Applications of safety transient voltage suppressors in the track circuits of railway signaling systems

Ukrit Kornkanok, S. Deeon, S. Wongcharoen
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Abstract

This research presented the utilization of Safety Transient Voltage Suppressors (STVS) in the track circuits of railway signaling systems, occurring during circuit switching due to changes in track occupancy conditions, resulting in damage and malfunction of the BR966F2 relay. The study employed Failure Modes and Effect Analysis (FMEA) combined with 1kV actual transient overvoltage testing featuring a waveform slope of 184/380 μs. Results revealed two transient voltage suppression levels encompassing Set A_(a,b), Set B_(a) and Set C_(a,b) as well as Set A//Set B//Set C and All Mode. These configurations achieved a clamping voltage of 41.6 V, categorized as Stage 1. Configurations like Set A_(c), Set B_(b,c) and Set C_(c) displayed increased series circuit behavior leading to a clamping voltage of 48.6 V, categorized as Stage 2. The application of STVS device in the track circuit of the signaling system reduced the transient voltage by diversion of the Transient Current or ISTVS through the STVS device into the ground system or the clamping voltage at the STVS device. This prevented the transient power from flowing into and damaging the relays of the track circuit, leaving only the clamping voltage with a missing peak wave. This contributed to the stability of the track circuit within the railway signaling system while also raising the Safety Integrity Level (SIL) to a higher standard, in accordance with the specifications of IEC 16508-4 and the unique requirements of the State Railway of Thailand. These enhancements increased the advanced safety system within the track circuit, particularly for train control and train operation functions of the State Railway of Thailand
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安全瞬态电压抑制器在铁路信号系统轨道电路中的应用
这项研究介绍了在铁路信号系统的轨道电路中使用安全瞬态电压抑制器(STVS)的情况,由于轨道占用条件的变化,在电路切换过程中出现了安全瞬态电压抑制器,导致 BR966F2 继电器损坏和失灵。研究采用了故障模式和影响分析(FMEA),结合 1kV 实际瞬态过电压测试,波形斜率为 184/380 μs。结果显示了两个瞬态电压抑制等级,包括 A_(a,b)、B_(a)和 C_(a,b),以及 A//B//C和所有模式。这些配置实现了 41.6 V 的箝位电压,被归类为第 1 阶段。Set A_(c)、Set B_(b,c)和 Set C_(c)等配置显示出更强的串联电路行为,导致 48.6 V 的箝位电压,被归类为第 2 阶段。在信号系统的轨道电路中应用 STVS 设备后,瞬态电流或 ISTVS 通过 STVS 设备分流到接地系统,或在 STVS 设备处产生箝位电压,从而降低了瞬态电压。这就防止了瞬态功率流入轨道电路继电器并损坏继电器,只留下峰值波缺失的箝位电压。这有助于提高铁路信号系统内轨道电路的稳定性,同时根据 IEC 16508-4 规范和泰国国营铁路的独特要求,将安全完整性等级 (SIL) 提高到更高标准。这些改进提高了轨道电路内的高级安全系统,特别是泰国国家铁路的列车控制和列车运行功能。
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来源期刊
EUREKA: Physics and Engineering
EUREKA: Physics and Engineering Engineering-Engineering (all)
CiteScore
1.90
自引率
0.00%
发文量
78
审稿时长
12 weeks
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