Charging Quality of 100 Amper-hours Battery Using a Silicon Photovoltaic at Different Altitude in Semarang Region

2018 5th International Conference on Electric Vehicular Technology (ICEVT) Pub Date : 2018-10-01 DOI:10.1109/ICEVT.2018.8628450

S. Sulistyo, Syafrialdi Prathama, J. Setiawan, D. F. Fitriyana

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引用次数: 2

Abstract

Currently automotive battery technology evolve rapidly. The reasons stated are environmentally friendly because they do not produce carbon dioxide such as ICE. One form of battery power supply is from a solar power source. This paper discusses the charging of batteries with a capacity of 100 AH which are sourced by solar cell power (PV). The type of solar cell uses a 100-watt solar cell type silicon mounted on a portable basis and parallel connected. The position of solar cells are installed in three different areas in different around Semarang city. The altitude of each region is 0 -7.5 m, 350 - 450 m and 600 - 800 m above sea level. Battery charging duration of three altitudes has different time range. These condition are caused by the quality of light intensity that reaches the solar cell. At higher altitude has a relatively fast charging rate compared to lower positions due to a higher intensity. This information is used to determine the required solar cell panels on the vehicle to charge the vehicle battery and battery charging time.

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三宝垄地区不同海拔100安培小时硅光伏电池充电质量研究

当前汽车电池技术发展迅速。所陈述的理由是环保，因为它们不产生二氧化碳，如ICE。电池供电的一种形式是太阳能电源。本文讨论了由太阳能电池(PV)供电的100ah容量电池的充电问题。该类型的太阳能电池采用100瓦的太阳能电池型硅安装在便携式基础上并并联连接。太阳能电池的位置安装在三宝垄市周围的三个不同区域。各地区海拔分别为0 -7.5 m、350 - 450 m和600 - 800 m。三个高度的电池充电时间范围不同。这些情况是由到达太阳能电池的光强度的质量引起的。由于较高的强度，与较低的位置相比，在较高的高度具有相对较快的充电速率。此信息用于确定车辆上所需的太阳能电池板为车辆电池充电和电池充电时间。

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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2018 5th International Conference on Electric Vehicular Technology (ICEVT)

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