Add to ORKGPrevious analytical work has shown that it is possible to design surface PM (SPM) machines using fractional-slot concentrated windings to achieve wide speed ranges of constant power operation by satisfying the optimal flux-weakening condition. This paper presents a 6 kW 36-slot/30-pole concentrated winding prototype SPM machine that has been designed using a closed-form analytical technique developed specifically for this class of machines. Experimental testing of this machine has been carried out to determine its performance capabilities, including flux-weakening operation. Detailed comparisons between analytical, finite element analysis (FEA), and experimental results are presented that confirm the ability of fractional-slot concentrated ...
Surface-mounted permanent magnet motors with concentrated windings (CW-SPM) can have a wide constant...
This paper presents a detailed performance comparison of Surface-Mounted PM machines (SMPMMs) equipp...
Interior permanent magnet (IPM) machines and non-overlapping concentrated windings (CW) are two desi...
Abstract — Previous analytical work has shown that it is possible to design surface PM (SPM) machine...
Previous analytical work has shown that it is possible to design surface PM (SPM) machines using fra...
This paper will compare the surface permanent magnet (SPM) machine to the interior permanent magnet ...
This paper presents a closed-form analytical technique for analyzing surface PM machines equipped wi...
This paper presents a closed-form analytical technique for analyzing surface PM machines equipped wi...
This paper presents a closed-form analytical technique for analyzing surface PM machines equipped wi...
This paper presents the utilization of concentrated windings for the flux weakening of surface mount...
This thesis presents the design of an interior permanent magnet (IPM) machine with concentrated wind...
This research focuses on the electromagnetic design of permanent magnet (PM) machines in terms of th...
The flux reversal machine (FIRM) topology is best suited for low speed low power application. Fracti...
Fractional-slot concentrated-winding (FSCW) synchronous permanent magnet (PM) machines have been gai...
Fractional slot concentrated winding machines (FSCWMs) with the low operation speed and large diamet...
Surface-mounted permanent magnet motors with concentrated windings (CW-SPM) can have a wide constant...
This paper presents a detailed performance comparison of Surface-Mounted PM machines (SMPMMs) equipp...
Interior permanent magnet (IPM) machines and non-overlapping concentrated windings (CW) are two desi...
Abstract — Previous analytical work has shown that it is possible to design surface PM (SPM) machine...
Previous analytical work has shown that it is possible to design surface PM (SPM) machines using fra...
This paper will compare the surface permanent magnet (SPM) machine to the interior permanent magnet ...
This paper presents a closed-form analytical technique for analyzing surface PM machines equipped wi...
This paper presents a closed-form analytical technique for analyzing surface PM machines equipped wi...
This paper presents a closed-form analytical technique for analyzing surface PM machines equipped wi...
This paper presents the utilization of concentrated windings for the flux weakening of surface mount...
This thesis presents the design of an interior permanent magnet (IPM) machine with concentrated wind...
This research focuses on the electromagnetic design of permanent magnet (PM) machines in terms of th...
The flux reversal machine (FIRM) topology is best suited for low speed low power application. Fracti...
Fractional-slot concentrated-winding (FSCW) synchronous permanent magnet (PM) machines have been gai...
Fractional slot concentrated winding machines (FSCWMs) with the low operation speed and large diamet...
Surface-mounted permanent magnet motors with concentrated windings (CW-SPM) can have a wide constant...
This paper presents a detailed performance comparison of Surface-Mounted PM machines (SMPMMs) equipp...
Interior permanent magnet (IPM) machines and non-overlapping concentrated windings (CW) are two desi...