Non-contact Pulse-based Radar with an Excited RF Pulse Generator for Vital-sign Application

2019 PhotonIcs & Electromagnetics Research Symposium - Spring (PIERS-Spring) Pub Date : 2019-06-01 DOI:10.1109/PIERS-Spring46901.2019.9017738

Wei-Hsien Chen, Chia-Hung Chang, C. Kuo, Chia-Chin Hsu

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Abstract

This paper presents a pulse-based investigation to generate a serial of sensing pulses for probing the reciprocal movements of heartbeat and chest, respectively. An excited self-contained RF pulse generator with digital assisted controller is used for pulse shaping and performing nanosecond sensing pulses. In addition, the generator is implemented by a common source field-controlled transistor and a contour circuit by micro-strip line. Hence, in this paper, probing pulses and receives the echoes from the investigated subject back and forth by the whole sensing radar based on the monostatic antenna system. The demodulator is utilized to perform the multiplication of the reference probing waves and the return echoes delayed by the time interval between the emitted signal and reflected waves back to the radar module. The following analog baseband processing circuits with 3-stage topology for further amplifying and filtering the received physiological information help to increase the overall signal-to-noise ratio (SNR). The measured results demonstrate that the radiated RF pulses and vital signs are expected.

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非接触式脉冲雷达与激励射频脉冲发生器的生命体征应用

本文提出了一种基于脉冲的研究，以产生一系列感应脉冲，分别探测心跳和胸部的相互运动。采用带数字辅助控制器的激励式自包含射频脉冲发生器进行脉冲整形和纳秒级传感脉冲。此外，该发生器由一个共源场控晶体管和一个微带线轮廓电路实现。因此，在本文中，基于单天线系统的整个传感雷达探测脉冲并来回接收来自被调查对象的回波。该解调器用于对参考探测波和被发射信号与反射波之间的时间间隔延迟的返回回波进行乘法。下面的模拟基带处理电路具有三级拓扑结构，用于进一步放大和滤波接收到的生理信息，有助于提高总体信噪比。测量结果表明，辐射的射频脉冲和生命体征符合预期。

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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2019 PhotonIcs & Electromagnetics Research Symposium - Spring (PIERS-Spring)

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