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首页> 外文期刊>IEEE transactions on biomedical circuits and systems >A Low-Power 13.56 MHz RF Front-End Circuit for Implantable Biomedical Devices
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A Low-Power 13.56 MHz RF Front-End Circuit for Implantable Biomedical Devices

机译:用于植入式生物医学设备的低功耗13.56 MHz射频前端电路

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摘要

A low-power fully-integrated CMOS RF front-end circuit for a passive 13.56 MHz biomedical implant is presented. A 13.56 MHz binary phase shift keying (BPSK) signal is received by an internal coil. This front-end circuit is composed of a full-wave bridge rectifier, a linear regulator, a BPSK demodulator, and a clock/data recovery (CDR). A full-wave bridge rectifier converts the carrier waveform with the BPSK signal to an unregulated DC voltage. A linear regulator stabilizes the unregulated DC voltage to 1.8 V that serves as the DC source for the implant. A BPSK demodulator detects the incoming BPSK signal from the internal coil and translates the demodulated data to the CDR which can successfully recover the clock and data for the system controller. This chip with a core area of 0.45 ${rm mm}^{2}$ has been fabricated in a TSMC 0.18 $mu {rm m} $ 1P6M CMOS technology. The total power consumed is only 632 $mu {rm W}$.
机译:提出了一种用于无源13.56 MHz生物医学植入物的低功率全集成CMOS RF前端电路。内部线圈接收13.56 MHz二进制相移键控(BPSK)信号。该前端电路由全波桥式整流器,线性稳压器,BPSK解调器和时钟/数据恢复(CDR)组成。全波桥式整流器将带有BPSK信号的载波波形转换为未稳压的直流电压。线性稳压器将未稳压的直流电压稳定在1.8 V,用作植入物的直流电源。 BPSK解调器检测到来自内部线圈的BPSK信号,并将解调后的数据转换为CDR,CDR可以成功恢复系统控制器的时钟和数据。该芯片的核心面积为0.45 $ {rm mm} ^ {2} $ 已在TSMC 0.18中制造, Formula Formulatype =“ inline”> $ mu {rm m} $ 1P6M CMOS技术。消耗的总功率仅为632 $ mu {rm W} $

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