Electro-optical characteristics of an innovative LED luminaire with an LED matrix cooling system based on heat pipes-Reference-Cited by-同舟云学术

Electro-optical characteristics of an innovative LED luminaire with an LED matrix cooling system based on heat pipes

Published:2020-11-19 Issue:04 Volume:23 Page:415-423
ISSN:1560-8034
Container-title:Semiconductor Physics, Quantum Electronics and Optoelectronics
language:
Short-container-title:SPQEO

Author:

Pekur D.V., ,Sorokin V.M.,Nikolaenko Yu.E.,Kostylyov V.P.,Solntsev V.S.,Ponomarenko V.V., , , , ,

Abstract

Widespread use of energy-saving LED lighting systems powered by renewable energy sources, solar energy in particular, will contribute to the improvement of global ecology. One of the structural elements of such lighting systems is LED luminaire. The authors of this article perform a first ever experimental study of electro-optical characteristics of the basic version of a compact high-power LED luminaire for indoor use. The particular feature of this lighting device is that its cooling system for the LED light source is based on heat pipes and concentric cooling rings. Such design allows ensuring the required cooling efficiency of the LED matrix. The revealed trends in optical and electrical parameters during temperature stabilization indicate that the proposed cooling system is highly efficient in maintaining normal thermal conditions of LED light sources with a power of up to 140.7 W and a luminous flux of up to 15083 lm. The results on determining spatial distribution of luminous flux of these luminaires indicate that they may be used for lighting large rooms with high ceilings. Scaling the basic modular design version of the cooling system allows increasing the power of the LED light source up to 600 W.

Publisher

National Academy of Sciences of Ukraine (Co. LTD Ukrinformnauka)

Subject

Electrical and Electronic Engineering,Atomic and Molecular Physics, and Optics,Electronic, Optical and Magnetic Materials

Reference54 articles.

1. 1. Lishik S.I., Posedko V.S., Trofimov Yu.V., Tsvirko V.I. Current state, trends and prospectives of the development of Light Emitting Diode technology. Light & Engineering. 2017. 25, Issue 2. P. 13-24.

2. 2. Jaehee Cho, Jun Hyuk Park, Jong Kyu Kim, E. Fred Schubert. White light-emitting diodes: History, progress, and future. Laser Photonics Rev. 2017. Article No 1600147.

3. 3. Lasance C.J.M., Poppe A. Thermal Management for LED Applications. Springer Science Business Media, New York, 2014.

4. 4. CITIZEN ELECTRONICS CO., LTD. https://ce.citizen.co.jp/lighting_led/dl_data/datasheet/en/COB_5/CLU058-3618C4_P3705_0516.pdf (reference date: 08.10.2020).

5. 5. Pekur D.V., Nikolaenko Yu.E., Sorokin V.M. Optimization of the cooling system design for a compact high-power LED luminaire. SPQEO. 2020. 23, No 1. P. 91-101.

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