A High Step-Up Z-Source DC-DC Converter for Integration of Photovoltaic Panels into DC Microgrid

Ramin Rahimi, Saeed Habibi, P. Shamsi, M. Ferdowsi
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引用次数: 14

Abstract

This paper presents a Z-source-based high step-up DC-DC converter that benefits from high voltage gain, low voltage stress on the semiconductor devices and the capacitors. The switched-capacitor cells are integrated with the conventional Z-source impedance network resulting in a new high step-up DC-DC converter. The proposed converter is suitable for photovoltaic (PV) applications where PV panels are linked to a 400 V DC bus in a DC microgrid. The proposed converter reduces the voltage stress on the diodes and the power switch to less than half the output voltage and achieves a high-voltage gain without imposing a limitation on the duty cycle and requiring a large number of components. The operating principles, the steady-state analysis, and a comparison with other similar high step-up DC-DC converters are presented. The simulation and experimental results validate the performance and the applicability of the proposed converter.
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用于光伏板集成到直流微电网的高升压z源DC-DC变换器
本文提出了一种基于z源的高升压DC-DC变换器,该变换器具有高电压增益、对半导体器件和电容器施加低电压应力的优点。开关电容单元与传统的z源阻抗网络集成,形成了一种新的高升压DC-DC转换器。所提出的转换器适用于光伏(PV)应用,其中PV板连接到直流微电网中的400v直流母线。所提出的转换器将二极管和电源开关上的电压应力降低到输出电压的一半以下,并且在不限制占空比和需要大量元件的情况下实现高电压增益。介绍了其工作原理、稳态分析以及与同类高升压DC-DC变换器的比较。仿真和实验结果验证了该变换器的性能和适用性。
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