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“Presently, Ethernet only makes up 3% of our cable and connector businesses, but that’s up from zero just a couple of years ago,” says Nabrotzky. “For example, we have the global contract for General Motors’ networking, and they’ve specified having Ethernet in all applications by 2007.”
Despite this push, Nabrotzky adds, automotive production suppliers such as robotics and transfer line manufacturers are still having some problems getting all their devices up and working on Ethernet. “The big vendors say they have a working network safety standard in place, but the drives and robotics guys still are asking how to build these standards into their devices,” says Nabrotzky. “When they try to do it, they find that everything isn’t defined, there are a lot of gray areas, and they have to guess when they try to format a data packet or interpret a signal. There are still a lot of incompatibilities.”
For a new standard or safety technology to be effective, it must have broad support from vendors to enable interoperability and a stable supply chain for end users. “My view is that Ethernet will be very well accepted as a future technology because vendors are building now, though there aren’t enough products yet to allow it to be more widely implemented,” concludes Nabrotzky.
Similarly, as safety functions migrate from redundant hardwiring to join the rest of the operating network, some difficulties persist. “The design is to have safe PLCs and verifications, but all the Ethernet safety standards aren’t fully developed yet,” adds Zabrotzky. “However, there’s already harmonizing going on between Europe and the U.S. and between the IEC 61508 and EN 954 standards. They’re already referencing each other, and they have common provisions now. For example, the Profibus Trade Organization is putting harmonized standards into Profisafe, and ODVA is releasing its CIP Safety standard.
| “It’s amazing how much wire and cable it takes to go wireless.” |
Users also are adopting traditional, round M12 and M8 four and eight-pole connectors for installing Ethernet on the plant floor. This has triggered an increase in demand for two-pair Ethernet cable, which M12 connectors require, rather than the four-pair Ethernet cables that don’t match these connectors.
Turck’s Larson says users want more pins and sockets in smaller packages. “M12 used to have just four pins, but now people increasingly want the 12-pin maximum that these connectors can handle,” he states. “It’s a challenge, but it also opens new markets for us. For example, users are adding IP67 ruggedized RJ45 cables to on-board systems on off-road construction vehicles.”
Ethernet Education Essential
Koditek reports that Ethernet can only keep growing on the plant floor if users are educated about industrially hardened cabling and switches that will help them be successful in the long term.
“With all the oil, solvents, and fumes in many applications, degradation can take place, and failures can occur,” says Koditek. “Process engineers certainly know their own environments, but they may not know the industrial components they’ll need to get Ethernet into these areas. Similarly, when the IT department is asked to extend Ethernet into a factory, it often doesn’t know that a commercial Ethernet product isn’t good enough. The walls and cabinets where Ethernet historically exists are much more benign, with a much narrower temperature range, and so the jackets on these cables work at the beginning. However, they can deteriorate quickly because they can’t withstand the abrasion, oil exposure, sunlight, cold, crushing forces, and other factors on the plant floor. That’s when intermittent problems start, and downtime costs begin to come in.”
In fact, some of this message might be getting through because, after experiencing slow growth in Ethernet for several years, Koditek reports that Belden has seen strong double-digit growth in Ethernet cabling for the past two or three years.
Wireless Needs Wires
After years of worrying that wireless technologies were going to eliminate hardware, suppliers and users realized sensors and transmitters often need new wires to send wireless signals, and that receivers and PLCs also need cabling to relay that data. Grant Bistram, also of Turck, sums up the industry’s favorite punch-line about the new technology, saying, “It’s amazing how much wire and cable you need to go wireless.”
Woodhead’s Nabrotzky adds, “We’re not seeing wireless in the discrete automation platform at all. No car plant I know of uses it. Some retailers use wireless technology such as RFID for sorting, handling and logisitics, but they still cable all their automation. Wireless is being used in the process industries in remote telemetry units (RTUs) that collect and control I/O data slowly, over long distances, and in wide open spaces.”
In the end, Koditek says wireless and wire likely will co-exist peacefully on the plant floor with each doing the jobs it does best. “Wired infrastructures are more secure and stable, but wireless is more flexible, and more easily can advance performance to where it’s needed, such as hooking up and accessing remote sensors,” he adds.
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