采用数字霍尔位置传感器的永磁同步电机驱动，适用于轻型电动汽车应用

2015 9th International Symposium on Advanced Topics in Electrical Engineering (ATEE) Pub Date : 2015-05-07 DOI:10.1109/ATEE.2015.7133764

L. Kreindler, I. Iacob, G. Casaru, A. Sarca, R. Olteanu, D. Matianu

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引用次数: 5

摘要

本文提出了一种采用数字霍尔位置传感器的永磁同步电机的实际解决方案。提出了一种改进的电角估计方法，该方法基于速度估计和特定的校正算法。速度估计以“移动平均”的方式实现，并在每个霍尔过渡中获得最后一个电周期运动。这消除了与霍尔错位和错位相关的问题，同时仍然保持了估计过程的60度升级率。根据每次霍尔变换检测到的角度误差，对位置角度估计进行逐步修正。第二相位校正在更高的速度下很重要，用于补偿霍尔转换和执行矢量控制算法的实时中断控制程序之间的延迟。在5kW (48V, 100Arms)三相DSP控制驱动器上进行了实验，并成功验证了所提出的解决方案。

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PMSM drive using digital hall position sensors for light EV applications

The paper proposes a practical solution for a permanent magnet synchronous motor (PMSM) using digital Hall position sensors. An improved estimation method for the electrical angle is used, based on a speed estimate and a specific correction algorithm. The speed estimation is implemented in a “moving average” manner and is obtained at each Hall transition, for the last electrical period movement. This eliminates problems associated to Hall misalignment and misplacement, while still keeping a 60-degree upgrade rate for the estimation process. The position angle estimate is also gradually corrected based on the angle error detected at each Hall transition. A second phase correction, important at higher speeds, is used to compensate delays between Hall transition and the real-time interrupt control routine performing the vector control algorithm. Experimental results obtained on a 5kW (48V, 100Arms) three-phase, DSP controlled drive are presented and successfully validate the proposed solution.

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来源期刊

2015 9th International Symposium on Advanced Topics in Electrical Engineering (ATEE)

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