Save time and money by optimizing your processes, accessing the information you need right away!
Through the performant and secure[1] Netilion Application Programming Interface (API) we provide you direct access to read and store various plant life cycle information within our IIoT ecosystem, for multiple vendors.
Whether engineering, procurement, installation, commissioning or operations information: Access and store securely the information and documents that you need for your processes by building your own app fulfilling your very own needs, enriched with Endress+Hauser information.
Also integrate and exchange your and Endress+Hauser data within your system - our data model is designed exactly for that.
Register and choose your plan
See our products that are also based on the exact same API
Get a digital overview of the assets within your plant, check recommendations and advices for enhancing maintenance efficiency
Combined with Analytics, walk through your plant and register manually your assets, write their RFID tag, include pictures, geolocation and more
Part of the Analytics offering, it automatically captures the connected assets within your PROFIBUS or Wireless HART network and adds them to your installed base
Get the latest collected status of your assets, and see failure cause/remedy descriptions
Visualize instantly remote instrument measuring values in a mobile app and get notifications for overruns. Connection through a mobile network edge device
To ensure a continuously high quality of our digital offering as well as accurate traceability, data exchange with the Netilion Hub is solely done through the API, also for apps provided by Endress+Hauser.
Through our API, we provide the plant information that's available in the Netilion Hub from several plant life cycle phases. Currently available is product information, its configuration for the provided serial number, product availability. More information to come.
The implemented data model is versatile and empowers you to securely store also your own various parameters without type limitation. Through its design we enable enriching analysis and insights.