Unbalanced Load Modeling and Control in Microgrid with Isolation Transformer

2021 International Conference on Electrical Drives & Power Electronics (EDPE) Pub Date : 2021-09-22 DOI:10.1109/EDPE53134.2021.9604101

Hao Jiang, S. Cao, C. B. Soh, Feng Wei

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引用次数: 2

Abstract

Renewables and energy storage rely heavily on power electronics. The control of power electronics in a microgrid with renewables and energy storages become more challenging under unbalanced load operation condition. The unbalance in current magnitude and phase will cause ripples in normal dq0 conversion, further causing voltage unbalance in the power converter current control loop. In this paper, a simulation test microgrid is studied as a good representation of a practical microgrid with local ancillary single loads. The double second-order generalized integrator-phase lock loop (DSOGI-PLL) technique for frequency and phase angle detection is modified to address the unbalanced current issue due to local single-phase load connected through an isolation transformer. The proposed method is verified through software simulation in both grid-connected and islanded modes. From the result, the modified DSOGI method proves to be a viable technique for improving power converter current control loop performance under single load or unbalanced load.

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带隔离变压器的微电网不平衡负荷建模与控制

可再生能源和能源储存严重依赖电力电子设备。在不平衡负荷运行条件下，具有可再生能源和储能的微电网的电力电子控制变得更加具有挑战性。电流大小和相位的不平衡会在正常的dq0转换中引起波纹，进而引起功率变换器电流控制回路中的电压不平衡。本文研究了一个具有局部辅助单负荷的实际微电网的模拟试验。改进了双二阶广义积分器锁相环(DSOGI-PLL)频率和相角检测技术，以解决局部单相负载通过隔离变压器连接而引起的电流不平衡问题。通过软件仿真验证了该方法在并网模式和孤岛模式下的有效性。结果表明，改进的DSOGI方法是改善单负载或不平衡负载下功率变换器电流控制回路性能的可行方法。

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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来源期刊

2021 International Conference on Electrical Drives & Power Electronics (EDPE)

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