上海交通大学学报 ›› 2023, Vol. 57 ›› Issue (7): 824-834.doi: 10.16183/j.cnki.jsjtu.2022.050

所属专题: 《上海交通大学学报》2023年“新型电力系统与综合能源”专题

• 新型电力系统与综合能源 • 上一篇    下一篇

基于预定时间一致性的直流微电网分布式协同控制

周儒畅, 王子强, 王杰()   

  1. 上海交通大学 电子信息与电气工程学院, 上海 200240
  • 收稿日期:2022-03-05 修回日期:2022-05-09 接受日期:2022-06-17 出版日期:2023-07-28 发布日期:2023-07-28
  • 通讯作者: 王杰 E-mail:jiewangxh@sjtu.edu.cn
  • 作者简介:周儒畅(1997-),硕士生,从事直流微电网控制研究.

Distributed Prescribed-Time Consensus Based Cooperative Control for DC Microgrids

ZHOU Ruchang, WANG Ziqiang, WANG Jie()   

  1. School of Electronic Information and Electrical Engineering, Shanghai Jiao Tong University, Shanghai 200240, China
  • Received:2022-03-05 Revised:2022-05-09 Accepted:2022-06-17 Online:2023-07-28 Published:2023-07-28
  • Contact: WANG Jie E-mail:jiewangxh@sjtu.edu.cn

摘要:

为解决直流微电网中分布式电源的协同控制问题,提出了一种基于预定时间一致性的微电网控制方法.首先提出一种基于预定时间控制的电流控制方法,能够实现在预先设定的时间内各分布式电源按比例输出功率,同时可以调节各分布式电源出口电压,将其恢复至额定值附近.然后通过MATLAB/Simulink建立微电网仿真系统,在不同工况下验证了所提出控制策略的有效性.最后在仿真系统中建立有限时间控制策略,并与预定时间控制策略下系统电流的电能质量与系统收敛预估时间的保守性进行比较,说明与验证了所提出的控制策略的优点.

关键词: 直流微电网, 下垂控制, 分布式控制, 二次控制, 预定时间一致性

Abstract:

A microgrid control method based on prescribed time control is proposed to solve the cooperative control problem of distributed energy resources (DER) in DC microgrid. First, a current control method based on prescribed time control is proposed, which can allocate the power output of each DER proportionally within a pre-defined time. Meanwhile, the outlet voltage of each distributed power supply can be adjusted to be near the rated value and the observation value can be kept at the rated value. Then, the microgrid system is simulated through MATLAB/Simulink and the effectiveness of the proposed control strategy is verified in different working conditions. Afterward, the finite-time control strategy is established in the simulated system. A comparison of the conservative power quality of the system current with the estimated time of system convergence in the scheduled-time control strategy verifies the advantages of the proposed strategy.

Key words: direct current (DC) microgrids, droop control, distributed control, secondary control, prescribed-time consensus

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