交直流微电网AC/DC双向功率变换器控制策略

焦 皎; 孟润泉; 任春光; 杜 毅

引用本文:	焦皎,孟润泉,任春光,杜毅.交直流微电网AC/DC双向功率变换器控制策略[J].电力系统保护与控制,2020,48(16):84-92.[点击复制]
	JIAO Jiao,MENG Runquan,REN Chunguang,DU Yi.Bidirectional AC/DC interlinking converter control strategy for an AC/DC microgrid[J].Power System Protection and Control,2020,48(16):84-92[点击复制]

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交直流微电网AC/DC双向功率变换器控制策略
焦皎,孟润泉,任春光,杜毅
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(太原理工大学电力系统运行与控制山西重点实验室，山西太原 030024)

摘要:

为了实现交直流混合微电网的可靠并网，基于微电网中AC/DC双向功率变换器下垂控制策略和预同步工作原理，提出一种适用于混合微电网中连接交直流子网的AC/DC双向功率变换器的控制策略。孤岛/并网模式时采用双向下垂控制实现双向功率流动。在由孤岛模式转为并网模式时，利用消除dq轴电压偏差实现幅值与相位同步，无需通过锁相环获取相位信息，实现平滑并网。同时，针对微电网中由于不平衡负载导致的三相不平衡工况，采用正负序分别控制的方法实现了非理想工况下微电网的同步互联。仿真结果验证了该方案的可行性。

关键词: 交直流混合微电网 AC/DC双向功率变换器下垂控制同步互联不平衡工况

DOI：DOI: 10.19783/j.cnki.pspc.191124

投稿时间：2019-09-16修订日期：2019-12-17

基金项目:山西省自然科学基金项目资助(201701D121134);国家自然科学基金项目资助(U1610121);山西省科技重大专项资助(20181102028)

Bidirectional AC/DC interlinking converter control strategy for an AC/DC microgrid

JIAO Jiao,MENG Runquan,REN Chunguang,DU Yi

(Shanxi Key Lab of Power System Operation and Control, Taiyuan University of Technology, Taiyuan 030024, China)

Abstract:

In order to realize the reliable grid connection of an AC/DC hybrid microgrid, a control strategy for a bidirectional AC/DC interlinking converter connected to an AC-DC subnet in a hybrid microgrid is proposed based on a droop control strategy in the microgrid and a pre-synchronization working principle. In the island/grid-connected mode, the bidirectional droop control is used to achieve bidirectional power flow. When the island mode is changed to the grid-connected mode, the amplitude and phase synchronization can be realized by eliminating the voltage deviation of the dq axis without obtaining phase information through phase-locked loop to realize smooth grid-connection. At the same time, for the three-phase unbalanced conditions caused by an unbalanced load in the microgrid, the method of positive and negative sequence control is adopted to realize the synchronous interconnection of the microgrid under non-ideal conditions. Simulation results verify the feasibility of the proposed scheme. This work is supported by Natural Science Foundation of Shanxi Province (No. 201701D121134), National Natural Science Foundation of China (No. U1610121) and Science and Technology Grant Program of Shanxi Province (No. 20181102028).

Key words: AC/DC hybrid microgrid bidirectional AC/DC interlinking converter droop control synchronous interconnection unbalanced condition

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