Kombinasi Sistem Solar Tracker Dua Sumbu dan Automatic Transfer Switch (ATS) untuk Menstabilkan Tegangan Keluaran Pembangkit Photovoltaic (PV) Menggunakan Sensor Photodioda dan Arduino Nano

Agung Hadi Tamari, Amirullah Amirullah
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引用次数: 2

Abstract

The performance of a photovoltaic (PV) generator is strongly influenced by the intensity of sunlight hitting the solar module. Thus it takes the position of the solar module which is always perpendicular to the direction of the sun's rays. To overcome this, it is necessary to design and implement a two-axis solar tracker system using a servo motor that is able to dynamically drive a PV generator following the direction of movement of sunlight supplied by an AC power source (PLN). The problem is that if the AC source is disturbed, the motor drive stops working so that the absorption of sunlight is not optimal. The research proposes the design and implementation of a two-axis solar tracker system based on Arduino Nano using a photodiode sensor and automatic transfer switch (ATS). ATS functions if there is a disturbance in the AC source, the system automatically transfers the load power supply to a DC source in the form of a battery or vice versa, so that the tool is still able to work. The photodiode sensor in the Arduino Nano circuit is used because it has better sensitivity to sunlight than the light-dependent resistor (LDR) sensor. The PV generator in this study uses the PV1 and PV2 modules. The results shows that the PV module using a two-axis tracker system with dynamic movement following the movement of the sun's position is able to produce a more significant and more stable average output voltage-than the system without using a tracker both on the static PV module position facing east and west respectively by 12.34% and 10.94%. The sensitivity of the photodiode sensor to sunlight also helps improve the performance of the proposed system so that the PV output voltage in the 09.00-15.00 WIB period, becomes larger and more stable than the system without a solar tracker.
光伏(PV)发电机的性能受到照射在太阳能组件上的阳光强度的强烈影响。因此,它采取的太阳能模块的位置,总是垂直于太阳光线的方向。为了克服这个问题,有必要设计和实现一个使用伺服电机的两轴太阳能跟踪系统,该系统能够根据交流电源(PLN)提供的阳光运动方向动态驱动PV发电机。问题是,如果交流电源受到干扰,电机驱动器停止工作,因此吸收阳光不是最佳的。本研究提出利用光电二极管传感器和自动转换开关(ATS),设计并实现基于Arduino Nano的两轴太阳能跟踪系统。ATS的功能是,当交流电源出现干扰时,系统自动将负载电源以电池的形式转换为直流电源,反之亦然,从而使工具仍然能够工作。使用Arduino Nano电路中的光电二极管传感器是因为它比光依赖电阻(LDR)传感器对阳光具有更好的灵敏度。本研究中的光伏发电机采用PV1和PV2模块。结果表明,在光伏组件朝东、朝西的静态位置上,采用随太阳位置动态运动的两轴跟踪器系统比不使用跟踪器系统产生的平均输出电压分别提高12.34%和10.94%。光电二极管传感器对太阳光的灵敏度也有助于提高系统的性能,使得PV输出电压在09.00-15.00 WIB期间比没有太阳能跟踪器的系统更大,更稳定。
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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