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A 100Mb/s Galvanically-Coupled Body-Channel-Communication Transceiver with 4.75pJ/b TX and 26.8 pJ/b RX for Bionic Arms

2019 Symposium on VLSI Circuits Pub Date : 2019-06-09 DOI:10.23919/VLSIC.2019.8778040
Yeseul Jeon, Chongsoo Jung, Song-I Cheon, Hyungjoo Cho, Ji-Hoon Suh, Hyuntak Jeon, Seok-Tae Koh, M. Je
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引用次数: 7

Abstract

A galvanically-coupled body-channel communication (GCBCC) transceiver (TRX) is proposed for bionic arms, offering robust communication and human-body safety. The GC-BCC mitigates the influence from the environmental changes and disturbances. A simple termination at the RX input widens the channel bandwidth (BW), enabling 100Mb/s communication. The implantable TX guarantees the user’s safety by employing a current-regulating channel driver, a charge-balancing scheme, and a biphasic waveform generated by bipolar RZ (BRZ) encoding. The TRX IC fabricated in 0.18 mm CMOS, achieves a low bit-error rate (BER) of 10-9 with excellent TX and RX energy efficiencies of 4.75pJ/b and 26.8pJ/b, respectively.
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用于仿生手臂的100Mb/s电偶体通道通信收发器,传输速率为4.75pJ/b,接收速率为26.8 pJ/b
提出了一种用于仿生手臂的电偶体通道通信(GCBCC)收发器(TRX),该收发器具有鲁棒性通信和人体安全性。GC-BCC减轻了环境变化和干扰的影响。在RX输入端一个简单的终端可以拓宽信道带宽(BW),实现100Mb/s的通信。可植入TX通过采用电流调节通道驱动器、电荷平衡方案和双极RZ (BRZ)编码产生的双相波形来保证用户的安全。在0.18 mm CMOS中制造的TRX IC实现了10-9的低误码率(BER), TX和RX的能量效率分别为4.75pJ/b和26.8pJ/b。
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 Symposium on VLSI Circuits
2019 Symposium on VLSI Circuits
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