
Cool

Cool is a compact luminaire of different optics combining the light beams and bringing them together for maximum lighting potential. Cool is personalization. The luminaire comes in three different sizes, available in a multitude of finishes, designed for subtly decorating the ceiling or blending in with it.
Simon design


Cool Micro

Cool Mini

Cool
Multi-Optics
The sum of various small optics allows high performance lighting without compromising in visual comfort. The result is an optimal balance between glare control and maximum light output.


Customization
Cool allows customizing the luminaires with white or aluminium reflectors, decorative fronts in various colours, and finishings that are easily installed using magnets, without tools.
Reflector finish

Aluminium

White
Front face finish for white and black luminaires

Gloss White

White

Gloss Black

Black

Customisable with primer

Chrome

Aluminium


Technology
Luminaire for direct contrast lighting with high visual comfort and excellent lighting performance. The shape of its design is characterised by a minimal silhouette and timeless lines.
Luminaire body
Monoblock downlight in aluminium painted white or black. Patented heat dissipation system. Built-in gear. Recessed installation in circular cut-out. Surface-mounted installation.
Multi-Optics
Summing microdownlights gives a high-performance luminaire, that optimises its performance thanks to the design of its aluminium reflectors and refraction lenses. Cut off 35°.
LED
High-efficiency LED with CRI > 80 and colour temperatures of 3000K and 4000K.
Versatility
Cool is designed to fully integrate into any space, be it recessed or surface mounted. Cool comes in three different sizes as well as a wide variety of finish options.


General lighting
Cool offers wide optic micro-downlights generating a uniform light beam through the integration of refractors and a reflectors with a high efficiency LED.
Accented lighting
Cool comes with micro-downlights designed to concentrate maximum light intensity in a required direction. A lens and a reflector concentrate the emitted light, optimizing their efficiency and gaining a high contrast factor.
