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直接三相-单相模块化多电平矩阵变流器前馈解耦有源消弧控制方法OA

Direct Three-phase to Single-phase Modular Multilevel Matrix Converter Feedforward Decoupling Active Arc Suppression Control Method

中文摘要英文摘要

由于输入输出频率相同,直接三相-单相模块化多电平矩阵变流器(modular multilevel matrix converter,M3C)在配电网有源消弧应用中存在变量相互耦合导致子模块电容电压难以快速控制的问题,影响M3C的稳定运行与故障快速消弧.针对这一问题,提出了M3C前馈解耦有源电压消弧控制方法.首先,利用ΣΔ-αβ0坐标变换构建三相-单相直接M3C电路模型,揭示了M3C同频工况下的欠驱动特性;然后,通过注入多频组合的环流与共模电压实现完全驱动,对各桥臂平均功率进行分析,发现电容电压均衡控制系统是一个多变量耦合的多输入多输出系统.基于上述耦合关系,利用前馈解耦思想,将耦合项前馈到对应通道,使得初始的多输入多输出系统转变为多个完全解耦的单输入单输出系统,提高了均压控制系统的动态响应速度和故障电弧快速处置能力.MATLAB/Simulink仿真和硬件在环实验结果表明,配电网发生单相接地故障时,该方法能够实现M3C各桥臂电容电压快速均衡以及接地故障可靠消弧.

The direct three-phase-to-single-phase Modular Multilevel Matrix Converter(M3C)encounters challenges in rapid control of submodule capacitor voltages due to variable coupling under identical input-output frequency conditions in active arc suppression applications for distribution networks,which compromises the stable operation of M3C and its capability for rapid fault arc elimination.To address this issue,a feedforward decoupling active voltage arc suppression control method is proposed.First,a three-phase-to-single-phase direct M3C circuit model is established using ΣΔ-αβ0 coordinate transformation,revealing the underactuated characteristic of M3C under identical frequency operation.Subsequently,full actuation is achieved by injecting multi-frequency combined circulating currents and common-mode voltages.Analysis of the average power across each arm reveals that the capacitor voltage balancing control system constitutes a multivariable,coupled,multi-input,multi-output(MIMO)system.Based on the coupling relationships,the feedforward decoupling principle is applied by feeding the coupling terms into corresponding channels,thereby transforming the original MIMO system into multiple fully decoupled single-input single-output(SISO)systems.This enhancement significantly improves the dynamic response speed of the voltage balancing control system and the rapid fault arc suppression capability.MATLAB/Simulink simulations and hardware-in-the-loop(HIL)experimental results demonstrate that the proposed method effectively achieves rapid capacitor voltage balancing across all M3C arms and reliable arc suppression during single-phase grounding faults in distribution networks.

王文;童宇轩;岳雨霏;肖启龙;朱维俊;唐欣;曾祥君

电网防灾减灾全国重点实验室(长沙理工大学),湖南省长沙市 410114电网防灾减灾全国重点实验室(长沙理工大学),湖南省长沙市 410114电网防灾减灾全国重点实验室(长沙理工大学),湖南省长沙市 410114电网防灾减灾全国重点实验室(长沙理工大学),湖南省长沙市 410114电网防灾减灾全国重点实验室(长沙理工大学),湖南省长沙市 410114电网防灾减灾全国重点实验室(长沙理工大学),湖南省长沙市 410114电网防灾减灾全国重点实验室(长沙理工大学),湖南省长沙市 410114

信息技术与安全科学

有源消弧模块化多电平矩阵变流器同频变换前馈解耦控制模块电容电压均衡

active arc suppressionmodular multilevel matrix converter(M3C)same frequency transformationfeedforward decoupling controlmodule capacitor voltage balancing

《电网技术》 2026 (3)

1300-1309,中插111-中插114,14

国家自然科学基金项目(52077010,52207186,52477175)湖南省自然科学基金项目(2025JJ20052,2024JJ5016)湖南省"荷尖"科技创新人才(湖湘青年英才)支持计划项目(2022RC137)长沙市杰出创新青年培养计划项目(kq2206032).Project Supported by National Natural Science Foundation of China(52077010,52207186,52477175)Natural Science Foundation of Hunan Province(2025JJ20052,2024JJ5016)the Hunan Provincial Science and Technology Innovation Program(2022RC137)Training Program for Excellent Young Innovators of Changsha Under Award(kq2206032).

10.13335/j.1000-3673.pst.2024.2222

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