On the discharge phenomena in the 10%SF/sub 6/-90%N/sub 2/ gas mixture under fast oscillating impulse conditions

S. Stangherlin, G. Salge, F. Koenig
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引用次数: 1

Abstract

The discharge phenomena were investigated in a background uniform field (plate - needle to plate arrangement) varying the needle protrusion (length=3 to 5 mm; tip radius= 200 /spl mu/m), the gas pressure (300 and 500 kPa) as well as the gas mixture composition (100%SF/sub 6/, 10%SF/sub 6/-90%N/sub 2/, 100%N/sub 2/). A positive polarity, low damped, fast oscillating (1.2 MHz), high voltage impulse (up to 450 kV peak) was applied to stress the test gap. The V-t characteristics in the mixture (breakdown voltage vs. time to breakdown) is reported and then compared to both the same curve of pure gases and similar measures available in literature. The discharge mechanism in the mixture is described and compared to the pure gases through voltage (capacitive sensor), discharge current (Rogowski coil), emitted light (photo-multiplier tube) and pictures from an image converter operating in both streak and frame modes.
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10%SF/sub - 6/-90%N/sub - 2/气体混合物在快振荡脉冲条件下的放电现象
在背景均匀场(板-针-板排列)中研究了不同针突(长度=3 ~ 5mm;尖端半径= 200 /spl mu/m),气体压力(300和500 kPa)以及气体混合物成分(100%SF/sub 6/, 10%SF/sub 6/-90%N/sub 2/, 100%N/sub 2/)。正极性,低阻尼,快速振荡(1.2 MHz),高压脉冲(高达450 kV峰值)被应用于应力测试间隙。报告了混合物中的V-t特性(击穿电压与击穿时间),然后将其与纯气体的相同曲线和文献中可用的类似测量方法进行比较。通过电压(电容式传感器)、放电电流(Rogowski线圈)、发射光(光电倍增管)和图像转换器在条纹和帧模式下工作的图像,描述了混合物中的放电机制,并与纯气体进行了比较。
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