View elegant scenes of light control created with Lutron.
Introducing a new era in shade design, this collection is a collaboration between the leader in shade automation and Europe’s premier window fashion brand. View our fabric offerings for roller shades, Venetian blinds, and new XL pleat shades.
This newest addition to the Lutron sensor family allows the control of two circuits from one occupancy sensor, making it ideal for applications that require bi-level switching to meet codes.
The Specification Guides provide detailed product information to help you specify the right Lutron solution for your project.
Manual controls, including wallstations and personal remotes let building occupants control their light, saving energy and reducing electricity demand. Studies also show that when employees are given personal light control they often prefer to dim the lights, increasing energy savings, and enhancing productivity. Many Lutron solutions, such as the GRAFIK Eye® QS, can also control fluorescent lighting, and Lutron digital addressable ballasts can dim reliably to 1% light level.
Lutron provides a wide range of automated controls including occupancy/vacancy sensors, timeclocks, daylight sensors, and automated shades. Occupancy sensors can automatically turn lights on when a space becomes occupied or vacancy sensors can dim or turn off lights when spaces are unoccupied. Reliable automated time clocks can provide a highly desirable scheduling feature that adjusts lights or shades at certain times of the day or in relation to sunrise and sunset. Daylight sensors automatically adjust electric lighting levels based on the amount of daylight in a space. When it comes to automated control of both daylight and electric light, Lutron provides reliable solutions for any space.
Daylight has both aesthetic and energy saving properties, but it must be controlled to take full advantage of these benefits. Whether it's automated shades to control heat gain and glare or daylight sensors to enhance energy savings, Lutron provides flexible solutions that maximize the efficient use of daylight.