Ground Fault Diagnostics for Automotive Electronic Control Units

IF 1.4 Q2 ENGINEERING, MULTIDISCIPLINARY

International Journal of Prognostics and Health Management Pub Date : 2023-02-13 DOI:10.36001/ijphm.2023.v14i3.3128

Xinyu Du, Shengbing Jiang, D. Zhou, Alaeddin Bani Milhim, Hossein Sadjadi

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引用次数: 1

Abstract

An electronic control unit (ECU) with a floating ground is not able to receive or transmit messages or participate in controller area network (CAN) communication. The absence of any ECU, either temporarily or permanently, negatively impacts vehicle functionalities. The offset ground, which by itself will not affect bus functionalities if the grounding resistance is small, however, may evolve into a floating ground or behave similarly if the resistance is large. In this work, the correlation among ground faults, either offset or floating, and CAN bus voltage or messages are analyzed based on the equivalent circuit models and the bus protocol. A voltage-based solution to detect ground faults is proposed. With the help of bus messages, both faults can be isolated at the ECU level. Considering the inherent system delay between the message fetching and voltage measurement, a normalized voltage-message correlation approach with the bus load estimation is developed as well. All proposed approaches are implemented to an Arduino-based embedded system and validated on a vehicle frame.

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汽车电子控制单元的接地故障诊断

带有浮动接地的电子控制单元（ECU）无法接收或传输信息或参与控制器局域网（CAN）通信。任何ECU的缺失，无论是暂时的还是永久的，都会对车辆功能产生负面影响。然而，如果接地电阻较小，偏移接地本身不会影响总线功能，如果电阻较大，则偏移接地可能演变为浮动接地或表现类似。在这项工作中，基于等效电路模型和总线协议，分析了偏移或浮动接地故障与CAN总线电压或消息之间的相关性。提出了一种基于电压的接地故障检测方案。在总线信息的帮助下，可以在ECU级别隔离两个故障。考虑到消息获取和电压测量之间固有的系统延迟，还提出了一种用于总线负载估计的归一化电压消息相关性方法。所有提出的方法都在基于Arduino的嵌入式系统中实现，并在车架上进行了验证。

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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