电网电压不平衡情况下并网混合模块化多电平变换器的控制方案

R. Behera, A. Thakur
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引用次数: 0

摘要

针对最近提出的基于混合模块多电平变换器(HMMC)的并网系统,提出了一种有限控制集预测电流控制(FCS-PCC)方案。与传统的模块化多电平转换器(MMC)以及其他多电平拓扑结构相比,HMMC具有几个优点。与传统的MMC相比,这种拓扑结构减少了开关数量,消除了循环电流问题,并具有更高的效率。所需的子模块(SM)数量是传统MMC的一半,以及每个相位一个H桥电路。本文分析了FCS-PCC的实功率和无功功率控制,并采用三次谐波注入法解决了交流侧电网不平衡问题。在电网侧电压不平衡时,存在着每相变流器与电网交换功率不相等的问题,需要采取适当的控制方法加以解决。本研究提出了一种方法,将给定的参考电流信号加或减一定数量的三次谐波分量,使电网电流保持在期望的水平。提出了整个概念,并在MATLAB/Simulink环境下进行了仿真研究,结果支持了所描述的概念。
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A control scheme for grid-tied hybrid modular multilevel converter under grid voltage unbalance
This paper presents a finite-control-set predictive current control (FCS-PCC) scheme for the recently proposed hybrid modular multilevel converter (HMMC)-based grid connected system. The HMMC has several advantages over the conventional modular multilevel converter (MMC) as well as other multilevel topologies. This topology has reduced number of switch counts compared to the conventional MMC, eliminates the problem of circulating current and having higher efficiency. The required number of sub-modules (SM) is half of the conventional MMC, along with an H bridge circuit per phase. This paper analyses the real and reactive power control through FCS-PCC and addresses the AC side grid unbalance by third harmonics injection method. During grid side voltage unbalance, there is a problem of the unequal amount of power exchange between per-phase converter and grid, which needs to be taken care of with an appropriate control method. This study proposed a method to add or subtract an amount of third harmonic component with the reference current signal given to the predictive controller to maintain the grid current at the desired level. The whole concept has been presented along with a simulation study in MATLAB/Simulink environment and the results are presented in support of the described concept.
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来源期刊
International Journal of Power and Energy Conversion
International Journal of Power and Energy Conversion Energy-Energy Engineering and Power Technology
CiteScore
1.60
自引率
0.00%
发文量
8
期刊介绍: IJPEC highlights the latest trends in research in the field of power generation, transmission and distribution. Currently there exist significant challenges in the power sector, particularly in deregulated/restructured power markets. A key challenge to the operation, control and protection of the power system is the proliferation of power electronic devices within power systems. The main thrust of IJPEC is to disseminate the latest research trends in the power sector as well as in energy conversion technologies. Topics covered include: -Power system modelling and analysis -Computing and economics -FACTS and HVDC -Challenges in restructured energy systems -Power system control, operation, communications, SCADA -Power system relaying/protection -Energy management systems/distribution automation -Applications of power electronics to power systems -Power quality -Distributed generation and renewable energy sources -Electrical machines and drives -Utilisation of electrical energy -Modelling and control of machines -Fault diagnosis in machines and drives -Special machines
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