Design of a self-organized Intelligent Electrode for synchronous measurement of multiple bio-signals in a wearable healthcare monitoring system

机译：自组织智能电极的设计，用于可穿戴式医疗监护系统中多个生物信号的同步测量

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This paper presents an Intelligent Electrodes and Active Cable based wearable medical system. Within each Intelligent Electrode, an Application Specific Integrated Circuit (ASIC) is integrated which includes a gain-bandwidth selectable analog front-end circuit, an 8-bit SAR ADC and a digital controller. The key of the ASIC is the analog front-end circuit with tunable gain and bandwidth which can be configured for Electrocardiogram (ECG), Electroencephalogram (EEG) or Electromyogram (EMG) measurement. Common mode interference is effectively rejected due to the circuit's high Common Mode Rejection Ratio (CMRR), which is higher than 135 dB up to 100 Hz and better than 110dB up to 1 kHz. Since a dedicated data transmission protocol is implemented on chip, the Intelligent Electrodes can establish a self-organized network and perform synchronous measurements for multiple bio-signals.

机译：本文提出了一种基于智能电极和有源电缆的可穿戴医疗系统。在每个智能电极中，集成了一个专用集成电路（ASIC），该集成电路包括一个增益带宽可选的模拟前端电路，一个8位SAR ADC和一个数字控制器。 ASIC的关键是具有可调增益和带宽的模拟前端电路，可以将其配置为用于心电图（ECG），脑电图（EEG）或肌电图（EMG）测量。由于电路具有较高的共模抑制比（CMRR），因此共模干扰得以有效抑制，该共模抑制比在高达100 Hz时高于135 dB，而在高达1 kHz时高于110dB。由于专用数据传输协议是在芯片上实现的，因此智能电极可以建立自组织网络并针对多个生物信号执行同步测量。

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《2010 3rd International Symposium on Applied Sciences in Biomedical and Communication Technologies》|2010年|p.1-5|共5页
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ASIC; bio-signal measurement; integrated circuit; synchronous measurement; wearable sensors;

机译：ASIC;生物信号测量;集成电路;同步测量;可穿戴传感器;

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4. Design of a self-organized Intelligent Electrode for synchronous measurement of multiple bio-signals in a wearable healthcare monitoring system [C] . {missing} International Symposium on Applied Sciences in Biomedical and Communication Technologies . 2010

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Design of a self-organized Intelligent Electrode for synchronous measurement of multiple bio-signals in a wearable healthcare monitoring system

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