Optical design of rectangular illumination with freeform lenses for the application of LED road lighting

Chunyun Xu; Haobo Cheng; Yunpeng Feng

doi:10.1007/s12200-017-0707-7

Optical design of rectangular illumination with freeform lenses for the application of LED road lighting

Chunyun Xu, Haobo Cheng^*, Yunpeng Feng

^*Corresponding author for this work

School of Optics and Photonics

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

We present a freeform lens for application to light-emitting diodes (LED) road lighting. We propose a simple source–target luminous intensity mapping method based on Snell’s law and geometric-optics analysis. We calculated different contours of cross-sections to construct a freeform lens with a smooth surface. The computer simulation results show that the lighting performance of a single freeform lens is not sufficient for road lighting. For the road lamp simulation, we adopted an oval arrangement of freeform lenses on a printed circuit board. In addition, we performed tolerance analysis to determine the tolerance limits of manufacturing and installation errors. A road lamp at a height of 12 m can create rectangular illumination with an area of 40 m × 12 m, 69.7% uniformity, and average illuminance of 24.6 lux. This lighting performance can fully comply with the urban road lighting design standard.

Original language	English
Pages (from-to)	353-362
Number of pages	10
Journal	Frontiers of Optoelectronics
Volume	10
Issue number	4
DOIs	https://doi.org/10.1007/s12200-017-0707-7
Publication status	Published - 1 Dec 2017

Keywords

freeform lens design
light-emitting diodes (LED)
nonimaging optics
rectangular illumination

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10.1007/s12200-017-0707-7

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title = "Optical design of rectangular illumination with freeform lenses for the application of LED road lighting",

abstract = "We present a freeform lens for application to light-emitting diodes (LED) road lighting. We propose a simple source–target luminous intensity mapping method based on Snell{\textquoteright}s law and geometric-optics analysis. We calculated different contours of cross-sections to construct a freeform lens with a smooth surface. The computer simulation results show that the lighting performance of a single freeform lens is not sufficient for road lighting. For the road lamp simulation, we adopted an oval arrangement of freeform lenses on a printed circuit board. In addition, we performed tolerance analysis to determine the tolerance limits of manufacturing and installation errors. A road lamp at a height of 12 m can create rectangular illumination with an area of 40 m × 12 m, 69.7% uniformity, and average illuminance of 24.6 lux. This lighting performance can fully comply with the urban road lighting design standard.",

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AB - We present a freeform lens for application to light-emitting diodes (LED) road lighting. We propose a simple source–target luminous intensity mapping method based on Snell’s law and geometric-optics analysis. We calculated different contours of cross-sections to construct a freeform lens with a smooth surface. The computer simulation results show that the lighting performance of a single freeform lens is not sufficient for road lighting. For the road lamp simulation, we adopted an oval arrangement of freeform lenses on a printed circuit board. In addition, we performed tolerance analysis to determine the tolerance limits of manufacturing and installation errors. A road lamp at a height of 12 m can create rectangular illumination with an area of 40 m × 12 m, 69.7% uniformity, and average illuminance of 24.6 lux. This lighting performance can fully comply with the urban road lighting design standard.

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Optical design of rectangular illumination with freeform lenses for the application of LED road lighting

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Keywords

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