Microlens arrays with integrated thin film power monitors

2001 Proceedings. 51st Electronic Components and Technology Conference (Cat. No.01CH37220) Pub Date : 2001-05-29 DOI:10.1109/ECTC.2001.927897

E. Ma, A. Payne, N. Nemchuk, L. Domash

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引用次数: 3

Abstract

VCSEL 1D or 2D arrays for parallel optical interconnect links require monitor photodiodes, but conventional discrete detectors as used in single lasers are not feasible for arrays. Aegis Semiconductor is developing 1D and 2D 'smart' microlens arrays with integrated power monitor sensors in the form of semi-transparent thin film silicon and silicon-germanium based photodiodes direct deposited by PECVD. The developmental 12 channel 820-860 nm VCSEL array monitor described here incorporates Adaptive Optics Associates' process for molding epoxy-on-glass microlens arrays directly onto glass substrates bearing thin-film sensors. Transmission of the sensor / microlens package exceeds 75% at 850 nm, with responsivity 0.07 A/W (based on total incident optical power) and bandwidth >50 kHz. Experimental measurements of antireflection properties and wavelength dependence are reported. Integration of thin film sensors (and potentially transistors and other circuit elements) with microlenses combines optoelectronic and passive optical functions in one compact element.

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集成薄膜电源监视器的微透镜阵列

用于平行光互连链路的VCSEL 1D或2D阵列需要监控光电二极管，但用于单激光器的传统离散探测器不适用于阵列。Aegis半导体正在开发1D和2D“智能”微透镜阵列，其集成功率监测传感器以半透明薄膜硅和硅锗基光电二极管的形式直接由PECVD沉积。本文描述的正在开发的12通道820-860纳米VCSEL阵列监视器采用了Adaptive Optics Associates的工艺，将玻璃上的环氧树脂微透镜阵列直接成型到承载薄膜传感器的玻璃基板上。传感器/微透镜封装在850 nm处的传输率超过75%，响应率0.07 A/W(基于总入射光功率)，带宽>50 kHz。报道了抗反射特性和波长依赖性的实验测量结果。薄膜传感器(以及潜在的晶体管和其他电路元件)与微透镜的集成将光电和无源光学功能结合在一个紧凑的元件中。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2001 Proceedings. 51st Electronic Components and Technology Conference (Cat. No.01CH37220)

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