摘要
一种基于MEMS工艺的硅基阵列化光纤连接器,具有微型化、可集成制造和重复性好等特点。每个单元利用硅V型槽与其上集成制造的电沉积流线型曲面金属镍盖板的组合形成了方便光纤插拔的喇叭口形导引通道和可实现光纤定位及精确自对准的双悬臂梁形夹持通道。采用Ansys软件对双悬臂梁结构在不同的厚度与翘曲位移条件下对光纤产生的压制力进行建模与仿真,并将其与理论分析结果进行比较。成功地将单元扩展成1×16阵列,体积仅为6.8mm×15.2mm×0.5mm,各单元插入损耗约为0.3 dB。
A silicon based optical fiber connector array using MEMS technology is presented. The devices are miniaturized, integrated manufacturable and reproducible. Combining the silicon V-shaped groove and the electroplated streamlined nickel cover plate, bell-mouthed crimping channel for easy insertion and double cantilever beams clamping channel for precise position and self-splicing are formed in each unit. Commercial ansys software is used to model and simulate the suppress force of the beams under different thickness and displacement conditions. The results are compared with the theoretical analysis. Array ( 1 × 6) is successfully extended. The volume is only 6.8 mm ×15.2 mm×0.5 mm and the insertion loss of each unit is about 0.3 dB.
出处
《传感器与微系统》
CSCD
北大核心
2007年第7期87-88,92,共3页
Transducer and Microsystem Technologies
基金
国家自然科学基金资助项目(10377009)
上海市光科技专项研究项目(DZ46105008)
关键词
光学器件
光纤连接器阵列
微机电系统
集成制造
optical device
optical fiber connector array
micro-electro-mechanical system (MEMS)
integrated manufacturable