- Products
- Occupancy Sensors, Daylight Sensors, Dimmer Switches...
- Headquarters
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6 Rong An Road, Luzhu,
Taoyuan 33852,
Taiwan
IR‑TEC International was founded in 1982 by Mr. Alan Kuo, a former electronic engineer of RCA and current President of IR‑TEC International Ltd. As a pioneer of motion sensing technology in Taiwan, IR‑TEC has established a solid reputation as a trustworthy business identity by fulfilling its commitments to all stakeholders. With continuous research and development, IR‑TEC has created a wide range of occupancy/vacancy sensors (presence/absence detectors), daylight sensors, and power packs for energy efficient lighting control, HVAC control and building energy management.
Many unoccupied spaces with continued lighting operations result in a substantial waste of energy for non-residential buildings. Numerous case studies and reports have concluded substantial energy savings through broad application of occupancy and daylight sensing controls. As a dedicated manufacturer of sensor and control solutions for sustainable buildings, IR-TEC strive to develop more sensors that not only provide excellent occupancy and daylight sensing performances, but also offer versatile controls to help achieve maximum energy savings.
The TRANS from IR-TEC is a standalone control sensor family developed from an industry leading design innovation that delivers interchangeable Electrical, Mechanical, and Optical options to its members. This innovative modular concept has helped creating the TRANS family with numerous types of occupancy and daylight sensors featuring distinctive functionality and electrical characteristics to achieve the highest level of energy saving performance. IR-TEC’s TRANS family offers a broad range of occupancy sensors utilizing different sensing technologies for your selection. IR-TEC’s SmartDIM control not only provides a smooth dimming performance to ensure occupant satisfaction while achieving maximum energy savings, but also helps extend the operational life of luminaire through dynamically adjusting the lighting output at optimal level.
IR-TEC’s OS-NET is not only a simple solution for OEM manufacturers to deliver their luminaires with smart control and wireless connectivity embedded, but also a cost effective solution to renovate the legacy lighting with energy efficient LED lighting featuring intelligent control. Each OS-NET Sensor is packed with multiple sensing and control functionalities to fulfill different control requirements. Specific sensing control scheme can be easily set to provide sophisticated control for all connected luminaires without requiring complex devices and complicated commissioning. OS-NET Sensor can be flexibly integrated with OEM luminaires or mounted on the ceiling with multiple options. The unparalleled integration flexibility allows installing the OS-NET enabled lighting system in the same way as the conventional luminaires and occupancy sensors. The OS-NET Sensors (ONS) are fundamental network devices. Each sensor is packed with multiple sensing and control functionalities, including occupancy/vacancy sensing, ambient light sensing, 0-10V or DALI control output, and wireless mesh networking capabilities required to enable smart lighting control. The sensors are available in two form factors, namely as Mini ONS and Omni ONS.
To deliver the best sustainability for today’s building control, IR-TEC redefined the commercial wall switch sensors with design innovations and superb quality of its WALLSENZR family. BR-WAL002-EN-LS Created for achieving the maximum energy savings for any application, the WALLSENZR can easily replace legacy toggle switches to provide occupancy, or vacancy sensing based load control. This state-of-the-art wall switch sensor family offers line voltage or low voltage PIR and PIR+HFD dual tech sensors with single or double pole output, for 3-way, bi-level switching in various control modes. IR-TEC WALLSENZR can effectively reduce the energy consumption in building spaces by ensuring that lights and HVAC are turned OFF or to a lower level when spaces are unoccupied.