嵌入式VSC-MTDC网络中补充阻尼控制器的设计与布置

2017 IEEE PES Innovative Smart Grid Technologies Conference Europe (ISGT-Europe) Pub Date : 2017-09-01 DOI:10.1109/ISGTEurope.2017.8260282

O. Kotb, M. Ghandhari, J. Renedo, L. Rouco, R. Eriksson

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引用次数: 6

摘要

本文研究了嵌入式VSC-MTDC网络中功率振荡阻尼(POD)控制器的优化布局和设计。由于VSC-MTDC网络有望在交流电网互连中发挥重要作用，因此越来越需要优化MTDC变流器中补充控制器的放置和设计，以使其对连接的交流系统的效益最大化。在对系统进行小信号稳定性分析的基础上，根据弱阻尼振荡模态的特征值灵敏度选择阻尼控制器在MTDC网络中的位置。另一方面，阻尼控制器的设计基于模态线性二次高斯(MLQG)控制，采用广域测量信号(WAMS)。结果表明，该控制器能够在扰动情况下增强系统的阻尼，并通过增强区域间模态的阻尼来提高小信号的稳定性。

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On the design and placement of a supplementary damping controller in an embedded VSC-MTDC network

This paper investigates the optimal placement and design of a Power Oscillation Damping (POD) controller within an embedded VSC-MTDC network. As VSC-MTDC networks are expected to play an eminent role in interconnecting AC grids, there is a growing need to optimize the placement and design of supplementary controllers in the MTDC converters, in order to maximize their benefit to the connected AC systems. Based on small signal stability analysis of the system, the location of damping controller within the MTDC network is selected according to the eigenvalue sensitivity of poorly damped oscillatory modes. On the other hand, the design of the damping controller is based on Modal Linear Quadratic Gaussian (MLQG) control that uses Wide Area Measurement Signals (WAMS). The results show the ability of the controller to enhance the damping in the system in case of disturbances, as well as to improve the small signal stability by boosting the damping of inter-area modes.

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2017 IEEE PES Innovative Smart Grid Technologies Conference Europe (ISGT-Europe)

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