Based on 802.15.4 point-to-point communications, Honeywell’s Limitless switches can be configured with up to 14 devices to communicate with one receiver module. The wireless signal is received by either a panel-mount receiver, or an industrial DIN-rail module, which is then converted to an output. Outputs can be LEDs, buzzers, or standard electrical signals used by traditional controllers.
I see combatting the noisy industrial environment, wirelessly, is making some strides. I think I feel confident enough in the tech these days to use wireless in the machine shop. The little risk may have a huge payoff in mobility.
Thorough and well-written article. I completely agree with the speed of installation advantages of a wireless system. Many years ago, I had to set up a wired network to our factory floor and the time required to plan and install this older technology was significant (not to mention the time needed to troubleshoot improper hardware node connections). In many instances, wireless technology will prove to be faster and much more flexible than existing wired systems.
One way to keep a Formula One racing team moving at breakneck speed in the pit and at the test facility is to bring CAD drawings of the racing vehicle’s parts down to the test facility and even out to the track.
Most of us would just as soon step on a cockroach rather than study it, but that’s just what researchers at UC Berkeley did in the pursuit of building small, nimble robots suitable for disaster-recovery and search-and-rescue missions.
Design engineers need to prepare for a future in which their electronic products will use not just one or two, but possibly many user interfaces that involve touch, vision, gestures, and even eye movements.
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