First advanced field diagnostics fieldbus devices announced

Fieldbus Foundation has released the first group of devices registered under its new advanced diagnostics technology.

11/17/2010


The Fieldbus Foundation announced that it has registered the first Foundation fieldbus devices incorporating advanced field diagnostics technology. The new registration requirements help to standardize how fieldbus devices communicate their diagnostic data to the host and asset management tools within a plant automation system.

Advancements in field diagnostics support a structured approach to asset management, which simplifies plant operators’ tasks and increases their confidence in utilizing equipment diagnostics and asset software. The organization says that this, in turn, will enable improved process performance, greater reliability, increased uptime, and lower operating costs.

Yokogawa (field indicator) and FCI-Fluid Components International (thermal mass flowmeter) are the first Foundation fieldbus H1 (31.25 kbit/s) device suppliers to pass the field diagnostics registration process.

Using the power of Foundation fieldbus, and considering NAMUR NE107 recommendations, the Fieldbus Foundation developed a profiles specification enhancing the organization and integration of device diagnostics within fieldbus systems. The new diagnostic profile includes a standard and open interface for reporting all device alarm conditions, and provides a means of categorizing alert conditions by severity. The technology facilitates routing of alerts to appropriate consoles based on user-selectable severity categories. In addition, it provides recommended corrective actions and detailed help, as well as an indication of the overall health of the device.

The Foundation fieldbus Diagnostics Profile Specification (FF-912) was defined to allow any Electronic Device Description (EDD)-based system to access and configure the diagnostics in fieldbus devices. The field diagnostics profile makes no changes to the existing stack specifications. However, the profile does introduce a new field diagnostic alert type. System updates will provide more extensive integration capabilities (such as Wizards for configuration) that will enhance diagnostics performance.

Rather than introduce significant changes to the current protocol, the new diagnostic profile specification builds upon the existing, powerful diagnostic capabilities of Foundation fieldbus equipment, and at the same time, adds a greater degree of organization so field instruments can represent their diagnostics in a more consistent way.

Foundation fieldbus devices submitted for field diagnostics registration must pass Interoperability Test Kit (ITK) test cases, which exercise the bit alerts generated for fail alarms, check alarms, off-specification alarms, and maintenance alarms. Devices also must support multi-bit alert reporting, as well as the new alert object designed for field diagnostic alarms. In addition, they must support new field diagnostics parameters in the resource block.

The Fieldbus Foundation’s manager-fieldbus products, Stephen Mitschke, commented, “In the Foundation fieldbus automation infrastructure, field diagnostics is a way of standardizing how all fieldbus devices communicate their diagnostic data to the host and asset management system — regardless of the vendor. This technology streamlines the way data is presented in order to take advantage of the rich diagnostic information available. For end users, the largest benefit is that advanced field diagnostics enables role-based diagnostics, meaning the right information is sent to the appropriate person when they need it. Foundation technology has always utilized push diagnostics allowing the user to receive alerts much quicker, instead of the traditional method of requesting diagnostic information from devices. Field diagnostics technology will now enhance user control and distribution of messages between field devices and host/asset management systems. This will allow for faster response times as each message is presorted according to criticality, whether it is a process alarm or a maintenance alarm.”

Yokogawa’s registered field indicator offers not only the standard functions of a field indicator, but also PID function block, link master, and software download capabilities. It enables users to switch and display up to 16 indicated values. No complex operation is needed in the field in order to observe the indicated values. A self-diagnostic function based on the NAMUR NE107 standard detects failures in the ambient temperature limit, communications, and hardware such as the LCD and amplifier assembly.

Fluid Components International’s registered thermal mass gas flowmeter is industrial process and plant-grade suitable for all air and gas flow measurement applications. It provides direct gas mass flow measurements, including flow rate, totalized flow, and temperature. Specialized versions also include pressure measurement. The electronics/transmitter can be integrally mounted with the sensor or remote mounted up to 1,000 ft. (300 m) away.

www.fieldbus.org

www.yokogawa.com

www.fluidcomponents.com

Edited by Peter Welander, pwelander@cfemedia.com

For more process instrumentation, visit the Control Engineering Process Control Channel.

Also read, Fieldbus in the field.



The Engineers' Choice Awards highlight some of the best new control, instrumentation and automation products as chosen by...
The System Integrator Giants program lists the top 100 system integrators among companies listed in CFE Media's Global System Integrator Database.
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.
This eGuide illustrates solutions, applications and benefits of machine vision systems.
Learn how to increase device reliability in harsh environments and decrease unplanned system downtime.
This eGuide contains a series of articles and videos that considers theoretical and practical; immediate needs and a look into the future.
Women in engineering; Engineering Leaders Under 40; PID benefits and drawbacks; Ladder logic; Cloud computing
Robotic integration and cloud connections; SCADA and cybersecurity; Motor efficiency standards; Open- and closed-loop control; Augmented reality
Controller programming; Safety networks; Enclosure design; Power quality; Safety integrity levels; Increasing process efficiency
This article collection contains several articles on how advancements in vision system designs, computing power, algorithms, optics, and communications are making machine vision more cost effective than ever before.
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.

Find and connect with the most suitable service provider for your unique application. Start searching the Global System Integrator Database Now!

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
Automation Engineer; Wood Group
System Integrator; Cross Integrated Systems Group
Jose S. Vasquez, Jr.
Fire & Life Safety Engineer; Technip USA Inc.
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