Distributed control and passivity-based stability analysis for time-delayed DC microgrids

IF 2 4区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC Iet Generation Transmission & Distribution Pub Date : 2024-09-09 DOI:10.1049/gtd2.13261

Yongpan Chen, Jinghan Zhao, Keting Wan, Miao Yu

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Abstract

For cooperation among distributed generations in a DC microgrid (MG), distributed control is widely applied. However, the delay in distributed communication will result in steady-state bias and the risk of instability. This paper proposes a novel distributed control for time-delayed DC MGs to achieve accurate current proportional sharing and weighted average voltage regulation. Firstly, by utilizing an advanced observer based on the PI consensus algorithm, the steady-state bias problem is addressed. Then, using the passivity theory, stability analysis is conducted to reveal the principle of system instability caused by communication delay. On this basis, to offset the adverse effects of communication delay on the system stability, scattering transformation is introduced in the observer-based distributed control. Moreover, considering the potential delay from the measurement stage in real-life scenarios, the sufficient condition of the system stability is concluded by constructing the Lyapunov–Krasovskii functional. Finally, the performance of the proposed control and conclusions of stability analysis are verified by hardware-in-loop tests.

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针对延时直流微电网的分布式控制和基于被动性的稳定性分析

为了实现直流微电网（MG）中分布式发电之间的合作，分布式控制被广泛应用。然而，分布式通信的延迟会导致稳态偏差和不稳定风险。本文针对延时直流微电网提出了一种新型分布式控制方法，以实现精确的电流比例分摊和加权平均电压调节。首先，通过利用基于 PI 共识算法的先进观测器，解决了稳态偏差问题。然后，利用被动理论进行稳定性分析，揭示了通信延迟导致系统不稳定的原理。在此基础上，为了抵消通信延迟对系统稳定性的不利影响，在基于观测器的分布式控制中引入了散射变换。此外，考虑到现实场景中测量阶段的潜在延迟，通过构建 Lyapunov-Krasovskii 函数，得出了系统稳定性的充分条件。最后，通过硬件在环测试验证了所提出的控制性能和稳定性分析结论。

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来源期刊

Iet Generation Transmission & Distribution 工程技术-工程：电子与电气

CiteScore

6.10

自引率

12.00%

发文量

301

审稿时长

5.4 months

期刊介绍： IET Generation, Transmission & Distribution is intended as a forum for the publication and discussion of current practice and future developments in electric power generation, transmission and distribution. Practical papers in which examples of good present practice can be described and disseminated are particularly sought. Papers of high technical merit relying on mathematical arguments and computation will be considered, but authors are asked to relegate, as far as possible, the details of analysis to an appendix. The scope of IET Generation, Transmission & Distribution includes the following: Design of transmission and distribution systems Operation and control of power generation Power system management, planning and economics Power system operation, protection and control Power system measurement and modelling Computer applications and computational intelligence in power flexible AC or DC transmission systems Special Issues. Current Call for papers: Next Generation of Synchrophasor-based Power System Monitoring, Operation and Control - https://digital-library.theiet.org/files/IET_GTD_CFP_NGSPSMOC.pdf