基于dsp的船用电流涡轮仿真器采用三相逆变器

L. Sinopoli, M. Ordonez, J. Quaicoe
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引用次数: 5

摘要

本文介绍了一种新型的基于dsp的仿真器,该仿真器采用三相电流控制逆变器来模拟海流轮机的动态特性。所提出的海流仿真器提供了一个灵活的平台,可以修改资源条件,测试涡轮机的不同参数组合,并实时监控系统变量。这些特性允许在各种操作条件和场景下模拟涡轮机的稳定和瞬态电气行为。因此,该仿真器是这一新兴的、有前途的发电技术的一个有价值的研发工具。消除机械部件和设计的简单性是所提出的体系结构的两个创新方面,引入了几个优势:低成本,免费维护,便携性和安全性(实验室环境中经常需要的特征)。给出了船舶电流仿真器的实验结果,验证了系统的有效性,并说明了驱动其输出的高带宽逆变器的工作原理。仿真器可用于尺寸分析,场地评估,测试电源转换器拓扑,并评估控制策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
DSP-based marine current turbine emulator using a 3-phase inverter
This paper introduces a novel DSP-based emulator that employs a 3-phase current controlled inverter to reproduce the dynamic behavior of marine current turbines. The proposed marine current emulator provides a flexible platform to modify the resource conditions, test different combinations of the turbine's parameters, and supervise the system variables in real time. These characteristics allow the emulation of steady and transient electrical behavior of turbines under various operating conditions and scenarios. The emulator is, therefore, a valuable R&D tool for this emerging and promising power generation technology. The elimination of mechanical parts and the simplicity of the design, two innovative aspects of the proposed architecture, introduce several advantages: low cost, free-maintenance, portability, and safety (characteristics often required in laboratory settings). Experimental results of the marine current emulator are presented to validate the system and illustrate the operation of the high-bandwidth inverter employed to drive its output. The emulator can be used for sizing analysis, site evaluation, testing power converter topologies, and evaluating control strategies.
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