An unbalanced regulation method based on the Optimized Modulation Strategy of Three-level Four-arm Inverter

2021 International Conference on Electronics, Circuits and Information Engineering (ECIE) Pub Date : 2021-01-01 DOI:10.1109/ECIE52353.2021.00023

Shengsuo Niu, Qianli Sha

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引用次数: 1

Abstract

At present, three-phase unbalanced problem exists in the low-voltage distribution network, which seriously affects the quality of power supply. To solve this problem, the research separates the unbalanced component from three-phase unbalanced current on load side, and uses the 3-Dimensional Space Vector Pulse Width Modulation (3D-SVPWM) Strategy of Three-level Four-arm Neutral-point-clamped Inverter to track and control it. To simplify the calculation process, the research proposes a 3D-SVPWM Optimized Modulation Strategy by allocating the modulation area reasonably based on the Decomposition Idea. Firstly, the spatial distribution of voltage vector of Three-level Four-arm Inverter is decomposed in an abc coordinate system which is reasonably divided into several two-level structures for further analysis. And then, the reference voltage vector is modulated by the Two-level Modulation Strategy. The result of Matlab/Simulink experiment has verified the correctness of the proposed strategy.

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基于优化调制策略的三电平四臂逆变器不平衡调节方法

目前，低压配电网中存在三相不平衡问题，严重影响了供电质量。为了解决这一问题，本研究将负载侧的不平衡分量与三相不平衡电流分离，并采用三电平四臂中性点箝位逆变器的三维空间矢量脉宽调制(3D-SVPWM)策略对其进行跟踪控制。为了简化计算过程，本研究基于分解思想，通过合理分配调制区域，提出了一种3D-SVPWM优化调制策略。首先，将三电平四臂逆变器电压矢量的空间分布分解为abc坐标系，并将其合理划分为若干两电平结构进行进一步分析。然后，采用双电平调制策略对参考电压矢量进行调制。Matlab/Simulink实验结果验证了所提策略的正确性。

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2021 International Conference on Electronics, Circuits and Information Engineering (ECIE)

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