Affiliation:
1. School of Electrical and Information Engineering Zhengzhou University Zhengzhou China
2. Henan Engineering Research Center of Power Electronics and Energy Systems Zhengzhou China
3. Avic Xinxiang Aviation Industry (Group) CO., LTD Xinxiang China
4. State Grid Hubei Technology Training Center Wuhan China
Abstract
SummaryNonagonal Modular Multilevel Converter (MMC) is a new type of three‐port AC‐AC converter suited for applications in FFTS‐based offshore wind power. It can accommodate three AC ports with only nine branches, greatly reducing the cost and size of energy conversion. However, the multiplexing structure of nonagonal MMC inevitably increases the peak branch current resulting in high semiconductor ratings, which weakens its advantage in cost and size. Since the control degrees of freedom are reduced, traditional current attenuation methods are not applicable. To address this issue, in this paper, a parameter adjustment method is proposed for nonagonal MMC to reduce the current stress. By establishing the mathematical model of nonagonal MMC, phase angle difference between ports of nonagonal MMC is proved to be a key influencing factor of peak branch current. By adjusting phase angle difference, the average current stress of nonagonal MMC can be reduced by as great as 66.31%. Finally, the correctness of the conclusions of this paper is verified by RT‐LAB results.
Funder
National Natural Science Foundation of China