Design of arc fault detection system based on CAN bus

2009 International Conference on Applied Superconductivity and Electromagnetic Devices Pub Date : 2009-10-30 DOI:10.1109/ASEMD.2009.5306631

Zong Ming, Yangmeng Tian, Fengge Zhang

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引用次数: 13

Abstract

Arc Fault Detection System (AFDS) is a device intended to protect the power system against the arc fault that may cause fire. When there is an arc fault, the scale of fault current is lower than the initialization of most of the protection devices installed in the lowers, hence AFDS is an effective device to detect the arc fault successfully and interrupt the circuit in time. The characteristics of arc, how it ignites, and what losses it may cause were discussed. The basic structure of AFDS and the primary principles of that AFDS detect arc fault were proposed. For efficiently realizing the global optimization, the single function problem of conventional Arc Fault Circuit Interrupter (AFCI) was solved by setting up a detection system. Composed with detectors, controllers and host computer database, system achieved the automatic detection of arc fault, high temperature fault and leakage current fault to protect the conductors, the equipments and ensure human's safety. Detectors, controllers and host computer database were communicated with CAN bus. Device realized the expectations of reducing the communication cost and improving the communication quality.

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基于CAN总线的电弧故障检测系统设计

电弧故障检测系统(AFDS)是一种用于保护电力系统免受可能引起火灾的电弧故障的设备。当发生电弧故障时，故障电流的尺度小于安装在断路器中的大多数保护装置的初始化，因此AFDS是一种成功检测电弧故障并及时中断电路的有效装置。讨论了电弧的特性、引燃方式以及电弧可能造成的损失。提出了AFDS的基本结构和检测电弧故障的基本原理。为有效地实现全局优化，通过建立检测系统，解决了传统电弧故障断流器功能单一的问题。该系统由探测器、控制器和上位机数据库组成，实现了电弧故障、高温故障和漏电流故障的自动检测，保护了导线、设备和人身安全。探测器、控制器和上位机数据库通过CAN总线进行通信。实现了降低通信成本，提高通信质量的预期。

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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来源期刊

2009 International Conference on Applied Superconductivity and Electromagnetic Devices

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