影响聚对二甲苯F薄膜直流击穿强度的参数

R. Khazaka, M. Bechara, S. Diaham, M. Locatelli
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引用次数: 8

摘要

研究了若干实验参数(电极面积、厚度、温度和升压率)对聚(α,α, α′,α′-四氟对二甲苯)(一种氟化聚对二甲苯(PA-F))薄膜击穿强度的影响。在空气中对20个电容器结构进行了各种条件下的测量,并拟合了威布尔分布的两个参数(α和β)。在温度为25℃~ 350℃,电压上升速率为10 V/s ~ 100 V/s的条件下,研究了电极面积(0.28、4.5和18 mm2),薄膜厚度(1.4、5.0、9.8、21.5和49.4 μm)对最薄薄膜的影响。当厚度增加到5 μm时,介电强度随厚度的增加而增加,而厚度越高,介电强度越低。这些结果与聚对二甲苯薄膜的厚度依赖性结晶度有关。在最薄薄膜上测量的电极面积对PA-F介电强度的影响在25°C高介电击穿场值时对威布尔参数没有影响,而在低场下,随着电极面积的增加,β值会降低。这突出了在测试结构中随机分布缺陷的存在。在25°C和350°C之间,研究了两种不同厚度(1.4 μm和5 μm)的介电强度的温度依赖关系,结果表明两种情况下介电强度都呈负温度依赖关系。最后,在0.07 ~ 0.7 MV/cm范围内增加外加电场的速率,对器件的性能产生影响。在25°C和300°C下研究了薄膜上的s,并没有显示出对威布尔参数的显著影响。
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Parameters affecting the DC breakdown strength of parylene F thin films
The effect of some experimental parameters (electrode area, thickness, temperature and voltage rising rate) on the breakdown strength of films of poly(α,α, α',α'-tetrafluoro-p-xylylene), a fluorinated parylene (PA-F), has been studied. The measurements were performed in air on 20 capacitor structures for each condition and the two parameters of the Weibull distribution (α and β) were fitted to the data. The influences of electrode area (0.28, 4.5 and 18 mm2), film thickness (1.4, 5.0, 9.8, 21.5 and 49.4 μm), for a temperature range from 25°C to 350°C and voltage rising rate between 10 V/s and 100 V/s, have been investigated and discussed for the thinnest films. The thickness increases up to 5 μm leads to an increase in the dielectric strength with increasing the thickness whereas a continuous decrease is observed for higher thicknesses. Those results are correlated to the thickness dependent crystallinity of parylene films. The effect of electrode area, measured on the thinnest films, on the PA-F dielectric strength does not impact the Weibull parameters at 25 °C for high dielectric breakdown field values, whereas it induces a decrease in the β values at low field with increasing electrode area. This highlights the presence of randomly distributed defects in the tested structures. The temperature dependence of the dielectric strength was also investigated between 25°C and 350°C for two different thicknesses (1.4 and 5 μm) and shows negative temperature dependence in both cases. Finally, the effect of the rate of the applied field rising between 0.07 and 0.7 MV/cm.s on the thin films was studied at 25°C and 300°C and does not show any remarkable effect on the Weibull parameters.
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