Cascade Protection Scheme for Wayside Signaling Surge Protection

2023 12th Asia-Pacific International Conference on Lightning (APL) Pub Date : 2023-06-12 DOI:10.1109/APL57308.2023.10181883

Lu Wen, C. Shaw, Spencer Teng

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Abstract

Damage from lightning and transient over voltages cost railways millions per year. Exposure to the forces of lightning is unavoidable in the rail environment. To protect (and mitigate damage to) critical network equipment, an approach whereby surge protection devices (SPDs) cascade across electrical and electronic components that work in conjunction to provide greater protection and coverage is recommended. This paper will introduce an enhanced protection scheme through a Cascaded Surge Protection (CSP) system, which includes discussion on surge protection device specifications, recommendations for SPD selection and information on wayside signalling applications. The primary goal of the ‘cascaded protection scheme’ is to reduce the voltage experienced at the equipment to be protected during a transient event, by reducing the voltage at each SPD stage. Robust electronic equipment, like motors and switches, can sustain energy behind a first stage of protection whereas more sensitive electronics, like signalling and measuring devices, should be placed behind a second or even third stage of surge protection.

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道旁信号浪涌级联保护方案

雷电和瞬态过电压造成的损害每年给铁路造成数百万美元的损失。在铁路环境中，暴露于闪电的力量是不可避免的。为了保护(并减轻对关键网络设备的损害)，建议采用一种方法，即浪涌保护装置(spd)跨电气和电子元件级联，这些元件协同工作以提供更大的保护和覆盖范围。本文将通过级联电涌保护(CSP)系统介绍一种增强的保护方案，其中包括对电涌保护装置规格的讨论，对SPD选择的建议以及路边信号应用的信息。“级联保护方案”的主要目标是通过降低每个SPD阶段的电压来降低在瞬态事件中被保护设备所经历的电压。强大的电子设备，如电机和开关，可以在第一级保护后维持能量，而更敏感的电子设备，如信号和测量设备，应该放在第二级甚至第三级浪涌保护后。

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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2023 12th Asia-Pacific International Conference on Lightning (APL)

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