Permanent Magnet Temperature Estimation for PMSMs Using Virtual Position-Offset Injection

Beichen Ding;Yuting Lu;Kaide Huang;Guodong Feng;Chunyan Lai
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Abstract

This paper proposes a virtual position-offset injection based permanent magnet temperature estimation approach for permanent magnet synchronous machines (PMSMs). The concept of virtual position-offset injection is mathematically transforming the machine model to a virtual frame with a position-offset. The virtual frame temperature estimation model is derived to calculate the permanent magnet temperature (PMT) directly from the measurements with computation efficiency. The estimation model involves a combined inductance term, which can simplify the establishment of saturation compensation model with less measurements. Moreover, resistance and inverter distorted terms are cancelled in the estimation model, which can improve the robustness to the winding temperature rise and inverter distortion. The proposed approach can achieve simplified computation in temperature estimation and reduced memory usage in saturation compensation. While existing model-based approaches could be affected by either the need of resistance and inverter information or complex saturation compensation. Experiments are conducted on the test machine to verify the proposed approach under various operating conditions.
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利用虚拟位置偏移注入估算 PMSM 的永磁体温度
本文针对永磁同步电机(PMSM)提出了一种基于虚拟位置偏移注入的永磁温度估算方法。虚拟位置偏移注入的概念是通过数学方法将机器模型转换为具有位置偏移的虚拟框架。虚拟框架温度估算模型可直接从测量结果中计算出永磁温度(PMT),计算效率高。该估算模型包含一个组合电感项,可简化饱和补偿模型的建立,减少测量次数。此外,估算模型中取消了电阻项和逆变器失真项,从而提高了对绕组温升和逆变器失真的鲁棒性。建议的方法可以简化温度估计的计算,减少饱和补偿的内存使用。而现有的基于模型的方法可能会因为需要电阻和逆变器信息或复杂的饱和补偿而受到影响。我们在测试机上进行了实验,在各种工作条件下验证了所提出的方法。
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