基于参考电压修正的双级矩阵变换器Delta-Sigma调制

doi:10.19595/j.cnki.1000-6753.tces.230306

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摘要 Delta-Sigma调制（DSM）可在无需随机过程统计特性和复杂谐波理论分析的基础上,依托其过采样特性实现电力电子变换器变频调制。双级矩阵变换器（TSMC）作为一种理想的“全硅”交-交变换器,若能够将DSM引入TSMC,可进一步优化其电磁干扰（EMI）水平和运行效率,但TSMC的直流链电压波动问题导致TSMC-DSM策略难以直接实现。针对TSMC-DSM实现问题,该文提出一种基于参考电压修正的DSM策略。在所提方法中,通过解析TSMC整流级调制过程,将逆变级参考电压按照整流级矢量作用顺序进行修正,并依次获得各扇区参考电压修正系数。最后,在两相坐标系下分别构建两个DSM调制器,并将修正后的逆变级电压参考值引入DSM调制器以实现高性能TSMC-DSM策略。实验结果表明,所提策略能够对输出电压、电流频谱进行合理整形以减少系统对外部的电磁干扰,同时具备优良的电压传输比和动态调制性能。

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关键词 ：双级矩阵变换器, Delta-Sigma调制器, 电压传输比, 双空间矢量调制

Abstract：A two-stage matrix converter (TSMC) has the advantages of a conventional matrix converter, such as no DC-bus capacitance, flexible energy control, and a compact structure. Moreover, it simplifies the modulation process while avoiding the complex four-step commutation mechanism of direct matrix converters, becoming a potential power electronics topology. Currently, the voltage transfer ratio of TSMC using the classical method cannot exceed 0.866, and the electromagnetic noise caused by voltage harmonic near the switching frequency is relatively concentrated. According to the specific mathematical laws, the spread spectrum modulation technology transforms PWM waveforms into irregular pulse sequences. It improves the voltage transfer ratio and expands the output voltage spectrum to a wider range, thereby reducing output harmonics and electromagnetic noise. However, TSMC has a large number of power switches, and its switching coordination between the rectifier and inverter stage is complex. There are still many key issues to be addressed in the spread spectrum modulation technology of TSMC.
Considering the simple structure and without complex random statistical characteristics, Delta-Sigma modulation (DSM) can significantly optimize the output spectrum, reduce the EMI level, and optimize the operational efficiency of the power converter. However, the modulation strategy of TSMC can be divided into rectifier-stage algorithms and inverter-stage algorithms. The absence of a DC-link capacitor of TSMC leads to fluctuations in DC-link voltage. The DSM of the inverter stage cannot accurately quantify and track the fluctuation patterns of DC-link voltage, making it difficult for TSMC to directly implement DSM in the inverter stage.
This paper proposes a DSM scheme with reference voltage correction (RVC-DSM). Firstly, the operation principle of DSM indicates that as the order L of DSM increases, the suppression effect on low-frequency harmonics of voltage is better, and the modulator resolution is significantly improved. Specifically, the DSM resolution is increased by L+0.5 bits when its operating frequency is doubled. Then, to ensure the voltage utilization of TSMC, the rectifier stage still adopts SVM without zero-vector, and DSM is only employed on the inverter stage to achieve spread spectrum modulation. Meanwhile, limiting the switching frequency for switching loss reduction and solving the problem of voltage tracking are necessary. This paper utilizes the “Voronoi quantizer”, shaped like a Voronoi diagram as the vector partitioning rule, to implement the DSM strategy of TSMC. Finally, combined with the modulation target, the compensation coefficients of the DSM under different DC-link voltages are obtained by analyzing the DC-link voltage fluctuation in different sectors. Furthermore, the compensation coefficients are allocated to the reference voltage in real-time to eliminate the impact of DC-link voltage fluctuations on DSM, achieving efficient spread spectrum modulation of TSMC.
Experiments were carried out on the platform with a dual-core controller of “FPGA+DSP” to verify the proposed RVC-DSM. The experimental results show that the harmonics originally related to the switching frequency (5 kHz, 10 kHz, …) under SVM modulation have been suppressed, and this part of harmonic energy has been extrapolated to the high-frequency band. The low-pass characteristics of the inductance load effectively reduce the conducted interference of TSMC in the 0~30 MHz band. At the same time, RVC-DSM directly employs the basic voltage vector of the inverter stage, ensuring good operating performance in the over- modulation region. Finally, benefiting from its spectrum-shaping effect, the operational efficiency of the RVC-DSM strategy is much higher than that of the SVM strategy.
The following conclusions can be drawn through theoretical analysis and experimental verification. (1) By utilizing the spectrum shaping ability of the RVC-DSM modulator, the high-frequency harmonics near switching frequencies and its octave components are significantly reduced. (2) RVC-DSM can directly use the basic vector of the inverter stage. Its theoretical limit voltage transmission ratio fluctuates between 1.0 and 1.155, improving the TSMC voltage transmission ratio. (3) The switching frequency of RVC-DSM is directly related to its control period. By adopting a shorter control period, the tracking performance of the algorithm is better, and EMI can be improved significantly.

Key words： Two stage matrix converter Delta-Sigma modulation voltage transmission ratio dual space vector modulation

收稿日期: 2023-03-16 出版日期: 2024-06-07

PACS:

TM921

基金资助:国家自然科学基金资助项目（52377066, 51777135, 51907142）

通讯作者: 史婷娜女,1969年生,博士,教授,博士生导师,主要研究方向为电机及其控制。E-mail: tnshi@zju.edu.cn

作者简介: 周湛清男,1989年生,博士,副教授,硕士生导师,研究方向电机系统设计与智能控制。E-mail: zhzhq@tju.edu.cn

引用本文:

周湛清, 谢琦坤, 马朝磊, 薛凌月, 史婷娜. 基于参考电压修正的双级矩阵变换器Delta-Sigma调制[J]. 电工技术学报, 2024, 39(10): 3070-3081. Zhou Zhanqing, Xie Qikun, Ma Chaolei, Xue Lingyue, Shi Tingna. Delta-Sigma Modulation of Two Stage Matrix Converter with Reference Voltage Correction. Transactions of China Electrotechnical Society, 2024, 39(10): 3070-3081.

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