基于MTPA和转矩脉动最小化的永磁同步电机有限控制集预测直接转矩控制

Qian Liu, K. Hameyer
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引用次数: 11

摘要

提出了一种基于李雅普诺夫有限控制集模型的永磁同步电机直接转矩预测控制方法。在该控制方案中,将有限控制集预测和李雅普诺夫理论相结合以最小化转矩脉动。利用2电平变换器的8个电压矢量作为有限控制集进行永磁同步电机的转矩预测。引入了考虑转矩误差、最大转矩每安培(MTPA)运行和电流限制的成本函数。与传统的有限控制集预测控制相比,利用代价函数的主导部分作为李雅普诺夫函数来估计每个电压矢量的占空比。由8个矢量及其占空比得到的最优电压矢量可得到最优电压。与传统的有限集模型预测控制相比,可以实现小采样频率和固定开关频率。最后,仿真和实验结果验证了所提控制方案的有效性。
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A finite control set model predictive direct torque control for the PMSM with MTPA operation and torque ripple minimization
In this paper, a Lyapunov based finite control set model predictive direct torque control for the permanent magnet synchronous machine (PMSM) is proposed. In the proposed control scheme, the finite control set prediction and the Lyapunov theory are combined to minimize the torque ripple. The 8 voltage vectors of the 2-level converter are utilized as a finite control set for the torque prediction of the PMSM. A cost function considering the torque error, the Maximum Torque per Ampere (MTPA) operation and the current limitation is introduced. Comparing to the conventional finite control set predictive control, the dominant part of the cost function is utilized as a Lyapunov function to estimate the duty cycle of each voltage vector. An optimum voltage can be obtained by the optimum voltage vector from the 8 vectors and their duty cycles. A small sampling frequency and a fixed switching frequency can be realized when compared to the conventional finite set model predictive control. In the end, the simulation and experimental results validate the performance of the proposed control scheme.
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