FDT and OPC Collaborate on FDT 2 Standard

April 11, 2011
Major Update to the Current Version 1.2.1, Will Be Released in 2011

The joint FDT and OPC Foundation FDT OPC UA Working Group will develop an OPC UA information model for the major upgrade to the current FDT standard that is now in preparation. The new version, described by Glenn B. Schulz, the managing director of the FDT Group, as a "major update" to the current Version 1.2.1, will be released by the end of this year.  The FDT Group is an open, independent, not-for-profit association of international companies dedicated to establishing the FDT Technology as an international standard with broad acceptance in the automation industry. FDT standardizes the communication and configuration interface between all field devices and host systems and provides a common environment for accessing the devices’ most sophisticated features.

The OPC Foundation defines standards for online data exchange between automation systems. The OPC Unified Architecture (OPC UA) unifies the existing standards and brings them to state-of-the-art technology using service-oriented architecture (SOA). OPC UA can run on Windows-based PC systems., embedded systems and Linux/UNIX-based enterprise systems.

"This is a unique opportunity to take the best-of-breed data and information models for the applications and devices supported by the FDT architecture and leverage the OPC Unified Architecture (UA) information modeling and corresponding services for complete application-to-device integration," says Thomas J. Burke, president and executive director of the OPC Foundation. "This exemplifies the device-to-cloud computing strategy that supports configuration, communication, run-time and historical data access, and alarming and event services for existing and upcoming devices supported through FDT Group technology."

Schulz adds, "We were looking for a good way to bring devices together to get information throughout the enterprise. Now we have two great platforms that enable getting data across the enterprise, and we are making them interoperable. We are seamlessly integrating FDT and OPC."

The implicit and explicit information model specified by FDT will be defined in a UA companion specification using OPC UA constructs for the purpose of sending FDT data to external applications. Further enhancements will be supportable due to modular construction.

Ready by Year's End The Working Group wants to get the technology out as quickly as possible. They plan to have a deliverable product ready by the end of the year. "Technology changes very quickly," says Burke. "We want to take every step to foster the rapid and wide adoption of OPC UA/FDT as a standard."

Another goal is to provide for incremental adoption. The cooperation between FDT and OPC will simplify the technical challenges for end users. A clear migration path will exist for legacy equipment or that which conforms to earlier standards.

"We anticipate many new applications and places not currently served by OPC or UA also will be able to take advantage of this unique collaboration. This strategy of incremental adoption facilitates easy and simplified deployment into real products and solutions," says Burke.

The group will also proved for backward compatibility and easy customization. The standard’s extensibility makes possible the creation of value-added, machine- or installation-specific software and tools without jeopardizing compatibility with other equipment or software.

Finally, the Working Group is committed to maintaining the non-proprietary nature of the standard, keeping it unencumbered by intellectual property restrictions on licensing.

"We each dominate our specific markets—FDT in multi-network intelligent device confirguration and OPC in data interchange," says Schulz. "For us to be able to bring out an out-of-the-box solution marrying the two will be a huge win for end users."

A draft version of the updated FDT 2.0 standard was on display at Hannover Fair, Hannover, Germany, earlier this month.

For more information on the OPC UA or FDT, go to www.fdtgroup.org or www.opcfoundation.org.

Sponsored Recommendations

Measurement instrumentation for improving hydrogen storage and transport

Hydrogen provides a decarbonization opportunity. Learn more about maximizing the potential of hydrogen.

Get Hands-On Training in Emerson's Interactive Plant Environment

Enhance the training experience and increase retention by training hands-on in Emerson's Interactive Plant Environment. Build skills here so you have them where and when it matters...

Learn About: Micro Motion™ 4700 Config I/O Coriolis Transmitter

An Advanced Transmitter that Expands Connectivity

Learn about: Micro Motion G-Series Coriolis Flow and Density Meters

The Micro Motion G-Series is designed to help you access the benefits of Coriolis technology even when available space is limited.