Archivio Istituzionale della RicercaElectric Vehicles make use of permanent magnet synchronous traction motors for their high torque density and efficiency. A comparison between interior permanent magnet (IPM) and surface mounted permanent magnet (SPM) motors is carried out, in terms of performance at given inverter ratings. The results of the analysis, based on a simplified analytical model and confirmed by FE analysis, show that the two motors have similar rated power but that the SPM motor has barely no overload capability, independently of the available inverter current. Moreover the loss behavior of the two motors is rather different in the various operating ranges with the SPM one better at low speed due to short end connections but penalized at high speed by the need of a significant de-excitation current. The analysis is validated through finite-element simulation of two actual motor designs.
Performance comparison between Surface Mounted and Interior PM motor drives for Electric Vehicle application / Pellegrino, GIAN - MARIO LUIGI; Vagati, Alfredo; Guglielmi, Paolo; Boazzo, Barbara. - In: IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS. - ISSN 0278-0046. - 59:2(2012), pp. 803-811. [10.1109/TIE.2011.2151825]
Performance comparison between Surface Mounted and Interior PM motor drives for Electric Vehicle application
PELLEGRINO, GIAN - MARIO LUIGI;VAGATI, Alfredo;GUGLIELMI, Paolo;BOAZZO, BARBARA
2012
Abstract
Electric Vehicles make use of permanent magnet synchronous traction motors for their high torque density and efficiency. A comparison between interior permanent magnet (IPM) and surface mounted permanent magnet (SPM) motors is carried out, in terms of performance at given inverter ratings. The results of the analysis, based on a simplified analytical model and confirmed by FE analysis, show that the two motors have similar rated power but that the SPM motor has barely no overload capability, independently of the available inverter current. Moreover the loss behavior of the two motors is rather different in the various operating ranges with the SPM one better at low speed due to short end connections but penalized at high speed by the need of a significant de-excitation current. The analysis is validated through finite-element simulation of two actual motor designs.
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https://hdl.handle.net/11583/2418740
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