交流电容器失效机理

Proceedings: Electrical Insulation Conference and Electrical Manufacturing and Coil Winding Conference (Cat. No.99CH37035) Pub Date : 1999-10-26 DOI:10.1109/EEIC.1999.826186

W. Dunbar, D. Schweickart, J. Horwath

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引用次数: 1

摘要

具有圆柱形馈通几何形状的电容器通常用于保护敏感的电子设备免受外来电力线瞬变和传导电磁干扰。重要的是，这种电容器在承受适度温度变化时具有高可靠性，长寿命和稳定的电气参数。为了确定工频额定电容器反复出现故障的原因，对300伏交流额定电容器在高温下进行了一系列测试。许多单个单元被解剖以确定与老化相关的失效机制。在研究开始时，假定大多数电容器将在已知存在最大场应力的箔边缘处显示故障。结果表明，正如预期的那样，在边缘处发生了一些故障。大多数故障发生在电介质的中心部分。在高温下，介质系统中有气体演化的迹象，如低的局部放电起始电压所示。此外，几乎所有的故障都发生在线圈绕组的开始或在构成电介质最后匝数的箔端。给出了中心区域介质失效的假设。此外，一些未失效的电容器被展开，以确定是否存在预失效机制。讨论了这些非失效电容器中类似的早期失效机制的迹象。

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AC capacitor failure mechanisms

Capacitors with a cylindrical feedthrough geometry are often used to protect sensitive electronic equipment from extraneous power line transients and conducted electromagnetic interference. It is important that such capacitors have high reliability, long life and stable electrical parameters when subjected to moderate temperature changes. In an effort to determine the reasons behind recurring failures in power frequency rated capacitors, a series of tests was conducted on 300 volt AC rated capacitors at elevated temperatures. Many of the individual units were dissected to determine aging related failure mechanisms. At the beginning of the study it was assumed that most of the capacitors would show failures at the foil edges where maximum field stress is known to exist. The findings indicated that a few failures occurred at the edges as anticipated. The majority of failures occurred in the central portion of the dielectric. There was evidence of gas evolution in the dielectric system at elevated temperatures, as indicated by low partial discharge initiation voltage. In addition, practically all the failures occurred either at the start of the coil winding or at the foil end making up the final turns of the dielectric. The assumptions for dielectric failures in the central regions are given. Furthermore, a few nonfailed capacitors were unwound to determine the existence of prefailure mechanisms. Indications of similar incipient failure mechanisms in these nonfailed capacitors are discussed.

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Proceedings: Electrical Insulation Conference and Electrical Manufacturing and Coil Winding Conference (Cat. No.99CH37035)

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