Design of LED Lamp with special spectral characteristics

Authors

  • Petko Mashkov University of Ruse (BG)
  • Edmunds Teirumnieks Rezeknes Augstskola (LV)
  • Berkant Gyoch University of Ruse (BG)
  • Hristo Beloev University of Ruse (BG)
  • Tamara Pencheva University of Ruse (BG)
  • Rostislav Kandilarov University of Ruse (BG)

DOI:

https://doi.org/10.17770/etr2015vol1.214

Keywords:

Power LEDs, LEDs’ thermal management

Abstract

The goal of this work is the design of LED lamp with adjustable spectral characteristics. The spectral power distribution (SPD) of the lamp can be adjusted to imitate the SPD of the daylight at noon and at evening. Noon light is “bluish” and stimulates cognitive abilities, work productivity and attention; sunlight at evening doesn’t inhibit melatonin production leading to improved sleep during the night and better health. Special combinations of LEDs with different spectral and power characteristics and proper control of the LEDs’ operation are used to achieve the required spectral characteristics of the lamp. Thermal management investigations are made at various ambient temperatures ranging from 20ºC to 45ºC and different current values through LEDs – up to their maximum values. They allow determining safety operating conditions for LEDs depending on the ambient conditions.

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References

B. Ramos-Alvarado, B. Feng, G.P. Peterson, Comparison and optimization of single-phase liquid cooling devices for the heat dissipation of high-power LED arrays, Applied Thermal Engineering, 59, (2013), pp. 648-659

20. Bellia L. , A. Pedace, G. Barbato, Lighting in educational environments: An example of a complete analysis of the effects of daylight and electric light on occupants, Building and Environment, 68 (2013), pp. 50-65.

Cajochen C. , Alerting effects of light, Sleep Medicine Reviews (2007)11, pp.453–464.

Chellappa L. S., R. Steiner, P. Blattner, P. Oelhafen, T.Gotz, C. Cajochen, Non-Visual Effects of Light on Melatonin, Alertness and Cognitive Performance: Can Blue-Enriched Light Keep Us Alert?, Blue-Enriched Light, Alertness and Performance, January 2011 , Volume 6 , Issue 1 , e16429, pp.1-12.

Edwards L.and P. Torcellini, A Literature Review of the Effects of Natural Light on Building Occupants, U.S. Department of Energy Laboratory, 2002, p.58.

Ellis E. V. , E. W. Gonzalez, D. A. Kratzer, D. L. McEachron, G. Yeutter, Auto-tuning Daylight with LEDs: Sustainable Lighting for Health and Wellbeing, ARCC 2013 , The Visibility of Research Sustainability: Visualization Sustainability and Performance, pp.465-473.

Fisk W. J. , Review of Health and Productivity Gains From Better IEQ, Proceedings of Healthy Buildings 2000, vol 4, pp 23-34.

Gabel V. , M. Maire, C. F. Reichert, S. L. Chellappa, C. Schmidt,V. Hommes, A. U. Viola and C. Cajochen, Effects of Artificial Dawn and Morning Blue Light on Daytime Cognitive Performance, Well-being, Cortisol and Melatonin Levels, Chronobiology International, Informa Healthcare USA, Inc (2013), pp.1–10.

Illuminating the Effects of Dynamic Lighting on Student Learning, Michael S. Mott - The University of Mississippi, Daniel H. Robinson -The University of Texas, Ashley Walden, Jodie Burnette & Angela S. Rutherford - The University of Mississippi

In-Tae Kim, An-Seop Choi, Jae-Weon Jeong, Precise control of a correlated color temperature tunable luminaire for a suitable luminous environment, Building and Environment, 57 (2012), pp. 302-312.

Ir.W. J. M. van Bommel and Ir. G. J. van den Beld, Lighting for work: visual and biological effects, April 2004, Philips Lighting, The Netherlands, 2004, p.20.

Ir.W.J.M. van Bommel, Ir. G.J. van den Beld, Ir. M.H.F. van Ooijen. Industrial lighting and productivity, Philips Lighting, The Netherlands, 2002, p.20.

Joseph A., The Impact of Light on Outcomes in Healthcare Settings, 2006 The Center for Health Design, p.14.

Knez I. Effects of colour of light on nonvisual psychological processes, Journal of Environmental Psychology, Volume 21, Issue 2, June 2001, pp. 201–208.

L. Bellia, F. Bisegna, G. Spada, Lighting in indoor environments: Visual and non-visual effects of light sources with different spectral power distributions, Building and Environment, 46, (2011), pp. 1984-1992.

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www.cree.com/xlamp

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Published

2015-06-16

How to Cite

[1]
P. Mashkov, E. Teirumnieks, B. Gyoch, H. Beloev, T. Pencheva, and R. Kandilarov, “Design of LED Lamp with special spectral characteristics”, ETR, vol. 1, pp. 147–152, Jun. 2015, doi: 10.17770/etr2015vol1.214.