交流微电网成网型变流器解耦与再同步

2022 IEEE International Autumn Meeting on Power, Electronics and Computing (ROPEC) Pub Date : 2022-11-09 DOI:10.1109/ROPEC55836.2022.10018617

A. J. T. G. De Raul, A. Maldonado, Perez R. Javier, A. Jose

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引用次数: 1

摘要

微电网的运行模式分为并网模式(Grid-Tied Mode)和孤岛模式(孤岛模式)。然而，从GTM到ISM (GTM-ISM)和从ISM到GTM (ISM-GTM)的转换是目前研究的运行模式。为了正确执行GTM-ISM和ISM-GTM，本文提出了孤岛检测算法(IDA)和电网同步算法(GSA)。IDA和GSA的发展是基于DQ转换和IEEE 1547标准。IDA和GSA作为辅助控制层一起工作，向主控制层提供同步信号。结果表明，该栅格成形型变换器(GFTC)具有正确的IDA和GSA性能，能够正确地执行GTM-ISM和ISM-GTM。这是可能的，因为级联控制方案出色地执行任务，如:提取主电源，给电池充电，调节直流母线电压，同步和调节GFTC输出电压。

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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Grid-Forming Type Converter Decoupling and Resynchronization for an AC Microgrid

The Microgrid (MG) operating modes are Grid-Tied Mode (GTM) and Islanded Mode (ISM). However, the transitions from GTM to ISM (GTM-ISM) and from ISM to GTM (ISM-GTM) are currently studied as operation modes. To correctly perform GTM-ISM and ISM-GTM, in this paper an Islanding Detection Algorithm (IDA) and Grid-Synchronization Algorithm (GSA) are developed. The development of IDA and GSA is based on the DQ transformation and the IEEE 1547 Standard. Both IDA and GSA operate together as a secondary control level to provide synchronizing signals to the primary control level. The results show a correct IDA and GSA performance, which allowed the Grid-Forming Type Converter (GFTC) to be capable of carrying out both GTM-ISM and ISM-GTM, correctly. This is possible because of the cascade control schemes outstandingly perform tasks such as: to extract mains power, to charge the battery, to regulate the DC bus voltage, and to synchronize and to regulate the GFTC output voltage.

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2022 IEEE International Autumn Meeting on Power, Electronics and Computing (ROPEC)

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