采用开关电感拓扑结构的光伏应用单开关高增益多电平升压转换器

SciEnggJ Pub Date : 2024-02-12 DOI:10.54645/202417supdwr-69
Akkela Krishnaveni, Rajender Boini
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引用次数: 0

摘要

本文为太阳能发电系统提出了一种新型无变压器单开关高增益直流-直流转换器。所建议的转换器是在传统升压转换器的基础上增加了一个开关电感单元和一个电压倍增器级。这种转换器有几个优点,包括电压转换率高、减少半导体开关和二极管的电压应力、减少对栅极驱动器的需求(因为只使用了一个开关),以及输入电流恒定以延长光伏电池的使用寿命。在连续传导模式(CCM)下,可以看到推荐转换器的分析波形。对电压应力进行了分析。在存在寄生元件的情况下,还获得了更高的电压增益和效率。建议的高增益转换器拓扑与最近发布的高增益转换器拓扑在性能方面进行了比较。利用 PSIM,研究和分析了高增益直流-直流转换器在低开关电压应力方面的性能。所建议的转换器能在 160W 功率容量下成功地将 20V 电压升压至 400V,同时以 95% 的效率提供持续的输入源电流。
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A single switch high gain multilevel boost converter with switched inductor topology for photovoltaic applications
This paper proposes a new transformer-less single-switch high-gain dc-dc converter for solar power systems. The suggested converter is created by supplementing the conventional boost converter with a switched inductor cell plus a voltage multiplier stage. The converter has several benefits, including a high voltage conversion ratio, reduced voltage stress on semiconducting switches and diodes, a reduction in the need for gate drivers because only one switch is used, as well as constant input current to prolong the lifespan of the photovoltaic cell. The analytical waveforms of the recommended converter can be seen in the continuous conduction mode (CCM). The analysis of voltage stress is done. In the presence of parasitic components, increased voltage gain and efficiency were also obtained.The proposed high-gain converter topology is compared to recently published high-gain converter topologies in terms of performance. Using PSIM, a high-gain dc-dc converter's performance is studied and analysed with regard to its low switching voltage stress. The suggested converter is successful in stepping up 20V to 400V at 160W power capacity, while offering a continuous input source current at 95% efficiency.
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