A general-purpose control algorithm is proposed for permanent-magnet (PM) synchronous machine drives based on the principle of direct-flux vector control. The algorithm does not require regulator tuning, and it is tailored to different machines automatically via identification of the stator resistance and flux linkage tables. The model parameters are identified via a preliminary self-commissioning procedure that can be integrated into the standard drive firmware with no need for extra hardware or offline manipulation. The combination of the control and self-commissioning algorithms forms a “plug-in” controller, which pertains to a controller that is capable of exploiting the full drive capabilities with no prior knowledge of the PM machine in use. Experimental results are reported for two prototype concentrated-winding PM machines designed for traction applications, i.e., one with a surface-mounted PM rotor and another with an interior PM rotor.


    Zugriff

    Download


    Exportieren, teilen und zitieren



    Predictive direct flux vector control of Permanent Magnet Synchronous Motor Drives

    BOAZZO, BARBARA / PELLEGRINO, GIAN - MARIO LUIGI | BASE | 2013

    Freier Zugriff

    Direct Flux Vector Control of Synchronous Motor Drives: A Small-Signal Model for Optimal Reference Generation

    Varatharajan, Anantaram / Pellegrino, Gianmario / Armando, Eric | BASE | 2021

    Freier Zugriff

    Direct Flux Vector Control of Synchronous Motor Drives: Accurate Decoupled Control with Online Adaptive MTPA and MTPV Evaluation

    Varatharajan, Anantaram / Pellegrino, Gianmario / Armando, Eric Giacomo | BASE | 2022

    Freier Zugriff

    Deadbeat Direct Flux Vector Control of Surface Permanent Magnet Motor Drives

    Sandro Rubino / Radu Bojoi / Eric Armando et al. | BASE | 2020

    Freier Zugriff

    Transducerless control of AC flux vector drives

    Green, R. / Wire Association International | British Library Conference Proceedings | 1998