太阳能板姿态自动调节系统的设计

Kaifang Ning, Jiping Chen, T. Yu, Guanhua Zhou, Xingfeng Chen, Guolin Yu
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引用次数: 5

摘要

随着常规能源的日益紧缺,太阳能作为一种取之不尽、用之不竭、无污染的清洁能源,成为可再生能源的首选。本文设计了一种姿态自动调节系统,使太阳能板在白天垂直于太阳入射线,以提高太阳能的吸收效率。该系统采用程序控制和传感器控制相结合的方式对太阳进行跟踪,并通过光电二极管和太阳时间算法实现系统的工作模式。在不同的工作环境下,系统可以在不同的工作模式下工作:日历检查跟踪模式、四象限探测器跟踪模式和夜间模式。实际实验表明,该系统能够满足检测精度、低功耗和高可靠性的要求。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design of the attitude automatic adjusting system for the solar panel
With the increasingly shortage of conventional energy, solar energy, as one kind of an inexhaustible, and pollution-free clean source of energy, became the first choice of renewable energy. This paper designs an attitude automatic adjusting system which makes the solar panels perpendicular to the solar incidence line during the day to increase the absorption efficiency of solar energy. The system combines program control and sensor control to track the solar, and the working mode of the system is depended on by photodiode and algorithm of sun time. In different working circumstances, the system could work in different working modes: calendar-check tracking mode, four-quadrant detector tracking mode and night mode. Practical experiments show the system could meet the demands of detection accuracy, lower power, and higher reliability.
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