电船用模块化多电平变换器的极点抑制控制

C. Heising, T. Schrader, R. Bartelt, V. Staudt, A. Steimel
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引用次数: 6

摘要

在全电动船舶应用中,需要在许多兆瓦范围内的能量传输。在此范围内的最佳电网电压等级为中压,例如10kv。对于直流和交流船舶电网,电力电子转换器将发电机和负载连接到电网。在直流电网的情况下,直接连接转换器是强制性的,对于交流电网,它消除了变压器,提高了效率。这种要求最有希望的转换器类型是模块化多电平转换器(MMC)。然而,这种转换器的控制-对可操作性和稳定性至关重要-是一个挑战,特别是在动态过程中。这是由于变换器的内部单相结构造成的。本文介绍了一种适用于电动船舶的高动态MMC控制方法。它依靠极点抑制原理,提供快速、稳定和鲁棒的控制。时域控制动力学分析验证了所选方法的适用性。
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Pole-restraining control for Modular Multilevel Converters in electric-ship applications
In all-electric ship applications, energy transfer in the range of many megawatts is required. The optimal grid-voltage level in this range is medium voltage, e.g. 10 kV. For DC as well as for AC ship grids, power-electronic converters connect generators and loads to the grid. In case of a DC grid, direct connection of the converter is mandatory, for an AC grid it eliminates the transformer and increases efficiency. The most promising converter type for such requirements is the Modular Multilevel Converter (MMC). However, the control of such a converter - essential for operability and stability - is a challenge, specially during dynamics. This results from the internal single-phase structure of the converter. In this paper, a highly dynamic MMC control for electric-ship applications is introduced. It relies on the Pole-restraining principle, providing fast, stable and robust control. Time-domain analyses of the control dynamics verify the suitability of the chosen approach.
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Pole-restraining control for Modular Multilevel Converters in electric-ship applications Generic modeling and analysis framework for shipboard system design Electric generation technologies for all-electric ships with Medium-Voltage DC power distribution systems Electrical machine iron loss predictions - A unique engineering approach utilizing transient finite element methods - Part 1: Theory and calculation method Modular Multilevel Converter for propulsion system of electric ships
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