一种基于电光效应的体内通信近场传感收发器

M. Shinagawa, M. Fukumoto, K. Ochiai, H. Kyuragi
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引用次数: 169

摘要

本文介绍了一种以人体为传输介质的体内通信近场传感收发器。收发器的关键部件是用电光晶体和激光实现的电场传感器。该传感器具有极高的输入阻抗,适合检测人体产生的小而不稳定的电场。该收发器可实现IEEE 802.3半双工通信,速度为10mb /s,可通过人的身体,在双手之间约150厘米的工作范围内传输。当数据包大小为1070字节时,数据包错误率为0.04%。本文介绍了收发器的结构和性能,并给出了通信测试结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A near-field-sensing transceiver for intra-body communication based on the electro-optic effect
This paper describes a near-field-sensing transceiver for intrabody communication, in which the human body is the transmission medium. The key component of the transceiver is an electric-field sensor implemented with an electrooptic crystal and laser light. This sensor is suitable for detection of the small and unstable electric fields produced by the human body because it has extremely high input impedance. This transceiver enables IEEE 802.3 half-duplex communication of 10 Mb/s through a person's body in an operating range of about 150 cm between the hands. The packet error rate of 0.04% is obtained at packet size of 1070 octet. This paper explains the configuration and performance of the transceiver and presents results of a communication test.
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