基于光谱热分析法的光电火灾探测装置仿真

2020 21st International Conference of Young Specialists on Micro/Nanotechnologies and Electron Devices (EDM) Pub Date : 2020-06-01 DOI:10.1109/EDM49804.2020.9153469

A. Sidorenko, S. Lisakov, Andrey I. Kin, E. Sypin

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引用次数: 0

摘要

对一种基于光谱热分析法的高速光电火灾探测装置进行了仿真。建立了基于光谱热分析法的高速光电火灾探测装置仿真分析依赖关系。模拟试验火焰光谱特性的初始数据来源于文献。光电探测器(PD-24-10和PD-38)的参数取自光电探测器的相关文献。开发的计算机模型可以模拟电光器件在1200- 4800 nm宽光谱范围内的操作，波长步长为10 nm，测试火焰温度为800至1600 K。研究了电光装置探测火灾辐射的光谱范围。在研究过程中确定了六个光谱范围。选择了光电器件的光电探测器。确定了一组光谱范围:$1800\pm 50nm;1900\pm 50nm;2000\pm 50nm;3000 \pm 50nm;3400\pm 50nm;3550\pm$ 50nm。利用这组光谱范围计算温度的最大误差为10%。采用红外探测器PD-19sr、PD-21sr、PD-29、PD34、PD-38 (IoffeLED公司生产)实现光电器件。

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Simulation of Electro-optical Device for Fire Detection on Basis of Spectral Pyrometry Method

Simulation of a high-speed electro-optical device for fire detection based on a spectral pyrometry method was performed. Analytical dependencies for simulation of a high-speed electro-optical device for fire detection based on a spectral pyrometry method were formulated. The initial data for simulation about spectral characteristics of the test fires were taken from literature. Parameters of the photodetectors (PD-24-10 and PD-38) were taken from documentation on the photodetectors. The developed computer model allows simulating the operation of electro-optical device in wide spectral ranges of 1200--4800 nm with wavelength step of 10 nm for test fires with temperature from 800 to 1600 K. Spectral ranges for detection of fire radiation by the electro-optical device were studied. Six spectral ranges were determined during the study. The photodetectors of the electro-optical device was selected. The set of spectral ranges was determined: $1800\pm 50nm;1900\pm 50nm;2000\pm 50nm; 3000 \pm 50nm;3400\pm 50nm;3550\pm$ 50nm. The maximum error of temperature calculation using this set of spectral ranges was 10%. Infrared photodetectors PD-19sr, PD-21sr, PD-29, PD34, PD-38 (manufactured by IoffeLED) were selected for the implementation of the electro-optical device.

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来源期刊

2020 21st International Conference of Young Specialists on Micro/Nanotechnologies and Electron Devices (EDM)

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