Effects and exploitation of tunable white light for circadian rhythm and human-centric lighting

2015 IEEE 1st International Forum on Research and Technologies for Society and Industry Leveraging a better tomorrow (RTSI) Pub Date : 2015-09-01 DOI:10.1109/RTSI.2015.7325089

N. Trivellin, M. Meneghini, M. Ferretti, D. Barbisan, M. D. Lago, G. Meneghesso, E. Zanoni

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引用次数: 8

Abstract

After an introduction on the effects of light on human wellness, circadian rhythm and perception of objects with this work we propose an innovative white LED lighting system able to smoothly change CCT (Correlated Color Temperature) while sensibly changing the spectral power density in the blue region (460-480 nm). Designing methodology, photometrical, electrical, optical and thermal results will be discussed. The proposed tunable white LED system is able to achieve high CRI (Color Rendering Index) (above 90) in a large CCT range (2800 - 5500 K), thus allowing a high comfort light in different conditions. Results from thermal design indicate a maximum junction temperature of 85°C at 700 mA, with an equivalent thermal resistance junction to ambient of 1.6 K/W for the series of LEDs used in the light engine. The optical emission has been designed by means of a color mixing chamber and a parabolic reflector thus achieving a good color uniformity at different emission angles and 18° beam divergence. The Light engine is engineered to be efficient (above 85 lm/W) and cost effective while working with a standard commercially available constant current LED driver. The specific control gear can be programmed to control the intensity and CCT of several lamps connected together.

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可调白光对昼夜节律和以人为中心的照明的影响和利用

在介绍了光对人体健康、昼夜节律和物体感知的影响之后，我们提出了一种创新的白光LED照明系统，该系统能够平滑地改变CCT(相关色温)，同时明智地改变蓝色区域(460-480 nm)的光谱功率密度。将讨论设计方法、光度、电学、光学和热学结果。所提出的可调白光LED系统能够在较大的CCT范围(2800 - 5500 K)内实现高CRI(显色指数)(高于90)，从而在不同条件下实现高舒适的光。热设计结果表明，在700 mA时的最高结温为85°C，光引擎中使用的led系列的等效环境热阻结为1.6 K/W。光学发射采用混色室和抛物面反射器进行设计，在不同发射角度和18°光束发散下均获得了良好的颜色均匀性。光引擎设计为高效(高于85 lm/W)和成本效益，同时与标准的市售恒流LED驱动器一起工作。特定的控制齿轮可以编程来控制连接在一起的几个灯的强度和CCT。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 IEEE 1st International Forum on Research and Technologies for Society and Industry Leveraging a better tomorrow (RTSI)

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