Wireless Power and DATA Transfer to Deeply-Embedded Biosensors in Human Body

International Journal of Emerging Technology and Advanced Engineering Pub Date : 2022-12-13 DOI:10.46338/ijetae1222_17

Abdulkareem Mokif Obais

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Abstract

The process of transmitting power from one node to another via physical links without using wires is denoted as wireless power transfer (WPT). WPT plays an important role in medical applications for it offers the possibility of avoiding surgical operations during the replacement of embedded batteries in human body. In this paper, a WPT system for transferring power and DATA to deeply embedded biosensors is proposed. The system is designed such that it is capable of powering a biosensor simultaneously with DATA transmission from a transmitting coil located outside the human body at a distance of 100mm from the biosensor node. The simulation results have revealed the reception of a regulated DC voltage at the biosensor node of 1.2V, which is sufficient to charge a rechargeable embedded battery with an average DC current of 1.1mA. The results also reveal that the proposed system has succeeded in the extraction of the transmitted DATA at the biosensor side within a time of 30µs. The transmitter of the proposed WPT system is driven by a Class-E power source, which has accomplished a drain efficiency of 72% at an overall operating power of 6W. The proposed system is designed and verified on PSpice.

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人体嵌入式生物传感器的无线供电和数据传输

将电能通过物理链路从一个节点传输到另一个节点而不使用电线的过程称为无线电能传输(WPT)。WPT在医疗应用中发挥着重要作用，因为它提供了在更换人体嵌入式电池时避免外科手术的可能性。本文提出了一种用于向深度嵌入式生物传感器传输功率和数据的WPT系统。该系统的设计使其能够同时为生物传感器供电，并从距离生物传感器节点100毫米的人体外的传输线圈传输数据。仿真结果表明，生物传感器节点接收到1.2V的稳压直流电压，足以为平均直流电流为1.1mA的可充电嵌入式电池充电。结果还表明，该系统在30µs的时间内成功地提取了生物传感器侧传输的数据。所提出的WPT系统的发射机由e类电源驱动，在总工作功率为6W的情况下实现了72%的漏极效率。该系统在PSpice上进行了设计和验证。

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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International Journal of Emerging Technology and Advanced Engineering

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