复合分布式电极在心电传感器中的应用

Q3 Engineering
N. Uvarov, B. Bokhonov, A. Ulihin, A. Titkov, Yuriy M. Yukhin, D. Avdeeva, M. Yuzhakov
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引用次数: 0

摘要

对用于解释生物电极前心电图阻抗的等效电路的分析表明,使用皮肤-电极界面的双时间常数模型可以获得最佳描述。然而,对于测量,必须使用高输入阻抗的设备,这会导致有关生物电位实际变化的信息丢失。该研究的目的是全面研究和选择用于解释具有分布参数的复合生物电极阻抗的等效模型。我们采用理论和实验相结合的研究方法。提出了采用分布参数的Ag/AgI/Al2O3电极测量生物电位的方法。这种电极的特点是接触面积大,阻抗用恒相元件(CPE)等效电路来描述。结果表明,在较宽的频率范围内,电极阻抗可以通过包含两个CPE元件的典型分布电极等效电路很好地描述。实验表明,分布式Ag/AgI/Al2O3电极的极化贡献比商用Ag/AgCl电极至少小6倍。它可以更准确地测量生物电位,同时减少由电化学生物传感器极化引起的脉冲形状畸变。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Application of Composite Distributed Electrodes in Cardiographic Sensors
An analysis of equivalent circuits used to interpret the impedance of bio-electrode for electrocardiography shows that the best description is achieved using a double-time constant model of the skin-electrode interface. However, for the measurements it is necessary to use equipment with high input impedance, which leads to the loss of information about the real change in the bio-potential. The aim of the study is to comprehensively investigate and select the equivalent model that are used to interpret the impedance of a composite bioelectrode with distributed parameters. We used theoretical and experimental research methods. It is proposed for measuring bio-potential to use Ag/AgI/Al2O3 electrodes with distributed parameters. Such electrodes are characterized by a higher contact area and their impedance is described in terms of equivalent circuits with constant phase elements (CPE). It was shown that the electrode impedance is well described over a wide frequency range by an equivalent circuit typical for distributed electrodes including two CPE elements. It is experimentally shown that the distributed Ag/AgI/Al2O3 electrode has at least 6 times smaller polarization contribution than a commercial Ag/AgCl cardiographic electrode. It may enable more accurate measurements of bio-potentials providing less pulse shape distortion caused by polarization of electrochemical biosensors.
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来源期刊
Micro and Nanosystems
Micro and Nanosystems Engineering-Building and Construction
CiteScore
1.60
自引率
0.00%
发文量
50
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