Accelerated Aging Tests of Bubble Devices

18th International Reliability Physics Symposium Pub Date : 1980-04-01 DOI:10.1109/IRPS.1980.362915

W. J. Tabor, R. Zappulla, A. W. Anderson

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引用次数: 2

Abstract

Bubble devices are being manufactured by Western Electric Company, as well as a number of other companies, and have been used in the Bell System since 1978. Accelerated aging tests which include temperature-humidity-voltage bias exposure, temperature cycling, vibration and shock, and electromigration degradation of the Al-4.5% Cu conductors have been performed since the earliest bubble device was constructed. Many of the failure modes that occurred in the early designs have been eliminated or reduced in severity by changes of materials or design. Copper corrosion on the fiberglass-epoxy circuit board has been greatly reduced by the use of an improved epoxy casting resin, magnet cracking has been totally eliminated by spring mounting the magnets rather than by cementing them in place, bias field variation after temperature cycling has been greatly reduced by proper magnet design, and vibration and shock problems have been eliminated by the use of mounting studs on the external shield. Electromigration studies show that the Al-4.5% Cu alloys, electron-beam-evaporated on garnet substrates, will withstand current densities of 1.5(10)7 amp/cm2 for a good lifetirme when the duty cycle is low (~ 1.5%). Results of the accelerated tests on the most recent design conclude that the bubble device is comparable to Western Electric plastic-encapsulated semiconductor integrated circuits.

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气泡装置的加速老化试验

气泡装置是由西方电气公司制造的，以及其他一些公司，自1978年以来一直用于贝尔系统。自最早的气泡装置建成以来，已经对Al-4.5% Cu导体进行了加速老化试验，包括温度-湿度-电压偏置暴露、温度循环、振动和冲击以及电迁移退化。早期设计中出现的许多失效模式已经通过材料或设计的改变而消除或减轻了严重程度。通过使用改进的环氧树脂铸造树脂，大大减少了玻璃纤维环氧树脂电路板上的铜腐蚀，通过弹簧安装磁铁而不是通过胶结磁铁完全消除了磁铁开裂，通过适当的磁铁设计，大大减少了温度循环后的偏置场变化，并且通过在外部屏蔽上使用安装螺柱，消除了振动和冲击问题。电迁移研究表明，在石榴石衬底上进行电子束蒸发的Al-4.5% Cu合金，在占空比较低(~ 1.5%)时，可以承受1.5(10)7安培/cm2的电流密度，并具有良好的寿命。对最新设计的加速测试结果表明，该气泡装置可与西方电气公司的塑料封装半导体集成电路相媲美。

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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18th International Reliability Physics Symposium

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