基于FPGA的并网afe直接模型预测功率控制

IECON 2015 - 41st Annual Conference of the IEEE Industrial Electronics Society Pub Date : 2015-11-01 DOI:10.1109/IECON.2015.7392705

Zhenbin Zhang, Hui Fang, R. Kennel

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引用次数: 12

摘要

经典直接模型预测功率控制(DMPPC)技术的单采样间隔开关矢量特性导致控制变量波动较大。因此，在采样频率相近的情况下，其稳态性能并不令人满意。本文提出了一种针对并网afe的修正直接模型预测功率控制(R-MPDPC)概念。该方法利用两个相邻的开关矢量来最小化基于时间最优概念的修正代价函数，而不是单个开关矢量，从而产生具有任意相位的合成等效电压矢量。因此，在预测控制器的设计中加入了更多的自由度和精确的跟踪可能性。所提出的控制方案在实验室构建的AFE平台上通过完全基于FPGA的解决方案实现。并将其性能与经典DMPPC进行了比较。结果表明，采用R-DMPPC方案，系统的控制性能得到了很大的提高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Fully FPGA based direct model predictive power control for grid-tied AFEs with improved performance

Single-switching-vector-per-sampling-interval character of the classical Direct Model Predictive Power Control (DMPPC) technique leads to big ripples of the control variables. Therefore, with a similar sampling frequency, its steady state performance is not satisfying. This work proposed a Revised Direct Model Predictive Power Control (R-MPDPC) concept for grid-tied AFEs. Instead of one single switching vector, two adjacent vectors are utilized to minimize a modified cost function based on time-optimal concept, which yields a synthesized equivalent voltage vector with an arbitrary phase. Therefore, more freedoms and precise tracking possibilities are included into the predictive controller design. The proposed control scheme is realized with a fully FPGA based solution on a lab-constructed AFE platform. Its performances are compared with the classical DMPPC with all experimental data. The results confirm that the control performances are greatly improved using the proposed R-DMPPC scheme.

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IECON 2015 - 41st Annual Conference of the IEEE Industrial Electronics Society

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