Power efficient digital circuits for ECG front end data acquisition mobile system

Q3 Business, Management and Accounting International Journal of Enterprise Network Management Pub Date : 2018-09-13 DOI:10.1504/IJENM.2018.10015840

D. Sasikala, S. Muthukumar, R. Sivaranjani

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Abstract

The electrical motion of the heart is characterised by the ECG signal. ECG elucidation can be used to detect the heart syndrome. This technology has an efficient diagnostic tool, due to the high regard of portable electronic products, low power system has fascinated more consideration in recent years. This work presents digital ECG data acquisition system to diminish the power consumption. In the proposed work, analogue block is not used, they convert the input voltage into a digital code by delay lines. This digital architecture is capable of operating with a low supply voltage such as 0.3 V and 0.1 V. In this architecture, analogue blocks such as low-noise amplifier (LNA) and filters are not used. A digital feedback loop is employed to cancel the impact of the dc offset on the circuit, which eliminates the requirements for coupling capacitors. The circuit is implemented in 130 nm and 65 nm CMOS process. The simulation results illustrate that the front-end circuit of digital architecture for 130 nm consumes 18.9 pW and 65 nm consumes 109 pW of power.

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用于心电前端数据采集移动系统的节能数字电路

心脏的电运动以ECG信号为特征。心电图阐明可用于检测心脏综合征。该技术是一种高效的诊断工具，由于人们对便携式电子产品的高度重视，低功耗系统近年来受到了越来越多的关注。本文介绍了一种降低功耗的数字心电数据采集系统。在拟议的工作中，没有使用模拟块，他们通过延迟线将输入电压转换为数字代码。该数字架构能够在诸如0.3V和0.1V的低电源电压下操作。在该架构中，不使用诸如低噪声放大器（LNA）和滤波器的模拟块。采用数字反馈回路来消除直流偏移对电路的影响，从而消除了对耦合电容器的要求。该电路采用130nm和65nm CMOS工艺实现。仿真结果表明，130nm数字结构的前端电路功耗为18.9pW，65nm功耗为109pW。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Enterprise Network Management Business, Management and Accounting-Management of Technology and Innovation

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0.90

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