A New Impedance Sensor Based on Electronically Implemented Chaotic Coupled van der Pol and Damped Duffing Oscillators

IF 1.9 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

Frontiers in electronics Pub Date : 2022-05-10 DOI:10.3389/felec.2022.797525

B. G. Pedro, P. Bertemes-Filho

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引用次数: 1

Abstract

The chaotic behaviour of a system depends on the parameter values, and when the system exhibits such a chaotic behaviour, it is sensitive to the initial conditions. This feature can be used for manufacturing high sensitivity sensors. Sensors based on chaotic circuits have already been used for measuring water salinity, inductive effects, and both noise and weak signals. This article investigates an impedance sensor based on the van der Pol and Duffing damped oscillators. The calibration process is a key point and therefore the folding behaviour of signal periods was also explored. A sensitivity of 0.15 kΩ/Period was estimated over a range from 89.5 to 91.6 kΩ. This range can be adjusted according to the application by varying the gain of the operational amplifier used in this implementation. The development of this type of sensor might be used in medical and biological engineering for skin impedance measurements, for example. This type of chaotic impedance sensor has the advantage of sensing small disturbances and then rapidly detecting small impedance changes within biological materials.

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一种基于电子实现的混沌耦合范德波尔和阻尼达夫芬振荡器的新型阻抗传感器

系统的混沌行为取决于参数值，当系统表现出这种混沌行为时，它对初始条件很敏感。该特性可用于制造高灵敏度传感器。基于混沌电路的传感器已经被用于测量水的盐度、感应效应以及噪声和微弱信号。本文研究了一种基于范德波尔和达夫芬阻尼振荡器的阻抗传感器。校准过程是一个关键点，因此也探讨了信号周期的折叠行为。在89.5到91.6 kΩ的范围内，估计灵敏度为0.15 kΩ/Period。这个范围可以根据应用通过改变在这个实现中使用的运算放大器的增益来调整。例如，这种类型传感器的开发可能用于医学和生物工程，用于皮肤阻抗测量。这种类型的混沌阻抗传感器具有传感微小扰动，然后快速检测生物材料内部微小阻抗变化的优点。

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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Frontiers in electronics

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