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Wireless Performance of a Fully Passive Neurorecording Microsystem Embedded in Dispersive Human Head Phantom

机译：嵌入在人头幻影中的全被动神经记录微系统的无线性能

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This paper reports the wireless performance of a biocompatible fully passive microsystem implanted in phantom media simulating the dispersive dielectric properties of the human head, for potential application in recording cortical neuropotentials. Fully passive wireless operation is achieved by means of backscattering electromagnetic (EM) waves carrying 3rd order harmonic mixing products (2f(sub 0) plus or minus f(sub m)=4.4-4.9 GHZ) containing targeted neuropotential signals (fm approximately equal to 1-1000 Hz). The microsystem is enclosed in 4 micrometer thick parylene-C for biocompatibility and has a footprint of 4 millimeters x 12 millimeters x 500 micrometers. Preliminary testing of the microsystem implanted in the lossy biological simulating media results in signal-to-noise ratio's (SNR) near 22 (SNR approximately equal to 38 in free space) for millivolt level neuropotentials, demonstrating the potential for fully passive wireless microsystems in implantable medical applications.

机译：本文报道了植入人体模型中的生物相容性完全无源微系统的无线性能，该系统模拟人头的分散介电特性，可用于记录皮质神经电势。通过携带包含目标神经电势信号（fm约等于）的三阶谐波混合乘积（2f（sub 0）加上或减去f（sub m）= 4.4-4.9 GHZ）的反向散射电磁（EM）波，可以实现完全无源无线操作1-1000 Hz）。该微系统被封闭在4微米厚的Parylene-C中，以实现生物相容性，占地面积为4毫米x 12毫米x 500微米。对植入有损生物模拟介质中的微系统进行的初步测试导致毫伏级神经电势的信噪比（SNR）接近22（自由空间中的SNR大约等于38），这证明了可植入的完全无源无线微系统的潜力医疗应用。

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Miranda Felix A.; Schwerdt Helen N.; Chae Junseok;
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1. A Fully Passive Wireless Backscattering Neurorecording Microsystem Embedded in Dispersive Human-Head Phantom Medium [J] . Schwerdt H. N. Electron Device Letters, IEEE . 2012,第6期

机译：嵌入人头幻像介质中的全被动无线反向散射神经记录微系统
2. Analysis of Electromagnetic Fields Induced in Operation of a Wireless Fully Passive Backscattering Neurorecording Microsystem in Emulated Human Head Tissue [J] . Schwerdt H.N., Miranda F.A., Chae J. Microwave Theory and Techniques, IEEE Transactions on . 2013,第5期

机译：无线全被动反向散射神经记录微系统在模拟人头组织中的操作中感应的电磁场分析
3. Two-Channel Passive Data Telemetry With Remote RF Powering for High-Performance Wireless and Batteryless Strain Sensing Microsystem Applications [J] . Sensors Journal, IEEE . 2010,第8期

机译：具有远程RF供电的两通道无源数据遥测，适用于高性能无线和无电池应变传感微系统应用
4. Performance analysis of a modified implantable PIFA operates at MICS band for human head phantom model [C] . Sadia Sultana, M Mohiuddin Miran, Sk Md Asif Uddin, International Conference on Electrical Information and Communication Technology . 2017

机译：修改后的可植入PIFA在MICS频段上运行的人体头部模型的性能分析
5. Design techniques for passive wireless microsystems. [D] . Lai, Xiongliang. 2013

机译：无源无线微系统的设计技术。
6. A Fully-Passive Wireless Microsystem for Recording of Neuropotentials using RF Backscattering Methods [O] . Helen N. Schwerdt, Wencheng Xu, Sameer Shekhar, -1

机译：用于使用RF反向散射方法录制神经功能的完全被动无线微系统
7. Design techniques for passive wireless microsystems [O] . Xiongliang Lai 2021

机译：无源无线微系统的设计技术
8. Wireless Performance of a Fully Passive Neurorecording Microsystem Embedded in Dispersive Human Head Phantom. [R] . Schwerdt, H. N., Chae, J., Miranda, F. A. 2012

机译：嵌入分散人体模型的完全被动神经记录微系统的无线性能。

Wireless Performance of a Fully Passive Neurorecording Microsystem Embedded in Dispersive Human Head Phantom

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