Salt Lake City, UT and Elgin, IL --- Thomas Research Products (TRP) announces adding the EnOcean 0–10V LED Relay Controller to its wireless OEM lighting portfolio. The 0–10V LED controller complements TRP’s recently launched ZenNet Self-Powered Wireless Lighting Control System for a flexible and energy-saving lighting system.
"By building our wireless lighting control portfolio for OEMs on the EnOcean standard, we provide simplicity and flexibility to our customers. Energy harvesting wireless sensors and switches not only eliminate wires, but the need for batteries too. This is a major advantage when upgrading existing buildings. Adding the new 0–10V dimming relay for LED luminaires allows a greater level of energy savings and controllability," says TRP's Product Manager, Scott Ortiz. "By providing ZenNet, in a well-established wireless building automation standard, OEMs can offer their customers complete and highly flexible packages that are easy to install."
“Quite recently, EnOcean introduced its comprehensive LED wireless control system in North America. We are very proud to see Thomas Research Products as one of the first lighting industry leaders putting their wireless LED control portfolio on the energy harvesting wireless standard. This is a pioneering signal to the market,” says Jim O’Callaghan, President of EnOcean Inc.
TRP’s ZenNet product line now includes batteryless switches powered by kinetic energy, solar-powered occupancy sensors and the LED controller for on/off and dimming functionalities of a single LED fixture or a zone. This integrated LED control system communicates via the EnOcean standard at 902 MHz, which is one of the most established wireless building automation standards based on the EnOcean Alliance ecosystem of more than 350 member companies and offers highly reliable, ultra-low power RF communication for batteryless control devices.
Furthermore, the LED controller already includes the new standardized EnOcean Equipment Profile (EEP) for LED defined by the EnOcean Alliance. The application-specific profile provides information on the current control status, e.g. dimming level, daylight harvesting or on/off, and saves any changes for debugging purposes and an optimized function monitoring.