Retro-reflection VOA using parabolic mirror for low insertion loss and linear attenuation relationship

X.M. Zhang, A. Liu, H. Cai, A. Yu
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引用次数: 5

Abstract

This paper reports a new design of MEMS variable optical attenuator (VOA) that makes use of a pair of parabolic mirrors as the retro-reflector in the horizontal plane and a normal fiber as the rod lens to focus in the vertical plane. It is advantageous over the conventional co-axial VOAs since it allows the fibers to be arranged in parallel and is thus convenient for the packaging. The parabolic mirrors improve the optical coupling and yield an insertion loss of only 1.4 dB even when only the normally-cleaved single mode fibers are used. The attenuation can go up to 63 dB when the mirror pair is rotated by 2.6 degrees. More importantly, a linear relationship is well maintained over the whole range, unlike the nonlinear relationship in many conventional VOAs. At the 20-dB level, the VOA measures a PDL of 0.2 dB and a WDL of 0.5 dB, which are superior to the typically values of 1-2 dB in the conventional VOAs.
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反射式VOA采用抛物面反射镜,插入损耗低,衰减呈线性关系
本文报道了一种微机电系统可变光衰减器(VOA)的新设计,该衰减器利用一对抛物面反射镜作为水平面上的后反射器,利用一根普通光纤作为杆透镜在垂直平面上聚焦。它优于传统的同轴voa,因为它允许纤维平行排列,因此便于封装。抛物面反射镜改善了光学耦合,即使只使用正常劈裂的单模光纤,也只产生1.4 dB的插入损耗。当镜面对旋转2.6度时,衰减可达63 dB。更重要的是,与许多传统VOAs中的非线性关系不同,它在整个范围内保持了良好的线性关系。在20 dB水平,VOA测量的PDL为0.2 dB, WDL为0.5 dB,优于传统VOA的典型值1-2 dB。
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