Thermal Analysis of Five-Phase PMSG for Small-Scale Wind Power Application

Abstract: Unlike the conventional three-phase PMSG, the five-phase PMSG has a higher power density. This paper presents a lumped parameter thermal model of Five-Phase Permanent Magnet Synchronous Generator (FP-PMSG) for small-scale Wind Energy Conversion (WEC) system. The purpose of this thermal analysis is to use it for the optimal selection of various materials required for development of FP-PMSG. Two methods, namely Finite Element Method (FEM) and Lumped Parameter Model (LPM) applied here for the thermal analysis. Th… Show more

“…For the improvement of TD and FTA, the six-phase winding is furnished in both stators. Also, the level of acoustic noise and ripple production is minimised remarkably in the case of sixphase machines as compared to the three-phase machines [34,35]. Moreover, lower current rating semiconductor devices are required for the converter utilised in the six-phase PMSM as compared to the three-phase PMSM.…”

Performance analysis of dual stator six‐phase embedded‐pole permanent magnet synchronous motor for electric vehicle application

“…For the improvement of TD and FTA, the six-phase winding is furnished in both stators. Also, the level of acoustic noise and ripple production is minimised remarkably in the case of sixphase machines as compared to the three-phase machines [34,35]. Moreover, lower current rating semiconductor devices are required for the converter utilised in the six-phase PMSM as compared to the three-phase PMSM.…”

Performance analysis of dual stator six‐phase embedded‐pole permanent magnet synchronous motor for electric vehicle application

Design and Performance Characteristics of Dual-Rotor Magnetically Decoupled Stator Five-Phase Permanent Magnet Synchronous Generator for Wind Power Applications

Design and Analysis of Dual Stator Non-Magnetic Rotor Six-Phase Permanent Magnet Synchronous Generator for Marine Power Application