A gain calibration in the liquid including the effects of fresnel field and systematic uncertainty

2007 18th International Zurich Symposium on Electromagnetic Compatibility Pub Date : 2007-11-27 DOI:10.1109/EMCZUR.2007.4388216

Nozomu Ishii, Hiroki Shiga, Ken-ichi Sato, L. Hamada, Soichi Watanabe

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引用次数: 2

Abstract

One of calibration techniques for electric field probes used in the standardized SAR (Specific Absorption Rate) assessment is based on the Friis transmission formula in the far-field region for the conductive medium. In practice, it is difficult to measure power transmission between transmitting and receiving antennas in the far-field region for the liquid used in the SAR assessment because of its large attenuation. To overcome the difficulty, the authors extended the formula taking into account the Fresnel approximation. The extended formula is valid in the Fresnel region of the antennas for the conductive medium. In this paper, the far-field gain of the antennas can be estimated by not only using the extended formula but also considering systematic uncertainty of measuring power transmission. Adding the effect of the measurement uncertainties can make the resulting uncertainty of the gain small, because the measurement uncertainty of the power transmission largely depends on its level so that this behavior can not be ignored in the liquid.

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包括菲涅耳场和系统不确定度影响的液体增益校准

标准化SAR(比吸收率)评估中使用的电场探针的校准技术之一是基于导电介质远场区域的弗里斯传输公式。在实际应用中，对于用于SAR评估的液体，由于其衰减较大，难以测量远场区域发射天线和接收天线之间的功率传输。为了克服这个困难，作者在考虑菲涅耳近似的情况下对公式进行了扩展。对于导电介质，推广公式在天线的菲涅耳区是有效的。本文不仅利用推广公式，而且考虑了测量功率传输的系统不确定性，对天线的远场增益进行了估计。由于功率传输的测量不确定度在很大程度上取决于其电平，因此这种行为在液体中不可忽视，因此加入测量不确定度的影响可以使所得增益的不确定度较小。

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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2007 18th International Zurich Symposium on Electromagnetic Compatibility

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