无创光学经皮pCO/sub /气体传感器及分析设备的研制

Hwan-Joo Lee, Do-Eok Kim, D. Kwon, Seung-Ha Lee, Shin-Won Kang
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引用次数: 5

摘要

我们研究了一种非侵入性的光学经皮pCO/sub /气体传感器和分析仪的开发。pCO/sub 2/测量的基本原理采用了比尔-朗伯定律和非色散红外(NDIR)方法。CO/sub - 2/ gas反应波长为4.3 /spl mu/m,采用滤光器选择该波长,利用分子振荡减少能量。我们使用MFC(质量流量控制器)在基本步骤中测量CO/sub 2/浓度,而不是通过对外皮施加热量来收集的pCO/sub 2/气体。该测量系统由红外光、滤光片、光反应室、热释电传感器和信号处理系统组成。为了使传感器便于携带,我们减小了光学反应室的体积。我们利用MEMS技术制作了一个硅晶圆的光学反应室,并将其缩短到1mm。我们进行了光反应长度从1 mm到10 mm变化的实验。我们确认了CO/sub 2/浓度在1mm光反应长度下从1,000 ppm(百万分之一)到100,000 ppm变化的线性图。该系统的响应时间在2秒以内,速度相当快。
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Development of non-invasive optical transcutaneous pCO/sub 2/ gas sensor and analytic equipment
We have studied the development of an optical transcutaneous pCO/sub 2/ gas sensor and analyzer using a non-invasive method. The basic principle of the pCO/sub 2/ measurement adapted Beer-Lambert's law and the embodied system using the NDIR (non dispersive infrared) method. CO/sub 2/ gas reacts with a 4.3 /spl mu/m wavelength, so we selected this wavelength by an optical filter, and used energy decrease by molecule oscillations. We measured the CO/sub 2/ concentration using the MFC (mass flow controller) in basic steps instead of the pCO/sub 2/ gas that can collect by inflicting heat on the outer skin. This measuring system consisted of an IR lamp, an optical filter, an optical reaction chamber, a pyroelectric sensor and a signal processing system. We minimized the volume of the optical reaction chamber in order to make the sensor portable. We made an optical reaction chamber with a Si wafer using MEMS technology and it was shortened to 1 mm. We carried out an experiment in photoreaction length variation from 1 mm to 10 mm. We confirmed the linear graph of CO/sub 2/ concentration variation from 1,000 ppm (parts per million) to 100,000 ppm at 1 mm photoreaction length. The response time of this system was within 2 seconds, which is fairly fast.
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