带耦合感应线圈的无变压器 Z 源光伏并网逆变器

IF 1.5 4区 材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY
Yunzhong Dai, Huaiyu Zhang
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引用次数: 0

摘要

准 Z 源 H 桥并网逆变器(QHGCI)因其不存在击穿问题和直流电压利用率高的优点而广为人知。但是,由于在电源频率周期内存在共模漏电流、功率密度较低以及热应力较大等问题,它很难适用于穿透电网的应用。因此,为了解决与 QHGCI 相关的问题,我们提出了一种创新型无变压器 Z 源光伏并网逆变器(TZPGCI-CIC)。首先简要介绍了电路拓扑结构和单极性正弦脉宽调制策略。随后,通过详细的工作模式分析,得出并评估了整个工作过程中的共模电压,并从理论上揭示了其恒定值。最后,建立了 TZPGCI-CIC 原型平台,并通过实验结果验证了其在抑制漏电流和降低热应力方面的良好性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A transformerless Z-source photovoltaic grid-connected inverter with coupled inductor coil

A transformerless Z-source photovoltaic grid-connected inverter with coupled inductor coil

The quasi-Z-source H-bridge grid-connected inverter (QHGCI) is well known for its advantages of the void of the shoot-through problem and the high DC-voltage utilization. But the existence of the common-mode leakage current in the power frequency cycle, lower power density, and higher thermal stress make it hard applicable to the grid-penetrating application. Thus with the purpose to conquer the problem relating to the QHGCI, an innovative transformerless Z-source photovoltaic grid-connected inverter with a coupled inductor coil (TZPGCI-CIC) is proposed. The circuitry topology and an unipolar sine pulse width modulation strategy are first introduced in short. Thereafter, the common-mode voltage in the whole working process is derived and evaluated through the detailed operating mode analysis, in which a constant value of it has been theoretically revealed. Lastly, a prototype platform of TZPGCI-CIC is set up and its good performance on leakage current suppression, and lower thermal stress are validated with the experimental results.

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来源期刊
Micro & Nano Letters
Micro & Nano Letters 工程技术-材料科学:综合
CiteScore
3.30
自引率
0.00%
发文量
58
审稿时长
2.8 months
期刊介绍: Micro & Nano Letters offers express online publication of short research papers containing the latest advances in miniature and ultraminiature structures and systems. With an average of six weeks to decision, and publication online in advance of each issue, Micro & Nano Letters offers a rapid route for the international dissemination of high quality research findings from both the micro and nano communities. Scope Micro & Nano Letters offers express online publication of short research papers containing the latest advances in micro and nano-scale science, engineering and technology, with at least one dimension ranging from micrometers to nanometers. Micro & Nano Letters offers readers high-quality original research from both the micro and nano communities, and the materials and devices communities. Bridging this gap between materials science and micro and nano-scale devices, Micro & Nano Letters addresses issues in the disciplines of engineering, physical, chemical, and biological science. It places particular emphasis on cross-disciplinary activities and applications. Typical topics include: Micro and nanostructures for the device communities MEMS and NEMS Modelling, simulation and realisation of micro and nanoscale structures, devices and systems, with comparisons to experimental data Synthesis and processing Micro and nano-photonics Molecular machines, circuits and self-assembly Organic and inorganic micro and nanostructures Micro and nano-fluidics
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