分布式功率半导体应力测试与测量架构

Benjamin Steinwender, S. Einspieler, M. Glavanovics, W. Elmenreich
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引用次数: 5

摘要

传统的微电子功率器件可靠性测试需要专用的测试系统。为了测试一组具有统计意义的设备,由于成本限制,仅通过集中控制器进行简化的应力模式生成。关于设备性能和故障时间的知识通常是通过定期将设备从测试设置中移除并在不同的测试硬件上执行测量来获得的。在本文中,我们提出了一种分布式功率半导体应力测试和测量架构,以克服现有测试系统的局限性。我们表明,通过将可靠性测试问题划分为更小的任务,靠近被测试设备的本地智能控制器降低了集中式系统的复杂性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Distributed power semiconductor stress test & measurement architecture
Conventional reliability testing of microelectronic power devices requires dedicated test systems. In order to test a statistically meaningful set of devices, only simplified stress pattern generation through a centralized controller is performed due to cost restrictions. Knowledge about device performance and failure time is commonly obtained by periodically removing the device from the test setup and performing a measurement on a different test hardware. In this paper, we propose a distributed power semiconductor stress test and measurement architecture to overcome limitations of existing test systems. We show that a local smart controller close to the tested device reduces the centralized system complexity by dividing the reliability testing problem into smaller tasks.
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