{"title":"光纤阵列被动对准环氧树脂流量优化","authors":"J. Lo, C. Li, C. L. Tai, S. Lee","doi":"10.1109/EMAP.2005.1598249","DOIUrl":null,"url":null,"abstract":"Alignment is very critical in optoelectronic packaging and slightly offset in any direction will affect the performance of the whole system. Optical fiber is one of the most commonly used as light transmitting medium. It is usually coupled with different components such as light source, photo-detector and waveguides. As the core diameter of glass optical fiber is usually small, active alignment is used to ensure the alignment. However, the equipment cost of active alignment is very high and the process time is long. This makes the whole alignment process very expensive and ineffective as stated in M. F. Dautartas et al. (2002) and M. W. Beranek et al. (2000). Recently, passive alignment by utilizing precisely etched V-grooves is getting more common due to its low cost and short cycle time based in P. Karioja et al. (2000) and K. Yamauchi et al. (2000). During the passive alignment process, the optical fiber may be lifted up by the buoyancy of the epoxy and hence an extra covering plate is normally required to press the fibers against the wall of V-grooves. The extra plate may introduce several problems. In this paper, an innovative method of dispensing the epoxy is presented. This introduces the self-alignment capability to the conventional passive alignment method. Also by using the new method, the extra covering plate is not required. It is found that the amount of epoxy dispensed is critically in the process. Also the viscosity of the epoxy determines the flow and hence affects the results. In this paper, the effect of the volume and viscosity of epoxy is studied. From the experimental results, the modified passive alignment method is capable of aligning multiple fibers on fiber arrays up to 8 channels up to 1 micron.","PeriodicalId":352550,"journal":{"name":"2005 International Symposium on Electronics Materials and Packaging","volume":"63 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2005-12-11","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"3","resultStr":"{\"title\":\"Optimization of epoxy flow for passive alignment of optical fiber arrays\",\"authors\":\"J. Lo, C. Li, C. L. Tai, S. Lee\",\"doi\":\"10.1109/EMAP.2005.1598249\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Alignment is very critical in optoelectronic packaging and slightly offset in any direction will affect the performance of the whole system. Optical fiber is one of the most commonly used as light transmitting medium. It is usually coupled with different components such as light source, photo-detector and waveguides. As the core diameter of glass optical fiber is usually small, active alignment is used to ensure the alignment. However, the equipment cost of active alignment is very high and the process time is long. This makes the whole alignment process very expensive and ineffective as stated in M. F. Dautartas et al. (2002) and M. W. Beranek et al. (2000). Recently, passive alignment by utilizing precisely etched V-grooves is getting more common due to its low cost and short cycle time based in P. Karioja et al. (2000) and K. Yamauchi et al. (2000). During the passive alignment process, the optical fiber may be lifted up by the buoyancy of the epoxy and hence an extra covering plate is normally required to press the fibers against the wall of V-grooves. The extra plate may introduce several problems. In this paper, an innovative method of dispensing the epoxy is presented. This introduces the self-alignment capability to the conventional passive alignment method. Also by using the new method, the extra covering plate is not required. It is found that the amount of epoxy dispensed is critically in the process. Also the viscosity of the epoxy determines the flow and hence affects the results. In this paper, the effect of the volume and viscosity of epoxy is studied. 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引用次数: 3
摘要
对准在光电封装中是非常关键的,任何方向的轻微偏移都会影响整个系统的性能。光纤是最常用的光传输介质之一。它通常与光源、光电探测器和波导等不同的组件耦合在一起。由于玻璃光纤的纤芯直径通常较小,因此采用主动对准来保证光纤的对准。但主动对准的设备成本高,加工时间长。正如M. F. Dautartas等人(2002)和M. W. Beranek等人(2000)所述,这使得整个校准过程非常昂贵和无效。最近,基于P. Karioja等人(2000)和K. Yamauchi等人(2000)的研究,由于成本低、周期短,利用精确蚀刻v型凹槽的被动对准越来越普遍。在被动对准过程中,光纤可能会被环氧树脂的浮力提升,因此通常需要额外的覆盖板将光纤压在v型槽的壁上。额外的盘子可能会带来一些问题。本文提出了一种新型的环氧树脂点胶方法。这为传统的无源对准方法引入了自对准能力。此外,采用新方法,不需要额外的盖板。结果表明,环氧树脂的投加量在此过程中起着至关重要的作用。此外,环氧树脂的粘度决定了流动,从而影响了结果。本文研究了环氧树脂的体积和粘度对其性能的影响。实验结果表明,改进后的无源对准方法能够对光纤阵列上的多根光纤进行最大8通道、最大1微米的对准。
Optimization of epoxy flow for passive alignment of optical fiber arrays
Alignment is very critical in optoelectronic packaging and slightly offset in any direction will affect the performance of the whole system. Optical fiber is one of the most commonly used as light transmitting medium. It is usually coupled with different components such as light source, photo-detector and waveguides. As the core diameter of glass optical fiber is usually small, active alignment is used to ensure the alignment. However, the equipment cost of active alignment is very high and the process time is long. This makes the whole alignment process very expensive and ineffective as stated in M. F. Dautartas et al. (2002) and M. W. Beranek et al. (2000). Recently, passive alignment by utilizing precisely etched V-grooves is getting more common due to its low cost and short cycle time based in P. Karioja et al. (2000) and K. Yamauchi et al. (2000). During the passive alignment process, the optical fiber may be lifted up by the buoyancy of the epoxy and hence an extra covering plate is normally required to press the fibers against the wall of V-grooves. The extra plate may introduce several problems. In this paper, an innovative method of dispensing the epoxy is presented. This introduces the self-alignment capability to the conventional passive alignment method. Also by using the new method, the extra covering plate is not required. It is found that the amount of epoxy dispensed is critically in the process. Also the viscosity of the epoxy determines the flow and hence affects the results. In this paper, the effect of the volume and viscosity of epoxy is studied. From the experimental results, the modified passive alignment method is capable of aligning multiple fibers on fiber arrays up to 8 channels up to 1 micron.
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