Benjamin Allain;Nicolò Delmonte;Lorenzo Silvestri;Stefania Marconi;Gianluca Alaimo;Ferdinando Auricchio;Maurizio Bozzi
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引用次数: 0
摘要
在这项工作中,介绍了基于两个腔体之间耦合扰动的复合介电常数传感器的设计。耦合谐振器的频率响应自然会出现两个谐振峰,通过比较它们的频率和插入损耗即可获得读数。玻璃管用于盛放待测液体样品。所提出的布局可以利用紧凑的拓扑结构轻松获得差分读数。这降低了制造误差对读数精度的影响,因此在使用 3-D 打印元件时特别有用。为了展示这一想法,我们设计了一个在 X 波段工作的传感器,通过快速成型制造技术进行制造、组装和测量。原型使用不同比例的溶剂(丙酮和异丙醇)混合物进行测试。该组件的读数精度为:$\varepsilon _{r}$~6.7%,tan $\delta $~13.8%。
Exploiting the Coupling Variation of 3-D-Printed Cavity Filters for Complex Dielectric Permittivity Sensing
In this work, the design of a complex dielectric permittivity sensor based on the perturbation of the coupling between two cavity is presented. The frequency response of the coupled resonators naturally presents two resonant peaks, and the reading is obtained by comparing their frequency and their insertion loss. A glass pipe is used to hold the liquid sample to be measured. The proposed layout allows to easily obtain a differential reading using a compact topology. This lowers the effect of fabrication errors on the accuracy of the readings, making it particularly useful, for example, when employing 3-D-printed components. To demonstrate the idea, a sensor working in the X-band is designed, fabricated via additive manufacturing, assembled, and measured. The prototype is tested using the mixtures of solvents (acetone and isopropanol) at different ratios. The component results in a reading with precision within ~6.7% for
$\varepsilon _{r}$
and ~13.8% for tan
$\delta $
.
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