DC simulated channels on recorder.<br />
[[File:GPS process.png]]<br />
<br />
If you have recorded the data you will be able to create a .gpx file<br />
<br />
=== Creating and visualize .gpx file ===<br />
<br />
We can create a .gpx from an .oxf (OROS) signal file. a .gpx is gps file to follow the <br />
<br />
You need to click on "Convert signal to gpx".<br />
[[File:GPS_creategpx.png]]<br />
<br />
This will open the windows below.<br />
[[File:signal_gpx.png]]<br />
<br />
Select the signal file that you need to convert and click on load data.<br />
You can modify the channels if needed.<br />
Click on create .gpx.<br />
The .gpx will be put in the "attachement" folder of the NVGate project.<br />
<br />
If you want to visualize the .gpx we advice to use the website : https://www.gpsvisualizer.com/<br />
Clicking on "Click here to visualize the .gpx on a website" opens a website allowing you to plot the gpx on a map.<br />
<br />
== Weather station==<br />
<br />
Precipitation, wind speed/direction, pressure, temperature, pressure can prejudice sound pressure levels or need to be recorded when you are doing sound measurement.<br />
<br />
Thanks to the DC simulated channels, we can now enter manually the value or we can connect a weather station to NVGate. <br />
<br />
=== Manual ===<br />
<br />
<br />
The user can enter manually the weather value.<br />
<br />
[[File:weather_manual.png]]<br><br />
<br />
===Davis instruments weather station ===<br />
<br />
[[File:weather.png|200px|right]]<br />
<br />
You need the 3 elements to make it work<br />
<br />
- [https://www.davisinstruments.com/product/wireless-vantage-pro2-integrated-sensor-suite/ 6322OV Wireless Vantage Pro2 Integrated Sensor Suite]<br />
<br />
- [https://www.davisinstruments.com/product/wireless-weather-envoy/ 6316 Wireless Envoy]<br />
<br />
- [https://www.davisinstruments.com/product/weatherlink-windows-usb/ 6510USB WeatherLink Data Logger].<br />
<br />
This weather station provide Accurate, reliable weather monitoring with real-time data updates every 2.5 seconds. Sensor suite includes outside temperature and humidity sensors in a passive radiation shield, wind speed and direction, and rainfall. <br />
<br />
Note : The weather Station need to pass by OROS SA for configuration.<br />
<br />
=== Other weather stations ===<br />
<br />
Please contact OROS to check the possibility to import the data (paid service).<br />
<br />
==DC Dynamical sensor y = ax+b calibration ==<br />
<br />
<br />
It is now possible to calibrate a dynamical sensor in "DC" or "DC floating" coupling using 2 values, then the software will automatically compute sensitivity and offset to obtain the "y = ax + b" formula.<br />
<br />
<br />
This function is practical for 4-20 mA sensors or “quasi-static” sensors acquired on dynamic channels. Wire sensor displacement sensor calibrated with a rule, pressure sensor with a calibrated compressor, proximity probe calibrated with a micrometer.<br />
<br />
For using it, first create a DC sensor on the sensor database. Then apply this sensor to a channel.<br />
<br />
Now on the calibration part, you can calibrate it using 2 values. Then the software will automatically apply the sensitivity and offset.<br />
<br />
[[File:calibrator.png|600px]]<br />
<br />
<br />
= Relax the limits of filtering! =<br />
<br />
All details on the filters can be read [[NVGate_Filter_Builder|here]]<br />
<br />
==New prototype filters==<br />
In addition to the Butterworth filter, now you can build the IIR filters with the Chebyshev type I (band-pass ripple) filter or Chebyshev type II (stop-band ripple) filter. <br />
<br />
The Butterworth filter has flat response in both the pass band and stop band, but its transition band is wide. <br />
<br />
The Chebyshev type I (band-pass ripple filter) has the steepest roll-off among the three filters, and its response in the stop band is flat. However, it has ripples in the pass band. <br />
<br />
The Chebyshev type II (stop-band ripple) filter has flat response in the pass band, but it has ripples in the stop band. Its transition band is narrower than the Butterworth filter, but wider than the Chebyshev type I. <br />
<br />
Below is an example showing these three filters with the same filter order. <br />
<br />
[[File:filters_3.png|600px]]<br />
<br />
Thanks to its maximal flat frequency response in the pass band, the Butterworth filter is commonly used in applications where signal distortion should be minimized, such as audio noise reduction. It is also widely used for anti-aliasing. The Chebyshev filters are optimized to provide steep roll-off, and they are usually used in applications where the maximum rejection of the nearby frequencies is required.<br />
<br />
==Increased filter order==<br />
The order of the filter affects the steepness of its roll-off. The higher the order is, the sharper the transition between the pass band and the stop band is. An example demonstrating the impact of the filter order is shown below.<br />
<br />
[[File:butterworth_freq_response.png|600px]]<br />
<br />
For the high pass and low pass filters, the filter order can be selected from 1 to 40 in the Office mode, and from 1 to 10 in the Connected mode now. In the previous NVGate version, the maximum filter order was 6.<br />
<br />
For the band pass and band stop filters, the filter order is 2*N, and N can be selected from 1 to 30 in the Office mode, and between 1 to 10 in the Connected mode now. In the previous NVGate version, the maximum value of N was 5.<br />
<br />
==Relaxed constraints on the cut-off frequency==<br />
<br />
To guarantee the stability of the filter, there are certain constraints on the value of the cut-off frequency. Compared with previous version of NVGate, such constraints are relaxed significantly now.<br />
<br />
[[File:image_2020-11-27_095451.png|600px]]<br />
<br />
For the high pass and low pass filters, the maximum value of the cut-off frequency is the input frequency range '''FR'''. The minimum value is '''FR''' / 50000 in the Office mode, and '''FR''' / 40000 in the Connected mode. In the previous NVGate version, the minimum value was '''FR''' / 40 for the low pass filter, and '''FR''' / 400 for the high pass filter. <br />
<br />
For the band pass and band stop filters, the low cut-off frequency ''f''<sub>low</sub> and the high cut-off frequency ''f''<sub>high</sub> need to meet the following conditions in the Office mode:<br />
<br />
* ''f''<sub>low</sub> ≥ 0.0001 * '''FR'''<br />
<br />
* ''f''<sub>high</sub> ≤ '''FR'''<br />
<br />
* 0.0004 * '''FR''' ≤ ''f''<sub>high</sub> - ''f''<sub>low</sub> ≤ 0.9998 * '''FR'''<br />
<br />
And in the Connected mode, the conditions are as below:<br />
<br />
* ''f''<sub>low</sub> ≥ 0.0005 * '''FR'''<br />
<br />
* ''f''<sub>high</sub> ≤ '''FR'''<br />
<br />
* 0.000675 * '''FR''' ≤ ''f''<sub>high</sub> - ''f''<sub>low</sub> ≤ 0.99 * '''FR'''<br />
<br />
In the previous NVGate version, the conditions on the cut-off frequencies were:<br />
<br />
* ''f''<sub>low</sub> ≥ 0.055 * '''FR'''<br />
<br />
* ''f''<sub>high</sub> ≤ '''FR'''<br />
<br />
* 0.0075 * '''FR''' ≤ ''f''<sub>high</sub> - ''f''<sub>low</sub> ≤ 0.99 * '''FR'''<br />
<br />
==Improved precision==<br />
Now, the filters are calculated in 64-bit floating point format in the Office mode, and in 40-bit floating point format in the Connected mode. In the previous NVGate version, the 32-bit floating point format was used in both modes.<br />
<br />
<br />
==Octave overall no limitation==<br />
<br />
1/n Octave Overall levels frequency range plug-in are now editable. You can define the min and max.<br />
This overall is computed in the time domain (weighting filter and detector). Processing weighting in the time domain provides accurate measurement for non-stationary signals (impulsive).<br />
<br />
[[File:octave_filter.png|octave_filter.png]]<br />
<br />
<br />
'''Full range mode''' computes the overall on the whole frequency range excluding the DC component. (The minimum range is defined by "CPB filters Lower central frequency"/5). <br />
'''Limited range''' lets the user define the range by changing the low cut off frequency and high cut off frequency.<br />
<br />
==Application==<br />
=== global level with filter===<br />
=== remove noise from spectrum=== <br />
===Listen signal with filter===<br />
<br />
<br />
== Remove a sensor from history ==<br />
<br />
If you have done a mistake during a sensor calibration, you can now delete a value from calbiration sensor history.<br />
[[File:remove_caibration.png|800px]]<br />
<br />
You need to go on history, select the sensor, select the value that you need to delete, then click on remove.<br />
<br />
== Displaying Time in Zoomed signal==<br />
<br />
== NVdrive : SetViewmeterLevels ==<br />
<br />
Using NVdrive, you can now control and set the alarm level, high level and low level.<br />
[[File:Viewmeter.jpg|none]]<br />
<br />
Check the NVDrive toolkit for more info.<br />
<br />
= How much does this body shake? = <br />
<br />
The OROS Body Vibration tool allows you to evaluate the affect of vibration on the human body according to standards ISO 2651 and ISO 5349. These standards define measurement practice and vibration signal analysis to evaluate the affect on health and comfort of environmental and equipment vibrations on the Human body.<br><br />
<br />
The ISO 2651 describes the affect on health and comfort of vibration on the whole-body in transportation system, and the ISO 5349 the affect on health of vibration on hands and arms when manipulating machine-tools or vibrating objects.<br><br />
<br><br />
This is a post analysis toolkit, operating after the recording of the signal. It will calculate time-weighted signal of acceleration and specific indicators both defined in the standards.<br><br />
<br />
[[Image:OROS_BodyVib.png|600px|none]]<br />
'''Standards compatible''': international standards about whole/body vibration including: ISO 5349, ISO 8041, ISO 2631-1 and ISO 2631-5.<br><br />
<br />
'''Whole/body Vibration Indicators include ''': VDV, MSDV, MTVV, Weighted raw, al(ISO 2631-5), D(ISO 2631-5) are available. RMS, Peak, Crest, peak-Peak, are also available in NVGate plug in.<br />
{| class="wikitable" style="margin: auto;"<br />
|+style="caption-side:bottom;"|''Body vibration indicators''<br />
|-<br />
|style="height:30px; width:100px;"|<math>MTVV</math><br />
|Maximum Transient Vibration Value, represent the maximal RMS value of the signal <br />
|-<br />
|style="height:30px; width:100px;"|<math>VDV</math><br />
|Vibration Dose Value, taking into account the temporal shocks in the signal<br />
|-<br />
|style="height:30px; width:100px;"|<math>MSDV</math><br />
|Motion Sickness Dose Value, representing the comfort in transportation measurement<br />
|-<br />
|style="height:30px; width:100px;"|<math>D_k</math> <br />
|The Acceleration Dose, representing the affect of the vibration on the spine<br />
|-<br />
|style="height:30px; width:100px;"|<math>A_w</math> <br />
|Daily maximal exposure value (Calculated from Post processing in NVGate)<br />
|-<br />
|style="height:30px; width:100px;"|<math>Peak</math> <br />
|Amplitude Peak of the vibration; maximal amplitude of the signal from the 0 (Calculated from Post processing in NVGate)<br />
|-<br />
|style="height:30px; width:100px;"|<math>Crest factor</math> <br />
|Ratio between the Peak level and the RMS of the weighted signal(Calculated from Post processing in NVGate)<br />
|}<br />
<br />
'''Signal fitering including''':<br />
{| class="wikitable" style="margin: auto;"<br />
|+style="caption-side:bottom;"|''Time-weighting filters''<br />
|-<br />
|style="height:30px; width:100px;"|<math>W_k</math><br />
|Time weighting for the Z axis for whole-body measurement (ISO 2651-1)<br />
|-<br />
|style="height:30px; width:100px;"|<math>W_d</math> <br />
|Time weighting for the X and Y axis for whole-body measurement (ISO 2651-1)<br />
|-<br />
|style="height:30px; width:100px;"|<math>W_h</math><br />
|Time weighting for the hand-arms measurement in any direction (ISO 5349-1) <br />
|-<br />
|style="height:30px; width:100px;"|<math>W_f</math><br />
|Time weighting for motion sickness measurement in the vertical direction (ISO 2651-1) <br />
|-<br />
|style="height:30px; width:100px;"|<math>W_c</math><br />
|Time weighting for the X axis for whole-body measurement (ISO 2651-1)<br />
|-<br />
|style="height:30px; width:100px;"|<math>W_e</math> <br />
|Time weighting for all rotational directions for whole-body measurement (ISO 2651-1) <br />
|-<br />
|style="height:30px; width:100px;"|<math>W_j</math><br />
|Time weighting for the Z axis for head comfort measurement (ISO 2651-1)<br />
|}<br />
<br />
How to use it:<br />
https://wiki.oros.com/wiki/index.php/Human_Vibration<br />
<br />
This Add-on is free of charge for NVGate 2021 users and TDA (?)<br />
<br />
= Orbit display included in FFT diag or ORD diag =<br />
<br />
For customer with option FFT-Diag or ORD-Diag, they will now have the Orbit display available in NVGate.<br />
<br />
[[File:Display_Graphs_Traces_122.png]]<br><br />
<br />
The orbit is available using the add/remove windows.<br />
<br />
For more details, please check the [[NVGate_Display#Orbit|orbit dipslay page.]]<br />
<br />
=Bug fixing=<br />
<br><br />
<br />
* 13728: [Fractional Tachometer] Using a fractional tachometer lead to DSP error -<br />
* 13729: [Drec] : Impossible to record more than 38 ch in Drec <br />
* 13672: Delta RPM with source DC tach (from monitor) - do not trig the waterfall <br />
* 10572: Low pass response for ICP and AC coupling poorly specified<br />
* 13811: NVDrive GetResultEx error while running without displaying result<br />
* 13774: Orbit display improvement <br />
* 13790: Change the number of displayed orbits<br />
* 13794: A problem of DRPM stop at 5000 RPM instead of 6000.<br />
* 13953: [General] A-weighting can be applied several times (report 13912)<br />
* 13938: Input type: Xpod bridge, one channel 5 doesn't work if 1 activated<br />
* 13767: Create a new unit : do not go on a "empty" windows, keep the previous configuration.</div>Adminhttps://wiki.oros.com/index.php?title=NVGate_2021:_Release_note&diff=8171NVGate 2021: Release note2020-12-21T10:22:22Z<p>Admin: </p>
<hr />
<div>OROS strives to be closer to its users, carefully listening to needs and requests. For that reason, OROS regularly releases new versions. Customers under contract automatically benefit from each release. <br />
<br />
[[File:Screenshot 2020-12-21 102850.png|500px]]<br />
<br />
The NVGate® 2021 major version is available from january 2021. This release of the OROS 3-Series analyzer’s software platform brings additional functionalities and brings significative performance improvements. Here is below a summary of the main enhancements of your NVGate experience:<br><br />
<br><br />
<br />
{| class="wikitable" style="width: 85%;"<br />
|-<br />
| style="width: 25%"|[[File:1250px-Wikipedia_logo_(svg).svg.png|50px]]<br>''' On line Wiki, how can I help you?''' <br> The help is now available online with a powerful search engine. An offline version is available as well when you are on the field <br />
| style="width: 25%"| [[File:filter__2021.png|50px]]<br> '''Relax the limits of filtering!'''<br> Cut off frequencies of filters can now be chosen very flexibly <br />
| style="width: 25%"| [[File:kinematik_2021.png|50px]]<br>'''- Tracking my bearing frequencies on RPMs variations''' <br> Kinematik markers are now tracking the frequency lines as the speed fluctuates <br />
| style="width: 25%"| [[File:gps_2021.png|50px]]<br> Enrich your measurements in real time with GPS information''' <br />
|-<br />
| [[File:simulated_dc.png|200px]]<br> Using the DC simulated function, one can now associate NVGate results with information from external software in real time using NVDrive<br />
| [[File:orbit_2021.jpg|50px]]<br> '''Draw those orbits!''' <br>Orbits can now be displayed directly in NVGate with FFt-Diag option<br />
| [[File:calibration_2021.png|50px]]<br> dynamical input can now calibrate sensor y = ax+b <br />
| [[File:human_2021.png|50px]]<br>'''- How much does this body shake?''' <br>A new add-on is available to apply human vibrations filters and calculate associated quantities.<br />
|}<br />
<br />
'''- Here is OROS Wiki on the line, how can I help you?''' <br><br />
The help is now available online with a powerful search engine. An offline version is available as well when you are on the field <br><br />
'''- Tracking my bearing frequencies on RPMs variations''' <br> <br />
Kinematik markers are now tracking the frequency lines as the speed fluctuates <br><br />
'''- Enrich your measurements in real time: from GPS to environment info''' <br><br />
Using the DC simulated function, one can now associate NVGate results with metada information in real time <br><br />
- '''Relax the limits of filtering!'''<br><br />
Cut off frequencies of filters can now be chosen very flexibly <br><br />
'''- Draw those orbits!''' <br><br />
Orbits can now be displayed directly in NVGate <br><br />
'''- How much does this body shake?''' <br><br />
A new add-on is available to apply human vibrations filters and calculate associated quantities <br><br />
<br><br />
<br />
This release note describes the content of version, with operating details.<br />
<br />
'''Compatibility:'''<br />
NVGate 2021 is compatible with all OROS instruments that have not been discontinued. Depending on the hardware options and version, some instrument features may or may not be available.<br />
<br />
= Here is OROS Wiki on the line, how can I help you? =<br />
<br />
All the documentation and help have been completely renewed. We have put an online wiki-based documentation with videos, manual, application notes, download.<br />
<br />
This page is in free access and can be consulted here: https://wiki.oros.com/wiki/index.php/Home<br />
<br />
== Online Help: wiki ==<br />
We advice to be connected to internet to enjoy the new documentation page. <br><br />
<br />
So if you are connected to Internet, now the following button will bring you to the NVGate wiki page.<br><br />
<br />
<br />
[[NVGate|https://wiki.oros.com/wiki/index.php/NVGate]]<br />
<br />
<gallery><br />
File:help_menu.png<br />
File:Help_ribbon.png<br />
File:Help_asb.png<br />
</gallery><br />
<br />
Be aware than this wiki page have a powerful research button if you need to search any setting.<br><br />
[[File:help search.png]]<br />
<br />
<br />
If you are using NVGate in another language than english, the wikipage will be opened with /XX at the end (XX correspond to the unicode language.<br><br />
<br />
For example if you are using NVGate in japanese, the help will bring you to the page: <br />
https://wiki.oros.com/wiki/index.php/NVGate/ja (==> ja is the internation japanese code)<br />
<br />
== Off line Help: PDF manual ==<br />
If you are not connected to internet which may often happen on the field, the NVGate.pdf manual will be opened. This file is located in the "Manuals" folder in the installation directory of NVGate.<br />
<br />
== Tutorials Videos ==<br />
<br />
The OROS Youtube channel is available here featuring a full panel of videos on how to use OROS products :<br />
<br />
[[File:youtube.png|600px]]<br><br />
<br />
[https://www.youtube.com/user/OROSanalyzers/ OROS Youtube channels page]<br />
<br />
We have included tutorial videos on this wiki, to help you to use the OROS software.<br />
<br />
= Tracking my bearing frequencies on RPMs variations =<br />
<br />
== Kinematik markers follow FFT tachometer==<br />
<br />
The Kinematik marker can now be associated to the speed of the tachometer.<br />
So during a Run up the kinematik marker will automatically move inside FFT spectrum in function of the speed.<br />
<br />
How to use it :<br />
Select a Tachometer on FFT tab from GoToResult page.<br />
<br />
[[File:kiné_fft.png|500px]]<br />
<br />
Then display a FFT spectrum. Select a kinematik marker and put it on the windows.<br />
<br />
[[File:kiné_select.png|400px]]<br />
<br />
Now this marker will be linked to the FFT speed.<br />
<br />
Then on properties, you can link (or not) this marker to the speed.<br />
<br />
<br />
[[File:kiné_select_active.png|300px]]<br />
<br />
== Automatic installation of the database ==<br />
<br />
Now the excel kinematik database including bearings from NSK, SKF, FAG, SNRn, GMN, INA, RHP is installed automatically.<br />
<br />
You can find it in the installation folder: "NVGate Data\Markers\Kinematic\"<br />
<br />
== Direct access to database==<br />
<br />
When clicking on the "open folder" button, you will directly access to the folder where the Excel kinematik database is stored.<br />
So you can now edit the database easily if you need to add the kinematic configuration of a rotating machine.<br />
<br />
[[File:kiné_select_edit.png|400px]]<br />
<br />
= Enrich your measurements in real time: from GPS to environmental metadata =<br />
<br />
The DC simulated allow you to inject up to 32 external DC channels in NVGate from external source (exemple : GPS, weather station, external can bus...). The frequency sampling is up to 15 samples / seconds.<br />
Thanks to the python developer toolkit, a developer can easily develop an interface to inject the value inside NVGate. The GPS and weather station below have been developed using the DC simulated.<br />
<br />
This option is included with the reference ORNV-VI-DC (which also includes the Virtual input).<br />
<br />
How to use it:<br />
<br><br />
<br />
on the Acquisition Tab, select connect input, select the DC inputs and select the DC simulated channels.<br />
<br />
[[File:DC simulat.png|600px]]<br />
<br />
These channels can be activated and connected to the recorder and/or waterfall like any other DC channels.<br />
<br />
[[File:DC_simul.png]]<br />
<br />
The settings '''Value''' (which can be controlled by an external software) will change the value of the inputs. <br />
<br />
[[NVGate_Front_End#Simulated_DC_Inputs|The others DC simulated settings details]] are explained on the front end settings page.<br />
<br />
== GPS ==<br />
Thanks to the "DC simulated channels" we have created an Add-on to record a GPS.<br />
<br />
The GPS have the following features<br />
<br />
* Record the X-Y GPS coordinates.<br />
* Record and display the speed profile.<br />
* Use the speed profile as a waterfall reference.<br />
* Creat a .gpx and display it on an internet website if you have an Internet connection).<br />
<br />
<br />
You can visit the dedicated page to download it and advanced configuration. : https://wiki.oros.com/wiki/index.php/NVGate_DC_Simulated_Manager<br />
<br />
<br />
We have 2 ways to acquire the GPS position, android phone or GPS Compliant with NMEA 0183 standard.<br />
<br />
<br />
=== Serial GPGGA GPS ===<br />
<br />
We are compatible with GPS USB Serial Interface Compliant with NMEA 0183 standard GPGGA <br><br />
<br />
We can advice the GPS USB Navilock NL-602U but other GPS will work.<br><br />
<br />
[[File:gps_navilock.jpg|200px]]<br />
<br />
=== Android GPS ===<br />
[[File:GPS_phone.png]]<br />
<br />
GPS data can also be retrieved using Android ADB (Android Debug Bridge).<br />
If you plug your android phone, we can inject the GPS position inside NVGate.<br />
<br />
<br />
=== How to use it ===<br />
<br />
Once the gps is plugged and configured, click on inject data, this will put the value on the DC simulated inputs.<br />
<br />
[[File:GPS process 2.png|400]]<br />
<br />
Then you can use these channels on NVGate.<br />
<br />
If you need to record the data, click on connect input, go on DC input tab, then drag and drop the DC simulated channels on recorder.<br />
[[File:GPS process.png]]<br />
<br />
If you have recorded the data you will be able to create a .gpx file<br />
<br />
=== Creating and visualize .gpx file ===<br />
<br />
We can create a .gpx from an .oxf (OROS) signal file. a .gpx is gps file to follow the <br />
<br />
You need to click on "Convert signal to gpx".<br />
[[File:GPS_creategpx.png]]<br />
<br />
This will open the windows below.<br />
[[File:signal_gpx.png]]<br />
<br />
Select the signal file that you need to convert and click on load data.<br />
You can modify the channels if needed.<br />
Click on create .gpx.<br />
The .gpx will be put in the "attachement" folder of the NVGate project.<br />
<br />
If you want to visualize the .gpx we advice to use the website : https://www.gpsvisualizer.com/<br />
Clicking on "Click here to visualize the .gpx on a website" opens a website allowing you to plot the gpx on a map.<br />
<br />
== Weather station==<br />
<br />
Precipitation, wind speed/direction, pressure, temperature, pressure can prejudice sound pressure levels or need to be recorded when you are doing sound measurement.<br />
<br />
Thanks to the DC simulated channels, we can now enter manually the value or we can connect a weather station to NVGate. <br />
<br />
=== Manual ===<br />
<br />
<br />
The user can enter manually the weather value.<br />
<br />
[[File:weather_manual.png]]<br><br />
<br />
===Davis instruments weather station ===<br />
<br />
[[File:weather.png|200px|right]]<br />
<br />
You need the 3 elements to make it work<br />
<br />
- [https://www.davisinstruments.com/product/wireless-vantage-pro2-integrated-sensor-suite/ 6322OV Wireless Vantage Pro2 Integrated Sensor Suite]<br />
<br />
- [https://www.davisinstruments.com/product/wireless-weather-envoy/ 6316 Wireless Envoy]<br />
<br />
- [https://www.davisinstruments.com/product/weatherlink-windows-usb/ 6510USB WeatherLink Data Logger].<br />
<br />
This weather station provide Accurate, reliable weather monitoring with real-time data updates every 2.5 seconds. Sensor suite includes outside temperature and humidity sensors in a passive radiation shield, wind speed and direction, and rainfall. <br />
<br />
Note : The weather Station need to pass by OROS SA for configuration.<br />
<br />
=== Other weather stations ===<br />
<br />
Please contact OROS to check the possibility to import the data (paid service).<br />
<br />
==DC Dynamical sensor y = ax+b calibration ==<br />
<br />
<br />
It is now possible to calibrate a dynamical sensor in "DC" or "DC floating" coupling using 2 values, then the software will automatically compute sensitivity and offset to obtain the "y = ax + b" formula.<br />
<br />
<br />
This function is practical for 4-20 mA sensors or “quasi-static” sensors acquired on dynamic channels. Wire sensor displacement sensor calibrated with a rule, pressure sensor with a calibrated compressor, proximity probe calibrated with a micrometer.<br />
<br />
For using it, first create a DC sensor on the sensor database. Then apply this sensor to a channel.<br />
<br />
Now on the calibration part, you can calibrate it using 2 values. Then the software will automatically apply the sensitivity and offset.<br />
<br />
[[File:calibrator.png|600px]]<br />
<br />
<br />
= Relax the limits of filtering! =<br />
<br />
All details on the filters can be read [[NVGate_Filter_Builder|here]]<br />
<br />
==New prototype filters==<br />
In addition to the Butterworth filter, now you can build the IIR filters with the Chebyshev type I (band-pass ripple) filter or Chebyshev type II (stop-band ripple) filter. <br />
<br />
The Butterworth filter has flat response in both the pass band and stop band, but its transition band is wide. <br />
<br />
The Chebyshev type I (band-pass ripple filter) has the steepest roll-off among the three filters, and its response in the stop band is flat. However, it has ripples in the pass band. <br />
<br />
The Chebyshev type II (stop-band ripple) filter has flat response in the pass band, but it has ripples in the stop band. Its transition band is narrower than the Butterworth filter, but wider than the Chebyshev type I. <br />
<br />
Below is an example showing these three filters with the same filter order. <br />
<br />
[[File:filters_3.png|600px]]<br />
<br />
Thanks to its maximal flat frequency response in the pass band, the Butterworth filter is commonly used in applications where signal distortion should be minimized, such as audio noise reduction. It is also widely used for anti-aliasing. The Chebyshev filters are optimized to provide steep roll-off, and they are usually used in applications where the maximum rejection of the nearby frequencies is required.<br />
<br />
==Increased filter order==<br />
The order of the filter affects the steepness of its roll-off. The higher the order is, the sharper the transition between the pass band and the stop band is. An example demonstrating the impact of the filter order is shown below.<br />
<br />
[[File:butterworth_freq_response.png|600px]]<br />
<br />
For the high pass and low pass filters, the filter order can be selected from 1 to 40 in the Office mode, and from 1 to 10 in the Connected mode now. In the previous NVGate version, the maximum filter order was 6.<br />
<br />
For the band pass and band stop filters, the filter order is 2*N, and N can be selected from 1 to 30 in the Office mode, and between 1 to 10 in the Connected mode now. In the previous NVGate version, the maximum value of N was 5.<br />
<br />
==Relaxed constraints on the cut-off frequency==<br />
<br />
To guarantee the stability of the filter, there are certain constraints on the value of the cut-off frequency. Compared with previous version of NVGate, such constraints are relaxed significantly now.<br />
<br />
[[File:image_2020-11-27_095451.png|600px]]<br />
<br />
For the high pass and low pass filters, the maximum value of the cut-off frequency is the input frequency range '''FR'''. The minimum value is '''FR''' / 50000 in the Office mode, and '''FR''' / 40000 in the Connected mode. In the previous NVGate version, the minimum value was '''FR''' / 40 for the low pass filter, and '''FR''' / 400 for the high pass filter. <br />
<br />
For the band pass and band stop filters, the low cut-off frequency ''f''<sub>low</sub> and the high cut-off frequency ''f''<sub>high</sub> need to meet the following conditions in the Office mode:<br />
<br />
* ''f''<sub>low</sub> ≥ 0.0001 * '''FR'''<br />
<br />
* ''f''<sub>high</sub> ≤ '''FR'''<br />
<br />
* 0.0004 * '''FR''' ≤ ''f''<sub>high</sub> - ''f''<sub>low</sub> ≤ 0.9998 * '''FR'''<br />
<br />
And in the Connected mode, the conditions are as below:<br />
<br />
* ''f''<sub>low</sub> ≥ 0.0005 * '''FR'''<br />
<br />
* ''f''<sub>high</sub> ≤ '''FR'''<br />
<br />
* 0.000675 * '''FR''' ≤ ''f''<sub>high</sub> - ''f''<sub>low</sub> ≤ 0.99 * '''FR'''<br />
<br />
In the previous NVGate version, the conditions on the cut-off frequencies were:<br />
<br />
* ''f''<sub>low</sub> ≥ 0.055 * '''FR'''<br />
<br />
* ''f''<sub>high</sub> ≤ '''FR'''<br />
<br />
* 0.0075 * '''FR''' ≤ ''f''<sub>high</sub> - ''f''<sub>low</sub> ≤ 0.99 * '''FR'''<br />
<br />
==Improved precision==<br />
Now, the filters are calculated in 64-bit floating point format in the Office mode, and in 40-bit floating point format in the Connected mode. In the previous NVGate version, the 32-bit floating point format was used in both modes.<br />
<br />
<br />
==Octave overall no limitation==<br />
<br />
1/n Octave Overall levels frequency range plug-in are now editable. You can define the min and max.<br />
This overall is computed in the time domain (weighting filter and detector). Processing weighting in the time domain provides accurate measurement for non-stationary signals (impulsive).<br />
<br />
[[File:octave_filter.png|octave_filter.png]]<br />
<br />
<br />
'''Full range mode''' computes the overall on the whole frequency range excluding the DC component. (The minimum range is defined by "CPB filters Lower central frequency"/5). <br />
'''Limited range''' lets the user define the range by changing the low cut off frequency and high cut off frequency.<br />
<br />
==Application==<br />
=== global level with filter===<br />
=== remove noise from spectrum=== <br />
===Listen signal with filter===<br />
<br />
<br />
== Remove a sensor from history ==<br />
<br />
If you have done a mistake during a sensor calibration, you can now delete a value from calbiration sensor history.<br />
[[File:remove_caibration.png|800px]]<br />
<br />
You need to go on history, select the sensor, select the value that you need to delete, then click on remove.<br />
<br />
== Displaying Time in Zoomed signal==<br />
<br />
== NVdrive : SetViewmeterLevels ==<br />
<br />
Using NVdrive, you can now control and set the alarm level, high level and low level.<br />
[[File:Viewmeter.jpg|none]]<br />
<br />
Check the NVDrive toolkit for more info.<br />
<br />
= How much does this body shake? = <br />
<br />
The OROS Body Vibration tool allows you to evaluate the affect of vibration on the human body according to standards ISO 2651 and ISO 5349. These standards define measurement practice and vibration signal analysis to evaluate the affect on health and comfort of environmental and equipment vibrations on the Human body.<br><br />
<br />
The ISO 2651 describes the affect on health and comfort of vibration on the whole-body in transportation system, and the ISO 5349 the affect on health of vibration on hands and arms when manipulating machine-tools or vibrating objects.<br><br />
<br><br />
This is a post analysis toolkit, operating after the recording of the signal. It will calculate time-weighted signal of acceleration and specific indicators both defined in the standards.<br><br />
<br />
[[Image:OROS_BodyVib.png|600px|none]]<br />
'''Standards compatible''': international standards about whole/body vibration including: ISO 5349, ISO 8041, ISO 2631-1 and ISO 2631-5.<br><br />
<br />
'''Whole/body Vibration Indicators include ''': VDV, MSDV, MTVV, Weighted raw, al(ISO 2631-5), D(ISO 2631-5) are available. RMS, Peak, Crest, peak-Peak, are also available in NVGate plug in.<br />
{| class="wikitable" style="margin: auto;"<br />
|+style="caption-side:bottom;"|''Body vibration indicators''<br />
|-<br />
|style="height:30px; width:100px;"|<math>MTVV</math><br />
|Maximum Transient Vibration Value, represent the maximal RMS value of the signal <br />
|-<br />
|style="height:30px; width:100px;"|<math>VDV</math><br />
|Vibration Dose Value, taking into account the temporal shocks in the signal<br />
|-<br />
|style="height:30px; width:100px;"|<math>MSDV</math><br />
|Motion Sickness Dose Value, representing the comfort in transportation measurement<br />
|-<br />
|style="height:30px; width:100px;"|<math>D_k</math> <br />
|The Acceleration Dose, representing the affect of the vibration on the spine<br />
|-<br />
|style="height:30px; width:100px;"|<math>A_w</math> <br />
|Daily maximal exposure value (Calculated from Post processing in NVGate)<br />
|-<br />
|style="height:30px; width:100px;"|<math>Peak</math> <br />
|Amplitude Peak of the vibration; maximal amplitude of the signal from the 0 (Calculated from Post processing in NVGate)<br />
|-<br />
|style="height:30px; width:100px;"|<math>Crest factor</math> <br />
|Ratio between the Peak level and the RMS of the weighted signal(Calculated from Post processing in NVGate)<br />
|}<br />
<br />
'''Signal fitering including''':<br />
{| class="wikitable" style="margin: auto;"<br />
|+style="caption-side:bottom;"|''Time-weighting filters''<br />
|-<br />
|style="height:30px; width:100px;"|<math>W_k</math><br />
|Time weighting for the Z axis for whole-body measurement (ISO 2651-1)<br />
|-<br />
|style="height:30px; width:100px;"|<math>W_d</math> <br />
|Time weighting for the X and Y axis for whole-body measurement (ISO 2651-1)<br />
|-<br />
|style="height:30px; width:100px;"|<math>W_h</math><br />
|Time weighting for the hand-arms measurement in any direction (ISO 5349-1) <br />
|-<br />
|style="height:30px; width:100px;"|<math>W_f</math><br />
|Time weighting for motion sickness measurement in the vertical direction (ISO 2651-1) <br />
|-<br />
|style="height:30px; width:100px;"|<math>W_c</math><br />
|Time weighting for the X axis for whole-body measurement (ISO 2651-1)<br />
|-<br />
|style="height:30px; width:100px;"|<math>W_e</math> <br />
|Time weighting for all rotational directions for whole-body measurement (ISO 2651-1) <br />
|-<br />
|style="height:30px; width:100px;"|<math>W_j</math><br />
|Time weighting for the Z axis for head comfort measurement (ISO 2651-1)<br />
|}<br />
<br />
How to use it:<br />
https://wiki.oros.com/wiki/index.php/Human_Vibration<br />
<br />
This Add-on is free of charge for NVGate 2021 users and TDA (?)<br />
<br />
= Orbit display included in FFT diag or ORD diag =<br />
<br />
For customer with option FFT-Diag or ORD-Diag, they will now have the Orbit display available in NVGate.<br />
<br />
[[File:Display_Graphs_Traces_122.png]]<br><br />
<br />
The orbit is available using the add/remove windows.<br />
<br />
For more details, please check the [[NVGate_Display#Orbit|orbit dipslay page.]]<br />
<br />
=Bug fixing=<br />
<br><br />
<br />
* 13728: [Fractional Tachometer] Using a fractional tachometer lead to DSP error -<br />
* 13729: [Drec] : Impossible to record more than 38 ch in Drec <br />
* 13672: Delta RPM with source DC tach (from monitor) - do not trig the waterfall <br />
* 10572: Low pass response for ICP and AC coupling poorly specified<br />
* 13811: NVDrive GetResultEx error while running without displaying result<br />
* 13774: Orbit display improvement <br />
* 13790: Change the number of displayed orbits<br />
* 13794: A problem of DRPM stop at 5000 RPM instead of 6000.<br />
* 13953: [General] A-weighting can be applied several times (report 13912)<br />
* 13938: Input type: Xpod bridge, one channel 5 doesn't work if 1 activated<br />
* 13767: Create a new unit : do not go on a "empty" windows, keep the previous configuration.</div>Adminhttps://wiki.oros.com/index.php?title=NVGate_2021:_Release_note&diff=8170NVGate 2021: Release note2020-12-21T10:14:16Z<p>Admin: </p>
<hr />
<div>OROS strives to be closer to its users, carefully listening to needs and requests. For that reason, OROS regularly releases new versions. Customers under contract automatically benefit from each release. <br />
<br />
[[File:Screenshot 2020-12-21 102850.png|500px]]<br />
<br />
The NVGate® 2021 major version is available from january 2021. This release of the OROS 3-Series analyzer’s software platform brings additional functionalities and brings significative performance improvements. Here is below a summary of the main enhancements of your NVGate experience:<br><br />
<br><br />
<br />
{| class="wikitable" style="width: 85%;"<br />
|-<br />
| [[File:1250px-Wikipedia_logo_(svg).svg.png|50px]]<br>''' On line Wiki, how can I help you?''' <br> The help is now available online with a powerful search engine. An offline version is available as well when you are on the field || [[File:filter__2021.png|50px]]<br> '''Relax the limits of filtering!'''<br> Cut off frequencies of filters can now be chosen very flexibly || [[File:kinematik_2021.png|50px]]<br>'''- Tracking my bearing frequencies on RPMs variations''' <br> Kinematik markers are now tracking the frequency lines as the speed fluctuates || [[File:gps_2021.png|50px]]<br> Enrich your measurements in real time with GPS information''' <br />
|-<br />
| [[File:simulated_dc.png|200px]]<br> Using the DC simulated function, one can now associate NVGate results with information from external software in real time using NVDrive || [[File:orbit_2021.jpg|50px]]<br> '''Draw those orbits!''' <br>Orbits can now be displayed directly in NVGate with FFt-Diag option || [[File:calibration_2021.png|50px]]<br> dynamical input can now calibrate sensor y = ax+b || [[File:human_2021.png|50px]]<br>'''- How much does this body shake?''' <br>A new add-on is available to apply human vibrations filters and calculate associated quantities.<br />
|}<br />
<br />
'''- Here is OROS Wiki on the line, how can I help you?''' <br><br />
The help is now available online with a powerful search engine. An offline version is available as well when you are on the field <br><br />
'''- Tracking my bearing frequencies on RPMs variations''' <br> <br />
Kinematik markers are now tracking the frequency lines as the speed fluctuates <br><br />
'''- Enrich your measurements in real time: from GPS to environment info''' <br><br />
Using the DC simulated function, one can now associate NVGate results with metada information in real time <br><br />
- '''Relax the limits of filtering!'''<br><br />
Cut off frequencies of filters can now be chosen very flexibly <br><br />
'''- Draw those orbits!''' <br><br />
Orbits can now be displayed directly in NVGate <br><br />
'''- How much does this body shake?''' <br><br />
A new add-on is available to apply human vibrations filters and calculate associated quantities <br><br />
<br><br />
<br />
This release note describes the content of version, with operating details.<br />
<br />
'''Compatibility:'''<br />
NVGate 2021 is compatible with all OROS instruments that have not been discontinued. Depending on the hardware options and version, some instrument features may or may not be available.<br />
<br />
= Here is OROS Wiki on the line, how can I help you? =<br />
<br />
All the documentation and help have been completely renewed. We have put an online wiki-based documentation with videos, manual, application notes, download.<br />
<br />
This page is in free access and can be consulted here: https://wiki.oros.com/wiki/index.php/Home<br />
<br />
== Online Help: wiki ==<br />
We advice to be connected to internet to enjoy the new documentation page. <br><br />
<br />
So if you are connected to Internet, now the following button will bring you to the NVGate wiki page.<br><br />
<br />
<br />
[[NVGate|https://wiki.oros.com/wiki/index.php/NVGate]]<br />
<br />
<gallery><br />
File:help_menu.png<br />
File:Help_ribbon.png<br />
File:Help_asb.png<br />
</gallery><br />
<br />
Be aware than this wiki page have a powerful research button if you need to search any setting.<br><br />
[[File:help search.png]]<br />
<br />
<br />
If you are using NVGate in another language than english, the wikipage will be opened with /XX at the end (XX correspond to the unicode language.<br><br />
<br />
For example if you are using NVGate in japanese, the help will bring you to the page: <br />
https://wiki.oros.com/wiki/index.php/NVGate/ja (==> ja is the internation japanese code)<br />
<br />
== Off line Help: PDF manual ==<br />
If you are not connected to internet which may often happen on the field, the NVGate.pdf manual will be opened. This file is located in the "Manuals" folder in the installation directory of NVGate.<br />
<br />
== Tutorials Videos ==<br />
<br />
The OROS Youtube channel is available here featuring a full panel of videos on how to use OROS products :<br />
<br />
[[File:youtube.png|600px]]<br><br />
<br />
[https://www.youtube.com/user/OROSanalyzers/ OROS Youtube channels page]<br />
<br />
We have included tutorial videos on this wiki, to help you to use the OROS software.<br />
<br />
= Tracking my bearing frequencies on RPMs variations =<br />
<br />
== Kinematik markers follow FFT tachometer==<br />
<br />
The Kinematik marker can now be associated to the speed of the tachometer.<br />
So during a Run up the kinematik marker will automatically move inside FFT spectrum in function of the speed.<br />
<br />
How to use it :<br />
Select a Tachometer on FFT tab from GoToResult page.<br />
<br />
[[File:kiné_fft.png|500px]]<br />
<br />
Then display a FFT spectrum. Select a kinematik marker and put it on the windows.<br />
<br />
[[File:kiné_select.png|400px]]<br />
<br />
Now this marker will be linked to the FFT speed.<br />
<br />
Then on properties, you can link (or not) this marker to the speed.<br />
<br />
<br />
[[File:kiné_select_active.png|300px]]<br />
<br />
== Automatic installation of the database ==<br />
<br />
Now the excel kinematik database including bearings from NSK, SKF, FAG, SNRn, GMN, INA, RHP is installed automatically.<br />
<br />
You can find it in the installation folder: "NVGate Data\Markers\Kinematic\"<br />
<br />
== Direct access to database==<br />
<br />
When clicking on the "open folder" button, you will directly access to the folder where the Excel kinematik database is stored.<br />
So you can now edit the database easily if you need to add the kinematic configuration of a rotating machine.<br />
<br />
[[File:kiné_select_edit.png|400px]]<br />
<br />
= Enrich your measurements in real time: from GPS to environmental metadata =<br />
<br />
The DC simulated allow you to inject up to 32 external DC channels in NVGate from external source (exemple : GPS, weather station, external can bus...). The frequency sampling is up to 15 samples / seconds.<br />
Thanks to the python developer toolkit, a developer can easily develop an interface to inject the value inside NVGate. The GPS and weather station below have been developed using the DC simulated.<br />
<br />
This option is included with the reference ORNV-VI-DC (which also includes the Virtual input).<br />
<br />
How to use it:<br />
<br><br />
<br />
on the Acquisition Tab, select connect input, select the DC inputs and select the DC simulated channels.<br />
<br />
[[File:DC simulat.png|600px]]<br />
<br />
These channels can be activated and connected to the recorder and/or waterfall like any other DC channels.<br />
<br />
[[File:DC_simul.png]]<br />
<br />
The settings '''Value''' (which can be controlled by an external software) will change the value of the inputs. <br />
<br />
[[NVGate_Front_End#Simulated_DC_Inputs|The others DC simulated settings details]] are explained on the front end settings page.<br />
<br />
== GPS ==<br />
Thanks to the "DC simulated channels" we have created an Add-on to record a GPS.<br />
<br />
The GPS have the following features<br />
<br />
* Record the X-Y GPS coordinates.<br />
* Record and display the speed profile.<br />
* Use the speed profile as a waterfall reference.<br />
* Creat a .gpx and display it on an internet website if you have an Internet connection).<br />
<br />
<br />
You can visit the dedicated page to download it and advanced configuration. : https://wiki.oros.com/wiki/index.php/NVGate_DC_Simulated_Manager<br />
<br />
<br />
We have 2 ways to acquire the GPS position, android phone or GPS Compliant with NMEA 0183 standard.<br />
<br />
<br />
=== Serial GPGGA GPS ===<br />
<br />
We are compatible with GPS USB Serial Interface Compliant with NMEA 0183 standard GPGGA <br><br />
<br />
We can advice the GPS USB Navilock NL-602U but other GPS will work.<br><br />
<br />
[[File:gps_navilock.jpg|200px]]<br />
<br />
=== Android GPS ===<br />
[[File:GPS_phone.png]]<br />
<br />
GPS data can also be retrieved using Android ADB (Android Debug Bridge).<br />
If you plug your android phone, we can inject the GPS position inside NVGate.<br />
<br />
<br />
=== How to use it ===<br />
<br />
Once the gps is plugged and configured, click on inject data, this will put the value on the DC simulated inputs.<br />
<br />
[[File:GPS process 2.png|400]]<br />
<br />
Then you can use these channels on NVGate.<br />
<br />
If you need to record the data, click on connect input, go on DC input tab, then drag and drop the DC simulated channels on recorder.<br />
[[File:GPS process.png]]<br />
<br />
If you have recorded the data you will be able to create a .gpx file<br />
<br />
=== Creating and visualize .gpx file ===<br />
<br />
We can create a .gpx from an .oxf (OROS) signal file. a .gpx is gps file to follow the <br />
<br />
You need to click on "Convert signal to gpx".<br />
[[File:GPS_creategpx.png]]<br />
<br />
This will open the windows below.<br />
[[File:signal_gpx.png]]<br />
<br />
Select the signal file that you need to convert and click on load data.<br />
You can modify the channels if needed.<br />
Click on create .gpx.<br />
The .gpx will be put in the "attachement" folder of the NVGate project.<br />
<br />
If you want to visualize the .gpx we advice to use the website : https://www.gpsvisualizer.com/<br />
Clicking on "Click here to visualize the .gpx on a website" opens a website allowing you to plot the gpx on a map.<br />
<br />
== Weather station==<br />
<br />
Precipitation, wind speed/direction, pressure, temperature, pressure can prejudice sound pressure levels or need to be recorded when you are doing sound measurement.<br />
<br />
Thanks to the DC simulated channels, we can now enter manually the value or we can connect a weather station to NVGate. <br />
<br />
=== Manual ===<br />
<br />
<br />
The user can enter manually the weather value.<br />
<br />
[[File:weather_manual.png]]<br><br />
<br />
===Davis instruments weather station ===<br />
<br />
[[File:weather.png|200px|right]]<br />
<br />
You need the 3 elements to make it work<br />
<br />
- [https://www.davisinstruments.com/product/wireless-vantage-pro2-integrated-sensor-suite/ 6322OV Wireless Vantage Pro2 Integrated Sensor Suite]<br />
<br />
- [https://www.davisinstruments.com/product/wireless-weather-envoy/ 6316 Wireless Envoy]<br />
<br />
- [https://www.davisinstruments.com/product/weatherlink-windows-usb/ 6510USB WeatherLink Data Logger].<br />
<br />
This weather station provide Accurate, reliable weather monitoring with real-time data updates every 2.5 seconds. Sensor suite includes outside temperature and humidity sensors in a passive radiation shield, wind speed and direction, and rainfall. <br />
<br />
Note : The weather Station need to pass by OROS SA for configuration.<br />
<br />
=== Other weather stations ===<br />
<br />
Please contact OROS to check the possibility to import the data (paid service).<br />
<br />
==DC Dynamical sensor y = ax+b calibration ==<br />
<br />
<br />
It is now possible to calibrate a dynamical sensor in "DC" or "DC floating" coupling using 2 values, then the software will automatically compute sensitivity and offset to obtain the "y = ax + b" formula.<br />
<br />
<br />
This function is practical for 4-20 mA sensors or “quasi-static” sensors acquired on dynamic channels. Wire sensor displacement sensor calibrated with a rule, pressure sensor with a calibrated compressor, proximity probe calibrated with a micrometer.<br />
<br />
For using it, first create a DC sensor on the sensor database. Then apply this sensor to a channel.<br />
<br />
Now on the calibration part, you can calibrate it using 2 values. Then the software will automatically apply the sensitivity and offset.<br />
<br />
[[File:calibrator.png|600px]]<br />
<br />
<br />
= Relax the limits of filtering! =<br />
<br />
All details on the filters can be read [[NVGate_Filter_Builder|here]]<br />
<br />
==New prototype filters==<br />
In addition to the Butterworth filter, now you can build the IIR filters with the Chebyshev type I (band-pass ripple) filter or Chebyshev type II (stop-band ripple) filter. <br />
<br />
The Butterworth filter has flat response in both the pass band and stop band, but its transition band is wide. <br />
<br />
The Chebyshev type I (band-pass ripple filter) has the steepest roll-off among the three filters, and its response in the stop band is flat. However, it has ripples in the pass band. <br />
<br />
The Chebyshev type II (stop-band ripple) filter has flat response in the pass band, but it has ripples in the stop band. Its transition band is narrower than the Butterworth filter, but wider than the Chebyshev type I. <br />
<br />
Below is an example showing these three filters with the same filter order. <br />
<br />
[[File:filters_3.png|600px]]<br />
<br />
Thanks to its maximal flat frequency response in the pass band, the Butterworth filter is commonly used in applications where signal distortion should be minimized, such as audio noise reduction. It is also widely used for anti-aliasing. The Chebyshev filters are optimized to provide steep roll-off, and they are usually used in applications where the maximum rejection of the nearby frequencies is required.<br />
<br />
==Increased filter order==<br />
The order of the filter affects the steepness of its roll-off. The higher the order is, the sharper the transition between the pass band and the stop band is. An example demonstrating the impact of the filter order is shown below.<br />
<br />
[[File:butterworth_freq_response.png|600px]]<br />
<br />
For the high pass and low pass filters, the filter order can be selected from 1 to 40 in the Office mode, and from 1 to 10 in the Connected mode now. In the previous NVGate version, the maximum filter order was 6.<br />
<br />
For the band pass and band stop filters, the filter order is 2*N, and N can be selected from 1 to 30 in the Office mode, and between 1 to 10 in the Connected mode now. In the previous NVGate version, the maximum value of N was 5.<br />
<br />
==Relaxed constraints on the cut-off frequency==<br />
<br />
To guarantee the stability of the filter, there are certain constraints on the value of the cut-off frequency. Compared with previous version of NVGate, such constraints are relaxed significantly now.<br />
<br />
[[File:image_2020-11-27_095451.png|600px]]<br />
<br />
For the high pass and low pass filters, the maximum value of the cut-off frequency is the input frequency range '''FR'''. The minimum value is '''FR''' / 50000 in the Office mode, and '''FR''' / 40000 in the Connected mode. In the previous NVGate version, the minimum value was '''FR''' / 40 for the low pass filter, and '''FR''' / 400 for the high pass filter. <br />
<br />
For the band pass and band stop filters, the low cut-off frequency ''f''<sub>low</sub> and the high cut-off frequency ''f''<sub>high</sub> need to meet the following conditions in the Office mode:<br />
<br />
* ''f''<sub>low</sub> ≥ 0.0001 * '''FR'''<br />
<br />
* ''f''<sub>high</sub> ≤ '''FR'''<br />
<br />
* 0.0004 * '''FR''' ≤ ''f''<sub>high</sub> - ''f''<sub>low</sub> ≤ 0.9998 * '''FR'''<br />
<br />
And in the Connected mode, the conditions are as below:<br />
<br />
* ''f''<sub>low</sub> ≥ 0.0005 * '''FR'''<br />
<br />
* ''f''<sub>high</sub> ≤ '''FR'''<br />
<br />
* 0.000675 * '''FR''' ≤ ''f''<sub>high</sub> - ''f''<sub>low</sub> ≤ 0.99 * '''FR'''<br />
<br />
In the previous NVGate version, the conditions on the cut-off frequencies were:<br />
<br />
* ''f''<sub>low</sub> ≥ 0.055 * '''FR'''<br />
<br />
* ''f''<sub>high</sub> ≤ '''FR'''<br />
<br />
* 0.0075 * '''FR''' ≤ ''f''<sub>high</sub> - ''f''<sub>low</sub> ≤ 0.99 * '''FR'''<br />
<br />
==Improved precision==<br />
Now, the filters are calculated in 64-bit floating point format in the Office mode, and in 40-bit floating point format in the Connected mode. In the previous NVGate version, the 32-bit floating point format was used in both modes.<br />
<br />
<br />
==Octave overall no limitation==<br />
<br />
1/n Octave Overall levels frequency range plug-in are now editable. You can define the min and max.<br />
This overall is computed in the time domain (weighting filter and detector). Processing weighting in the time domain provides accurate measurement for non-stationary signals (impulsive).<br />
<br />
[[File:octave_filter.png|octave_filter.png]]<br />
<br />
<br />
'''Full range mode''' computes the overall on the whole frequency range excluding the DC component. (The minimum range is defined by "CPB filters Lower central frequency"/5). <br />
'''Limited range''' lets the user define the range by changing the low cut off frequency and high cut off frequency.<br />
<br />
==Application==<br />
=== global level with filter===<br />
=== remove noise from spectrum=== <br />
===Listen signal with filter===<br />
<br />
<br />
== Remove a sensor from history ==<br />
<br />
If you have done a mistake during a sensor calibration, you can now delete a value from calbiration sensor history.<br />
[[File:remove_caibration.png|800px]]<br />
<br />
You need to go on history, select the sensor, select the value that you need to delete, then click on remove.<br />
<br />
== Displaying Time in Zoomed signal==<br />
<br />
== NVdrive : SetViewmeterLevels ==<br />
<br />
Using NVdrive, you can now control and set the alarm level, high level and low level.<br />
[[File:Viewmeter.jpg|none]]<br />
<br />
Check the NVDrive toolkit for more info.<br />
<br />
= How much does this body shake? = <br />
<br />
The OROS Body Vibration tool allows you to evaluate the affect of vibration on the human body according to standards ISO 2651 and ISO 5349. These standards define measurement practice and vibration signal analysis to evaluate the affect on health and comfort of environmental and equipment vibrations on the Human body.<br><br />
<br />
The ISO 2651 describes the affect on health and comfort of vibration on the whole-body in transportation system, and the ISO 5349 the affect on health of vibration on hands and arms when manipulating machine-tools or vibrating objects.<br><br />
<br><br />
This is a post analysis toolkit, operating after the recording of the signal. It will calculate time-weighted signal of acceleration and specific indicators both defined in the standards.<br><br />
<br />
[[Image:OROS_BodyVib.png|600px|none]]<br />
'''Standards compatible''': international standards about whole/body vibration including: ISO 5349, ISO 8041, ISO 2631-1 and ISO 2631-5.<br><br />
<br />
'''Whole/body Vibration Indicators include ''': VDV, MSDV, MTVV, Weighted raw, al(ISO 2631-5), D(ISO 2631-5) are available. RMS, Peak, Crest, peak-Peak, are also available in NVGate plug in.<br />
{| class="wikitable" style="margin: auto;"<br />
|+style="caption-side:bottom;"|''Body vibration indicators''<br />
|-<br />
|style="height:30px; width:100px;"|<math>MTVV</math><br />
|Maximum Transient Vibration Value, represent the maximal RMS value of the signal <br />
|-<br />
|style="height:30px; width:100px;"|<math>VDV</math><br />
|Vibration Dose Value, taking into account the temporal shocks in the signal<br />
|-<br />
|style="height:30px; width:100px;"|<math>MSDV</math><br />
|Motion Sickness Dose Value, representing the comfort in transportation measurement<br />
|-<br />
|style="height:30px; width:100px;"|<math>D_k</math> <br />
|The Acceleration Dose, representing the affect of the vibration on the spine<br />
|-<br />
|style="height:30px; width:100px;"|<math>A_w</math> <br />
|Daily maximal exposure value (Calculated from Post processing in NVGate)<br />
|-<br />
|style="height:30px; width:100px;"|<math>Peak</math> <br />
|Amplitude Peak of the vibration; maximal amplitude of the signal from the 0 (Calculated from Post processing in NVGate)<br />
|-<br />
|style="height:30px; width:100px;"|<math>Crest factor</math> <br />
|Ratio between the Peak level and the RMS of the weighted signal(Calculated from Post processing in NVGate)<br />
|}<br />
<br />
'''Signal fitering including''':<br />
{| class="wikitable" style="margin: auto;"<br />
|+style="caption-side:bottom;"|''Time-weighting filters''<br />
|-<br />
|style="height:30px; width:100px;"|<math>W_k</math><br />
|Time weighting for the Z axis for whole-body measurement (ISO 2651-1)<br />
|-<br />
|style="height:30px; width:100px;"|<math>W_d</math> <br />
|Time weighting for the X and Y axis for whole-body measurement (ISO 2651-1)<br />
|-<br />
|style="height:30px; width:100px;"|<math>W_h</math><br />
|Time weighting for the hand-arms measurement in any direction (ISO 5349-1) <br />
|-<br />
|style="height:30px; width:100px;"|<math>W_f</math><br />
|Time weighting for motion sickness measurement in the vertical direction (ISO 2651-1) <br />
|-<br />
|style="height:30px; width:100px;"|<math>W_c</math><br />
|Time weighting for the X axis for whole-body measurement (ISO 2651-1)<br />
|-<br />
|style="height:30px; width:100px;"|<math>W_e</math> <br />
|Time weighting for all rotational directions for whole-body measurement (ISO 2651-1) <br />
|-<br />
|style="height:30px; width:100px;"|<math>W_j</math><br />
|Time weighting for the Z axis for head comfort measurement (ISO 2651-1)<br />
|}<br />
<br />
How to use it:<br />
https://wiki.oros.com/wiki/index.php/Human_Vibration<br />
<br />
This Add-on is free of charge for NVGate 2021 users and TDA (?)<br />
<br />
= Orbit display included in FFT diag or ORD diag =<br />
<br />
For customer with option FFT-Diag or ORD-Diag, they will now have the Orbit display available in NVGate.<br />
<br />
[[File:Display_Graphs_Traces_122.png]]<br><br />
<br />
The orbit is available using the add/remove windows.<br />
<br />
For more details, please check the [[NVGate_Display#Orbit|orbit dipslay page.]]<br />
<br />
=Bug fixing=<br />
<br><br />
<br />
* 13728: [Fractional Tachometer] Using a fractional tachometer lead to DSP error -<br />
* 13729: [Drec] : Impossible to record more than 38 ch in Drec <br />
* 13672: Delta RPM with source DC tach (from monitor) - do not trig the waterfall <br />
* 10572: Low pass response for ICP and AC coupling poorly specified<br />
* 13811: NVDrive GetResultEx error while running without displaying result<br />
* 13774: Orbit display improvement <br />
* 13790: Change the number of displayed orbits<br />
* 13794: A problem of DRPM stop at 5000 RPM instead of 6000.<br />
* 13953: [General] A-weighting can be applied several times (report 13912)<br />
* 13938: Input type: Xpod bridge, one channel 5 doesn't work if 1 activated<br />
* 13767: Create a new unit : do not go on a "empty" windows, keep the previous configuration.</div>Adminhttps://wiki.oros.com/index.php?title=NVGate_2021:_Release_note&diff=8169NVGate 2021: Release note2020-12-21T10:13:05Z<p>Admin: </p>
<hr />
<div>OROS strives to be closer to its users, carefully listening to needs and requests. For that reason, OROS regularly releases new versions. Customers under contract automatically benefit from each release. <br />
<br />
[[File:Screenshot 2020-12-21 102850.png|500px]]<br />
<br />
The NVGate® 2021 major version is available from january 2021. This release of the OROS 3-Series analyzer’s software platform brings additional functionalities and brings significative performance improvements. Here is below a summary of the main enhancements of your NVGate experience:<br><br />
<br><br />
<br />
{| class="wikitable style="width: 50%;"<br />
|-<br />
| [[File:1250px-Wikipedia_logo_(svg).svg.png|50px]]<br>''' On line Wiki, how can I help you?''' <br> The help is now available online with a powerful search engine. An offline version is available as well when you are on the field || [[File:filter__2021.png|50px]]<br> '''Relax the limits of filtering!'''<br> Cut off frequencies of filters can now be chosen very flexibly || [[File:kinematik_2021.png|50px]]<br>'''- Tracking my bearing frequencies on RPMs variations''' <br> Kinematik markers are now tracking the frequency lines as the speed fluctuates || [[File:gps_2021.png|50px]]<br> Enrich your measurements in real time with GPS information''' <br />
|-<br />
| [[File:simulated_dc.png|200px]]<br> Using the DC simulated function, one can now associate NVGate results with information from external software in real time using NVDrive || [[File:orbit_2021.jpg|50px]]<br> '''Draw those orbits!''' <br>Orbits can now be displayed directly in NVGate with FFt-Diag option || [[File:calibration_2021.png|50px]]<br> dynamical input can now calibrate sensor y = ax+b || [[File:human_2021.png|50px]]<br>'''- How much does this body shake?''' <br>A new add-on is available to apply human vibrations filters and calculate associated quantities.<br />
|}<br />
<br />
'''- Here is OROS Wiki on the line, how can I help you?''' <br><br />
The help is now available online with a powerful search engine. An offline version is available as well when you are on the field <br><br />
'''- Tracking my bearing frequencies on RPMs variations''' <br> <br />
Kinematik markers are now tracking the frequency lines as the speed fluctuates <br><br />
'''- Enrich your measurements in real time: from GPS to environment info''' <br><br />
Using the DC simulated function, one can now associate NVGate results with metada information in real time <br><br />
- '''Relax the limits of filtering!'''<br><br />
Cut off frequencies of filters can now be chosen very flexibly <br><br />
'''- Draw those orbits!''' <br><br />
Orbits can now be displayed directly in NVGate <br><br />
'''- How much does this body shake?''' <br><br />
A new add-on is available to apply human vibrations filters and calculate associated quantities <br><br />
<br><br />
<br />
This release note describes the content of version, with operating details.<br />
<br />
'''Compatibility:'''<br />
NVGate 2021 is compatible with all OROS instruments that have not been discontinued. Depending on the hardware options and version, some instrument features may or may not be available.<br />
<br />
= Here is OROS Wiki on the line, how can I help you? =<br />
<br />
All the documentation and help have been completely renewed. We have put an online wiki-based documentation with videos, manual, application notes, download.<br />
<br />
This page is in free access and can be consulted here: https://wiki.oros.com/wiki/index.php/Home<br />
<br />
== Online Help: wiki ==<br />
We advice to be connected to internet to enjoy the new documentation page. <br><br />
<br />
So if you are connected to Internet, now the following button will bring you to the NVGate wiki page.<br><br />
<br />
<br />
[[NVGate|https://wiki.oros.com/wiki/index.php/NVGate]]<br />
<br />
<gallery><br />
File:help_menu.png<br />
File:Help_ribbon.png<br />
File:Help_asb.png<br />
</gallery><br />
<br />
Be aware than this wiki page have a powerful research button if you need to search any setting.<br><br />
[[File:help search.png]]<br />
<br />
<br />
If you are using NVGate in another language than english, the wikipage will be opened with /XX at the end (XX correspond to the unicode language.<br><br />
<br />
For example if you are using NVGate in japanese, the help will bring you to the page: <br />
https://wiki.oros.com/wiki/index.php/NVGate/ja (==> ja is the internation japanese code)<br />
<br />
== Off line Help: PDF manual ==<br />
If you are not connected to internet which may often happen on the field, the NVGate.pdf manual will be opened. This file is located in the "Manuals" folder in the installation directory of NVGate.<br />
<br />
== Tutorials Videos ==<br />
<br />
The OROS Youtube channel is available here featuring a full panel of videos on how to use OROS products :<br />
<br />
[[File:youtube.png|600px]]<br><br />
<br />
[https://www.youtube.com/user/OROSanalyzers/ OROS Youtube channels page]<br />
<br />
We have included tutorial videos on this wiki, to help you to use the OROS software.<br />
<br />
= Tracking my bearing frequencies on RPMs variations =<br />
<br />
== Kinematik markers follow FFT tachometer==<br />
<br />
The Kinematik marker can now be associated to the speed of the tachometer.<br />
So during a Run up the kinematik marker will automatically move inside FFT spectrum in function of the speed.<br />
<br />
How to use it :<br />
Select a Tachometer on FFT tab from GoToResult page.<br />
<br />
[[File:kiné_fft.png|500px]]<br />
<br />
Then display a FFT spectrum. Select a kinematik marker and put it on the windows.<br />
<br />
[[File:kiné_select.png|400px]]<br />
<br />
Now this marker will be linked to the FFT speed.<br />
<br />
Then on properties, you can link (or not) this marker to the speed.<br />
<br />
<br />
[[File:kiné_select_active.png|300px]]<br />
<br />
== Automatic installation of the database ==<br />
<br />
Now the excel kinematik database including bearings from NSK, SKF, FAG, SNRn, GMN, INA, RHP is installed automatically.<br />
<br />
You can find it in the installation folder: "NVGate Data\Markers\Kinematic\"<br />
<br />
== Direct access to database==<br />
<br />
When clicking on the "open folder" button, you will directly access to the folder where the Excel kinematik database is stored.<br />
So you can now edit the database easily if you need to add the kinematic configuration of a rotating machine.<br />
<br />
[[File:kiné_select_edit.png|400px]]<br />
<br />
= Enrich your measurements in real time: from GPS to environmental metadata =<br />
<br />
The DC simulated allow you to inject up to 32 external DC channels in NVGate from external source (exemple : GPS, weather station, external can bus...). The frequency sampling is up to 15 samples / seconds.<br />
Thanks to the python developer toolkit, a developer can easily develop an interface to inject the value inside NVGate. The GPS and weather station below have been developed using the DC simulated.<br />
<br />
This option is included with the reference ORNV-VI-DC (which also includes the Virtual input).<br />
<br />
How to use it:<br />
<br><br />
<br />
on the Acquisition Tab, select connect input, select the DC inputs and select the DC simulated channels.<br />
<br />
[[File:DC simulat.png|600px]]<br />
<br />
These channels can be activated and connected to the recorder and/or waterfall like any other DC channels.<br />
<br />
[[File:DC_simul.png]]<br />
<br />
The settings '''Value''' (which can be controlled by an external software) will change the value of the inputs. <br />
<br />
[[NVGate_Front_End#Simulated_DC_Inputs|The others DC simulated settings details]] are explained on the front end settings page.<br />
<br />
== GPS ==<br />
Thanks to the "DC simulated channels" we have created an Add-on to record a GPS.<br />
<br />
The GPS have the following features<br />
<br />
* Record the X-Y GPS coordinates.<br />
* Record and display the speed profile.<br />
* Use the speed profile as a waterfall reference.<br />
* Creat a .gpx and display it on an internet website if you have an Internet connection).<br />
<br />
<br />
You can visit the dedicated page to download it and advanced configuration. : https://wiki.oros.com/wiki/index.php/NVGate_DC_Simulated_Manager<br />
<br />
<br />
We have 2 ways to acquire the GPS position, android phone or GPS Compliant with NMEA 0183 standard.<br />
<br />
<br />
=== Serial GPGGA GPS ===<br />
<br />
We are compatible with GPS USB Serial Interface Compliant with NMEA 0183 standard GPGGA <br><br />
<br />
We can advice the GPS USB Navilock NL-602U but other GPS will work.<br><br />
<br />
[[File:gps_navilock.jpg|200px]]<br />
<br />
=== Android GPS ===<br />
[[File:GPS_phone.png]]<br />
<br />
GPS data can also be retrieved using Android ADB (Android Debug Bridge).<br />
If you plug your android phone, we can inject the GPS position inside NVGate.<br />
<br />
<br />
=== How to use it ===<br />
<br />
Once the gps is plugged and configured, click on inject data, this will put the value on the DC simulated inputs.<br />
<br />
[[File:GPS process 2.png|400]]<br />
<br />
Then you can use these channels on NVGate.<br />
<br />
If you need to record the data, click on connect input, go on DC input tab, then drag and drop the DC simulated channels on recorder.<br />
[[File:GPS process.png]]<br />
<br />
If you have recorded the data you will be able to create a .gpx file<br />
<br />
=== Creating and visualize .gpx file ===<br />
<br />
We can create a .gpx from an .oxf (OROS) signal file. a .gpx is gps file to follow the <br />
<br />
You need to click on "Convert signal to gpx".<br />
[[File:GPS_creategpx.png]]<br />
<br />
This will open the windows below.<br />
[[File:signal_gpx.png]]<br />
<br />
Select the signal file that you need to convert and click on load data.<br />
You can modify the channels if needed.<br />
Click on create .gpx.<br />
The .gpx will be put in the "attachement" folder of the NVGate project.<br />
<br />
If you want to visualize the .gpx we advice to use the website : https://www.gpsvisualizer.com/<br />
Clicking on "Click here to visualize the .gpx on a website" opens a website allowing you to plot the gpx on a map.<br />
<br />
== Weather station==<br />
<br />
Precipitation, wind speed/direction, pressure, temperature, pressure can prejudice sound pressure levels or need to be recorded when you are doing sound measurement.<br />
<br />
Thanks to the DC simulated channels, we can now enter manually the value or we can connect a weather station to NVGate. <br />
<br />
=== Manual ===<br />
<br />
<br />
The user can enter manually the weather value.<br />
<br />
[[File:weather_manual.png]]<br><br />
<br />
===Davis instruments weather station ===<br />
<br />
[[File:weather.png|200px|right]]<br />
<br />
You need the 3 elements to make it work<br />
<br />
- [https://www.davisinstruments.com/product/wireless-vantage-pro2-integrated-sensor-suite/ 6322OV Wireless Vantage Pro2 Integrated Sensor Suite]<br />
<br />
- [https://www.davisinstruments.com/product/wireless-weather-envoy/ 6316 Wireless Envoy]<br />
<br />
- [https://www.davisinstruments.com/product/weatherlink-windows-usb/ 6510USB WeatherLink Data Logger].<br />
<br />
This weather station provide Accurate, reliable weather monitoring with real-time data updates every 2.5 seconds. Sensor suite includes outside temperature and humidity sensors in a passive radiation shield, wind speed and direction, and rainfall. <br />
<br />
Note : The weather Station need to pass by OROS SA for configuration.<br />
<br />
=== Other weather stations ===<br />
<br />
Please contact OROS to check the possibility to import the data (paid service).<br />
<br />
==DC Dynamical sensor y = ax+b calibration ==<br />
<br />
<br />
It is now possible to calibrate a dynamical sensor in "DC" or "DC floating" coupling using 2 values, then the software will automatically compute sensitivity and offset to obtain the "y = ax + b" formula.<br />
<br />
<br />
This function is practical for 4-20 mA sensors or “quasi-static” sensors acquired on dynamic channels. Wire sensor displacement sensor calibrated with a rule, pressure sensor with a calibrated compressor, proximity probe calibrated with a micrometer.<br />
<br />
For using it, first create a DC sensor on the sensor database. Then apply this sensor to a channel.<br />
<br />
Now on the calibration part, you can calibrate it using 2 values. Then the software will automatically apply the sensitivity and offset.<br />
<br />
[[File:calibrator.png|600px]]<br />
<br />
<br />
= Relax the limits of filtering! =<br />
<br />
All details on the filters can be read [[NVGate_Filter_Builder|here]]<br />
<br />
==New prototype filters==<br />
In addition to the Butterworth filter, now you can build the IIR filters with the Chebyshev type I (band-pass ripple) filter or Chebyshev type II (stop-band ripple) filter. <br />
<br />
The Butterworth filter has flat response in both the pass band and stop band, but its transition band is wide. <br />
<br />
The Chebyshev type I (band-pass ripple filter) has the steepest roll-off among the three filters, and its response in the stop band is flat. However, it has ripples in the pass band. <br />
<br />
The Chebyshev type II (stop-band ripple) filter has flat response in the pass band, but it has ripples in the stop band. Its transition band is narrower than the Butterworth filter, but wider than the Chebyshev type I. <br />
<br />
Below is an example showing these three filters with the same filter order. <br />
<br />
[[File:filters_3.png|600px]]<br />
<br />
Thanks to its maximal flat frequency response in the pass band, the Butterworth filter is commonly used in applications where signal distortion should be minimized, such as audio noise reduction. It is also widely used for anti-aliasing. The Chebyshev filters are optimized to provide steep roll-off, and they are usually used in applications where the maximum rejection of the nearby frequencies is required.<br />
<br />
==Increased filter order==<br />
The order of the filter affects the steepness of its roll-off. The higher the order is, the sharper the transition between the pass band and the stop band is. An example demonstrating the impact of the filter order is shown below.<br />
<br />
[[File:butterworth_freq_response.png|600px]]<br />
<br />
For the high pass and low pass filters, the filter order can be selected from 1 to 40 in the Office mode, and from 1 to 10 in the Connected mode now. In the previous NVGate version, the maximum filter order was 6.<br />
<br />
For the band pass and band stop filters, the filter order is 2*N, and N can be selected from 1 to 30 in the Office mode, and between 1 to 10 in the Connected mode now. In the previous NVGate version, the maximum value of N was 5.<br />
<br />
==Relaxed constraints on the cut-off frequency==<br />
<br />
To guarantee the stability of the filter, there are certain constraints on the value of the cut-off frequency. Compared with previous version of NVGate, such constraints are relaxed significantly now.<br />
<br />
[[File:image_2020-11-27_095451.png|600px]]<br />
<br />
For the high pass and low pass filters, the maximum value of the cut-off frequency is the input frequency range '''FR'''. The minimum value is '''FR''' / 50000 in the Office mode, and '''FR''' / 40000 in the Connected mode. In the previous NVGate version, the minimum value was '''FR''' / 40 for the low pass filter, and '''FR''' / 400 for the high pass filter. <br />
<br />
For the band pass and band stop filters, the low cut-off frequency ''f''<sub>low</sub> and the high cut-off frequency ''f''<sub>high</sub> need to meet the following conditions in the Office mode:<br />
<br />
* ''f''<sub>low</sub> ≥ 0.0001 * '''FR'''<br />
<br />
* ''f''<sub>high</sub> ≤ '''FR'''<br />
<br />
* 0.0004 * '''FR''' ≤ ''f''<sub>high</sub> - ''f''<sub>low</sub> ≤ 0.9998 * '''FR'''<br />
<br />
And in the Connected mode, the conditions are as below:<br />
<br />
* ''f''<sub>low</sub> ≥ 0.0005 * '''FR'''<br />
<br />
* ''f''<sub>high</sub> ≤ '''FR'''<br />
<br />
* 0.000675 * '''FR''' ≤ ''f''<sub>high</sub> - ''f''<sub>low</sub> ≤ 0.99 * '''FR'''<br />
<br />
In the previous NVGate version, the conditions on the cut-off frequencies were:<br />
<br />
* ''f''<sub>low</sub> ≥ 0.055 * '''FR'''<br />
<br />
* ''f''<sub>high</sub> ≤ '''FR'''<br />
<br />
* 0.0075 * '''FR''' ≤ ''f''<sub>high</sub> - ''f''<sub>low</sub> ≤ 0.99 * '''FR'''<br />
<br />
==Improved precision==<br />
Now, the filters are calculated in 64-bit floating point format in the Office mode, and in 40-bit floating point format in the Connected mode. In the previous NVGate version, the 32-bit floating point format was used in both modes.<br />
<br />
<br />
==Octave overall no limitation==<br />
<br />
1/n Octave Overall levels frequency range plug-in are now editable. You can define the min and max.<br />
This overall is computed in the time domain (weighting filter and detector). Processing weighting in the time domain provides accurate measurement for non-stationary signals (impulsive).<br />
<br />
[[File:octave_filter.png|octave_filter.png]]<br />
<br />
<br />
'''Full range mode''' computes the overall on the whole frequency range excluding the DC component. (The minimum range is defined by "CPB filters Lower central frequency"/5). <br />
'''Limited range''' lets the user define the range by changing the low cut off frequency and high cut off frequency.<br />
<br />
==Application==<br />
=== global level with filter===<br />
=== remove noise from spectrum=== <br />
===Listen signal with filter===<br />
<br />
<br />
== Remove a sensor from history ==<br />
<br />
If you have done a mistake during a sensor calibration, you can now delete a value from calbiration sensor history.<br />
[[File:remove_caibration.png|800px]]<br />
<br />
You need to go on history, select the sensor, select the value that you need to delete, then click on remove.<br />
<br />
== Displaying Time in Zoomed signal==<br />
<br />
== NVdrive : SetViewmeterLevels ==<br />
<br />
Using NVdrive, you can now control and set the alarm level, high level and low level.<br />
[[File:Viewmeter.jpg|none]]<br />
<br />
Check the NVDrive toolkit for more info.<br />
<br />
= How much does this body shake? = <br />
<br />
The OROS Body Vibration tool allows you to evaluate the affect of vibration on the human body according to standards ISO 2651 and ISO 5349. These standards define measurement practice and vibration signal analysis to evaluate the affect on health and comfort of environmental and equipment vibrations on the Human body.<br><br />
<br />
The ISO 2651 describes the affect on health and comfort of vibration on the whole-body in transportation system, and the ISO 5349 the affect on health of vibration on hands and arms when manipulating machine-tools or vibrating objects.<br><br />
<br><br />
This is a post analysis toolkit, operating after the recording of the signal. It will calculate time-weighted signal of acceleration and specific indicators both defined in the standards.<br><br />
<br />
[[Image:OROS_BodyVib.png|600px|none]]<br />
'''Standards compatible''': international standards about whole/body vibration including: ISO 5349, ISO 8041, ISO 2631-1 and ISO 2631-5.<br><br />
<br />
'''Whole/body Vibration Indicators include ''': VDV, MSDV, MTVV, Weighted raw, al(ISO 2631-5), D(ISO 2631-5) are available. RMS, Peak, Crest, peak-Peak, are also available in NVGate plug in.<br />
{| class="wikitable" style="margin: auto;"<br />
|+style="caption-side:bottom;"|''Body vibration indicators''<br />
|-<br />
|style="height:30px; width:100px;"|<math>MTVV</math><br />
|Maximum Transient Vibration Value, represent the maximal RMS value of the signal <br />
|-<br />
|style="height:30px; width:100px;"|<math>VDV</math><br />
|Vibration Dose Value, taking into account the temporal shocks in the signal<br />
|-<br />
|style="height:30px; width:100px;"|<math>MSDV</math><br />
|Motion Sickness Dose Value, representing the comfort in transportation measurement<br />
|-<br />
|style="height:30px; width:100px;"|<math>D_k</math> <br />
|The Acceleration Dose, representing the affect of the vibration on the spine<br />
|-<br />
|style="height:30px; width:100px;"|<math>A_w</math> <br />
|Daily maximal exposure value (Calculated from Post processing in NVGate)<br />
|-<br />
|style="height:30px; width:100px;"|<math>Peak</math> <br />
|Amplitude Peak of the vibration; maximal amplitude of the signal from the 0 (Calculated from Post processing in NVGate)<br />
|-<br />
|style="height:30px; width:100px;"|<math>Crest factor</math> <br />
|Ratio between the Peak level and the RMS of the weighted signal(Calculated from Post processing in NVGate)<br />
|}<br />
<br />
'''Signal fitering including''':<br />
{| class="wikitable" style="margin: auto;"<br />
|+style="caption-side:bottom;"|''Time-weighting filters''<br />
|-<br />
|style="height:30px; width:100px;"|<math>W_k</math><br />
|Time weighting for the Z axis for whole-body measurement (ISO 2651-1)<br />
|-<br />
|style="height:30px; width:100px;"|<math>W_d</math> <br />
|Time weighting for the X and Y axis for whole-body measurement (ISO 2651-1)<br />
|-<br />
|style="height:30px; width:100px;"|<math>W_h</math><br />
|Time weighting for the hand-arms measurement in any direction (ISO 5349-1) <br />
|-<br />
|style="height:30px; width:100px;"|<math>W_f</math><br />
|Time weighting for motion sickness measurement in the vertical direction (ISO 2651-1) <br />
|-<br />
|style="height:30px; width:100px;"|<math>W_c</math><br />
|Time weighting for the X axis for whole-body measurement (ISO 2651-1)<br />
|-<br />
|style="height:30px; width:100px;"|<math>W_e</math> <br />
|Time weighting for all rotational directions for whole-body measurement (ISO 2651-1) <br />
|-<br />
|style="height:30px; width:100px;"|<math>W_j</math><br />
|Time weighting for the Z axis for head comfort measurement (ISO 2651-1)<br />
|}<br />
<br />
How to use it:<br />
https://wiki.oros.com/wiki/index.php/Human_Vibration<br />
<br />
This Add-on is free of charge for NVGate 2021 users and TDA (?)<br />
<br />
= Orbit display included in FFT diag or ORD diag =<br />
<br />
For customer with option FFT-Diag or ORD-Diag, they will now have the Orbit display available in NVGate.<br />
<br />
[[File:Display_Graphs_Traces_122.png]]<br><br />
<br />
The orbit is available using the add/remove windows.<br />
<br />
For more details, please check the [[NVGate_Display#Orbit|orbit dipslay page.]]<br />
<br />
=Bug fixing=<br />
<br><br />
<br />
* 13728: [Fractional Tachometer] Using a fractional tachometer lead to DSP error -<br />
* 13729: [Drec] : Impossible to record more than 38 ch in Drec <br />
* 13672: Delta RPM with source DC tach (from monitor) - do not trig the waterfall <br />
* 10572: Low pass response for ICP and AC coupling poorly specified<br />
* 13811: NVDrive GetResultEx error while running without displaying result<br />
* 13774: Orbit display improvement <br />
* 13790: Change the number of displayed orbits<br />
* 13794: A problem of DRPM stop at 5000 RPM instead of 6000.<br />
* 13953: [General] A-weighting can be applied several times (report 13912)<br />
* 13938: Input type: Xpod bridge, one channel 5 doesn't work if 1 activated<br />
* 13767: Create a new unit : do not go on a "empty" windows, keep the previous configuration.</div>Adminhttps://wiki.oros.com/index.php?title=NVGate_DC_Simulated_Manager&diff=8125NVGate DC Simulated Manager2020-12-17T09:49:15Z<p>Admin: </p>
<hr />
<div>This Add on is a tools to use the DC simulated in NVGate.<br />
It provide a GPS and can deal the weather station.<br />
<br />
<br />
<br />
==Download==<br />
<br />
Latest version (07.12.2020) can be donwloaded here : [https://orossas.sharepoint.com/:u:/g/support/EePDXb-MBEpIlRIvCUXYXHIBtPLjjzpC7eQ-Ndrx2_SDiA?e=u4NalF DC simulated manager v1.0]<br />
<br />
Configuration needed : <br><br />
- NVGate 2021 or upper<br><br />
- DC simulated channels (ORNV-VIDC option)<br />
<br />
=GPS=<br />
<br />
We have 2 ways to acquire the GPS position, android phone or GPS Compliant with NMEA 0183 standard.<br />
<br />
<br />
== Serial GPGGA GPS ==<br />
<br />
We are compatible with GPS USB Serial Interface Compliant with NMEA 0183 standard GPGGA <br><br />
<br />
We can advice the GPS USB Navilock NL-602U but other GPS will work.<br><br />
<br />
[[File:gps_navilock.jpg|200]]<br />
<br />
<br />
== Android GPS ==<br />
[[File:GPS_phone.png]]<br />
<br />
GPS data can also be retrieved using Android ADB (Android Debug Bridge).<br />
If you plug your android phone, we can inject the GPS position inside NVGate.<br />
<br />
[[File:GPS_android.png|600px]]<br />
<br />
Procedure:<br />
<br />
- Activate android developers option. ( To enable developer options, on android settings/"about phone" tap the Build Number option 7 times.<br />
- Enable USB debugging (on developers options menu)<br />
<br />
process is [https://www.howtogeek.com/129728/how-to-access-the-developer-options-menu-and-enable-usb-debugging-on-android-4.2/ here]<br />
<br />
- Plug your android phone with USB plug on the PC.<br />
- Allow the incoming USB debugging connection and check "always allow from this computer".<br />
<br />
You can test the connection using the ADB connection button.<br />
<br />
[[File:gps_ADB.jpg]]<br />
<br />
Also be sure the GPS is enabled on your phone, then you need to have an application which is running and using the GPS at the foreground of the phone (exemple: [https://play.google.com/store/apps/details?id=com.google.android.apps.maps&hl=fr&gl=US Google Maps] or [https://play.google.com/store/apps/details?id=com.exatools.gpsdata&hl=fr&gl=US GPS Data])<br />
<br />
== How to used ==<br />
<br />
Once the gps is plugged and configured, click on inject data, this will put the value on the DC simulated inputs.<br />
<br />
[[File:GPS process 2.png|400]]<br />
<br />
Then you can use these channels on NVGate.<br />
<br />
If you need to record the data.<br />
click on connect input, go on DC input tab, then drag and drop the DC simulated channels on recorder.<br />
[[File:GPS process.png]]<br />
<br />
If you have record the data you will be able to create a .gpx file<br />
<br />
== Creating and visualize .gpx file ==<br />
<br />
We can create a .gpx from an .oxf (OROS) signal file.<br />
<br />
You need to click on Convertsignaltogpx.<br />
[[File:GPS_creategpx.png]]<br />
<br />
This will open the windows below.<br />
[[File:signal_gpx.png]]<br />
<br />
Select the signal file than you need to convert and click on load data.<br />
You can modify the channels if needed.<br />
Click on create .gpx.<br />
The .gpx will be put on the folder "attachement" of the NVGate project.<br />
<br />
If you want to visualize the .gpx we advice to use the website : https://www.gpsvisualizer.com/<br />
Clicking on "Click here to visualize the .gpx on a website" opens an website allowing you to plot the gpx on a map.<br />
<br />
=Weather station=<br />
<br />
<br />
<br />
== Manual ==<br />
<br />
<br />
The user can enter manually the weather value.<br />
<br />
[[File:weather_manual.png]]<br><br />
<br />
==Davis instruments weather station ==<br />
<br />
[[File:weather.png|framed|200px|right]]<br />
<br />
You need the 3 elements to make it work.<br />
<br />
- [https://www.davisinstruments.com/product/wireless-vantage-pro2-integrated-sensor-suite/ 6322OV Wireless Vantage Pro2 Integrated Sensor Suite]<br />
<br />
- [https://www.davisinstruments.com/product/wireless-weather-envoy/ 6316 Wireless Envoy]<br />
<br />
- [https://www.davisinstruments.com/product/weatherlink-windows-usb/ 6510USB WeatherLink Data Logger].<br />
<br />
This weather station provide Accurate, reliable weather monitoring with real-time data updates every 2.5 seconds. Sensor suite includes outside temperature and humidity sensors in a passive radiation shield; wind speed and direction; and rainfall. <br />
<br />
Note : '''The weather Station need to pass by OROS SA for configuration.'''<br />
<br />
== Other weather statio ==<br />
<br />
Please contact OROS to check the posibility to import the data. (paid service)</div>Adminhttps://wiki.oros.com/index.php?title=NVGate_DC_Simulated_Manager&diff=8024NVGate DC Simulated Manager2020-12-07T13:59:58Z<p>Admin: </p>
<hr />
<div>This Add on is a tools to use the DC simulated in NVGate.<br />
It provide a GPS and can deal the weather station.<br />
<br />
<br />
<br />
==Download==<br />
<br />
Latest version (07.12.2020) can be donwloaded here : [https://orossas.sharepoint.com/:u:/g/support/Eedt7tyMWzFNoWRyqdw9N20B798bDjCB5_7KeJDcvQVlkQ?e=QF5Gy2 DC simulated manager V1.00]<br />
<br />
Configuration needed : <br><br />
- NVGate 2021 or upper<br><br />
- DC simulated channels (ORNV-VIDC option)<br />
<br />
=GPS=<br />
<br />
We have 2 ways to acquire the GPS position, android phone or GPS Compliant with NMEA 0183 standard.<br />
<br />
<br />
== Serial GPGGA GPS ==<br />
<br />
We are compatible with GPS USB Serial Interface Compliant with NMEA 0183 standard GPGGA <br><br />
<br />
We can advice the GPS USB Navilock NL-602U but other GPS will work.<br><br />
<br />
[[File:gps_navilock.jpg|200]]<br />
<br />
<br />
== Android GPS ==<br />
[[File:GPS_phone.png]]<br />
<br />
GPS data can also be retrieved using Android ADB (Android Debug Bridge).<br />
If you plug your android phone, we can inject the GPS position inside NVGate.<br />
<br />
[[File:GPS_android.png|600px]]<br />
<br />
Procedure:<br />
<br />
- Activate android developers option. ( To enable developer options, on android settings/"about phone" tap the Build Number option 7 times.<br />
- Enable USB debugging (on developers options menu)<br />
<br />
process is [https://www.howtogeek.com/129728/how-to-access-the-developer-options-menu-and-enable-usb-debugging-on-android-4.2/ here]<br />
<br />
- Plug your android phone with USB plug on the PC.<br />
- Allow the incoming USB debugging connection and check "always allow from this computer".<br />
<br />
You can test the connection using the ADB connection button.<br />
<br />
[[File:gps_ADB.jpg]]<br />
<br />
Also be sure the GPS is enabled on your phone, then you need to have an application which is running and using the GPS at the foreground of the phone (exemple: [https://play.google.com/store/apps/details?id=com.google.android.apps.maps&hl=fr&gl=US Google Maps] or [https://play.google.com/store/apps/details?id=com.exatools.gpsdata&hl=fr&gl=US GPS Data])<br />
<br />
== How to used ==<br />
<br />
Once the gps is plugged and configured, click on inject data, this will put the value on the DC simulated inputs.<br />
<br />
[[File:GPS process 2.png|400]]<br />
<br />
Then you can use these channels on NVGate.<br />
<br />
If you need to record the data.<br />
click on connect input, go on DC input tab, then drag and drop the DC simulated channels on recorder.<br />
[[File:GPS process.png]]<br />
<br />
If you have record the data you will be able to create a .gpx file<br />
<br />
== Creating and visualize .gpx file ==<br />
<br />
We can create a .gpx from an .oxf (OROS) signal file.<br />
<br />
(Be aware than big size, .oxf signal file signal can be too long to create a .gpx , in this case you need to re-record the signal with only the.gps channels. In this case, in post analysis mode, connect the track from the player to the recorder.)<br />
<br />
You need to click on Convertsignaltogpx.<br />
[[File:GPS_creategpx.png]]<br />
<br />
This will open the windows below.<br />
[[File:signal_gpx.png]]<br />
<br />
Select the signal file than you need to convert and click on load data.<br />
You can modify the channels if needed.<br />
Click on create .gpx.<br />
The .gpx will be put on the folder "attachement" of the NVGate project.<br />
<br />
If you want to visualize the .gpx we advice to use the website : https://www.gpsvisualizer.com/<br />
Clicking on "Click here to visualize the .gpx on a website" opens an website allowing you to plot the gpx on a map.<br />
<br />
=Weather station=<br />
<br />
<br />
<br />
== Manual ==<br />
<br />
<br />
The user can enter manually the weather value.<br />
<br />
[[File:weather_manual.png]]<br><br />
<br />
==Davis instruments weather station ==<br />
<br />
[[File:weather.png|framed|200px|right]]<br />
<br />
You need the 3 elements to make it work.<br />
<br />
- [https://www.davisinstruments.com/product/wireless-vantage-pro2-integrated-sensor-suite/ 6322OV Wireless Vantage Pro2 Integrated Sensor Suite]<br />
<br />
- [https://www.davisinstruments.com/product/wireless-weather-envoy/ 6316 Wireless Envoy]<br />
<br />
- [https://www.davisinstruments.com/product/weatherlink-windows-usb/ 6510USB WeatherLink Data Logger].<br />
<br />
This weather station provide Accurate, reliable weather monitoring with real-time data updates every 2.5 seconds. Sensor suite includes outside temperature and humidity sensors in a passive radiation shield; wind speed and direction; and rainfall. <br />
<br />
Note : '''The weather Station need to pass by OROS SA for configuration.'''<br />
<br />
== Other weather statio ==<br />
<br />
Please contact OROS to check the posibility to import the data. (paid service)</div>Adminhttps://wiki.oros.com/index.php?title=NVGate_DC_Simulated_Manager&diff=8023NVGate DC Simulated Manager2020-12-07T13:59:18Z<p>Admin: </p>
<hr />
<div>This Add on is a tools to use the DC simulated in NVGate.<br />
It provide a GPS and can deal the weather station.<br />
<br />
<br />
<br />
==Download==<br />
<br />
Latest version (12.07.2020) can be donwloaded here : [https://orossas.sharepoint.com/:u:/g/support/Eedt7tyMWzFNoWRyqdw9N20B798bDjCB5_7KeJDcvQVlkQ?e=QF5Gy2 DC simulated manager V1.00]<br />
<br />
Configuration needed : <br><br />
- NVGate 2021 or upper<br><br />
- DC simulated channels (ORNV-VIDC option)<br />
<br />
=GPS=<br />
<br />
We have 2 ways to acquire the GPS position, android phone or GPS Compliant with NMEA 0183 standard.<br />
<br />
<br />
== Serial GPGGA GPS ==<br />
<br />
We are compatible with GPS USB Serial Interface Compliant with NMEA 0183 standard GPGGA <br><br />
<br />
We can advice the GPS USB Navilock NL-602U but other GPS will work.<br><br />
<br />
[[File:gps_navilock.jpg|200]]<br />
<br />
<br />
== Android GPS ==<br />
[[File:GPS_phone.png]]<br />
<br />
GPS data can also be retrieved using Android ADB (Android Debug Bridge).<br />
If you plug your android phone, we can inject the GPS position inside NVGate.<br />
<br />
[[File:GPS_android.png|600px]]<br />
<br />
Procedure:<br />
<br />
- Activate android developers option. ( To enable developer options, on android settings/"about phone" tap the Build Number option 7 times.<br />
- Enable USB debugging (on developers options menu)<br />
<br />
process is [https://www.howtogeek.com/129728/how-to-access-the-developer-options-menu-and-enable-usb-debugging-on-android-4.2/ here]<br />
<br />
- Plug your android phone with USB plug on the PC.<br />
- Allow the incoming USB debugging connection and check "always allow from this computer".<br />
<br />
You can test the connection using the ADB connection button.<br />
<br />
[[File:gps_ADB.jpg]]<br />
<br />
Also be sure the GPS is enabled on your phone, then you need to have an application which is running and using the GPS at the foreground of the phone (exemple: [https://play.google.com/store/apps/details?id=com.google.android.apps.maps&hl=fr&gl=US Google Maps] or [https://play.google.com/store/apps/details?id=com.exatools.gpsdata&hl=fr&gl=US GPS Data])<br />
<br />
== How to used ==<br />
<br />
Once the gps is plugged and configured, click on inject data, this will put the value on the DC simulated inputs.<br />
<br />
[[File:GPS process 2.png|400]]<br />
<br />
Then you can use these channels on NVGate.<br />
<br />
If you need to record the data.<br />
click on connect input, go on DC input tab, then drag and drop the DC simulated channels on recorder.<br />
[[File:GPS process.png]]<br />
<br />
If you have record the data you will be able to create a .gpx file<br />
<br />
== Creating and visualize .gpx file ==<br />
<br />
We can create a .gpx from an .oxf (OROS) signal file.<br />
<br />
(Be aware than big size, .oxf signal file signal can be too long to create a .gpx , in this case you need to re-record the signal with only the.gps channels. In this case, in post analysis mode, connect the track from the player to the recorder.)<br />
<br />
You need to click on Convertsignaltogpx.<br />
[[File:GPS_creategpx.png]]<br />
<br />
This will open the windows below.<br />
[[File:signal_gpx.png]]<br />
<br />
Select the signal file than you need to convert and click on load data.<br />
You can modify the channels if needed.<br />
Click on create .gpx.<br />
The .gpx will be put on the folder "attachement" of the NVGate project.<br />
<br />
If you want to visualize the .gpx we advice to use the website : https://www.gpsvisualizer.com/<br />
Clicking on "Click here to visualize the .gpx on a website" opens an website allowing you to plot the gpx on a map.<br />
<br />
=Weather station=<br />
<br />
<br />
<br />
== Manual ==<br />
<br />
<br />
The user can enter manually the weather value.<br />
<br />
[[File:weather_manual.png]]<br><br />
<br />
==Davis instruments weather station ==<br />
<br />
[[File:weather.png|framed|200px|right]]<br />
<br />
You need the 3 elements to make it work.<br />
<br />
- [https://www.davisinstruments.com/product/wireless-vantage-pro2-integrated-sensor-suite/ 6322OV Wireless Vantage Pro2 Integrated Sensor Suite]<br />
<br />
- [https://www.davisinstruments.com/product/wireless-weather-envoy/ 6316 Wireless Envoy]<br />
<br />
- [https://www.davisinstruments.com/product/weatherlink-windows-usb/ 6510USB WeatherLink Data Logger].<br />
<br />
This weather station provide Accurate, reliable weather monitoring with real-time data updates every 2.5 seconds. Sensor suite includes outside temperature and humidity sensors in a passive radiation shield; wind speed and direction; and rainfall. <br />
<br />
Note : '''The weather Station need to pass by OROS SA for configuration.'''<br />
<br />
== Other weather statio ==<br />
<br />
Please contact OROS to check the posibility to import the data. (paid service)</div>Adminhttps://wiki.oros.com/index.php?title=NVGate_DC_Simulated_Manager&diff=8022NVGate DC Simulated Manager2020-12-07T13:58:51Z<p>Admin: </p>
<hr />
<div>This Add on is a tools to use the DC simulated in NVGate.<br />
It provide a GPS and can deal the weather station.<br />
<br />
<br />
<br />
==Download==<br />
<br />
Latest version (20.11.2020) can be donwloaded here : [https://orossas.sharepoint.com/:u:/g/support/Eedt7tyMWzFNoWRyqdw9N20B798bDjCB5_7KeJDcvQVlkQ?e=QF5Gy2 DC simulated manager V1.00]<br />
<br />
Configuration needed : <br><br />
- NVGate 2021 or upper<br><br />
- DC simulated channels (ORNV-VIDC option)<br />
<br />
=GPS=<br />
<br />
We have 2 ways to acquire the GPS position, android phone or GPS Compliant with NMEA 0183 standard.<br />
<br />
<br />
== Serial GPGGA GPS ==<br />
<br />
We are compatible with GPS USB Serial Interface Compliant with NMEA 0183 standard GPGGA <br><br />
<br />
We can advice the GPS USB Navilock NL-602U but other GPS will work.<br><br />
<br />
[[File:gps_navilock.jpg|200]]<br />
<br />
<br />
== Android GPS ==<br />
[[File:GPS_phone.png]]<br />
<br />
GPS data can also be retrieved using Android ADB (Android Debug Bridge).<br />
If you plug your android phone, we can inject the GPS position inside NVGate.<br />
<br />
[[File:GPS_android.png|600px]]<br />
<br />
Procedure:<br />
<br />
- Activate android developers option. ( To enable developer options, on android settings/"about phone" tap the Build Number option 7 times.<br />
- Enable USB debugging (on developers options menu)<br />
<br />
process is [https://www.howtogeek.com/129728/how-to-access-the-developer-options-menu-and-enable-usb-debugging-on-android-4.2/ here]<br />
<br />
- Plug your android phone with USB plug on the PC.<br />
- Allow the incoming USB debugging connection and check "always allow from this computer".<br />
<br />
You can test the connection using the ADB connection button.<br />
<br />
[[File:gps_ADB.jpg]]<br />
<br />
Also be sure the GPS is enabled on your phone, then you need to have an application which is running and using the GPS at the foreground of the phone (exemple: [https://play.google.com/store/apps/details?id=com.google.android.apps.maps&hl=fr&gl=US Google Maps] or [https://play.google.com/store/apps/details?id=com.exatools.gpsdata&hl=fr&gl=US GPS Data])<br />
<br />
== How to used ==<br />
<br />
Once the gps is plugged and configured, click on inject data, this will put the value on the DC simulated inputs.<br />
<br />
[[File:GPS process 2.png|400]]<br />
<br />
Then you can use these channels on NVGate.<br />
<br />
If you need to record the data.<br />
click on connect input, go on DC input tab, then drag and drop the DC simulated channels on recorder.<br />
[[File:GPS process.png]]<br />
<br />
If you have record the data you will be able to create a .gpx file<br />
<br />
== Creating and visualize .gpx file ==<br />
<br />
We can create a .gpx from an .oxf (OROS) signal file.<br />
<br />
(Be aware than big size, .oxf signal file signal can be too long to create a .gpx , in this case you need to re-record the signal with only the.gps channels. In this case, in post analysis mode, connect the track from the player to the recorder.)<br />
<br />
You need to click on Convertsignaltogpx.<br />
[[File:GPS_creategpx.png]]<br />
<br />
This will open the windows below.<br />
[[File:signal_gpx.png]]<br />
<br />
Select the signal file than you need to convert and click on load data.<br />
You can modify the channels if needed.<br />
Click on create .gpx.<br />
The .gpx will be put on the folder "attachement" of the NVGate project.<br />
<br />
If you want to visualize the .gpx we advice to use the website : https://www.gpsvisualizer.com/<br />
Clicking on "Click here to visualize the .gpx on a website" opens an website allowing you to plot the gpx on a map.<br />
<br />
=Weather station=<br />
<br />
<br />
<br />
== Manual ==<br />
<br />
<br />
The user can enter manually the weather value.<br />
<br />
[[File:weather_manual.png]]<br><br />
<br />
==Davis instruments weather station ==<br />
<br />
[[File:weather.png|framed|200px|right]]<br />
<br />
You need the 3 elements to make it work.<br />
<br />
- [https://www.davisinstruments.com/product/wireless-vantage-pro2-integrated-sensor-suite/ 6322OV Wireless Vantage Pro2 Integrated Sensor Suite]<br />
<br />
- [https://www.davisinstruments.com/product/wireless-weather-envoy/ 6316 Wireless Envoy]<br />
<br />
- [https://www.davisinstruments.com/product/weatherlink-windows-usb/ 6510USB WeatherLink Data Logger].<br />
<br />
This weather station provide Accurate, reliable weather monitoring with real-time data updates every 2.5 seconds. Sensor suite includes outside temperature and humidity sensors in a passive radiation shield; wind speed and direction; and rainfall. <br />
<br />
Note : '''The weather Station need to pass by OROS SA for configuration.'''<br />
<br />
== Other weather statio ==<br />
<br />
Please contact OROS to check the posibility to import the data. (paid service)</div>Adminhttps://wiki.oros.com/index.php?title=NVGate_DC_Simulated_Manager&diff=7663NVGate DC Simulated Manager2020-11-20T10:42:06Z<p>Admin: </p>
<hr />
<div>This Add on is a tools to use the DC simulated in NVGate.<br />
It provide a GPS and can deal the weather station.<br />
<br />
<br />
<br />
==Download==<br />
<br />
Latest version (20.11.2020) can be donwloaded here : [https://orossas.sharepoint.com/:u:/g/support/EaiNpK9tq55PoUjZYasRW2ABAm7c9OQx9-OUdSJCoisJZw?e=I3CqIB DC simulated manager V1.00]<br />
<br />
Configuration needed : <br><br />
- NVGate 2021 or upper<br><br />
- DC simulated channels (ORNV-VIDC option)<br />
<br />
=GPS=<br />
<br />
We have 2 ways to acquire the GPS position, android phone or GPS Compliant with NMEA 0183 standard.<br />
<br />
<br />
== Serial GPGGA GPS ==<br />
<br />
We are compatible with GPS USB Serial Interface Compliant with NMEA 0183 standard GPGGA <br><br />
<br />
We can advice the GPS USB Navilock NL-602U but other GPS will work.<br><br />
<br />
[[File:gps_navilock.jpg|200]]<br />
<br />
<br />
== Android GPS ==<br />
[[File:GPS_phone.png]]<br />
<br />
GPS data can also be retrieved using Android ADB (Android Debug Bridge).<br />
If you plug your android phone, we can inject the GPS position inside NVGate.<br />
<br />
[[File:GPS_android.png|600px]]<br />
<br />
Procedure:<br />
<br />
- Activate android developers option. ( To enable developer options, on android settings/"about phone" tap the Build Number option 7 times.<br />
- Enable USB debugging (on developers options menu)<br />
<br />
process is [https://www.howtogeek.com/129728/how-to-access-the-developer-options-menu-and-enable-usb-debugging-on-android-4.2/ here]<br />
<br />
- Plug your android phone with USB plug on the PC.<br />
- Allow the incoming USB debugging connection and check "always allow from this computer".<br />
<br />
You can test the connection using the ADB connection button.<br />
<br />
[[File:gps_ADB.jpg]]<br />
<br />
Also be sure the GPS is enabled on your phone, then you need to have an application which is running and using the GPS at the foreground of the phone (exemple: [https://play.google.com/store/apps/details?id=com.google.android.apps.maps&hl=fr&gl=US Google Maps] or [https://play.google.com/store/apps/details?id=com.exatools.gpsdata&hl=fr&gl=US GPS Data])<br />
<br />
== How to used ==<br />
<br />
Once the gps is plugged and configured, click on inject data, this will put the value on the DC simulated inputs.<br />
<br />
[[File:GPS process 2.png|400]]<br />
<br />
Then you can use these channels on NVGate.<br />
<br />
If you need to record the data.<br />
click on connect input, go on DC input tab, then drag and drop the DC simulated channels on recorder.<br />
[[File:GPS process.png]]<br />
<br />
If you have record the data you will be able to create a .gpx file<br />
<br />
== Creating and visualize .gpx file ==<br />
<br />
We can create a .gpx from an .oxf (OROS) signal file.<br />
<br />
You need to click on Convertsignaltogpx.<br />
[[File:GPS_creategpx.png]]<br />
<br />
This will open the windows below.<br />
[[File:signal_gpx.png]]<br />
<br />
Select the signal file than you need to convert and click on load data.<br />
You can modify the channels if needed.<br />
Click on create .gpx.<br />
The .gpx will be put on the folder "attachement" of the NVGate project.<br />
<br />
If you want to visualize the .gpx we advice to use the website : https://www.gpsvisualizer.com/<br />
Clicking on "Click here to visualize the .gpx on a website" opens an website allowing you to plot the gpx on a map.<br />
<br />
=Weather station=<br />
<br />
<br />
<br />
== Manual ==<br />
<br />
<br />
The user can enter manually the weather value.<br />
<br />
[[File:weather_manual.png]]<br><br />
<br />
==Davis instruments weather station ==<br />
<br />
[[File:weather.png|framed|200px|right]]<br />
<br />
You need the 3 elements to make it work<br />
<br />
- [https://www.davisinstruments.com/product/wireless-vantage-pro2-integrated-sensor-suite/ 6322OV Wireless Vantage Pro2 Integrated Sensor Suite]<br />
<br />
- [https://www.davisinstruments.com/product/wireless-weather-envoy/ 6316 Wireless Envoy]<br />
<br />
- [https://www.davisinstruments.com/product/weatherlink-windows-usb/ 6510USB WeatherLink Data Logger].<br />
<br />
This weather station provide Accurate, reliable weather monitoring with real-time data updates every 2.5 seconds. Sensor suite includes outside temperature and humidity sensors in a passive radiation shield; wind speed and direction; and rainfall. <br />
<br />
Note : The weather Station need to pass by OROS SA for configuration.<br />
<br />
== Other weather statio ==<br />
<br />
Please contact OROS to check the posibility to import the data. (paid service)</div>Adminhttps://wiki.oros.com/index.php?title=NVGate_DC_Simulated_Manager&diff=7662NVGate DC Simulated Manager2020-11-20T09:39:55Z<p>Admin: </p>
<hr />
<div>This Add on is a tools to use the DC simulated in NVGate.<br />
It provide a GPS and can deal the weather station.<br />
<br />
<br />
<br />
==Download==<br />
<br />
Latest version (19.11.2020) can be donwloaded here : [https://orossas.sharepoint.com/:u:/g/support/ERsa3AiMEJNKiDbL-ZTnfdcB2cYa3w5q04S2QvntXOC45Q?e=fCf1kM DC simulated manager V1.00]<br />
<br />
Configuration needed : <br><br />
- NVGate 2021 or upper<br><br />
- DC simulated channels (ORNV-VIDC option)<br />
<br />
=GPS=<br />
<br />
We have 2 ways to acquire the GPS position, android phone or GPS Compliant with NMEA 0183 standard.<br />
<br />
<br />
== Serial GPGGA GPS ==<br />
<br />
We are compatible with GPS USB Serial Interface Compliant with NMEA 0183 standard GPGGA <br><br />
<br />
We can advice the GPS USB Navilock NL-602U but other GPS will work.<br><br />
<br />
[[File:gps_navilock.jpg|200]]<br />
<br />
<br />
== Android GPS ==<br />
[[File:GPS_phone.png]]<br />
<br />
GPS data can also be retrieved using Android ADB (Android Debug Bridge).<br />
If you plug your android phone, we can inject the GPS position inside NVGate.<br />
<br />
[[File:GPS_android.png|600px]]<br />
<br />
Procedure:<br />
<br />
- Activate android developers option. ( To enable developer options, on android settings/"about phone" tap the Build Number option 7 times.<br />
- Enable USB debugging (on developers options menu)<br />
<br />
process is [https://www.howtogeek.com/129728/how-to-access-the-developer-options-menu-and-enable-usb-debugging-on-android-4.2/ here]<br />
<br />
- Plug your android phone with USB plug on the PC.<br />
- Allow the incoming USB debugging connection and check "always allow from this computer".<br />
<br />
You can test the connection using the ADB connection button.<br />
<br />
[[File:gps_ADB.jpg]]<br />
<br />
Also be sure the GPS is enabled on your phone, then you need to have an application which is running and using the GPS at the foreground of the phone (exemple: [https://play.google.com/store/apps/details?id=com.google.android.apps.maps&hl=fr&gl=US Google Maps] or [https://play.google.com/store/apps/details?id=com.exatools.gpsdata&hl=fr&gl=US GPS Data])<br />
<br />
== How to used ==<br />
<br />
Once the gps is plugged and configured, click on inject data, this will put the value on the DC simulated inputs.<br />
<br />
[[File:GPS process 2.png|400]]<br />
<br />
Then you can use these channels on NVGate.<br />
<br />
If you need to record the data.<br />
click on connect input, go on DC input tab, then drag and drop the DC simulated channels on recorder.<br />
[[File:GPS process.png]]<br />
<br />
If you have record the data you will be able to create a .gpx file<br />
<br />
== Creating and visualize .gpx file ==<br />
<br />
We can create a .gpx from an .oxf (OROS) signal file.<br />
<br />
You need to click on Convertsignaltogpx.<br />
[[File:GPS_creategpx.png]]<br />
<br />
This will open the windows below.<br />
[[File:signal_gpx.png]]<br />
<br />
Select the signal file than you need to convert and click on load data.<br />
You can modify the channels if needed.<br />
Click on create .gpx.<br />
The .gpx will be put on the folder "attachement" of the NVGate project.<br />
<br />
If you want to visualize the .gpx we advice to use the website : https://www.gpsvisualizer.com/<br />
Clicking on "Click here to visualize the .gpx on a website" opens an website allowing you to plot the gpx on a map.<br />
<br />
=Weather station=<br />
<br />
<br />
<br />
== Manual ==<br />
<br />
<br />
The user can enter manually the weather value.<br />
<br />
[[File:weather_manual.png]]<br><br />
<br />
==Davis instruments weather station ==<br />
<br />
[[File:weather.png|framed|200px|right]]<br />
<br />
You need the 3 elements to make it work<br />
<br />
- [https://www.davisinstruments.com/product/wireless-vantage-pro2-integrated-sensor-suite/ 6322OV Wireless Vantage Pro2 Integrated Sensor Suite]<br />
<br />
- [https://www.davisinstruments.com/product/wireless-weather-envoy/ 6316 Wireless Envoy]<br />
<br />
- [https://www.davisinstruments.com/product/weatherlink-windows-usb/ 6510USB WeatherLink Data Logger].<br />
<br />
This weather station provide Accurate, reliable weather monitoring with real-time data updates every 2.5 seconds. Sensor suite includes outside temperature and humidity sensors in a passive radiation shield; wind speed and direction; and rainfall. <br />
<br />
Note : The weather Station need to pass by OROS SA for configuration.<br />
<br />
== Other weather statio ==<br />
<br />
Please contact OROS to check the posibility to import the data. (paid service)</div>Adminhttps://wiki.oros.com/index.php?title=NVGate_DC_Simulated_Manager&diff=7661NVGate DC Simulated Manager2020-11-20T09:38:15Z<p>Admin: </p>
<hr />
<div>This Add on is a tools to use the DC simulated in NVGate.<br />
It provide a GPS and can deal the weather station.<br />
<br />
<br />
<br />
==Download==<br />
<br />
Latest version (19.11.2020) can be donwloaded here : [https://orossas.sharepoint.com/:u:/g/support/ERsa3AiMEJNKiDbL-ZTnfdcB2cYa3w5q04S2QvntXOC45Q?e=fCf1kM DC simulated manager V1.00]<br />
<br />
Configuration needed : <br><br />
- NVGate 2021 or upper<br><br />
- DC simulated channels (ORNV-VIDC option)<br />
<br />
=GPS=<br />
<br />
We have 2 ways to acquire the GPS position, android phone or GPS Compliant with NMEA 0183 standard.<br />
<br />
<br />
== Serial GPGGA GPS ==<br />
<br />
We are compatible with GPS USB Serial Interface Compliant with NMEA 0183 standard GPGGA <br><br />
<br />
We can advice the GPS USB Navilock NL-602U but other GPS will work.<br><br />
<br />
[[File:gps_navilock.jpg|200]]<br />
<br />
<br />
== Android GPS ==<br />
[[File:GPS_phone.png]]<br />
<br />
GPS data can also be retrieved using Android ADB (Android Debug Bridge).<br />
If you plug your android phone, we can inject the GPS position inside NVGate.<br />
<br />
[[File:GPS_android.png|600px]]<br />
<br />
Procedure:<br />
<br />
- Activate android developers option. ( To enable developer options, on android settings/"about phone" tap the Build Number option 7 times.<br />
- Enable USB debugging (on developers options menu)<br />
<br />
process is [https://www.howtogeek.com/129728/how-to-access-the-developer-options-menu-and-enable-usb-debugging-on-android-4.2/ here]<br />
<br />
- Plug your android phone with USB plug on the PC.<br />
- Allow the incoming USB debugging connection and check "always allow from this computer".<br />
<br />
You can test the connection using the ADB connection button.<br />
<br />
[[File:gps_ADB.jpg]]<br />
<br />
Also be sure the GPS is enabled on your phone, then you need to have an application which is running and using the GPS at the foreground of the phone (exemple: [https://play.google.com/store/apps/details?id=com.google.android.apps.maps&hl=fr&gl=US Google Maps], [https://play.google.com/store/apps/details?id=com.exatools.gpsdata&hl=fr&gl=US GPS Data])<br />
<br />
== How to used ==<br />
<br />
Once the gps is plugged and configured, click on inject data, this will put the value on the DC simulated inputs.<br />
<br />
[[File:GPS process 2.png|400]]<br />
<br />
Then you can use this channels on NVGate.<br />
<br />
If you need to record the data.<br />
click on connect input, go on DC input tab, then drag and drop the DC simulated channels on recorder.<br />
[[File:GPS process.png]]<br />
<br />
if you have record the data you will be able to create a .gpx file<br />
<br />
== Creating and visualize .gpx file ==<br />
<br />
We can create a .gpx from an .oxf (OROS) signal file.<br />
<br />
You need to click on Convertsignaltogpx.<br />
[[File:GPS_creategpx.png]]<br />
<br />
This will open the windows below.<br />
[[File:signal_gpx.png]]<br />
<br />
Select the signal file than you need to convert and click on load data.<br />
You can modify the channels if needed.<br />
Click on create .gpx.<br />
The .gpx will be put on the folder "attachement" of the NVGate project.<br />
<br />
If you want to visualize the .gpx we advice to use the website : https://www.gpsvisualizer.com/ <br />
if you click on "click here to visualize the .gpx on a website", it is open this link https://www.gpsvisualizer.com/ .<br />
<br />
=Weather station=<br />
<br />
<br />
<br />
== Manual ==<br />
<br />
<br />
The user can enter manually the weather value.<br />
<br />
[[File:weather_manual.png]]<br><br />
<br />
==Davis instruments weather station ==<br />
<br />
[[File:weather.png|framed|200px|right]]<br />
<br />
You need the 3 elements to make it work<br />
<br />
- [https://www.davisinstruments.com/product/wireless-vantage-pro2-integrated-sensor-suite/ 6322OV Wireless Vantage Pro2 Integrated Sensor Suite]<br />
<br />
- [https://www.davisinstruments.com/product/wireless-weather-envoy/ 6316 Wireless Envoy]<br />
<br />
- [https://www.davisinstruments.com/product/weatherlink-windows-usb/ 6510USB WeatherLink Data Logger].<br />
<br />
This weather station provide Accurate, reliable weather monitoring with real-time data updates every 2.5 seconds. Sensor suite includes outside temperature and humidity sensors in a passive radiation shield; wind speed and direction; and rainfall. <br />
<br />
Note : The weather Station need to pass by OROS SA for configuration.<br />
<br />
== Other weather statio ==<br />
<br />
Please contact OROS to check the posibility to import the data. (paid service)</div>Adminhttps://wiki.oros.com/index.php?title=NVGate_DC_Simulated_Manager&diff=7660NVGate DC Simulated Manager2020-11-20T09:37:42Z<p>Admin: </p>
<hr />
<div>This Add on is a tools to use the DC simulated in NVGate.<br />
It provide a GPS and can deal the weather station.<br />
<br />
<br />
<br />
==Download==<br />
<br />
Latest version (19.11.2020) can be donwloaded here : [https://orossas.sharepoint.com/:u:/g/support/ERsa3AiMEJNKiDbL-ZTnfdcB2cYa3w5q04S2QvntXOC45Q?e=fCf1kM DC simulated manager V1.00]<br />
<br />
Configuration needed : <br><br />
- NVGate 2021 or upper<br><br />
- DC simulated channels (ORNV-VIDC option)<br />
<br />
=GPS=<br />
<br />
We have 2 ways to acquire the GPS position, android phone or GPS Compliant with NMEA 0183 standard.<br />
<br />
<br />
== Serial GPGGA GPS ==<br />
<br />
We are compatible with GPS USB Serial Interface Compliant with NMEA 0183 standard GPGGA <br><br />
<br />
We can advice the GPS USB Navilock NL-602U but other GPS will work.<br><br />
<br />
[[File:gps_navilock.jpg|200]]<br />
<br />
<br />
== Android GPS ==<br />
[[File:GPS_phone.png]]<br />
<br />
GPS data can also be retrieved using Android ADB (Android Debug Bridge).<br />
If you plug your android phone, we can inject the GPS position inside NVGate.<br />
<br />
[[File:GPS_android.png|600px]]<br />
<br />
Procedure:<br />
<br />
- Activate android developers option. ( To enable developer options, on android settings/"about phone" tap the Build Number option 7 times.<br />
- Enable USB debugging (on developers options menu)<br />
<br />
process is [https://www.howtogeek.com/129728/how-to-access-the-developer-options-menu-and-enable-usb-debugging-on-android-4.2/ here]<br />
<br />
- Plug your android phone with USB plug on the PC.<br />
- Allow the incoming USB debugging connection and check "always allow from this computer".<br />
<br />
You can test the connection using the ADB connection button.<br />
<br />
[[File:gps_ADB.jpg]]<br />
<br />
Also be sure the GPS is enabled on your phone, then you need to have an application which is running and using the GPS at the foreground of the phone (exemple: [https://play.google.com/store/apps/details?id=com.google.android.apps.maps&hl=fr&gl=US/ Google Maps], [https://play.google.com/store/apps/details?id=com.exatools.gpsdata&hl=fr&gl=US GPS Data])<br />
<br />
== How to used ==<br />
<br />
Once the gps is plugged and configured, click on inject data, this will put the value on the DC simulated inputs.<br />
<br />
[[File:GPS process 2.png|400]]<br />
<br />
Then you can use this channels on NVGate.<br />
<br />
If you need to record the data.<br />
click on connect input, go on DC input tab, then drag and drop the DC simulated channels on recorder.<br />
[[File:GPS process.png]]<br />
<br />
if you have record the data you will be able to create a .gpx file<br />
<br />
== Creating and visualize .gpx file ==<br />
<br />
We can create a .gpx from an .oxf (OROS) signal file.<br />
<br />
You need to click on Convertsignaltogpx.<br />
[[File:GPS_creategpx.png]]<br />
<br />
This will open the windows below.<br />
[[File:signal_gpx.png]]<br />
<br />
Select the signal file than you need to convert and click on load data.<br />
You can modify the channels if needed.<br />
Click on create .gpx.<br />
The .gpx will be put on the folder "attachement" of the NVGate project.<br />
<br />
If you want to visualize the .gpx we advice to use the website : https://www.gpsvisualizer.com/ <br />
if you click on "click here to visualize the .gpx on a website", it is open this link https://www.gpsvisualizer.com/ .<br />
<br />
=Weather station=<br />
<br />
<br />
<br />
== Manual ==<br />
<br />
<br />
The user can enter manually the weather value.<br />
<br />
[[File:weather_manual.png]]<br><br />
<br />
==Davis instruments weather station ==<br />
<br />
[[File:weather.png|framed|200px|right]]<br />
<br />
You need the 3 elements to make it work<br />
<br />
- [https://www.davisinstruments.com/product/wireless-vantage-pro2-integrated-sensor-suite/ 6322OV Wireless Vantage Pro2 Integrated Sensor Suite]<br />
<br />
- [https://www.davisinstruments.com/product/wireless-weather-envoy/ 6316 Wireless Envoy]<br />
<br />
- [https://www.davisinstruments.com/product/weatherlink-windows-usb/ 6510USB WeatherLink Data Logger].<br />
<br />
This weather station provide Accurate, reliable weather monitoring with real-time data updates every 2.5 seconds. Sensor suite includes outside temperature and humidity sensors in a passive radiation shield; wind speed and direction; and rainfall. <br />
<br />
Note : The weather Station need to pass by OROS SA for configuration.<br />
<br />
== Other weather statio ==<br />
<br />
Please contact OROS to check the posibility to import the data. (paid service)</div>Adminhttps://wiki.oros.com/index.php?title=NVGate_DC_Simulated_Manager&diff=7659NVGate DC Simulated Manager2020-11-20T09:32:49Z<p>Admin: </p>
<hr />
<div>This Add on is a tools to use the DC simulated in NVGate.<br />
It provide a GPS and can deal the weather station.<br />
<br />
<br />
<br />
==Download==<br />
<br />
Latest version (19.11.2020) can be donwloaded here : [https://orossas.sharepoint.com/:u:/g/support/ERsa3AiMEJNKiDbL-ZTnfdcB2cYa3w5q04S2QvntXOC45Q?e=fCf1kM DC simulated manager V1.00]<br />
<br />
Configuration needed : <br><br />
- NVGate 2021 or upper<br><br />
- DC simulated channels (ORNV-VIDC option)<br />
<br />
=GPS=<br />
<br />
We have 2 ways to acquire the GPS poisition, android phone or GPS Compliant with NMEA 0183 standard.<br />
<br />
<br />
== Serial GPGGA GPS ==<br />
<br />
We are also compatible with GPS USB Serial Interface Compliant with NMEA 0183 standard GPGGA <br><br />
<br />
We can advice the GPS USB Navilock NL-602U but other GPS will work.<br><br />
<br />
[[File:gps_navilock.jpg|200]]<br />
<br />
<br />
== Android GPS ==<br />
[[File:GPS_phone.png]]<br />
<br />
if you plug your android phone, we can inject the GPS position inside NVGate.<br />
<br />
<br />
<br />
[[File:GPS_android.png|600px]]<br />
<br />
to use it:<br />
<br />
- Activate android devlopers option. ( To enable developer options, on android settings/"about phone" tap the Build Number option 7 times.<br />
- Enable USB debugging (on developers options menu)<br />
<br />
process is [https://www.howtogeek.com/129728/how-to-access-the-developer-options-menu-and-enable-usb-debugging-on-android-4.2/ here]<br />
<br />
<br />
- Plug your android phone with USB plug on the PC.<br />
- Allow the incoming USB debugging connexion and check "always allow from this computer".<br />
<br />
You can test the connection using the ADB connection button.<br />
<br />
[[File:gps_ADB.jpg]]<br />
<br />
Also be sure the GPS is activate on your phone, then you need to have an apllication wich is using the GPS at the back of the phone (exemple: Google map)<br />
<br />
== How to used ==<br />
<br />
Once the gps is plugged and configured, click on inject data, this will put the value on the DC simulated inputs.<br />
<br />
[[File:GPS process 2.png|400]]<br />
<br />
Then you can use this channels on NVGate.<br />
<br />
If you need to record the data.<br />
click on connect input, go on DC input tab, then drag and drop the DC simulated channels on recorder.<br />
[[File:GPS process.png]]<br />
<br />
if you have record the data you will be able to create a .gpx file<br />
<br />
== Creating and visualize .gpx file ==<br />
<br />
We can create a .gpx from an .oxf (OROS) signal file.<br />
<br />
You need to click on Convertsignaltogpx.<br />
[[File:GPS_creategpx.png]]<br />
<br />
This will open the windows below.<br />
[[File:signal_gpx.png]]<br />
<br />
Select the signal file than you need to convert and click on load data.<br />
You can modify the channels if needed.<br />
Click on create .gpx.<br />
The .gpx will be put on the folder "attachement" of the NVGate project.<br />
<br />
If you want to visualize the .gpx we advice to use the website : https://www.gpsvisualizer.com/ <br />
if you click on "click here to visualize the .gpx on a website", it is open this link https://www.gpsvisualizer.com/ .<br />
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=Weather station=<br />
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== Manual ==<br />
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The user can enter manually the weather value.<br />
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[[File:weather_manual.png]]<br><br />
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==Davis instruments weather station ==<br />
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[[File:weather.png|framed|200px|right]]<br />
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You need the 3 elements to make it work<br />
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- [https://www.davisinstruments.com/product/wireless-vantage-pro2-integrated-sensor-suite/ 6322OV Wireless Vantage Pro2 Integrated Sensor Suite]<br />
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- [https://www.davisinstruments.com/product/wireless-weather-envoy/ 6316 Wireless Envoy]<br />
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- [https://www.davisinstruments.com/product/weatherlink-windows-usb/ 6510USB WeatherLink Data Logger].<br />
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This weather station provide Accurate, reliable weather monitoring with real-time data updates every 2.5 seconds. Sensor suite includes outside temperature and humidity sensors in a passive radiation shield; wind speed and direction; and rainfall. <br />
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Note : The weather Station need to pass by OROS SA for configuration.<br />
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== Other weather statio ==<br />
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Please contact OROS to check the posibility to import the data. (paid service)</div>Admin