交直流混合微电网硬件在环仿真工作台的实现

Donghan Shi, Chi Jin, Zhe Zhang, F. Choo, L. Koh, Peng Wang
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引用次数: 3

摘要

本文介绍了交直流混合微电网半在环仿真(HIL)工作台的实现。交直流混合微电网将交直流系统中的分布式电源和负载直接集成到各自的链路上。直流系统包括升压变换器光伏阵列、双向DC/DC变换器电池和直流负载。交流电网包括柴油发电机和常规交流负荷。在交流和直流电网之间,采用四象限三相工作变换器,它既可以作为逆变器,也可以作为整流器,以保持两个系统之间的功率平衡。采用Opal-RT实时仿真器对混合微电网的动力单元进行了仿真,控制单元在TI TMS320F28335 dsp上实现。该硬件在环仿真工作台为微电网系统级控制算法的设计与验证提供了良好的平台。为以后的功率级半实物仿真奠定了基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Implementation of hardware-in-the-loop simulation workbench for a hybrid AC/DC microgrid
This paper presents the implementation of a hardware-in-the-loop simulation (HIL) workbench for hybrid AC/DC micro grid. The hybrid AC/DC micro grid integrates both distributed sources and loads in AC/DC systems to respective links directly. For DC system, photovoltaic arrays with boost converter (PVBC), battery with bi-directional DC/DC converter and DC loads are covered. Diesel generator (DGs) and conventional AC loads are included in AC grid. Between AC and DC girds, a four-quadrant operating three phase converter is applied which can act as either an inverter or a rectifier to maintain power balance between two systems. The power units of this hybrid micro grid are simulated with Opal-RT real-time simulator while the control units are implemented on TI TMS320F28335 DSPs. This hardware-in-the-loop simulation workbench offers a good platform for system level control algorithm design and verification in micro grid. And it serves as a basis for future power-hardware-in-the-loop simulation (PHIL) with power stage involved.
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