Hybrid Inverter Zeta-Ćuk for Grid-Tied Photovoltaic Applications

IF 3.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE open journal of power electronics Pub Date : 2025-06-03 DOI:10.1109/OJPEL.2025.3576296

Anderson A. Dionizio;Leonardo P. Sampaio;Sérgio A. O. da Silva;Vítor Monteiro;João L. Afonso

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Abstract

This paper proposes a novel single-phase integrated inverter for photovoltaic (PV) applications called Hybrid Inverter Zeta-Ćuk (HIZC). The HIZC operates in discontinuous conduction mode and employs four unidirectional power switches, which are achieved by associating series power diodes to MOSFETs. In addition, during the grid’s positive half-cycle, the inverter acts similarly to the Zeta converter. On the other hand, during the negative half-cycle, the inverter operates similarly to the Ćuk converter. Due to the adopted design criteria, the Zeta and the Ćuk operation modes show similar behavior. The small-signals analysis considers the Zeta and Ćuk operation modes, showing a significant similarity between their frequency responses, proofing the similarity of the HIZC’s functionality in both operation modes. The HIZC can boost the voltage of the PV array and perform the DC-AC conversion at the same time. The maximum power available at the PV array is harvested using a multi-loop control in conjunction with the perturb-and-observe algorithm, while an AF-αβ-PLL system guarantees synchronism with the power grid. Experimental results prove the structure feasibility of the proposed topology for PV applications. In addition, the HIZC presents high-efficiency conversion and also low total harmonic distortion in the current injected into the power grid.

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并网光伏应用的混合逆变器Zeta-Ćuk

本文提出了一种新型的用于光伏（PV）应用的单相集成逆变器，称为混合逆变器Zeta-Ćuk （HIZC）。HIZC工作在不连续导通模式下，采用四个单向功率开关，通过将串联功率二极管与mosfet相关联来实现。此外，在电网的正半周期，逆变器的行为类似于Zeta转换器。另一方面，在负半周期期间，逆变器的操作类似于Ćuk转换器。由于采用了设计准则，Zeta和Ćuk运行模式表现出相似的行为。小信号分析考虑了Zeta和Ćuk工作模式，显示了它们的频率响应之间的显著相似性，证明了HIZC在两种工作模式下的功能相似性。HIZC可以在提高光伏阵列电压的同时进行直流-交流转换。光伏阵列上可用的最大功率是通过多环控制与摄动-观察算法相结合来获取的，而AF-αβ-PLL系统则保证了与电网的同步。实验结果证明了该拓扑结构在光伏应用中的可行性。此外，在注入电网的电流中，HIZC具有高效率的转换和低的总谐波畸变。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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