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With HART 7, users can integrate existing wired HART devices, new wired HART devices, and new WirelessHART devices in a single system with the same tools, configuration, calibration, and operation that have served them well for over 18 years now.
Connecting HART 7 wired devices will be exactly the same as connecting any wired HART device to the control system—simple and no different from what users have always done.
How soon will HART 7 devices be available? “As soon as the HART Communication Foundation certifies our test sample,” says Hoffer Flow Controls’ vice president, Bob Carrell. Many other suppliers are actively developing HART 7 products for availability in Q3-Q4 of 2008 and Q1 of 2009.
In HART 7, the tag length has been increased to 32 characters (originally in HART 6). All process variables report status. There is a digital loop check feature and enhanced multi-variable support. There is local interface lock capability and manual ID of a device by the host. Peer-to-peer messages and visual ID of the device are both supported. (See the chart on page S-7.) Specifically new for HART 7 are report-by-exception, synchronized sampling, time- or condition-based alerts, a time-stamp feature, the ability to report PV trends, and, most significantly, WirelessHART. These features include wireless coexistence, a detailed wireless diagnostics suite, support for wireless mesh and star topologies, priority-based wireless message routing, and state-of-the-art wireless security.
“Just like a ‘wired’ instrument network, some planning of a wireless network is required to ensure good connections,” says Joseph Citrano, wireless program manager for asset optimization at Emerson Process Management. “In Smart Wireless,” he notes, referring to Emerson’s WirelessHART implementation, “planning is as simple as following a basic set of best practices.”
WirelessHART systems from any manufacturer are commissioned in the same way. Citrano describes the process: “Devices are configured and commissioned with the same tools as are used with wired HART devices. The key difference between wired and wireless commissioning is that WirelessHART devices require the entry of a join key and network ID. These parameters are entered either with a HART 7-compliant HART communicator like the 375 Field Communicator or a HART 7-compliant asset management application like AMS Device Manager.”
“Locate your wireless devices,” Ed Ladd, HART Communication Foundation’s (HCF) director of technology programs, says. “Install your access points and gateways, then add the device to the network and commission the device. It’s as easy as a traditional HART 4-20 mA installation, with the same tools and know-how.”
Just as with wired HART I/O, the wireless network starts with access points and the gateway at one end and the field devices at the other. The gateway is the remote I/O system connecting wireless devices and adapters to DCSs, PLCs and other plant automation systems. The gateway will have one or more access points that connect wireless devices to the gateway. Access points are the I/O modules of the gateway. The gateway can be redundant and support multiple access points. Redundant connection to the gateway is achieved by using more than one access point to connect groupings of wireless devices.
Good engineering practice will generally assign a gateway to each plant area and/or unit operation, similarly to how automation system controllers and I/O systems are done today.
Access points can be geographically dispersed from the gateway electronics and in general should be located near the devices they will connect. Access point loading (number of devices that can be connected) is determined by the following simple formula:
NumDevices = Average update period (AUP) x 25
Example 1 — 25 devices can be connected with an AUP or average reporting rate of 1 sec.
Example 2 — 250 devices can be connected with average reporting rate of 10 sec.
The same criteria apply to access points as to any traditional I/O: Do not crowd the I/O. When in doubt, use more access points. This increases the redundant pathways of the network and makes the network more robust at little additional cost.
To determine whether the WirelessHART network will coexist well with other 2.4 GHz networks in the same plant area, users may make use of the following formula:
Bandwidth Consumed = NumDevices x (0.0001% + (0.02% / Average update interval)) where the 0.0001% is used for overhead (network health reports and the like, and the 0.02% is for data publishing and other network traffic.
Example 1—100 devices @ 1 sec avg. update interval: Bandwidth consumed = 2.01%
Example 2—1,500 devices at 60 sec avg. update interval: Bandwidth consumed = 0.65%
These are very conservative estimates that do not account for geography. For example, if the number of devices increases, the geographic area they occupy is sure to enlarge. As this happens, the amount of bandwidth consumed is quickly reduced (distance rapidly dilutes the RF energy).
A huge advantage of WirelessHART is the WirelessHART adapter. The adapter can be located anywhere along the current loop from the device to the I/O module. This allows any existing HART device to be adapted to wireless, but it also frees the designer from having to locate the device in a better reception area instead of where the device physically should belong. For instance, say a pressure transducer must be located at the centerline of a large steel vessel that is mounted only a foot above the floor. Instead of having to mount the transducer remotely, making for very long impulse lines, or remotely mounting the wireless antenna of a WirelessHART device, it is possible to use a wired HART device with a WirelessHART adapter for a simpler and less costly application.
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