用于无线生物医学应用的方向不敏感多天线读取器。

Nilan Udayanga, Yubin Lin, Manuel Monge
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引用次数: 0

摘要

本文提出了一种多天线外部读取器系统,该系统可实现与植入式医疗设备(imd)的方向不敏感通信,用于无线生物医学应用。该系统由六个环形天线组成的圆形阵列组成。通过分析环形天线的近场磁场变化来确定天线的位置和方向。首先利用HFSS电磁仿真软件对系统进行了仿真。我们的仿真表明,对于植入天线的任何给定方向,所提出的带有六个天线的外部读取器的接收功率仅变化约5 dB,与单个外部天线的20-35 dB变化相比,这是非常显著的。在这里,我们选择在IMD之间提供最大耦合的天线来接收/发射信号。然后使用定制设计的pcb实现了所提出的多天线外部读取器的原型,这些pcb连接环路天线、收发器ic和商用电路组件。一个定制的PCB与小型化的环路天线被用来模拟植入式设备。根据测量结果,当小型化天线相对于x轴旋转时,外部读写器的接收功率仅变化约3db。这些测量结果与模拟阅读器显示出良好的一致性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Orientation-Insensitive Multi-Antenna Reader for Wireless Biomedical Applications.

Orientation-Insensitive Multi-Antenna Reader for Wireless Biomedical Applications.

Orientation-Insensitive Multi-Antenna Reader for Wireless Biomedical Applications.

This paper presents a multi-antenna external reader system that enables orientation insensitive communication with implantable medical devices (IMDs) for wireless biomedical applications. The proposed system consists of a circular array with six loop antennas. The antenna placement and orientations are determined by analyzing the near-field magnetic field variations of the loop antenna. The proposed system is first simulated using HFSS electromagnetic simulation software. Our simulations show that the received power at the proposed external reader with six antennas only varies about 5 dB for any given orientation of the implanted antenna, which is highly significant compared to the 20-35 dB variation with a single external antenna. Here, we select the antenna which provides the largest coupling between the IMD to receive/transmit signals. A prototype of the proposed multi-antenna external reader is then implemented using custom-designed PCBs that interconnect loop antennas, transceiver ICs, and commercially-available circuit components. A custom PCB with a miniaturized loop antenna is used to emulate an implantable device. Based on measurement results, the received power in the external reader only varies about 3 dB when the miniaturized antenna rotates with respect to the x-axis. These measurements show good agreement with the simulated reader.

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