Test and on-line monitoring of real-time Ethernet with mixed pysical layer for Industry 4.0

Stefan Fuchs, Hans-Peter Schmidt, S. Witte
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引用次数: 5

Abstract

In Industry 4.0 nodes are becoming interconnected and part of the growing Industrial Internet of Things. The use of a reduced physical layer and emerging real-time Ethernet standards, enables such nodes to be implemented cost-efficiently. Technologies and standards, which focus on cost-efficient Ethernet technologies for the use in vehicles, are quite promising for industrial applications. The integration of such new technologies and nodes in existing installations will lead to mixed systems consisting of conventional Industrial Ethernet equipment and new technologies. For such a migration scenario we present first results and a test system to validate physical layers and transceivers with respect to timing and synchronizing. Live-measurement methods are given for a dedicated real-time Ethernet system that provides detailed information about timing. Within this scope we show that mixed physical layers can be introduced in real-time Ethernet networks without deteriorating timing in real time application.
面向工业4.0的混合物理层实时以太网测试与在线监控
在工业4.0中,节点之间相互连接,成为不断发展的工业物联网的一部分。使用简化的物理层和新兴的实时以太网标准,使这些节点能够以经济高效的方式实现。技术和标准的重点是用于车辆的经济高效的以太网技术,在工业应用中非常有前途。这些新技术和节点在现有装置中的集成将导致由传统工业以太网设备和新技术组成的混合系统。对于这样的迁移场景,我们给出了第一个结果和一个测试系统,以验证物理层和收发器的定时和同步。给出了一个专用实时以太网系统的实时测量方法,该系统提供了有关时序的详细信息。在这个范围内,我们展示了混合物理层可以在实时以太网中引入,而不会影响实时应用的时序。
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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