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Gong-De Yang,Ming-Yao Lin,Nian Li,Li Hao 대한전기학회 2019 Journal of Electrical Engineering & Technology Vol.14 No.1
Owing to the estimated permanent magnet (PM) flux linkage fluctuation, the stator-PM memory machine employing the continuous magnetization state (MS) manipulation may suffer from frequent MS manipulations and the accidental inverter damage in its extended speed range. In order to deal with this issue, in this paper, a novel vector control based on three MS manipulations is proposed and implemented on the existing hybrid PM axial field flux-switching memory machine. After a brief analysis of the researched machine configuration, the principle of the three MS manipulations, the remedial sliding mode speed regulator and the current distribution strategy are discussed. The simulated results show that the proposed scheme reduces the speed and electromagnetic torque overshoot and improves the dynamic performance. Meanwhile, compared with the flux-weakening control, the wide speed range can be obtained. Finally, the experiment is carried out to verify the validity of the theory.
Gong-De Yang,Xinghe Fu,Mingyao Lin,Nian Li,Hao Liu 전력전자학회 2019 JOURNAL OF POWER ELECTRONICS Vol.19 No.1
This research comparatively studies three kinds of flux regulation methods, namely, stored capacitor discharge pulse (SCDP),constant current source pulse (CCSP), and quantitative flux regulation pulse (QFRP), which are used for hybrid permanentmagnet (PM) axial field flux-switching memory machines (HPM-AFFSMMs). Through an analysis of the operation principleand the series hybrid PM flux regulation mechanism of the objective machine, the circuit topologies and flux regulation processof these flux regulation methods are addressed in detail. On the basis of a simulation, the flux regulation characteristics of theresearched machine during the magnetization and demagnetization processes are comparatively evaluated. Then, machineperformance, including back EMF, direct and quadrature axis inductances, and magnetization and demagnetizationcharacteristics, is quantitatively investigated. Results show that the QFRP enables the HPM-AFFSMM to achieve a lessharmonic component of back EMF by approximately 7.28% and 7.97% at the magnetization and demagnetization states,respectively, and a more complete magnetization process than the SCDP and CCSP.