A Simplified Model Predictive Current Control Strategy for Six-phase Hbridge Inverters

IF 0.6 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC Recent Advances in Electrical & Electronic Engineering Pub Date : 2023-10-06 DOI:10.2174/0123520965260939230928070008
Wenbao Hou, Gang Zhang, Wenjie Wang
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引用次数: 0

Abstract

Background:: The double-end H-bridge inverters can realize independent control of the stator voltage in each phase and have flexible advantages of modulation and fault tolerance; thus, they are more suitable for multi-phase fault-tolerant motor drives. However, due to the increase of voltage vectors and the coupling between the electromagnetic and non-electromagnetic quantities, the normal control strategies for traditional three-phase motor drives do not work anymore. Objective:: This paper aimed to propose a simplified model predictive current control strategy based on the vector space decomposition (VSD) and the vectors’ gradual simplification for the three-level six-phase H-bridge inverters. Methods:: Firstly, the 729 physical variables were decomposed and mapped onto the fundamental αβ subspace, harmonic xy subspace, and the zero-sequence o1o2 subspace based on the VSD. Then, to eliminate the influence of the harmonic and zero-sequence components on the control performance and make an easy digital implementation, vectors’ simplification has been proposed based on the in-depth analysis of the relationship between the voltage vectors mapped onto different subspaces and vectors’ stratification. With the simplification method, the number of voltage vectors was simplified from 729 to 12, and then the selected voltage vectors were used in the rolling optimization of the model predictive current control (MPCC) to choose the optimal one. Finally, sufficient experiments were carried out including static and dynamic conditions, different modulation index and power factor, etc., to verify the feasibility of the proposed strategy. Results:: The simulation and experimental results show that with the simplified MPCC strategy, both the static and dynamic performances are relatively good, and the THDs of the phase current under different modulations and power factors are relatively low. result: The simulation and experimental results show that with the simplified MPCC strategy, both the static and dynamic performances are relatively nice, the THDs of the phase current under different modulations and power factors are relatively low. Conclusion:: The proposed MPCC algorithm for the three-level six-phase H-bridge inverters has shown obvious improvement in solving the control problems of multi-vectors and complex redundancy issues. other: to eliminate the influence of the harmonic and zero-sequence components on the control performance and make an easy digital implementation, vectors simplification has been proposed based on the in-depth analysis of the relationship between the voltage vectors mapped onto different subplaces and vectors stratification.
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六相桥式逆变器的简化模型预测电流控制策略
背景:双端h桥逆变器可以实现对定子各相电压的独立控制,具有调制灵活、容错等优点;因此,它们更适合于多相容错电机驱动。然而,由于电压矢量的增加以及电磁量与非电磁量之间的耦合,传统三相电机驱动的常规控制策略已不再适用。目的:针对三电平六相h桥逆变器,提出一种基于矢量空间分解(VSD)和矢量逐步简化的简化模型预测电流控制策略。方法:首先,将729个物理变量分解并映射到基于VSD的基αβ子空间、调和xy子空间和零序o1o2子空间上。然后,为了消除谐波分量和零序分量对控制性能的影响,使其易于数字化实现,在深入分析映射到不同子空间的电压矢量与矢量分层关系的基础上,提出了矢量化简方法。通过简化方法,将电压矢量从729个简化为12个,然后将所选电压矢量用于模型预测电流控制(MPCC)的滚动优化,选择最优电压矢量。最后,进行了静态和动态条件、不同调制指数和功率因数等实验,验证了所提策略的可行性。结果:仿真和实验结果表明,简化后的MPCC策略具有较好的静态和动态性能,并且在不同调制方式和功率因数下相电流的THDs较低。结果:仿真和实验结果表明,简化后的MPCC策略具有较好的静态和动态性能,不同调制方式和功率因数下的相电流THDs相对较低。结论:本文提出的三电平六相h桥逆变器的MPCC算法在解决多矢量控制问题和复杂冗余问题方面有明显的改进。其他:为了消除谐波分量和零序分量对控制性能的影响,便于数字化实现,在深入分析映射到不同代位的电压矢量之间的关系和矢量分层的基础上,提出了矢量简化。
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来源期刊
Recent Advances in Electrical & Electronic Engineering
Recent Advances in Electrical & Electronic Engineering ENGINEERING, ELECTRICAL & ELECTRONIC-
CiteScore
1.70
自引率
16.70%
发文量
101
期刊介绍: Recent Advances in Electrical & Electronic Engineering publishes full-length/mini reviews and research articles, guest edited thematic issues on electrical and electronic engineering and applications. The journal also covers research in fast emerging applications of electrical power supply, electrical systems, power transmission, electromagnetism, motor control process and technologies involved and related to electrical and electronic engineering. The journal is essential reading for all researchers in electrical and electronic engineering science.
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