PHILIPS 195685 ROVR DIGITAL ADDR BALLAST F32T8 120-277V
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Advance IntelliVolt® ROVR Ballast, Controllable Electronic Small Can, F32T8/Series Lamp, 32 W Lamp, 14 to 68 W, 120 to 277 VAC, 0.24 to 0.57 A, 50/60 Hz, Programmed Start, 50 deg F Minimum Starting, Total Harmonic Distortion: 0.1, Power Factor: 0.99, Dimmable: Yes, 2 Lamps, Ballast Factor: 0.03 to 1, 70 deg C, Metal, 9.5 in L x 1.7 in W x 1.18 in H
Philips Advance ROVR ballasts reflect the latest approach to controlling fluorescent lighting. Rather than simply responding to instructions from control components, ROVRballasts enable two way communication and have the ability to dim and switch individual ballasts through the control signal. These features allow for virtually unlimited design flexibility while creating sustainable lighting systems. This two way communication is made possible through the industry standard digital communication protocol known as DALI (Digital Addressable Lighting Interface). This protocol allows ROVR ballasts to provide users with operational data while controlling the output of individual luminaires. This fully supports sustainable design principles such as daylight harvesting and occupancy sensors while enabling a proactive response to maintece concerns.
Product Details
Advance IntelliVolt® ROVR Ballast, Controllable Electronic Small Can, F32T8/Series Lamp, 32 W Lamp, 14 to 68 W, 120 to 277 VAC, 0.24 to 0.57 A, 50/60 Hz, Programmed Start, 50 deg F Minimum Starting, Total Harmonic Distortion: 0.1, Power Factor: 0.99, Dimmable: Yes, 2 Lamps, Ballast Factor: 0.03 to 1, 70 deg C, Metal, 9.5 in L x 1.7 in W x 1.18 in H
Philips Advance ROVR ballasts reflect the latest approach to controlling fluorescent lighting. Rather than simply responding to instructions from control components, ROVRballasts enable two way communication and have the ability to dim and switch individual ballasts through the control signal. These features allow for virtually unlimited design flexibility while creating sustainable lighting systems. This two way communication is made possible through the industry standard digital communication protocol known as DALI (Digital Addressable Lighting Interface). This protocol allows ROVR ballasts to provide users with operational data while controlling the output of individual luminaires. This fully supports sustainable design principles such as daylight harvesting and occupancy sensors while enabling a proactive response to maintece concerns.