基于0.18 $\mu$ m CMOS的异步心电监测自主无线传感器节点

IF 3.8 2区医学 Q2 ENGINEERING, BIOMEDICAL IEEE Transactions on Biomedical Circuits and Systems Pub Date : 2016-01-22 DOI:10.1109/TBCAS.2015.2495272

A. Mansano, Yongjia Li, S. Bagga, W. Serdijn

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引用次数: 34

摘要

介绍了一种用于近场通信的13.56 MHz/402 MHz异步心电监测自主无线传感器节点的设计。传感器节点由射频能量采集器(RFEH)、电源管理单元、心电读出器、数据编码器和射频后向散射发射器组成。能量采集器为系统提供1.25 V的电压，在13.56 MHz的频率下，从-13 dBm射频源提供19%的功率转换效率。电源管理单元调节RFEH的输出电压，为VECG = 0.95 V的心电读出和VDE = 0.65 V的数据编码器供电。心电读出包括一个模拟前端(低噪声放大器和可编程电压电流转换器)和一个8位分辨率的异步电平交叉ADC。ADC输出由脉冲发生器编码，脉冲发生器驱动402兆赫的后向散射发射机。当数据速率为90kb /s，心率为70bpm时，传感器节点电路的总功耗为9.7 μW。该芯片采用0.18 μm CMOS工艺设计，与以往的产品相比，具有更高的射频输入功率灵敏度和更低的功耗。

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An Autonomous Wireless Sensor Node With Asynchronous ECG Monitoring in 0.18 $\mu$ m CMOS

The design of a 13.56 MHz/402 MHz autonomous wireless sensor node with asynchronous ECG monitoring for near field communication is presented. The sensor node consists of an RF energy harvester (RFEH), a power management unit, an ECG readout, a data encoder and an RF backscattering transmitter. The energy harvester supplies the system with 1.25 V and offers a power conversion efficiency of 19% from a -13 dBm RF source at 13.56 MHz. The power management unit regulates the output voltage of the RFEH to supply the ECG readout with VECG = 0.95 V and the data encoder with VDE = 0.65 V . The ECG readout comprises an analog front-end (low noise amplifier and programmable voltage to current converter) and an asynchronous level crossing ADC with 8 bits resolution. The ADC output is encoded by a pulse generator that drives a backscattering transmitter at 402 MHz. The total power consumption of the sensor node circuitry is 9.7 μW for a data rate of 90 kb/s and a heart rate of 70 bpm. The chip has been designed in a 0.18 μm CMOS process and shows superior RF input power sensitivity and lower power consumption when compared to previous works.

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来源期刊

IEEE Transactions on Biomedical Circuits and Systems 工程技术-工程：电子与电气

CiteScore

10.00

自引率

13.70%

发文量

174

审稿时长

3 months

期刊介绍： The IEEE Transactions on Biomedical Circuits and Systems addresses areas at the crossroads of Circuits and Systems and Life Sciences. The main emphasis is on microelectronic issues in a wide range of applications found in life sciences, physical sciences and engineering. The primary goal of the journal is to bridge the unique scientific and technical activities of the Circuits and Systems Society to a wide variety of related areas such as: • Bioelectronics • Implantable and wearable electronics like cochlear and retinal prosthesis, motor control, etc. • Biotechnology sensor circuits, integrated systems, and networks • Micropower imaging technology • BioMEMS • Lab-on-chip Bio-nanotechnology • Organic Semiconductors • Biomedical Engineering • Genomics and Proteomics • Neuromorphic Engineering • Smart sensors • Low power micro- and nanoelectronics • Mixed-mode system-on-chip • Wireless technology • Gene circuits and molecular circuits • System biology • Brain science and engineering: such as neuro-informatics, neural prosthesis, cognitive engineering, brain computer interface • Healthcare: information technology for biomedical, epidemiology, and other related life science applications. General, theoretical, and application-oriented papers in the abovementioned technical areas with a Circuits and Systems perspective are encouraged to publish in TBioCAS. Of special interest are biomedical-oriented papers with a Circuits and Systems angle.