引起放电的外加电压与镀铑触点簧片开关载流子移动之间的关系

K. Hinohara, K. Nakamura, T. Kobayashi, T. Miyata
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引用次数: 0

摘要

簧片开关因其优异的可靠性和紧凑性已被广泛应用于各种应用领域。电子技术的进步导致对簧片开关增强功能的需求不断增加。其中一个需求是触点之间的高击穿电压。为了提高击穿电压,对放电现象进行基础研究是非常重要的。研究了镀铑触点簧片开关引起放电的外加电压与载流子运动的关系。利用俄歇电子能谱(AES)分析了不同外加电压对放电前后接触面的影响。放电后,阴极表面的氮和阳极表面的氧含量分别增加。此外,我们发现通过提高施加电压来引起放电可以加速这种增加。相反,放电后阴极表面的氧含量减少。我们发现,通过提高施加的电压来引起放电,这种下降也会加速。结果表明,氮离子和氧阴离子作为载流子在放电过程中移动,并通过增加施加电压引起放电而加速这种移动。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Relationship between applied voltage to cause discharge and movement of carriers for rhodium-plated contact reed switches
Reed switches have been used in various fields of application due to excellent reliability and compactness. The progress of electronics is leading to increasing demand for enhanced functions of the reed switch. One such demand is high breakdown voltage between contacts. To achieve the improvement in breakdown voltage, fundamental research on discharge phenomena is very important. We studied the relationship between applied voltage to cause discharge and movement of carriers for rhodium-plated contact reed switches. Using Auger electron spectroscopy (AES), we analyzed contact surfaces before and after discharge caused by various applied voltages. Amount of nitrogen and amount of oxygen were found to increase on the cathode surface and on the anode surface, respectively, after discharge. Furthermore, we found that this increase was accelerated by enhancing applied voltage to cause discharge. On the contrary, amount of oxygen was found to decrease on the cathode surface after discharge. We found that this decrease was also accelerated by enhancing applied voltage to cause discharge. These results revealed that the nitrogen cation and oxygen anion moved as carriers through discharge and that this movement was accelerated by increasing applied voltage to cause discharge.
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