FDT2 goes public with better graphics, interoperability, PLC integration

Control Engineering International: Enhancements to FDT standard in version 2.0 include better graphical presentation, separation of GUI and business logic, Common Components tested for interoperability, and better PLC integration, said the FDT Group AISBL. First products became available in June.


FDT2 is compatible with FDT 1.x via an FDT2 Frame Application. Courtesy: Control Engineering Europe, FDT Group, www.fdt2.orgFDT is an international technical standard, developed to standardize the communication and configuration interface between field devices and their host systems by providing a common environment for access to the features of FDT-enabled devices. “There are now over 3,000 certified FDT enabled devices,” said Glen Schulz, managing director of the FDT Group AISBL. “In addition, there are already tens of thousands of installations and FDT has been recognized by other standards organizations such as IEC 62453, ISA103, and soon China GB/T.”

The new FDT2 standard, which has been built on Microsoft. NET technology, incorporates a host of new features requested by end users, while maintaining full backward compatibility with previous iterations of the standard, allowing end-users to make their own decision regarding the pace of migration to FDT2.

The primary concepts of FDT2 remain the same as in the past, with the DTM being a software device driver supplied by the device, gateway, or network manufacturers. A collection of these DTMs are plugged into a Frame Application that uses them to enable device access. However, The DTM architecture in the new standard has been split into two halves, with the top half including all the graphical user interfaces. “One of the major features of DT is its rich graphical representation, where a device manufacturer is free to produce their own wizards and diagnostics using a DTM,” said Schulz. The other half of the DTM architecture contains the device model. “The DTM has been split to make the standard easier to work with. The graphical user interface does not talk directly to the business logic. The frame handles that communication instead. We are now able to physically separate the graphical user interface from the business logic, which enables a fairly lightweight client, distributed throughout the facility, which hosts the graphical user interface side of the DTM when producing client server architectures. The more heavy-duty business logic is running on a central server.”

[subhead] Common Components

Also announced at the event was the release of a range of Common Components for use with FDT2. These provide the software needed to implement the specification, and their use allows companies to focus on the value-added features of their own offerings when developing FDT2-enabled products.

Common Components will be available for both DTM (device) as well as Frame Application (host) development. These Common Components have been developed and tested together, to ensure interoperability and compliance with the FDT2 standard.

“A great deal of effort has been put into providing extensive code base for the FDT membership to be able to immediately start developing FDT2 products while maintaining backwards compatibility to previous versions of the standard,” said Schulz. “Products which incorporate the Common Components make it through the certification process much more quickly because most of the testing will have already been done with the Common Components. This will enable certified products to come to market much more quickly.” End users will also be more easily able to check on certification of their chosen FDT2 products too, as the DTM will carry its certificate with it in a digital form.

During a discussion about the features and benefits of FDT2, Schulz explained that all the existing protocols currently supported will also work with FDT2. There are a few more protocols in the pipeline too. Schulz explained: “The ISA 100 Working Group, for example, has started work and we are expecting an annex from them some time this year.”

PLC environment

An annex was added to the end of the FDT1.2 standard to allow it to support PLC applications in factory automation applications. “However, a few key features were lacking from this annex for PLC vendors wanting to wholly incorporate the standard.”These features have been directly integrated into FDT2 so all the features necessary to fully utilize the FDT2 standard in a PLC environment are now available.

“Another request from customers was for the physical as well as the logical organization of the network to be available to them, and this has also been formalized in the new standard,” he said

The FDT2 standard also benefits from some speed and performance improvements. It includes more granular data for faster data storage. It is now possible to undertake static functions due to the separation of the business logic and the graphical user interface, which makes it possible to run the business logic without starting up the DTM. “This allows the server to be used for other tasks such as asset management applications without showing any graphics from the DTM,” said Schulz.

Security has also been improved. All installations for any FDT application will be digitally signed. There is more granular DTM security, with the end-user now being able to complete the security settings. “The predefined levels of security have been replaced with a user-defined role which allows the end-user to define who can have access to certain areas,” said Schulz.

FDT2 was first conceptualized around three years ago, and the draft version was released at the Hannover Messe in 2011. It took another year to go through a final member review of the standard. “The delay has allowed us to add a few further features too, such as the more granular security and additional capacity,” concluded Schulz. “It also gave us more time to test the standard itself and its performance. We did more prototyping and testing, which has really made the standard more robust.”

What does ARC say about FDT2?

A review of FDT2 by ARC Advisory Group says that there is a lot to like about FDT Technology and the new features of FDT2, which will further improve this field device interface that reduces the cost of acquiring data from intelligent field devices, delivering productivity improvements. With FDT2, manufacturers will be able to enjoy these benefits today with flexibility for future requirements.

ARC research has shown that new technologies and programs can fall out of favor in plants or factories due to difficulties at any point during the lifecycle. FDT 2.0 adds features that can help end users and suppliers manage these issues throughout the field device and FDT product lifecycle.

FDT2 uses a Microsoft .NET technology platform that enables fast and easy access to data while providing a stable platform for future enhancements. The Microsoft .NET 4.0 platform is designed to be independent of hardware architectures and operating systems (including OS changes by Microsoft). Other FDT2 enhancements include an updated style guide, pretested common components, distributed FDT Frame Applications sharing, and an Integrated Development Environment (IDE) that facilitates development of FDT products.

Certified FDT2 DTMs contain embedded, digitally signed proof-of- conformance certifications. Additionally, frame applications can be configured to alert IT administrators when an updated DTM is available, easing support of an installed device. These enhancements work together to improve interoperability, reduce supplier and end-user costs, and ensure that all FDT-compliant devices will integrate out of the box with certified FDT frame applications and DTMs.

The planned inclusion of an OPC UA information model to be released in the near future will provide online data exchange between automation systems, asset management systems, and other plant and enterprise systems and applications. OPC UA technology uses a service-oriented architecture (SOA) that runs on Windows PCs, Linux, and other enterprise-level systems. By integrating FDT and OPC, users will be able to use OPC UA applications to send data to business systems, enhancing the reliability of asset information and providing a comprehensive view of asset bottlenecks that require attention.

The FDT Group is also working with other field communication organizations to develop a new FDI (field device integration) standard. The future FDI standard seeks to couple the use of electronic device descriptions (EDDs) with a graphical interface into a new industry standard.

The FDT and FDI groups are working in tandem to ensure future interoperability. The FDT Group believes that end users adopting FDT and the impending FDT 2.0 will have a substantial lead over their peers by being able to develop new work processes now that realize the most value from FDT-enabled asset management initiatives. Additionally, because FDT is suitable for all communication protocols, including discrete and sensor buses, end users have the flexibility to include discrete automation assets as their asset management initiatives expand.

- Suzanne Gill is editor of Control Engineering Europe. This article originally appeared at www.controlengeurope.com, dated Sept. 4, and was edited for the Control Engineering International page in the October 2012 North American edition of Control Engineering from FDT2 goes public.

FDI - a common solution for device management - from Control Engineering Europe




At www.controleng.com, see the “International” tab for more global coverage.

The Top Plant program honors outstanding manufacturing facilities in North America. View the 2015 Top Plant.
The Product of the Year program recognizes products newly released in the manufacturing industries.
Each year, a panel of Control Engineering and Plant Engineering editors and industry expert judges select the System Integrator of the Year Award winners in three categories.
Doubling down on digital manufacturing; Data driving predictive maintenance; Electric motors and generators; Rewarding operational improvement
2017 Lubrication Guide; Software tools; Microgrids and energy strategies; Use robots effectively
Prescriptive maintenance; Hannover Messe 2017 recap; Reduce welding errors
The cloud, mobility, and remote operations; SCADA and contextual mobility; Custom UPS empowering a secure pipeline
Infrastructure for natural gas expansion; Artificial lift methods; Disruptive technology and fugitive gas emissions
Mobility as the means to offshore innovation; Preventing another Deepwater Horizon; ROVs as subsea robots; SCADA and the radio spectrum
Research team developing Tesla coil designs; Implementing wireless process sensing
Commissioning electrical systems; Designing emergency and standby generator systems; Paralleling switchgear generator systems
Natural gas engines; New applications for fuel cells; Large engines become more efficient; Extending boiler life

Annual Salary Survey

Before the calendar turned, 2016 already had the makings of a pivotal year for manufacturing, and for the world.

There were the big events for the year, including the United States as Partner Country at Hannover Messe in April and the 2016 International Manufacturing Technology Show in Chicago in September. There's also the matter of the U.S. presidential elections in November, which promise to shape policy in manufacturing for years to come.

But the year started with global economic turmoil, as a slowdown in Chinese manufacturing triggered a worldwide stock hiccup that sent values plummeting. The continued plunge in world oil prices has resulted in a slowdown in exploration and, by extension, the manufacture of exploration equipment.

Read more: 2015 Salary Survey

Maintenance and reliability tips and best practices from the maintenance and reliability coaches at Allied Reliability Group.
The One Voice for Manufacturing blog reports on federal public policy issues impacting the manufacturing sector. One Voice is a joint effort by the National Tooling and Machining...
The Society for Maintenance and Reliability Professionals an organization devoted...
Join this ongoing discussion of machine guarding topics, including solutions assessments, regulatory compliance, gap analysis...
IMS Research, recently acquired by IHS Inc., is a leading independent supplier of market research and consultancy to the global electronics industry.
Maintenance is not optional in manufacturing. It’s a profit center, driving productivity and uptime while reducing overall repair costs.
The Lachance on CMMS blog is about current maintenance topics. Blogger Paul Lachance is president and chief technology officer for Smartware Group.
The maintenance journey has been a long, slow trek for most manufacturers and has gone from preventive maintenance to predictive maintenance.
Featured articles highlight technologies that enable the Industrial Internet of Things, IIoT-related products and strategies to get data more easily to the user.
This digital report will explore several aspects of how IIoT will transform manufacturing in the coming years.
Maintenance Manager; California Oils Corp.
Associate, Electrical Engineering; Wood Harbinger
Control Systems Engineer; Robert Bosch Corp.
This course focuses on climate analysis, appropriateness of cooling system selection, and combining cooling systems.
This course will help identify and reveal electrical hazards and identify the solutions to implementing and maintaining a safe work environment.
This course explains how maintaining power and communication systems through emergency power-generation systems is critical.
click me