铜触点上Cu/sub 2/S腐蚀膜的导电性能

Proceedings of the Thirty Fifth Meeting of the IEEE Holm Conference on Electrical Contacts Pub Date : 1989-09-18 DOI:10.1109/HOLM.1989.77934

N. Ben Jemaa, J. Queffelec, D. Travers

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引用次数: 6

摘要

值得注意的是，在污染的大气中，接触电阻的增加通常归因于腐蚀膜的生长。然而，通常的测量不能揭示在接触点发生的基本传导现象。本文报道了Cu/sub 2/S薄膜在受控气氛下在铜样品上生长的430 ~ 4500 AA厚度的导电性能。这项研究是基于使用全自动装置对接触点的电流-电压特性进行分析，从而避免电气或机械故障。结果表明，该接触点具有由二极管、热电电压和接触电阻等串行元件组成的等效电路。由Cu/sub 2/S(半导体)和铜(金属)之间的结产生的二极管参数被确定。主要结果是反向电流密度与薄膜厚度之间的关系，可以解释和预测薄膜的击穿。此外，动态接触电阻取决于电流水平和方向;它的极限(静电电阻)是通过较高的电流水平值或金闪膜来达到的。

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Electrical conduction through Cu/sub 2/S corrosion films on copper contacts

It is noted that contact resistance increase in a contaminated atmosphere is generally attributed to corrosion film growth. However, its usual measurement does not reveal the basic conduction phenomena which occur at the contact point. Results on electrical conduction through Cu/sub 2/S films from 430 to 4500 AA thick grown on copper samples in a controlled atmosphere were reported. The study is based on the analysis of the current-voltage characteristics of the contact point using a fully automatic device which avoids electrical or mechanical breakdowns. It is shown that the contact point has an equivalent circuit composed of serial elements: diode, thermoelectric voltage, and contact resistance. The diode parameters resulting from the junction between Cu/sub 2/S (semiconductor) and copper (metal) are determined. The main result is a relationship between reverse current density and the thickness of the film that can explain and predict film breakdown. Furthermore, dynamic contact resistance is shown to depend on current level and direction; its limit (static resistance) is reached with a higher current level value or with gold-flashed film.<>

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Proceedings of the Thirty Fifth Meeting of the IEEE Holm Conference on Electrical Contacts

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