基于LLCLC谐振变换器的伪直流链路逆变器

Arslan Arif, Junaid Arshad, S. Iqbal
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引用次数: 0

摘要

太阳能发电系统的技术进步需要高可靠性、高效率和小尺寸的逆变器。基于LLC谐振变换器的伪直流(DC)链路逆变器在一定程度上提供了这些特性。传统的伪直流链路逆变器的谐振电路缺乏实现零增益的能力,不能进行变频控制,这反过来又需要非常大的滤波器来产生纯正弦输出电压。这些滤波器的使用导致了逆变器的价格和尺寸的提高;而且,也降低了逆变器的可靠性。我们提出了一种新的基于LLCLC谐振变换器的伪直流链路逆变器拓扑结构。所提出的逆变器不需要大的滤波器,因为它产生整流正弦输出电压。在谐振电路中串联添加一个额外的并联LC元件,使其能够通过无限电路阻抗获得零增益。设计了输入电压为40v,输出电压为400v的伪直流链路逆变器,并在OrCAD PSpice软件上进行了仿真。结果表明,在实现零增益方面有显著的改进。可能达到的最低增益约为0.125。所提出的技术被证明比以前使用的更有效,随后产生了令人满意的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
LLCLC Resonant Converter Based Pseudo DC Link Inverter
Technological advancements in solar power systems necessitate highly reliable power inverters with a high efficiency and a small size. An LLC resonant converter-based pseudo Direct Current (DC) link inverters offer these qualities to some extent. The resonant circuits of conventional pseudo DC link inverters lack the ability to attain a zero gain and cannot handle variable frequency control which in turn requires very large filters to produce pure sinusoidal output voltages for grid. The usage of these filters consequences in the enhanced price and size of inverters; moreover, the reliability of inverters is also reduced. We propose a novel topology for a pseudo DC link inverter based on an LLCLC resonant converter. The proposed inverter does not require large filters, because it generates rectified sinusoidal output voltages. An additional parallel LC component is added in series to the resonant circuit, which makes it able to attain a zero gain through an infinite circuit impedance. The 400 W pseudo DC link inverter with a 40 V input and a 400 V output is designed and simulated on OrCAD PSpice software. The results showed that there is a significant improvement in achieving a zero gain. The possible lowest gain achieved is approximately 0.125. The proposed technique attested to be more efficient than those formerly used, subsequently contributing satisfying outcomes.
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CiteScore
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