最优不对称PWM方法的实时算法研究与实现

Qin Liang, Kaipei Liu, Hui Zhang, Zhao Xiaoming
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引用次数: 0

摘要

由于工作频率很低,最优不对称PWM方法适用于需要同时控制基次和谐波的大功率场合,大大降低了开关损耗和电磁干扰。最优非对称PWM方法由于工作频率较低,需要对各个独立的开关角进行优化才能达到良好的控制效果,并且不可避免地需要在线求解非线性方程来获得开关角。结合牛顿算法和同伦算法的优势,提出了一种新的开关角在线计算算法,能有效地实现开关角在线计算,且收敛速度较快。最后,以TMS320F2812为控制核心,在实验平台上验证了切换角算法的实时性和有效性。
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Real-time algorithm research and realization of Optimal Unsymmetrical PWM method
As the work frequency is very low, the Optimal Unsymmetrical PWM Method is suitable to be applied in high-power situation requiring control of fundamental and harmonics simultaneously, which will reduce the switch loss and the EMI greatly. Because of the low work frequency, the optimal unsymmetrical PWM method requires optimizing each independent switch angle in order to achieve good control effect, and it needs to solve the nonlinear equations on-line inevitably to obtain the switch angle. A new algorithm by combining the predominance of the Newton and homotopy algorithms is proposed, which can effectively realize switch angle on-line computation with relative high convergence rate. At last, this paper validated the real-time performance and the effectiveness of the switch angle algorithms on the experimental platform with the control core of TMS320F2812.
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