Thermal/electrical behavior of 1 300-nm quad laser arrays in various packaging arrangements

1992 Proceedings 42nd Electronic Components & Technology Conference Pub Date : 1992-05-18 DOI:10.1109/ECTC.1992.204189

P. Hoh, A. Bates, A. Strijek, G. Costrini, A. Antreasyan, S. Scontras, J. Ferrario, E. Cahoon, A. Behfar-Rad

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引用次数: 6

Abstract

A number of packaging configurations were explored as possible candidates for use with quad 1300-nm laser arrays operating at aggregate multi-Gb data rates. The packaging arrangements considered were with InP/GaInAsP-based double heterostructure ridge lasers. Quad laser arrays on single chips were packaged both junction up and junction down. Packages included simple CMSH submounts in 9-mm headers and custom wired silicon carriers on multilayered high-speed packages. Electrical and thermal measurements confirmed that T0 can technology will not meet the requirements needed for multi-Gb/s data links. A package that would surpass the requirements would include optimized wire-bond lengths, wire-bond orientation, and sufficient heat-sinking for the laser array and its associated electronics. A packaging arrangement was investigated which included the optimized conditions mentioned above and a custom wired silicon submount. Electrical crosstalk noise was reduced to -37 dB. Thermal effects were reduced to a point where lasers were able to operate at over 110 degrees C. This package surpassed the thermal and electrical crosstalk noise requirements demanded for multi-Gb/s data communication links.<>

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不同封装方式下1 300 nm四元激光阵列的热/电学行为

研究人员探索了许多封装配置，作为在多gb数据速率下运行的四组1300纳米激光阵列的可能候选产品。所考虑的封装方式为基于InP/ gainasp的双异质结构脊激光器。单芯片上的四轴激光阵列被封装在结上和结下。封装包括简单的CMSH子座在9毫米头和定制有线硅载体多层高速封装。电学和热测量证实，T0 can技术将无法满足多gb /s数据链路所需的要求。超出要求的封装将包括优化的线键长度、线键方向，以及激光阵列及其相关电子设备的足够散热。研究了包括上述优化条件和定制的有线硅座在内的封装布置。电串扰噪声降至-37 dB。热效应降低到激光能够在110度以上的温度下工作，该封装超过了多gb /s数据通信链路所需的热和电串扰噪声要求。

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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1992 Proceedings 42nd Electronic Components & Technology Conference

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