Aiming for the cloud - a study of implanted battery-free temperature sensors using NFC

2016 International Symposium on Integrated Circuits (ISIC) Pub Date : 2016-12-01 DOI:10.1109/ISICIR.2016.7829739

J. Wikner, Johan Zötterman, A. Jalili, S. Farnebo

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引用次数: 7

Abstract

In this paper we present results based on measurements of implantable devices which can be powered externally and communicated with using the near-field communication (NFC) infrastructure. NFC allows us to not have a dedicated gateway and intra-body communication to bridge the data from sensors to phone. In our trials, we have used commercially available sub-components and mounted them on a thin plastic with printed interconnections and coated them for bio-compatibility. Devices were implanted in porcine models during one week. We could during this time measure the in-vivo body temperature through skin and subcutaneous tissue ranging in thickness from some mm to a couple of cm. The implanted sensor devices are mounted on thin, printed-electronics plastic sheets where the coils and conductors are designed with different types of materials. The choice of materials is done in order to offer a low-cost solution to read out data from in-vivo sensors. We compile measured data, practical results and guidelines, together with theoretical results referring to the design of the implanted inductive NFC coil as well as the energy transfer from one mobile device to another.

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瞄准云端——一项使用近距离通信技术的植入式无电池温度传感器的研究

在本文中，我们提出了基于植入式装置的测量结果，该装置可以外部供电并使用近场通信(NFC)基础设施进行通信。NFC允许我们不需要专门的网关和体内通信来连接从传感器到手机的数据。在我们的试验中，我们使用了市售的子组件，并将它们安装在带有印刷互连的薄塑料上，并为其涂上生物相容性涂层。这些装置在一周内被植入猪模型。在此期间，我们可以通过皮肤和皮下组织测量体内体温，厚度从几毫米到几厘米不等。植入的传感器装置被安装在薄的印刷电子塑料片上，其中线圈和导体是用不同类型的材料设计的。材料的选择是为了提供一种低成本的解决方案来读取体内传感器的数据。我们编制了测量数据、实际结果和指南，以及关于植入NFC电感线圈设计的理论结果，以及从一个移动设备到另一个移动设备的能量传递。

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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2016 International Symposium on Integrated Circuits (ISIC)

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