紫外玻璃传感器

2015 7th International Conference on New Technologies, Mobility and Security (NTMS) Pub Date : 2015-07-27 DOI:10.1109/NTMS.2015.7266531

S. Yuvaraja, A. S. Vithya

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引用次数: 0

摘要

这是一篇概念性论文，旨在利用玻璃的电磁特性作为一种良好的电源。利用光学整流分析了玻璃中原子产生的磁场。焦点是通过将玻璃材料分成若干矩阵片段来找到的。聚焦点是指入射到玻璃上的太阳光最大的那一点。太阳光线被制造成b[3]落在一个叫做辐射计的装置上，这个装置用来分析一段时间的太阳辐照度，然后让它落在材料上。上述过程发生在基于最大功率点跟踪算法的仪器[4]附着在玻璃上时。利用平方反比定律的概念计算强度与距离的关系。主要的挑战是太阳光线必须以1兆瓦/米的强度聚焦在玻璃上。对焦物体必须距离玻璃500mm。太阳是光的来源，位于距离地球149,600,000公里的地方。它2提供的强度为2.585438微瓦/米，与所需的强度相比非常低，因此紫外线聚焦在玻璃[7]上。

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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UV glass sensor

This is a conceptual paper aimed at harnessing the electromagnetic properties of glass as a good source of power. The magnetic field produced by the atoms in the glass is analyzed using optical rectification. The focus point is found by dividing the glass material into a number of matrix segments. The focus point refers to the point on the glass which has the maximum solar light incident on it. The solar light is made to [3] fall on a device called pyranometer that is used to analyze the solar irradiance for a period of time before allowing it to fall on the material. The above process takes place when the maximum power point tracking algorithm based instrument is [4] attached to the glass. The intensity and distance relationship is calculated using inverse square law concept. The major challenge is that the solar light must be focused on the glass 2 with an intensity of 1 MWatt/m. The focusing object must be 500mm away from the glass. Sun is the source of light and is located at a distance of 149,600,000km. The intensity it 2 provides is 2.585438 micro watt/m which is very low compared to the intensity required, hence UV light is focused on the glass [7].

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2015 7th International Conference on New Technologies, Mobility and Security (NTMS)

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