A novel single phase transformerless inverter topology for PV applications

T. Selmi, H. Baitie, A. Masmoudi
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引用次数: 3

Abstract

A key stage of photovoltaic (PV) systems is the inverter connected at the chain's end. Inverters dedicated to PV systems could be classified into two major topologies: (i) those equipped by a transformer and (ii) those without a transformer, the so-called: transformerless inverters (TIs). The latter were recognized to be more efficient in terms of energy efficiency and compactness. In spite of these performances, the integration of TIs in PV systems is compromised by some shortcomings, such as the circulation of a leakage current due to the absence of the galvanic isolation. This work considers a new single phase TI topology dedicated to PV systems. Beyond its energy efficiency capability and its null zero-crossing distortion, it has the merit to eradicate the leakage current. Following, the analysis of its operating sequences, the proposed TI topology is simulated in order to highlight its effectiveness.
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一种新型的无变压器逆变器拓扑结构
光伏(PV)系统的关键阶段是连接在链末端的逆变器。专用于光伏系统的逆变器可以分为两种主要拓扑:(i)配备变压器的逆变器和(ii)没有变压器的逆变器,即所谓的无变压器逆变器(TIs)。后者被认为在能源效率和紧凑性方面效率更高。尽管具有这些性能,但在PV系统中集成ti仍存在一些缺点,例如由于缺乏电隔离而导致泄漏电流的循环。这项工作考虑了一个新的单相TI拓扑专用于光伏系统。除了其节能性能和零过零畸变外,它还具有消除漏电流的优点。接下来,分析了其工作序列,并对所提出的TI拓扑进行了仿真,以突出其有效性。
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