Title :
Interior Permanent-Magnet Synchronous Motor Design for Improving Self-Sensing Performance at Very Low Speed
Author :
Wu, Shanshan ; Reigosa, David Díaz ; Shibukawa, Yuichi ; Leetmaa, Michael A. ; Lorenz, Robert D. ; Li, Yongdong
Author_Institution :
Dept. of Electr. Eng., Tsinghua Univ., Beijing, China
Abstract :
The focus of this paper is to improve the self-sensing performance of an interior permanent-magnet synchronous machine (IPMSM) by modifying the rotor configurations. A field-intensified IPMSM (FIIPMSM) is designed by adding flux barriers in the rotor of an IPMSM. In comparison with IPMSMs, FIIPMSMs have the advantage of decoupling saturation-induced saliency, cross-coupling effects, and also secondary saliencies, which reduce the estimation accuracy of self-sensing control for IPMSMs. A finite element analysis is used to design the FIIPMSM and assess the performance of the machine for self-sensing. The self-sensing capabilities of IPMSMs and FIIPMSMs are presented and compared. The results demonstrate the improved self-sensing performance of the new field-intensified machine.
Keywords :
finite element analysis; machine theory; permanent magnet motors; rotors; synchronous motors; decoupling saturation-induced saliency; field-intensified IPMSM design; finite element analysis; flux barriers; interior permanent-magnet synchronous motor design; rotor configuration; self-sensing performance; Carrier signal injection; field-intensified permanent-magnet synchronous machines; saturation effects; self-sensing;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2009.2031861
