受WHTOL加速老化影响的固态照明电气驱动器的可靠性

P. Lall, P. Sakalaukus, Lynn Davis
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引用次数: 8

摘要

为了评估长期暴露在恶劣环境下的可靠性,对固态照明(SSL)灯具进行了研究,重点关注了暴露在85% RH和85°C的标准湿热温度工作寿命(WHTOL)下的电子驱动器。SSL灯具开始作为当今一些豪华汽车的前照灯引入,也可能实现各种重要的户外应用,如架空路灯,交通信号和景观照明。SSL灯具在这些环境中几乎肯定会遇到持续一段时间的湿度和高温带来的过多水分。在进入市场之前,缺乏加速测试方法来评估LED的长期可靠性,需要基于SSL物理的PHM建模指标来评估和预测LED的寿命,以及美国能源部的研发路线图,用SSL灯具取代今天的照明,这使得增加对SSL设备可靠性的理解变得非常重要,特别是在恶劣环境应用中。在这项工作中,研究了一组SSL电驱动器,以确定在长时间恶劣环境应用中发生的故障机制。每个驱动器由四个三种不同类型的铝电解电容器(aec)组成,被认为是SSL电气驱动器中最弱的组件。通过监测每个AEC的电容变化和等效串联电阻变化,以及监测SSL灯具或电驱动器输出的光通量来评估电驱动器的可靠性。为了检测电驱动器输出的微小变化,并有助于SSL灯具可靠性的调查,还对原始SSL电驱动器的光通量进行了监测。本文对电驱动器的失效机理进行了分析。
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Reliability of solid-state lighting electrical drivers subjected to WHTOL accelerated aging
An investigation of a solid-state lighting (SSL) luminaire with the focus on the electronic driver which has been exposed to a standard wet hot temperature operating life (WHTOL) of 85% RH and 85°C in order to assess reliability of prolonged exposer to a harsh environment has been conducted. SSL luminaires are beginning introduced as headlamps in some of today's luxury automobiles and may also be fulfilling a variety of important outdoor applications such as overhead street lamps, traffic signals and landscape lighting. SSL luminaires in these environments are almost certain to encounter excessive moisture from humidity and high temperatures for a persistent period of time. The lack of accelerated test methods for LEDs to assess long-term reliability prior to introduction into the marketplace, a need for SSL physics based PHM modeling indicators for assessment and prediction of LED life, as well as the U.S. Department of Energy's R&D roadmap to replace todays lighting with SSL luminaires makes it important to increase the understanding of the reliability of SSL devices, specifically, in harsh environment applications. In this work, a set of SSL electrical drivers were investigated to determine failure mechanisms that occur during prolonged harsh environment applications. Each driver consists of four aluminum electrolytic capacitors (AECs) of three different types and was considered the weakest component inside the SSL electrical driver. The reliability of the electrical driver was assessed by monitoring the change in capacitance and the change in equivalent series resistance for each AEC, as well as monitoring the luminous flux of the SSL luminaire or the output of the electrical driver. The luminous flux of a pristine SSL electrical driver was also monitored in order to detect minute changes in the electrical drivers output and to aid in the investigation of the SSL luminaires reliability. The failure mechanisms of the electrical drivers have been determined and are presented in this paper.
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