Implementasi Sistem Kelistrikan Body pada Mobil Buggy Listrik
Keywords:
Mobil Buggy Listrik, Sistem Kelistrikan Body, Keamanan Kendaraan.Abstract
Technological developments in the automotive sector encourage the creation of environmentally friendly vehicles such as electric cars. One form of this development is an electric buggy car used as a learning medium and student innovation. The problem raised in this study is how to design and implement a body electrical system that includes headlights, brake lights, turn signals, horns, and indicator panels on an electric buggy car, as well as how to analyze the electrical power used. The purpose of this study is to improve driving safety and comfort through an optimal electrical system. The method used is a mixed method with an applied approach, starting from system design, component selection, assembly process, to system performance testing. The results obtained indicate that the body electrical system was successfully implemented well, all components function optimally at a voltage of 12 volts DC 6 Ah with a total power consumption of 139.2384 watts. This system is estimated to be able to last for more than one hour on a full battery condition. This study proves that the implementation of the body electrical system supports increased safety and driver comfort functions, as well as providing educational benefits for the development of small-scale electric vehicle technology.
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