Heat Pipe cooling technology. Maintains light quality for 60 years.¹
When LEDs overheat, they can fade and discolor. Dyson engineers addressed this with technology often used in satellites. A vacuum-sealed copper tube draws heat away. Inside, a drop of water evaporates, dissipating heat along the pipe as it condenses, before returning to the LEDs by capillary action. It provides a non-stop, energy-free cooling cycle.
Dyson daylight algorithm. Tracks daylight anywhere, anytime.
Daylight constantly changes – and it varies in different locations. We developed a unique time, date and GPS-driven algorithm to calculate the color temperature and brightness of daylight, anywhere in the world. Software validation was supported by data selected from over a million atmospheric measurements.
Intelligent optical head. Turns data into dynamic light.
A 32-bit microprocessor continually interprets daylight data, communicating it to the optical driver for dynamic color tuning. The three warm and three cool LEDs simulate daylight color temperatures from 2700-6500 kelvin. And with a color rendering index over 90, the light displays colors very close to daylight.
Color-mixing chamber. Creates a uniform pool of high-quality light.
A heptagonal reflector split by a layer of PMMA (a lightweight or shatter-resistant alternative to glass) diffusion film evenly mixes light and helps create a single light source for high shadow quality. The lower reflector is engineered to protect eyes from glare and focus light for a pool of uniform illumination (0.7 uniformity).
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¹ LED-life calculation is based on L70 measurement according to IEC 62717, with an estimation of 8 hours’ usage per day. Real-life results may vary.