VOILA 4 CYLINDER-CUBOID
Voila 4" Cylinder-Cuboid downlights are available for pendant and surface installation with multiple finishes. Using HyFlex optics, field-interchangeable beam angles range from 10º to 90º. Drivers are remote and are available for Remote drivers are available 0-10V, ELV, Triac, DALI and various Lutron and EldoLED dimming protocols, as well as ChromaWerx Sola and Duo. Pendants can be suspended with PVC or fabric-covered cable. Surface luminaires can be powered by direct wire or through a J-box. Surface conduit adapters are available for both surface and pendant installation. Die-cast baffles are offered in in 0.5", 1" and 2" depth and match the cylinder/cuboid dimension. Programmable luminaire light output is available up to 2650 lumens.
LIGHT DISTRIBUTION: DIRECT
CHROMATICITY: STATIC WHITE, DUO CHROMAWERX, SOLA CHROMAWERX
LIGHT SOURCE: LED
MOUNTING: CYLINDER-CUBOID, SURFACE, PENDANT
SIZE: 4 Inch
LUMEN OUTPUT: 1280-2460
APPLICATION: PENDANT, SURFACE
SHAPE: CYLINDER, CUBOID
Hyflex optics provide precise optical control in a remarkably compact form. The core of this four-tier system is compound reflector with a central TIR element, just 1.06" deep. Beam-smoothing discs perfect beam angles up to 90º. Beam angles are easily interchanged in the field.
ChromaWerx Sola is single-channel control that dims output while warming the color temperature in a pre-determined relationship. A simple digital or analog control sends a common signal to dual output digital drivers, which are programmed to adjust a specially populated LED array to emulate the effect of dimming a filament source.
ChromaWerx Duo offers a two-channel control system which uses analog or digital protocals for synchronous control of both warm (2700K) to cool (6500K) LED arrays - maintaining a CRI above 90. The range of color Duo offers is useful for entraining circadian rhythms, stimulating alertness, and compensating for Jet-Lag among other applications. The ChromaWerx drivers are programmed to limit maximum light output and power usage across all color temperatures.