基于光电二极管的太阳能应用平热计的特性分析与校准

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摘要

在太阳科学领域,高温计具有举足轻重的地位,是评估从 300 纳米到 3000 纳米波长的太阳光谱中太阳辐照度的不可或缺的工具。传统的高温计通常采用复杂且劳动密集型的热电堆。这些装置依赖于串联或并联的热电偶阵列,需要稀土矿物才能高效运行。在这项研究中,我们主张采用光电探测器(特别是光电二极管和光电晶体管)的创新方法来克服传统高温计的局限性。光电二极管通常用于此目的,具有许多优点,包括响应速度快、可定制光谱范围选择和成本效益高。然而,光电二极管并不能完全取代热电堆,这是因为光电二极管在没有光照的情况下会产生暗电流,其功能与温度有关,并且在辐照度较高的情况下会达到饱和。为了克服这些制约因素,我们开创性地设计了一种基于光电二极管的测温仪,其中集成了数据采集系统和校正机制。这种创新方法为自主太阳辐射测量提供了可行的分辨率,提高了精度和可靠性。
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Characterization and Calibration of a Photodiode Based Pyranometer for Solar Energy Applications
In the domain of solar science, a pyranometer assumes a pivotal position, functioning as an indispensable tool for appraising solar irradiance across the abbreviated wavelengths of the solar spectrum, spanning from 300 to 3000 nanometers. Conventional pyranometers typically employ intricate and labour intensive thermopiles. These devices rely on arrays of thermocouples interconnected either serially or in parallel and necessitate rare earth minerals for efficient operation. In this investigation, we advocate for an innovative methodology employing photodetectors, specifically photodiodes and phototransistors, to surmount the limitations linked with traditional pyranometers. Photodiodes, commonly utilized for this purpose, proffer numerous benefits, including accelerated response times, customizable spectral range selection, and cost-effectiveness. Nonetheless, they cannot entirely supplant thermopiles owing to impediments such as the generation of dark current in the absence of illumination, temperature-dependent functionalities, and saturation at elevated irradiance levels. To counteract these constraints, we have devised a pioneering design of a photodiode-based pyranometer that incorporates a data acquisition system and correction mechanism. This innovative approach furnishes a feasible resolution for autonomous solar radiation measurement, furnishing enhanced precision and dependability.
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