通过外部吸除金属杂质来提高超高压MCT和IGBT器件栅极氧化物的完整性

Proceedings of the 6th International Symposium on Power Semiconductor Devices and Ics Pub Date : 1994-05-31 DOI:10.1109/ISPSD.1994.583725

E. Herr, H. Baltes, U. Thiemann, T. Stockmeier

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引用次数: 2

摘要

我们观察到，当MCT和IGBT器件以浮区(FZ)而非czochralski生长(CZ)硅为起始材料时，器件的栅极氧化物表现出较低的击穿场强。这是因为重金属污染物的沉淀行为不同。利用中子活化分析(NAA)，我们确定了Fe和Ni浓度水平会削弱FZ硅上BiMOS器件的栅氧化物。我们比较了各种外部沾污技术对栅极氧化物完整性的影响。在晶片背面采用多晶硅层外部吸光和氩注入损伤，提高了FZ材料制备的BiMOS器件栅氧化物的完整性。

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Improving the gate oxide integrity of very high voltage MCT and IGBT devices by external gettering of metal impurities

We observed that gate oxides of MCT and IGBT devices exhibited lower breakdown field strengths when the devices were fabricated on float-zone (FZ) instead of Czochralski-grown (CZ) silicon starting material. This is because of the different precipitation behavior of heavy metal contaminants. Using neutron activation analysis (NAA), we determined Fe and Ni concentration levels that weaken the gate oxides of BiMOS devices on FZ silicon. We compared the effect of various external gettering techniques on the gate oxide integrity. External gettering by polysilicon layers and by argon implantation damage were employed on the wafer back to improve the gate oxide integrity of BiMOS devices fabricated on FZ material.

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Proceedings of the 6th International Symposium on Power Semiconductor Devices and Ics

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