Analisa Efisiensi Penjejak Sinar Matahari Dengan Menggunakan Kontrol ATMEGA16

JEEE-U (Journal of Electrical and Electronic Engineering-UMSIDA) Pub Date : 2018-05-19 DOI:10.21070/JEEE-U.V2I1.1172

Agus Supriyadi, Jamaaluddin Jamaaluddin

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引用次数: 7

Abstract

Solar cells known so far still have many shortcomings in terms of Mounting and positioning against the sun, so the performance of solar cells in Battery charging is not maximal. There fore additional tools are required As a support for the solar cell to work optimally, and the electric current Is generated larger. Sunlight tracking with LDR system as As the sensor to direct to the sunlight rays will be compared With a passive system. Atmega16 as motor control and auto carger, LDR As a recipient of sunlight, DC motor as a direction player Sunlight. Solar cell is used with a capacity of 20 WP.And auto carger system using microcontroller is more cost-efficient and installation. After the two systems will be compared first in order Know the difference how much power generated by solar system Cell using a tracker and a passive one. Data retrieval will be Implemented for one week with sytem tracker and one week with Passive system. With the results of data to be in can be analyzed system comparison And known how much efficiency. Expected with a solar tracker system Cell can increase battery charging faster than with Passive position.

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使用ATMEGA16控制设备对太阳能跟踪效率进行分析

目前已知的太阳能电池在对太阳的安装和定位方面还存在许多缺点，因此太阳能电池在电池充电中的性能并不是最大的。因此，需要额外的工具来支持太阳能电池的最佳工作，并且产生更大的电流。利用LDR系统作为传感器直接对太阳光进行跟踪，将其与无源系统进行比较。Atmega16作为电机控制和自动放大，LDR作为太阳光接收器，直流电动机作为太阳光方向播放器。使用容量为20wp的太阳能电池。而采用单片机的自动装载机系统更具有成本效益和安装方便。之后首先将两种系统进行比较，以便了解使用跟踪器和被动器的太阳能电池系统产生的功率的差异。数据检索一周采用系统跟踪系统，一周采用被动系统。与所得到的结果数据进行比较，可以对系统进行分析，从而知道效率有多大。预计与太阳能跟踪系统电池可以增加电池充电速度比被动位置。

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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JEEE-U (Journal of Electrical and Electronic Engineering-UMSIDA)

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