Signal processing system-on-chip design for biomedical applications

Song Ma; Liubin Li; Guan Wang; Yuhua Cheng

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Signal processing system-on-chip design for biomedical applications

机译：用于生物医学应用的信号处理片上系统设计

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In view of the high demand for low-power biomedical signal-processing schemes occupying very less on-chip areas, we propose a low-power highly integrated system-on-chip (SoC) design comprising a nonuniform biomedical sensing signal conditioning circuit and a 32-bit microprocessor. The proposed design is implemented using a 0.18 ?μm CMOS EFLASH process in an area of 4.2 mm2, and is applied in PPG, ECG and BP measurements. Experimental results show that our SoC design provides extremely good performances for sparse features of all three biomedical applications. The charge consumption is 25 mAh for three months, for an experimental board design including sleep current and junction leakage current.

机译：鉴于对占用很少芯片上区域的低功耗生物医学信号处理方案的需求很高，我们提出了一种低功耗，高度集成的片上系统（SoC）设计，该设计包括一个不均匀的生物医学传感信号调理电路和一个32位微处理器。拟议的设计使用面积为4.2 mm2的0.18μmCMOS EFLASH工艺实现，并应用于PPG，ECG和BP测量。实验结果表明，我们的SoC设计为所有三种生物医学应用的稀疏功能提供了非常好的性能。对于包括睡眠电流和结漏电流的实验板设计，三个月的电荷消耗为25 mAh。

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《IEICE Electronics Express》 |2017年第24期|共1页
作者
Song Ma; Liubin Li; Guan Wang; Yuhua Cheng;
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signal processingSoC designbiomedical applicationslow power;

机译：信号处理SoC设计生物医学应用低功耗;

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专利

1. Design and Synthesis of a Multiprocessor System-on-Chip Architecture for Real-Time Biomedical Signal Processing in Gamma Cameras [J] . Kai Sun, Meng Wang, Zili Shao, Journal of Signal Processing Systems . 2010,第1期

机译：伽马相机中实时生物医学信号处理的多处理器片上系统架构的设计与综合
2. Design and Synthesis of a Multiprocessor System-on-Chip Architecture for Real-Time Biomedical Signal Processing in Gamma Cameras [J] . Kai Sun, Meng Wang, Zili Shao, Journal of signal processing systems for signal, image, and video technology . 2010,第1期

机译：伽马相机中实时生物医学信号处理的多处理器片上系统架构的设计与综合
3. Realization of Efficient Multiplier for Low Power Biomedical Signal Processing System-on-Chip Design for Portable ECG Monitoring Systems [J] . R. Praveena, S. Nirmala Indian Journal of Science and Technology . 2015,第24期

机译：低功耗生物医学信号处理系统便携式便携式心电监护系统芯片设计的高效乘法器的实现
4. A low power biomedical signal processing system-on-chip design for portable brain-heart monitoring systems [C] . Fang Wai-Chi, Chen Chiu-Kuo, Chua Ericson, The First International Conference on Green Circuits and Systems . 2010

机译：用于便携式脑部心脏监测系统的低功耗生物医学信号处理片上系统设计
5. On the design of analog, mixed-signal and power management circuits for system-on-chip applications. [D] . Garimella, Annajirao. 2010

机译：关于片上系统应用的模拟，混合信号和电源管理电路的设计。
6. Design of Additively Manufactured Structures for Biomedical Applications: A Review of the Additive Manufacturing Processes Applied to the Biomedical Sector [O] . Flaviana Calignano, Manuela Galati, Luca Iuliano, 2019

机译：用于生物医学应用的增材制造结构的设计：对应用于生物医学领域的增材制造工艺的回顾
7. Design and synthesis of a multiprocessor system-on-chip architecture for real-time biomedical signal processing in gamma cameras [O] . Sun K, Wang M, Shao Z, 2010

机译：设计和综合用于伽马相机中实时生物医学信号处理的多处理器片上系统架构
8. Development and Testing of an Ultra Low Power System-On-Chip (SOC) Platform for Marine Mammal Tags and Passive Acoustic Signal Processing. [R] . Calhoun, B. H., Otis, B., Mann, D. 2014

机译：开发和测试用于海洋哺乳动物标签和被动声学信号处理的超低功耗片上系统（sOC）平台。

Signal processing system-on-chip design for biomedical applications

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