用于gihev的双输入单输出非隔离DC-DC转换器

Bairabathina Saikumar, B. S
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引用次数: 2

摘要

在大多数情况下,电池供电的电动汽车严重依赖于可用的电力系统为电池充电。这就导致了电力系统配电网承受过大的压力。从名称上看,不依赖电网的混合动力汽车通过形成混合能源系统,利用多种可再生能源独立运行。本文提出了一种适用于不依赖电网的混合动力汽车的高升压幅值双输入单输出非隔离dc-dc变换器。此外,为了提高输出电压幅度,电压乘法器(VM)级在二极管-电容(D-C)组合的帮助下使用。由于这种转换器,gihev具有极简的结构,更少的开关,重量轻,高增益,最小的电压应力和更高的效率。为了阐明转换器的功能,我们漫步通过1000W双输入单输出模型的建模,也集中在损耗和效率计算。选用36V的燃料电池电源和48V的太阳能电源设计1000W的系统。利用MATLAB/Simulink模型对变换器的设计和性能进行了验证,并对数学计算进行了验证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dual-Input Single-Output Non-Isolated DC-DC Converter for GIHEVs
In most cases, battery-powered electric vehicles rely heavily on the available power system for their battery charging. This leads to excessive stress on the distribution network of the power system. From the name, grid-independent hybrid electric vehicles run independently by utilizing multiple renewable energy resources by forming hybrid energy systems. In this paper, a dual-input single-output (DISO) non-isolated dc-dc converter with high step-up voltage magnitude is presented for GIHEVs (grid-independent hybrid electric vehicles). Additionally, to improve the output voltage magnitude, voltage multiplier (VM) stages are used with help of diode-capacitor (D-C) combination. Because of this converter, GIHEVs benefit from a minimalist structure, fewer switches, light-weight, high gain, minimal voltage stress, and greater efficiency. To clarify the converter functioning, we stroll via the modelling of a 1000W dual-input single-output model and, also concentrate on the losses and efficiency computations. The fuel cell source of 36V and solar source of 48V is chosen to design the system of 1000W. We uphold the converter design and performance with MATLAB/Simulink model that validates the mathematical computations.
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