半导体照明中的非成像光学及其应用

以GaN基功率型发光二极管(LED)为代表的半导体照明光源, 具有其他传统光源无法比拟的诸多优点, 被公认为21世纪最有价值的新型光源。充分发挥功率型LED的优势, 利用非成像光学进行面向实际应用的功率型LED封装光学系统设计, 以高端半导体照明光源的制造为突破点, 带动整个半导体照明产业的快速进步, 已成为半导体照明技术发展的战略选择。回顾了非成像光学的历史、研究进展以及在半导体照明中的应用, 并通过设计实例, 介绍了面向功率型LED光线耦合、二维给定光分布以及三维给定光分布问题的非成像光学系统设计原理与解决方案。

Abstract

Solid state lighting sources based on GaN-based high power light emitting diodes (LEDs) have been considered as one of the most valuable light sources in 21th century due to its many unparalleled advantages over other conventional lighting sources. It is a sensible strategy choice to promote the developments of solid state lighting industrial progress by making a breakthrough at some high class solid state lighting products, which can utilize the advantages of high power LEDs through introducing revolutionary design ideas based on non-imaging optics. In this paper, the history and development of non-imaging optics and its application in solid state lighting are reviewed. Then, the non-imaging optical system design principles and practical solutions are given through a few samples including optical system design of bundles-coupling, two-dimentional (2D) prescribed light distribution and 3-dimentional prescribed light distribution problems based on LEDs.

参考文献

[1] . M. Steranka, J. Bhat, D. Collins et al.. High power LEDs-technology status and market applications[J]. Physical Status Solid (A) Applied Research, 2002, 194(2): 380-388.

[2] . Steigerwald, Jerome C. Bhat, Dave Collins et al.. Illumination with solid state lighting technology[J]. IEEE J. Sel. Top. Quantum Electron., 2002, 8(2): 310-320.

[3] Regina Mueller-Mach, Gerd O. Mueller. White light emitting diodes for illumination [C]. SPIE, 2000, 3938:30～41

[4] T. Mukai, M. Yamada, S. Nakamura. Characteristics of InGaN-based UV/blue/green/amber/red light-emitting diodes [J]. Japanese Journal of Applied Physics Part 1-Regular Papers Short Notes & Eoleol Review Papers, 1999, 38(7A):3976～3981

[5] R. Winston, J. C. Minano, P. Benitez. Nonimaging Optics [M]. Elsevier Academic Press, 2005. 159～180

[6] D. G. Pelka, K. Patel. An overview of LED applications for general illumination [C]. SPIE, 2003, 5186:15～26

[7] . T. Ong, J. M. Gordon, A. Rabl et al.. Tailored edge-ray desgns for uniform illumination of distant targets[J]. Opt. Eng., 1995, 34(6): 1726-1737.

[8] . T. Ong, J. M. Gordon, A. Rabl. Tailoring lighting reflectors to prescribed illuminance distributions: compact partial-involute designs[J]. Appl. Opt., 1995, 34(34): 7877-7887.

[9] . T. Ong, J. M. Gordon, A. Rabl. Tailored edge-ray designs for illumination with tubular sources[J]. Appl. Opt., 1996, 35(22): 4361-4371.

[10] B. Parkyn, F. Munoz, J. C. Minano et al.. Edge-ray design of compact etendue-limited folded-optic collimators [C]. SPIE, 2004, 5185:6～17

[11] . Alahautala, R. Hernberg. Generation of uniform light by use of diode lasers and a truncated paraboloid with a Lambertian scatterer[J]. Appl. Opt., 2004, 43(4): 949-954.

[12] Wang Weisheng, Jiang Wei, Dou Xiaoming. A LED light unit for the projector [J]. Acta Optica Sinica, 2005, 25(6):855～859
王蔚生, 姜维, 窦晓鸣. 用于投影机的发光二极管照明单元[J]. 光学学报, 2005, 25(6):855～859

[13] Ding Yi, Gu Peifu. Freeform reflector for uniform illumination [J]. Acta Optica Sinica, 2007, 27(3):540～544
丁毅, 顾培夫. 实现均匀照明的自由曲面反射器[J]. 光学学报, 2007, 27(3):540～544

[14] Zhao Xing, Fang Zhiliang, Cui Jicheng et al.. Study on the optical engine of the mini-projector [J]. Acta Optica Sinica, 2007, 27(5):913～918
赵星, 方志良, 崔继承等. 微型投影机光学引擎的研究[J]. 光学学报, 2007, 27(5):913～918

[15] W. T. Welford, R. Winston. The Optics of Nonimaging Concentrators [M]. New York: Academic Press, 1978

[16] W. T. Welford, R. Winston. High Collection Nonimaging Optics [M]. New York: Academic Press,1989

[17] . Winston. Principles of solar concentrators of a novel design[J]. Sol. Energy, 1974, 16: 89-95.

[18] . Winston, H. Hinterberger, Principles of cylindrical concentrators for solar energy[J]. Sol. Energy, 1975, 17: 255-258.

[19] . Rabl, R. Winston. Ideal concentrators for finite sources and restricted exit angles[J]. Appl. Opt., 1976, 15: 2880-2883.

[20] . Ries, A. Rable. Edge-ray principle of nonimaging optics[J]. J. Opt. Soc. Am. A, 1994, 11(10): 2627-2632.

[21] B. A. Jacobson, R. D. Gengelbach. Novel compact non-imaging collectors for LED arrays [C]. SPIE, 2004, 5185:30～34

[22] P. Benitez, R. Mohedano, J. C. Minano et al.. Design of CPC-like reflectors within the simultaneous multiple surface design method [C]. SPIE, 1997, 3139:19～28

[23] . A. Davis. Edge-ray principle of nonimaging optics[J]. J. Opt. Soc. Am. A, 1994, 11(4): 1256-1259.

[24] P. Benitez, J. C. Minano. Offence against the edge ray theorem [C]. SPIE, 2004, 5529:108～119

[25] . Winston, H. Ries. Nonimaging reflectors as functionals of the desired irradiance[J]. J. Opt. Soc. Am. A, 1993, 10(9): 1902-1908.

[26] . Ries, R. Winston. Tailored edge-ray reflectors for illumination[J]. J. Opt. Soc. Am. A, 1994, 11(4): 1260-1264.

[27] . Hu, K. Y. Qian, Y. Luo. Far-field pattern simulation of flip-chip bonded power light-emitting diodes by a Monte Carlo photon-tracing method[J]. Appl. Opt., 2005, 44: 2768-2771.

[28] . Yang, K.Y. Qian, Y. Luo. Design of a rotational three-dimensional nonimaging device by a compensated two-dimensional design process[J]. Appl. Opt., 2006, 45: 5154-5159.

[29] . Wang, K. Y. Qian, Y. Luo. Discontinuous free-form lens design for prescribed irradiance[J]. Appl. Opt., 2007, 46: 3716-3723.

[30] Edward H. Stupp, Matthew S. Brennesholtz. Projection Displays [M]. John Wiley & Sons Ltd, 1999

[31] . Kochengin, V. Oliker. Determination of reflector surfaces from near-field scattering data Ⅱ. Numerical solution[J]. Numerishe Mathematik, 1998, 79(4): 553-568.

[32] . Caffarelli, S. Kochengin, V. Oliker. On the numerical solution of the problem of reflector design with given far-field scattering data[J]. Contemporary Mathematics, 1999, 226: 13-32.

[33] . Kochengin, V. Oliker, O. von Tempski. On the design of reflectors with prespecified distribution of virtual sources and intensities[J]. Inverse Problems, 1998, 14: 661-678.

[34] V. Oliker. Geometric and variational methods in optical design of reflecting surfaces with prescribed irradiance properties [C]. SPIE, 2005, 5924:592407

[35] H. Ries, J. A. Muschaweck. Tailoring freeform lenses for illuminations [C]. SPIE, 2001, 4442:43～50

[36] . Ries, J. A. Muschaweck. Tailored freeform optical surfaces[J]. J. Opt. Soc. Am. A, 2002, 19(3): 590-595.

[37] Andreas Timinger, Julius Muschaweck, Harald Ries. Designing tailored free-form surfaces for general illumination [C]. SPIE, 2003, 5186:128～132

[38] William A. parkyn. Design of illumination lenses via extrinsic differential geometry [C]. SPIE, 1998, 3428:154～162

[39] Bill Parkyn, David Pelka. Free-form illumination lenses designed by a pseudo-rectangular lawnmower algorithm [C]. SPIE, 2006, 6338:633803

[40] . Minano, Jose Blen et al.. Simultaneous multiple surface optical design method in three dimensions[J]. Opt. Eng., 2004, 43(7): 1489-1502.

[41] L. Piegl, W. Tiller. The NURBS Book [M]. 2nd ed.. Springer-Verlag, Berlin, 1997

[42] G. Farin, J. Hoschek, M. Kim. Handbook of Computer Aided Geometric Design [M]. Elsevier, Amsterdam, 2002

罗毅, 张贤鹏, 王霖, 杨毅, 胡飞, 钱可元, 韩彦军, 李旭亮, 张志海, 邓国强. 半导体照明中的非成像光学及其应用[J]. 中国激光, 2008, 35(7): 963. Luo Yi, Zhang Xianpeng, Wang Lin, Yang Yi, Hu Fei, Qian Keyuan, Han Yanjun, Lee William, Zhang Oceam, Deng Guoqiang. Non-Imaging Optics and Its Application in Solid State Lighting[J]. Chinese Journal of Lasers, 2008, 35(7): 963.

半导体照明中的非成像光学及其应用下载： 1021次

关于本站 Cookie 的使用提示

全站搜索

半导体照明中的非成像光学及其应用 下载： 1021次

相关论文

相关资讯

关于本站 Cookie 的使用提示

全站搜索

半导体照明中的非成像光学及其应用下载： 1021次