Types of distributed modular I/O slave devices that use IO-Link communications include specialty sensors for measurement, position, and color detection, valve manifold control, and industrial RFID processors and heads.
I 'd like to hear more about how this will combine with RFID and ethernet. Once these get to be ubiquitous and connected to the internet we will have an Internet of things and Sensors. With the advent of distributed AI, we can just call it skynet.
The idea of putting an Ethernet connector on a sensor (RJ-45 was used in the article) as being to large, too inconvenient. M-12 threaded connectors also provide Ethernet connectivity. They have a different keying so that they cannot be mixed with regular M-12 connectors, the most common connector for sensors today. Connector is not a reason to reject Ethernet.
IO-Link in combination with Ethernet in its various protocols sounds very promising though. I'm looking forward to seeing IO-Link/Ethernet adapters gain much higher industrial visibility.
What if algae borne of fertilizer runoff that pollutes rivers and lakes could be harvested and used as biofuel feedstock? What if the leftovers could be recycled into farm soil nutrients, eliminating at least some of the need for artificial fertilizers in the first place? Western Michigan University researchers have a plan.
Manufacturers of plastic parts recognize the potential of conformal cooling to reduce molding cycle times. Problem is, conformal molds require additive manufacturing (AM), and technologies in that space are still evolving. Costs also can be high, and beyond that, many manufacturing organizations lack the knowledge and expertise needed to apply and incorporate additive technologies into their operations.
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