Enhancement of Voltage Conversion Ratio using DC-DC Boost Converter with Coat Circuit

2022 3rd International Conference on Communication, Computing and Industry 4.0 (C2I4) Pub Date : 2022-12-15 DOI:10.1109/C2I456876.2022.10051308

S. Jaisiva, C. Kumar, K. Viji, M. Premkumar, M. Lakshmanan, V. Jayakumar

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Abstract

This article aims to develop a solar powered efficient DC-DC converter to charge electric vehicle. While implementing the DC sources for boost converter with coat circuit charger it becomes continuous power supply. In the boost converter with coat circuit, which raise the input voltage 3 time higher from the voltage of battery or PV cell. According to this method of boost, the voltage is boosted to three times higher than normal voltage rate which is stored in the battery for steady supply of voltage. The solar based dc-dc boost converter charger is effective for converting the low-level voltage to high-level voltage of a converter. Over voltage and current can be controlled and limited by coat circuit to be an efficient PV charger. The battery is connected between PV and converter to store energy from sunlight. By this of boost converter, the losses which occur is reduced and produce improved voltage conversion ratio. Improvising voltage conversion ratio using boost converter with coat circuit is premeditated using MATLAB and the simulation outputs have been verified with a model.

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用带涂层电路的DC-DC升压变换器提高电压转换率

本文旨在开发一种太阳能高效DC-DC转换器，为电动汽车充电。用涂层电路充电器实现升压变换器的直流电源，成为连续电源。在具有涂层电路的升压变换器中，它将输入电压提高到电池或光伏电池电压的3倍以上。根据这种升压方法，电压被提升到比正常电压率高三倍，并存储在电池中以稳定供电。基于太阳能的dc-dc升压变换器充电器有效地将低电压转换为转换器的高电压。通过涂层电路控制和限制过电压和电流，是一种高效的光伏充电器。电池连接在PV和转换器之间，以存储来自阳光的能量。通过这种方法，降低了升压变换器的损耗，提高了电压转换比。利用MATLAB对带涂层电路的升压变换器进行了模拟，并对仿真结果进行了模型验证。

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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2022 3rd International Conference on Communication, Computing and Industry 4.0 (C2I4)

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