Monitoring system for ISFET and glass electrode behavior comparison

2017 IEEE XXIV International Conference on Electronics, Electrical Engineering and Computing (INTERCON) Pub Date : 2017-08-01 DOI:10.1109/INTERCON.2017.8079707

L. V. Zorrilla, Jinmi G. Lezama Calvo

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引用次数: 4

Abstract

Evaluating sensor characteristics is a critical task to choose the device with better performance for a specific application. In case of environmental monitoring systems, being low power design a big challenge, reducing activation periods is a recurrent technique to reduce power so response time of sensors should be evaluated to accomplish this goal. In this article, a hardware-software monitoring system is proposed to evaluate the response time of two pH sensors based on different technologies to compare and verify theoretical behavior and also to test the changes produced when other factors such as temperature or simultaneous measurements occur during the process. The sensors employed were a glass electrode from Atlas Scientific and an ISFET from WINSENSE in addition to a NTC temperature sensor. The response time was measured from readout circuit activation and probed in two different scenarios when both are in the same or in different containers. Results show that ISFET has an impressive response time, less than 3s, while the other one has almost 30s. This confirms the behavior exposed by the theory and also presents the ISFET as the better choice for low power sensor systems.

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监测系统用于ISFET和玻璃电极的行为比较

评估传感器特性是为特定应用选择性能更好的器件的关键任务。在环境监测系统中，低功耗设计是一个很大的挑战，减少激活时间是降低功耗的一种常用技术，因此应该评估传感器的响应时间以实现这一目标。在本文中，提出了一种硬件软件监测系统，用于评估基于不同技术的两个pH传感器的响应时间，以比较和验证理论行为，并测试在过程中发生温度或同时测量等其他因素时产生的变化。所采用的传感器是Atlas Scientific的玻璃电极和WINSENSE的ISFET以及NTC温度传感器。响应时间是通过读出电路激活来测量的，并在两种不同的情况下进行探测，这两种情况分别是在相同或不同的容器中。结果表明，ISFET具有令人印象深刻的反应时间，小于3秒，而另一种反应时间接近30秒。这证实了理论所揭示的行为，也表明ISFET是低功率传感器系统的更好选择。

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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2017 IEEE XXIV International Conference on Electronics, Electrical Engineering and Computing (INTERCON)

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