Bio-Patch Design and Implementation Based on a Low-Power System-on-Chip and Paper-Based Inkjet Printing Technology

Yang G.; Xie L.; Mäntysalo M.; Chen J.; Tenhunen H.; Zheng L.-R.

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Bio-Patch Design and Implementation Based on a Low-Power System-on-Chip and Paper-Based Inkjet Printing Technology

机译：基于低功耗片上系统和纸基喷墨打印技术的生物补丁设计与实现

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This paper presents the prototype implementation of a Bio-Patch using fully integrated low-power system-on-chip (SoC) sensor and paper-based inkjet printing technology. The SoC sensor is featured with programmable gain and bandwidth to accommodate a variety of biosignals. It is fabricated in a 0.18-μm standard CMOS technology, with a total power consumption of 20 μW from a 1.2 V supply. Both the electrodes and interconnections are implemented by printing conductive nanoparticle inks on a flexible photo paper substrate using inkjet printing technology. A Bio-Patch prototype is developed by integrating the SoC sensor, a soft battery, printed electrodes, and interconnections on a photo paper substrate. The Bio-Patch can work alone or operate along with other patches to establish a wired network for synchronous multiple-channel biosignals recording. The measurement results show that electrocardiogram and electromyogram are successfully measured in in vivo tests using the implemented Bio-Patch prototype.

机译：本文介绍了使用完全集成的低功耗片上系统（SoC）传感器和基于纸张的喷墨打印技术实现的生物补丁的原型实现。 SoC传感器具有可编程增益和带宽，可容纳各种生物信号。它采用0.18μm标准CMOS技术制造，1.2 V电源的总功耗为20μW。电极和互连都通过使用喷墨印刷技术在柔性相纸基底上印刷导电纳米颗粒油墨来实现。 Bio-Patch原型是通过将SoC传感器，软电池，印刷电极和互连纸集成在相纸基材上而开发的。生物补丁程序可以单独工作，也可以与其他补丁程序一起运行以建立有线网络，以进行同步多通道生物信号记录。测量结果表明，使用已实现的Bio-Patch原型在体内测试中成功测量了心电图和肌电图。

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来源
《Information Technology in Biomedicine, IEEE Transactions on》 |2012年第6期|p.1043-1050|共8页
作者
Yang G.; Xie L.; Mäntysalo M.; Chen J.; Tenhunen H.; Zheng L.-R.;
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作者单位

iPack Vinn Excellence Center, School of Information and Communication Technology, Royal Institute of Technology (KTH), Kista-Stockholm, Sweden;

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原文格式 PDF
正文语种 eng
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关键词
Bio-Patch; Bioelectric system-on-chip (SoC); electrocardiogram (ECG); electromyogram (EMG); paper-based inkjet printing technology; sensor IC;

机译：生物补丁;生物芯片系统（SoC）;心电图（ECG）;肌电图（EMG）;基于纸张的喷墨打印技术;传感器IC;

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Bio-Patch Design and Implementation Based on a Low-Power System-on-Chip and Paper-Based Inkjet Printing Technology

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