The Effect of Repeated Faults on Fuse Characteristics [includes discussion]

Transactions of the American Institute of Electrical Engineers. Part III: Power Apparatus and Systems Pub Date : 2008-05-07 DOI:10.1109/AIEEPAS.1952.4498582

R. E. Riebs

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Abstract

With the introduction of the automatic circuit recloser, it became necessary to consider the effects of a fault current repeated several times at short intervals upon the time current characteristics of a fuse link. The link goes through several sequences of heating and cooling, each application of the fault bringing a higher end temperature. This paper describes a study of the exact manner in which a fuse link behaves when such a series of repeated faults is impressed upon it. The temperature of the fuse link is traced as the fuse heats with the application of a fault, cools after the first interruption, and is brought to still higher temperatures by succeeding applications of the fault. In this manner it is possible to determine whether a fuse will blow or be damaged by a given sequence of repeated faults, or remain undamaged. Information also is presented for determining how co-ordination is affected by preloading and ambient temperature variations. A feature of this study is that damage to the link can be predicted for faults of insufficient duration to cause blowing. Equipment used for the tests is described.

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重复故障对熔断器特性的影响[包括讨论]

随着自动电路重合闸的引入，有必要考虑在短间隔内重复几次的故障电流对熔断器连接的时间电流特性的影响。这条线路经历了几个加热和冷却的顺序，每次故障的应用都会带来更高的终端温度。本文描述了当一系列重复故障压在熔断器上时熔断器的确切行为方式的研究。熔断器的温度被跟踪，因为熔断器随着故障的应用而加热，在第一次中断后冷却，并通过故障的后续应用而达到更高的温度。通过这种方式，可以确定保险丝是否会熔断或被给定的重复故障序列损坏，或保持完好无损。还提供了确定预压和环境温度变化如何影响协调的信息。本研究的一个特点是，对于持续时间不足而导致吹气的故障，可以预测链路的损坏。描述了用于试验的设备。

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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Transactions of the American Institute of Electrical Engineers. Part III: Power Apparatus and Systems

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