An inverse method for color uniformity in white LED spotlights

C.R. Prins; J.H.M. Thije Boonkkamp, ten; T.W. Tukker; W.L. IJzerman

An inverse method for color uniformity in white LED spotlights

C.R. Prins, J.H.M. Thije Boonkkamp, ten, T.W. Tukker, W.L. IJzerman

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Samenvatting

Color over Angle (CoA) variation in the light output of white phosphor-converted LEDs is a common problem in LED lighting technology. In this article we propose an inverse method to design an optical element that eliminates the color variation for a point light source. The method in this article is an improved version of an earlier method [1], and provides more design freedom. We derive a mathematical model for color mixing in a collimator and present a numerical algorithm to solve it. We verify the results using Monte-Carlo ray tracing.

Originele taal-2	Engels
Plaats van productie	Eindhoven
Uitgeverij	Technische Universiteit Eindhoven
Aantal pagina's	18
Status	Gepubliceerd - 2013

Publicatie series

Naam	CASA-report
Volume	1302
ISSN van geprinte versie	0926-4507

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Citeer dit

Prins, C. R., Thije Boonkkamp, ten, J. H. M., Tukker, T. W., & IJzerman, W. L. (2013). An inverse method for color uniformity in white LED spotlights. (CASA-report; Vol. 1302). Eindhoven: Technische Universiteit Eindhoven.

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abstract = "Color over Angle (CoA) variation in the light output of white phosphor-converted LEDs is a common problem in LED lighting technology. In this article we propose an inverse method to design an optical element that eliminates the color variation for a point light source. The method in this article is an improved version of an earlier method [1], and provides more design freedom. We derive a mathematical model for color mixing in a collimator and present a numerical algorithm to solve it. We verify the results using Monte-Carlo ray tracing.",

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N2 - Color over Angle (CoA) variation in the light output of white phosphor-converted LEDs is a common problem in LED lighting technology. In this article we propose an inverse method to design an optical element that eliminates the color variation for a point light source. The method in this article is an improved version of an earlier method [1], and provides more design freedom. We derive a mathematical model for color mixing in a collimator and present a numerical algorithm to solve it. We verify the results using Monte-Carlo ray tracing.

AB - Color over Angle (CoA) variation in the light output of white phosphor-converted LEDs is a common problem in LED lighting technology. In this article we propose an inverse method to design an optical element that eliminates the color variation for a point light source. The method in this article is an improved version of an earlier method [1], and provides more design freedom. We derive a mathematical model for color mixing in a collimator and present a numerical algorithm to solve it. We verify the results using Monte-Carlo ray tracing.

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