Computation of optimal current references for flux-weakening of multi-phase synchronous machines

Multi-phase synchronous machines are more and more used in specific applications where high power density, low bus voltage, wide speed range and fault-tolerant capabilities are required. Due to the high number of degrees of freedom, multi-phase machines are difficult to optimally operate in flux-wea...

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Hauptverfasser:	Li Lu, Aslan, B., Kobylanski, L., Sandulescu, P., Meinguet, F., Kestelyn, X., Semail, E.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Current measurement Electric power Engineering Sciences Lead Q measurement Torque
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creator	Li Lu Aslan, B. Kobylanski, L. Sandulescu, P. Meinguet, F. Kestelyn, X. Semail, E.
description	Multi-phase synchronous machines are more and more used in specific applications where high power density, low bus voltage, wide speed range and fault-tolerant capabilities are required. Due to the high number of degrees of freedom, multi-phase machines are difficult to optimally operate in flux-weakening zones. This paper proposes a technique to numerically compute optimal current references that can be used for feed-forward flux-weakening techniques in order to exploit the maximum machine performances for given DC bus voltage and current limits. The proposed technique is applied to a five-phase permanent magnet synchronous machine specifically developed for an automotive application.
doi_str_mv	10.1109/IECON.2012.6389318
format	Conference Proceeding
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subjects	Current measurement Electric power Engineering Sciences Lead Q measurement Torque
title	Computation of optimal current references for flux-weakening of multi-phase synchronous machines
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