Improved Uncertainty for the Noise Source based on the Adapter Removal Methods

56th ARFTG Conference Digest Pub Date : 2000-11-01 DOI:10.1109/ARFTG.2000.327442

Y. Lee, Norm Royce

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引用次数: 1

Abstract

Noise is the fundamental to our understanding communication. For the last ten years and with the emerging of the wireless communication industry, the demand of making high accurate noise generator measurements has increased dramatically. The increased accuracy specification of the Noise Figure Analyzers is based in part on better calibrations of the Noise Source. Our primary noise source standards were calibrated by NIST in APC-7, X-band, P-band, K-band, R-band, and Q-band. Calibrated adapters are used on the NIST calibrated noise sources to characterize the system for the connector option of the noise source being used. The uncertainty of these adapter calibrations degrades the reported uncertainty. The old method would measure pairs of adapters (P-band to Type-N male & Type-N female to P-band) and split the loss of the pair as a best guess of each adapter loss. An increase in the uncertainty budget was made. The new method will require the testing of 3 different adapters. Each adapter is paired back-to-back with the two others and a measurement is made. This results in 3 measurements, 3 equations, and 3 unknowns, which can be solved for each adapter¿s transmission loss. No assumption about loss split is make.

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基于适配器去除方法的噪声源不确定性改进

噪音是我们理解交流的基础。近十年来，随着无线通信行业的兴起，对噪声发生器进行高精度测量的需求急剧增加。增加的精度规格的噪声图分析仪部分是基于更好的校准噪声源。我们的主要噪声源标准由NIST在APC-7, x波段，p波段，k波段，r波段和q波段进行校准。在NIST校准的噪声源上使用校准适配器，以表征正在使用的噪声源的连接器选项。这些适配器校准的不确定性降低了报告的不确定性。旧的方法是测量适配器对(p -波段到n型雄性和n型雌性到p -波段)，并将这对适配器的损耗分割为每个适配器损耗的最佳猜测。增加了不确定性预算。新方法需要测试3种不同的适配器。每个适配器与其他两个适配器背靠背配对，并进行测量。这导致3个测量值，3个方程和3个未知数，可以解决每个适配器的传输损耗。没有关于损失分摊的假设。

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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56th ARFTG Conference Digest

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