基于软件的静电放电故障定位仪器

Pratik Maheshwari, Byongsu Seol, Jong-Sung Lee, Jae-Deok Lim, Sahra Sedigh Sarvestani, D. Pommerenke
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引用次数: 1

摘要

静电放电(ESD)是嵌入式系统系统级故障或故障的常见原因。由于通常使用的基于硬件的诊断方法所获得的信息缺乏足够的细节,潜在的故障难以定位。本文提出的替代方案是监视关键寄存器和标志以检测指示故障的异常的软件工具。基于硬件的技术使用侵入式探针,可以改变正在研究的现象,与之相反,该方法利用标准外设(如串行或以太网端口)来监测和记录ESD的效果。我们演示了将这种软件仪器技术与三维ESD注入系统结合使用,以生成一个灵敏度图,可视化嵌入式系统的各个部分对ESD的敏感性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Software-Based Instrumentation for Localization of Faults Caused by Electrostatic Discharge
Electrostatic discharge (ESD) is often the cause of system-level failure or malfunction of embedded systems. The underlying faults are difficult to localize, as the information gained from the hardware-based diagnostic methods typically in use lacks sufficient detail. The alternative proposed in this paper is software instrumentation that monitors key registers and flags to detect anomalies indicative of failure. In contrast to hardware-based techniques, which use invasive probes that can alter the very phenomena being studied, the proposed approach makes use of standard peripherals such as the serial or Ethernet port to monitor and record the effect of ESD. We illustrate the use of this software instrumentation technique in conjunction with a three-dimensional ESD injection system to produce a sensitivity map that visualizes the susceptibility of various segments of an embedded system to ESD.
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