提高了跟踪基于生物有机体的便携式设备的灵敏度

2015 SBMO/IEEE MTT-S International Microwave and Optoelectronics Conference (IMOC) Pub Date : 2015-11-01 DOI:10.1109/IMOC.2015.7369219

Raymundo de Amorim, G. Fontgalland, Romulo R. Maranhao do Valle

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引用次数: 2

摘要

本文对一种小型化的非对称平面天线阵进行了构建和分析。为了减少元件之间的耦合，改善阵列的阻抗匹配，采用了两种方法:将其中一个元件略微移位和使用铁氧体基变压器。在设计中，通过将各元件彼此封闭放置(≪λ /2)实现了小型化。这个概念是基于一些昆虫的能力，这些昆虫的物理尺寸与通信信号的波长相比非常小，可以探测到同一物种的其他昆虫。这是苍蝇Ormia ochracea的情况，它有很高的能力来控制接收信号的相位差。在实际应用中，在Rogers TMM6基板上构建了平面领结天线的原型，工作频率约为300 MHz。测量结果显示，反射系数低于-10 dB，耦合系数在-20 dB左右，在期望范围内。采用矢量网络分析仪(R&S ZVB20)进行。

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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Increased sensivity of tracking of portable devices based on biological organisms

In this study a miniaturized asymmetric planar antenna array was built and analyzed. In order to reduce the coupling between the elements and to improve the impedance matching of the array two techniques were employed: slightly shifted one of the elements and use a ferrite based transformer. In the design, the miniaturization is achieved by placing the elements of the arrangement closed to each other (≪lambda/2). The concept is based on the ability of some insects, which have very small physical dimensions compared to the wavelength of the communication signal, to detect other insects of the same species. This is the case of the fly Ormia ochracea that has high ability to control the phase difference of the received signals. For practical applications, a prototype of a planar Bow-tie antenna was built on Rogers TMM6 substrate to operate around 300 MHz. The measures show reflection coefficient below -10 dB and coupling coefficients around -20 dB, within the desired range. It was carried out using the vector network analyzer (R&S ZVB20).

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2015 SBMO/IEEE MTT-S International Microwave and Optoelectronics Conference (IMOC)

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