Obtaining High Reliability Performance from Commercial Quality Opto-Isolators

IEEE Transactions on Parts, Hybrids, and Packaging Pub Date : 1977-09-01 DOI:10.1109/TPHP.1977.1135208

I. Doshay, M. Kalashian

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引用次数: 2

Abstract

Techniques are presented for effectively screening plastic DIP opto-isolators for latent dark current leakage and premature current transfer end of life, with resultant low laboratory field failure rates. Investigations are described which included long life tests conducted at TRW Components Laboratories and vendor test laboratories, and field experience with TRW/Data Systems and TRW/VIDAR/Digital Products equipment. Resultant from these investigations were discovery of environmental stress conditions for predictable rates of dark current leakage acceleration and annealing, and for criteria and test conditions to identify latent premature end-of life current transfer characteristics. These findings were instrumental in the development of customized burn-in and screening techniques to effectively surface parts with latent infant mortality characteristics. Field failure rates were improved to less than eleven failures per billion hours. Laboratory test experience projects to failure rates of less than 13 failures in 109device-operating h at 25°C for these specially screened devices. This is approximately 100 times improvement over prior life experience of similar commercial and "high rel" devices, thus resulting in significant maintenance cost savings.

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从商用质量光隔离器获得高可靠性性能

提出了有效筛选塑料DIP光隔离器的技术，以防止潜在的暗电流泄漏和过早的电流转移，从而降低实验室现场故障率。调查描述了包括在TRW组件实验室和供应商测试实验室进行的长寿命测试，以及TRW/数据系统和TRW/VIDAR/数字产品设备的现场经验。这些研究的结果是发现了可预测的暗电流泄漏加速率和退火率的环境应力条件，以及确定潜在的过早寿命终止电流传递特性的标准和测试条件。这些发现有助于开发定制的烧伤和筛选技术，以有效地显示具有潜在婴儿死亡率特征的部位。现场故障率降低到每十亿小时11次以下。这些经过特殊筛选的设备在25°C下运行109小时，实验室测试经验项目故障率低于13次。这比之前类似的商用和“高可靠性”设备的使用寿命提高了大约100倍，从而大大节省了维护成本。

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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IEEE Transactions on Parts, Hybrids, and Packaging

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