Contact Resistance Characteristics of Relays Operated in Silicone-Vapor-Containing and Non-Silicone Atmospheres with Different Electrical Load Conditions

2011 IEEE 57th Holm Conference on Electrical Contacts (Holm) Pub Date : 2011-10-06 DOI:10.1109/HOLM.2011.6034787

M. Hasegawa, N. Kobayashi, Y. Kohno

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引用次数: 1

Abstract

Influences of vapors evaporated from an acryl-based non-silicone-type polymeric cured material and conventional silicone-containing polymeric cured materials were evaluated with respect to their effects on contact resistance characteristics of relay contacts at an ambient temperature of 120ºC. More specifically, a commercially-available mechanical relay (AgSnIn contacts) was sealed into a metal can with one of these materials, and placed in a heating chamber to operate, at an operating frequency of 0.5 Hz, 40,000 break operations of an inductive DC 14V-1A, 14V-0.4A, 10V-1A, 5V-1A load currents, or a resistive DC 14V-1A load current. Contact resistance values were measured at every 50 operations. As a result, the relays sealed with the acryl-based non-silicone-type polymeric cured material showed no deterioration in contact resistances, irrespective of the load conditions. On the other hand, the relays sealed with the silicone-containing polymeric cured materials showed more significant deteriorations and fluctuations of the contact resistance characteristics, and certain influences of load conditions on their behaviors were recognized.

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不同电负载条件下含硅气和非硅气环境下继电器的接触电阻特性

在120ºC的环境温度下，评估了丙烯酸基非硅树脂型聚合物固化材料和常规含硅聚合物固化材料蒸发蒸汽对继电器触点接触电阻特性的影响。更具体地说，将商用机械继电器(AgSnIn触点)密封在金属罐中，使用其中一种材料，并放置在加热室中，在0.5 Hz的工作频率下，对电感DC 14V-1A, 14V-0.4A, 10V-1A, 5V-1A负载电流或电阻DC 14V-1A负载电流进行40,000次断开操作。每50次操作测量接触电阻值。结果，用丙烯酸基非硅树脂型聚合物固化材料密封的继电器，无论负载条件如何，接触电阻都没有恶化。另一方面，用含硅聚合物固化材料密封的继电器接触电阻特性的劣化和波动更为明显，并且负载条件对其行为有一定的影响。

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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2011 IEEE 57th Holm Conference on Electrical Contacts (Holm)

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