Design, implementation and performance analysis of a dual-axis autonomous solar tracker

2015 3rd International Conference on Green Energy and Technology (ICGET) Pub Date : 2015-11-09 DOI:10.1109/ICGET.2015.7315104

Mohammed Saifuddin Munna, Mohammad Ariful Islam Bhuyan, K. M. Rahman, Md Ashiqul Hoque

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引用次数: 11

Abstract

This paper proposed a design, implementation & performance of an energy efficient solar tracking system based on closed loop technique. This solar tracking system is autonomous dual axis hybrid type. Solar efficiency depends on PV cell and its tracking system. In our works we concentrate on the panel tracking system. Our tracking system is a sensor based tracking system and it can track the sun continuously. A sensor placed on the surface of the panel and sensor compare light intensity continuously. Then our control unit sends signal to actuator unit to reposition the panel. This system is energy efficient because the actuator unit shut down in cloudy weather and turns on in sunny weather. Powerful microcontroller used to calculate and evaluate the light intensity form sensor unit, then send instruction to actuator unit. For graceful and accurate angular motion we used the servo actuator system. It's no need additional real time clock to track annual motion and daily motion because it's based on active closed loop system. Our implemented design is more efficient and convenient than other tracker

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双轴自主太阳能跟踪器的设计、实现及性能分析

提出了一种基于闭环技术的高效太阳能跟踪系统的设计、实现和性能。该太阳能跟踪系统为自主双轴混合型。太阳能效率取决于光伏电池及其跟踪系统。在我们的工作中，我们主要研究了面板跟踪系统。我们的跟踪系统是一个基于传感器的跟踪系统，它可以连续跟踪太阳。放置在面板表面的传感器和传感器连续比较光强度。然后我们的控制单元发送信号到执行器单元重新定位面板。这个系统是节能的，因为执行器单元在阴天关闭，在晴天打开。采用功能强大的微控制器计算和评估传感器单元的光强，然后将指令发送到执行器单元。为了实现优美、精确的角运动，我们采用了伺服作动系统。不需要额外的实时时钟来跟踪年运动和日运动，因为它是基于主动闭环系统。我们实现的设计比其他跟踪器更高效、更方便

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2015 3rd International Conference on Green Energy and Technology (ICGET)

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