The Exploration of a High Voltage Gain DC-DC Lift Converter for Fuel Cell Electric Vehicles

2022 International Conference on Computer, Power and Communications (ICCPC) Pub Date : 2022-12-14 DOI:10.1109/ICCPC55978.2022.10072178

K. P. Dinakaran, Anbarasi Jebaselvi G. D

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Abstract

An increased focus on the environment is reflective of the historical influences present in today's educated and progressive culture. Because of the concentration of environmental impacts and the progress made in mitigating them via scientific study. Vehicles account for 30% of the aforementioned causes of environmental damage. Despite the fact that many academic papers are devoted to the topic of electric vehicles (EVs), the industry is still struggling to meet the needs of consumers who are concerned about issues such as the length of time it takes to charge the batteries and the damage done to the environment during the production of lithium ion cells. The fuel cell car is an option that might be considered instead of battery operated EVs. From my perspective, the FCEV is advantageous since it is built with a high voltage gain and a low voltage stress on the device. In order to get the feasible voltage in automobiles and electronics, this article focused on the high voltage gain DC-DC converter. The aforementioned DC-DC converter's functionality is stress-tested in MATLAB Simulink. The converter's expected output is specified, and a corresponding graph is shown.

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用于燃料电池汽车的高压增益DC-DC升力变换器的研制

对环境的日益关注反映了当今受过教育和进步的文化中存在的历史影响。因为环境影响的集中以及通过科学研究在减轻这些影响方面取得的进展。车辆占上述环境破坏原因的30%。尽管许多学术论文都致力于电动汽车(ev)的主题，但该行业仍在努力满足消费者的需求，消费者担心电池充电所需的时间长度以及锂离子电池生产过程中对环境的破坏等问题。燃料电池汽车是替代纯电动汽车的一种选择。从我的角度来看，FCEV是有利的，因为它是建立在高电压增益和低电压应力上的设备。为了在汽车和电子产品中获得可行的电压，本文重点研究了高压增益DC-DC变换器。前面提到的DC-DC转换器的功能在MATLAB Simulink中进行了压力测试。指定了转换器的期望输出，并显示了相应的图形。

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 International Conference on Computer, Power and Communications (ICCPC)

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