Design and evaluation of aspherical microlens module for high speed data transmission

TIEN Chun-lin; LIN Yan-nan; SUN Wen-shing; LIN Tsai-wei; LIN Chen-sheng; ZHANG Zheng-yang

doi:10.3788/OPE.20111909.2271

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Design and evaluation of aspherical microlens module for high speed data transmission

Article | 更新时间：2020-08-12

- Design and evaluation of aspherical microlens module for high speed data transmission
- Optics and Precision Engineering Vol. 19, Issue 9, Pages: 2271-2276(2011)
- 作者机构：
  
  1. 逢甲大学电机工程学系,台湾台中,中国,40724
  2. 中央大学光电科学与工程学系,中国台湾中坜,32001
- 作者简介：
- 基金信息：
- DOI：10.3788/OPE.20111909.2271
  CLC： TN919;TH703
- Received：08 March 2011，
  
  Revised：30 April 2011，
  
  Published Online：26 September 2011，
  
  Published：26 September 2011
- 稿件说明：
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田春林, 林彦男, 孙文信, 林采薇, 林宸生, 张正阳. 用于高速数据传输的微透镜模块设计及评价[J]. 光学精密工程, 2011,19(9): 2271-2276

TIEN Chun-lin, LIN Yan-nan, SUN Wen-shing, LIN Tsai-wei, LIN Chen-sheng, ZHANG Zheng-yang. Design and evaluation of aspherical microlens module for high speed data transmission[J]. Editorial Office of Optics and Precision Engineering, 2011,19(9): 2271-2276
田春林, 林彦男, 孙文信, 林采薇, 林宸生, 张正阳. 用于高速数据传输的微透镜模块设计及评价[J]. 光学精密工程, 2011,19(9): 2271-2276 DOI： 10.3788/OPE.20111909.2271.

TIEN Chun-lin, LIN Yan-nan, SUN Wen-shing, LIN Tsai-wei, LIN Chen-sheng, ZHANG Zheng-yang. Design and evaluation of aspherical microlens module for high speed data transmission[J]. Editorial Office of Optics and Precision Engineering, 2011,19(9): 2271-2276 DOI： 10.3788/OPE.20111909.2271.

摘要

针对英特尔光峰技术提出了一种非球面微透镜模块的光学优化设计及评价方法。该非球面微透镜模块可经由GGP多模光纤应用于高速数据的传输

非球面微透镜的直径为800 m

数值孔径为0.275。借助光学设计软件Code V 及LightTools进行仿真

评估了微透镜模块制造及组装的公差对系统耦合效率的影响

同时考虑了一些影响光功率损耗因素。结果表明

经光学优化设计得到的非球面微透镜模块的耦合损耗为-0.75 dB。最后

对于球面微透镜模块和非球面微透镜的性能进行了评价。

Abstract

An optimized design and evaluation method for an aspherical microlens module was presented for the Intel Light Peak technology. The proposed microlens module can be used for high-speed data transmission via a multi-mode GGP fiber.The aspherical microlens has a small diameter about 800 m and a numerical aperture of 0.275. By the optical softwares of Code V and LightTools

the effect of fabrication and assembly tolerances of the microlens module on the coupling efficiency was investigated

and some factors related to the optical coupling loss were also considered. After optimization design of the module

an optical coupling loss of -0.75 dB was obtained. Finally

the comparison between the spherical and aspherical microlenses for the optical performance was evaluated.

关键词

Keywords

references

HANNA M F. Intel plots light peak interconnect revolution[J]. Lightwave Magazine, 2010:16-18.[2] AOKI Y, MIZUNO R J, SHIMADA Y,et al.. Fundamental study of parallel moduling scheme based on a micro-optical bench and collimating planar microlenses[J].Jpn. J. Appl. Phys., 2000,39:1529-1532.[3] YANG H, PAN C T, CHOU M C. Ultra-fine machining tool/molds by LIGA technology[J]. Journal of Micromech. Microeng., 2001,11(2):94-99.[4] SINZINGER S, JAHNS J. Microoptics[M]. New York: Wiley-VCH, 1999.[5] Code V Reference Manual. Version 9.8[M]. Optical Research Associates, 2007.[6] LightTools Core Module User's Guide, Version 6.1[M]. Optical Research Associates, 2008.

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Related Institution

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