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Physical models for 2.4 mm and 3.5 mm coaxial VNA calibration kits developed within the NIST microwave uncertainty framework

机译：在NIST微波不确定度框架内开发的2.4 mm和3.5 mm同轴VNA校准套件的物理模型

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We developed physical models of commercially-available 2.4 mm and 3.5 mm coaxial calibration kits for vector network analyzers. These models support multiline thru-reflect-line (TRL) and open-short-load-thru (OSLT) calibrations, and include error mechanisms in each of the standards' constituent parameters that can be utilized in the NIST Microwave Uncertainty Framework to propagate uncertainties. For both connector sizes, we calibrated a network analyzer using the two calibration methods, and compared measurements and uncertainties made on a number of verification devices. In both cases, we showed that the two calibrations agree to within their respective uncertainties.

机译：我们开发了用于矢量网络分析仪的商用2.4毫米和3.5毫米同轴校准套件的物理模型。这些模型支持多线直通反射线（TRL）和开放式短载荷直通（OSLT）校准，并且在每个标准组成参数中均包含误差机制，可在NIST微波不确定度框架中利用该误差机制来传播不确定性。对于两种连接器尺寸，我们都使用两种校准方法对网络分析仪进行了校准，并比较了在许多验证设备上进行的测量和不确定性。在这两种情况下，我们都表明两种校准在各自的不确定性范围内是一致的。

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《ARFTG Microwave Measurement Conference》|2015年|1-7|共7页
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Jargon Jeffrey /A/.; Chihyun Cho; Williams Dylan F.; Hale Paul D.;
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calibration; coaxial; physical models; uncertainty; vector network analyzer; verification;

机译：校准;同轴;物理模型;不确定度;矢量网络分析仪;验证;

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专利

1. An Analysis for 2.4mm-2.4mm RF Connector Insertion Loss Measure From 45MHz Until 50GHz by Using Electronic Calibration Module and Mechanical Calibration kits in a Network Analyzer [J] . Ming hui Tan1, Ahmad Yusairi Bani Hashim2, Mohd Rizal Salleh2 MATEC Web of Conferences . 2016,第2016期

机译：使用网络分析仪中的电子校准模块和机械校准套件分析从45MHz到50GHz的2.4mm-2.4mm RF连接器插入损耗的测量结果
2. An Analysis for 2.4mm-2.4mm RF Connector Insertion Loss Measure From 45MHz Until 50GHz by Using Electronic Calibration Module and Mechanical Calibration kits in a Network Analyzer [J] . Ming hui Tan1, Ahmad Yusairi Bani Hashim2, Mohd Rizal Salleh2 MATEC Web of Conferences . 2016,第2016期

机译：使用网络分析仪中的电子校准模块和机械校准套件分析从45MHz到50GHz的2.4mm-2.4mm RF连接器插入损耗的测量结果
3. Erratum to “Characterization of a 1 mm (DC to 110 GHz) Calibration Kit for VNA” [J] . Chihyun Cho, Jin-Seob Kang, Joo-Gwang Lee, Journal of the Korean Institute of Electromagnetic Engineering and Science . 2021,第2期

机译：错误“为VNA的1 mm（DC至110 GHz）校准套件的表征”
4. Physical Models for 2.4 mm and 3.5 mm Coaxial VNA Calibration Kits Developed within the NIST Microwave Uncertainty Framework [C] . Jeffrey A. Jargon, Chihyun Cho, Dylan F. Williams, ARFTG Microwave Measurement Conference . 2015

机译：在NIST微波不确定框架内开发的2.4 mm和3.5mm同轴VNA校准套件的物理模型
5. Uncertainty quantification and calibration of physical models [D] . He, Xian. 2015

机译：物理模型的不确定度量化和校准
6. Comparison Between the NIST and the KEBS for the Determination of Air Kerma Calibration Coefficients for Narrow X-Ray Spectra and 137Cs Gamma-Ray Beams [O] . Michelle O’Brien, Ronaldo Minniti, Stanslaus Alwyn Masinza 2010

机译：NIST和KEBS在确定窄X射线光谱和137Cs伽马射线束的空气比释定标系数方面的比较
7. Physical models for 2.4 mm and 3.5 mm coaxial VNA calibration kits developed within the NIST microwave uncertainty framework [O] . Jeffrey A. Jargon, Chihyun Cho, Dylan F. Williams, 2015

机译：在NIST微波不确定框架内开发的2.4 mm和3.5mm同轴VNA校准套件的物理模型

Physical models for 2.4 mm and 3.5 mm coaxial VNA calibration kits developed within the NIST microwave uncertainty framework

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