基于矢量网络分析仪的功率传感器标定方法应用分析

Q3 Physics and Astronomy

Instruments Pub Date : 2023-07-19 DOI:10.3390/instruments7030021

Erkan Danaci, Yusuf Bayrak, Anil Çetinkaya, Murat Arslan, H. Sakarya, A. K. Doğan, Gulsun Tunay

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引用次数: 0

摘要

射频（RF）功率传感器校准是射频和微波计量中的重要测量之一。为了可靠准确地校准功率传感器，有各种方法，如替代法、直接比较传递法（DCTM）和基于矢量网络分析仪（VNA）的校准方法（VBCM）。VBCM是一种源自DCTM的方法。这是优选的方法，因为VNA具有更好的测量能力并且对测量设备的连接要求更少。在本研究中，通过考虑连接错误、测量错误、计算错误和控制软件编码问题，给出了VBCM的里程碑和潜在的应用错误。在用VBCM进行功率传感器校准测量的最后，本文还介绍了基于GUM贝叶斯方法的模型函数组件和不确定度计算实例。此外，本研究还讨论了VBCM与以前的方法相比的优点和缺点。

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Analysis of Vector-Network-Analyzer-Based Power Sensor Calibration Method Application

Radio Frequency (RF) power sensor calibration is one of the essential measurements in RF and microwave metrology. For a reliable and accurate power sensor calibration, there are various methods, such as the substitution method, the direct comparison transfer method (DCTM), and the vector network analyzer (VNA)-based calibration method (VBCM). The VBCM is a method that is derived from the DCTM. It is a preferred method since the VNA has a better measurement capability and has fewer connection requirements for measurement devices. In this study, the milestones and potential application errors of the VBCM are given by considering the connection mistakes, measurement faults, calculation errors, and control software coding problems. At the end of the power sensor calibration measurements with the VBCM, the model function components and the uncertainty calculation examples according to the GUM Bayesian method are also presented in this study. In addition, the advantages and disadvantages of the VBCM compared to the former methods are discussed in this study.

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来源期刊

Instruments Physics and Astronomy-Instrumentation

CiteScore

2.60

自引率

0.00%

发文量

审稿时长

11 weeks