基于事件的热力机械可靠性风险评估使用条件方法

I. Sauciuc, S. Goyal, M. Pei, T. Harirchian, Maritza Tse, R. Kwasnick, S. Tripathi, A. Matusevich
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引用次数: 4

摘要

传统的热-机械可靠性建模方法是基于功率循环事件。这种方法不适用于很少断电的产品,因为在这些产品的使用寿命中,单靠电源循环并不能捕捉到温度变化带来的所有可靠性压力。本文描述了一种确定智能手机和平板电脑等产品温度周期要求的方法,该方法考虑了与使用事件相关的温度变化,我们称之为“迷你周期”。T-M模型是基于单个用户的历史分布作为一段时间内的一系列事件,然后将其转换为每个用户的温度与时间跟踪。然后将这些温度迹线用作T-M模型的主要输入,例如使用Norris-Landzberg (N-L)加速模型来评估每个用户的焊料损伤。结果总结为所有用户的T-M损害分布。由于“小循环”的影响,这种新方法提高了对热机械可靠性要求的理解。
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Event-based use conditions method for thermo-mechanical reliability risk assessment
The traditional approach of thermo-mechanical (T-M) reliability modeling is based on power cycle events. This approach is not useful for products which are rarely powered down, because power cycles alone do not capture all the reliability stress from temperature variation over these products' use life. This paper describes a methodology to determine the temperature cycle requirements for products like smartphones and tablets which accounts for the temperature variation associated with usage events, which we call “mini-cycles”. The T-M model is based on the distribution of individual users' histories as a series of events over time, which is then translated into a temperature vs. time trace for each user. These temperature traces are then used as the main inputs to T-M models, for example using the Norris-Landzberg (N-L) acceleration model to evaluate solder damage for each user. Results are summarized in a distribution of T-M damage across all users. This new methodology improves the understanding of thermo-mechanical reliability requirements due to the impact of “mini-cycles”.
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