A Verification of Improved Distributed Control in DC Microgrid based on Hardware-in-the-loop Simulation

2018 Asian Conference on Energy, Power and Transportation Electrification (ACEPT) Pub Date : 2018-10-01 DOI:10.1109/ACEPT.2018.8610845

Dong-hyun Lim, Byoung-Sun Ko, Rae-Young Kim

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引用次数: 2

Abstract

An improved distributed control is proposed for enhancing a flexibility of changing the control strategy depending on the dc microgrid situation. The conventional distributed control has the limitation of changing control strategy because of its control method. In the proposed control method, a local controller of conventional distributed control divided into two layers. First, the local layer performs inner voltage and current loops. Second, the flexible layer performs the primary and secondary control. Since the flexible layer performs most of the control for operating dc microgrid, the control strategy can be changed easily by changing the primary and secondary control in this layer. Moreover, the burden of data processing at the local controller is reduced through the flexible layer of the proposed method. Therefore, it becomes easy to manufacture converters in multi-vendor without control platform standardization. The experimental results based on Typhoon HIL 402 are presented to demonstrate the proposed approach.

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基于硬件在环仿真的改进直流微电网分布式控制验证

提出了一种改进的分布式控制方法，提高了控制策略随直流微网情况变化的灵活性。传统的分布式控制由于其控制方式的限制，存在控制策略变化的局限性。在本文提出的控制方法中，局部控制器将传统的分布式控制分为两层。首先，本地层执行内部电压和电流循环。其次，柔性层执行主要和次要控制。由于柔性层对直流微电网的运行进行了大部分控制，因此通过改变柔性层的主、次控制，可以很容易地改变控制策略。此外，通过该方法的柔性层，减少了局部控制器的数据处理负担。因此，在没有控制平台标准化的情况下，多厂商制造变换器变得很容易。基于台风HIL 402的实验结果验证了所提出的方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 Asian Conference on Energy, Power and Transportation Electrification (ACEPT)

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