This article presents new stator resistance (${\boldsymbol{\text R}}_{s}$) estimation techniques for a vector-controlled permanent magnet synchronous motor (PMSM) drive. These techniques give the indirect measurement of the temperature rise in… Click to show full abstract
This article presents new stator resistance (${\boldsymbol{\text R}}_{s}$) estimation techniques for a vector-controlled permanent magnet synchronous motor (PMSM) drive. These techniques give the indirect measurement of the temperature rise in the stator. An accurate estimation of the ${\boldsymbol{\text R}}_{s}$ will help in the condition monitoring of the PMSM machine. The various ${\boldsymbol{\text R}}_{s}$ estimation techniques proposed in this article are formulated using the model reference adaptive system (MRAS). Out of the various methods proposed, $Þ^{*} - {\rm{MRAS}}$ performs better than the remaining stator resistance estimation techniques since this is independent of the integrator, differentiator, and speed; offers robust and dynamic performance in all four modes of operation, including zero speed. The stability and sensitivity analysis is further carried out to ensure the robustness of the proposed estimation techniques. The proposed stator resistance estimation techniques are simulated in MATLAB/Simulink and experimentally validated through a dSPACE-1104-based laboratory prototype.
