用于直流发电与交流主电网互连的电源接口上的高升压谐振型DC-DC转换器

2016 IEEE International Autumn Meeting on Power, Electronics and Computing (ROPEC) Pub Date : 2016-11-01 DOI:10.1109/ROPEC.2016.7830576

O. Miguel-Sánchez, G. A. Anaya-Ruiz, L. Zuñiga-García, L. E. Ugalde-Caballero, E. Moreno-Goytia, V. Venegas-Rebollar

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引用次数: 1

摘要

本文介绍了一种按比例缩小的先进DC-DC变换器样机的设计、仿真和实验性能。该配置使用软开关，并将谐振电路与升压转换器相结合，从而产生10和的电压增益。通过变流器的级联布置，电压增益增加到50。DC-DC变换器主要设计为换流站，作为改进的HVDC链路的一部分，将直流电源互连到交流系统中。一旦对变换器进行了数学描述，就会提出一些开环和闭环条件下的研究案例。为了确定直流输电，对改进后的直流输电线路进行了仿真——在交流侧采用21级MMC电站。最后一节给出了实验结果。基于dsp的控制在TMS320F28335中实现。

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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High-boost, resonant-type DC-DC converters at power interfaces for interconnecting DC generation to AC main grids

this paper presents the design, simulation and experimental performance of a scaled-down advanced DC-DC converter prototype. The configuration uses soft-switching and combines a resonant circuit with a boost converter resulting in a voltage-gain of 10 and. Through a cascade arrangement of converters, the voltage gain is increased to 50. The DC-DC converter is primarily designed as converter station operating as part of a modified HVDC link which interconnects DC power into the AC system. Once the converter is mathematically described, a number of cases of study for open-loop and closed-loop conditions are presented. In order to confirm the DC power transfer, the modified HVDC link -using a 21-level MMC power station at the AC-side- is simulated. The experimental results are presented at final section. The DSP-based control is implemented in the TMS320F28335.

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2016 IEEE International Autumn Meeting on Power, Electronics and Computing (ROPEC)

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