RF instrument accuracy - Some effects of measurement uncertainty

Proceedings of 15th IEEE/CHMT International Electronic Manufacturing Technology Symposium Pub Date : 1993-10-04 DOI:10.1109/IEMT.1993.398227

D. Glajchen

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Abstract

When measuring the RF noise figure on-wafer on ultra low-noise GaAs microwave devices, the magnitude of the noise figures measured become comparable to the instrumentation accuracy. It becomes necessary to determine the discriminating capability of the instrumentation, and take this into account. For the GaAs device discussed, the instrumentation accuracy is determined by running a repeat measurement on a statistically large sample, and calculating the limits inside of which the measurement system is not capable of discriminating. These measurements are done on an RF autoprober, which allows the noise figure of each of the test devices to be characterized repetitively at multiple frequencies without operator intervention. The results and their implication with respect to conclusions that can be drawn when searching for process performance improvements which are comparable to the discriminating power of the instrumentation are discussed. Some of the alternate statistical techniques applied to attempt to discriminate these improvements are discussed.<>

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射频仪器精度。测量不确定度的一些影响

当在超低噪声GaAs微波器件上测量晶圆上的射频噪声系数时，测量到的噪声系数的大小可以与仪器精度相媲美。有必要确定仪器的识别能力，并考虑到这一点。对于所讨论的砷化镓器件，仪器精度是通过在统计大样本上运行重复测量来确定的，并计算测量系统无法区分的范围。这些测量是在射频自动探针上完成的，它允许在多个频率下重复表征每个测试设备的噪声系数，而无需操作员干预。讨论了在寻找可与仪器的判别能力相媲美的过程性能改进时可以得出的结论的结果及其含义。本文还讨论了一些用于区分这些改进的替代统计技术。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of 15th IEEE/CHMT International Electronic Manufacturing Technology Symposium

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