Robust nonlinear observer design for permanent magnet synchronous motors

Anton Pyrkin; Alexey Bobtsov; Romeo Ortega; Alexey Vedyakov; Dmitry Cherginets; Alexey Ovcharov; Dmitry Bazylev; Igor Petranevsky

doi:10.1049/cth2.12065

IET Control Theory & Applications (Mar 2021)

Robust nonlinear observer design for permanent magnet synchronous motors

Anton Pyrkin,
Alexey Bobtsov,
Romeo Ortega,
Alexey Vedyakov,
Dmitry Cherginets,
Alexey Ovcharov,
Dmitry Bazylev,
Igor Petranevsky

Affiliations

Anton Pyrkin: Faculty of Control Systems and Robotics ITMO University St. Petersburg Russia
Alexey Bobtsov: Faculty of Control Systems and Robotics ITMO University St. Petersburg Russia
Romeo Ortega: Departamento Académico de Sistemas Digitales ITAM Ciudad de México México
Alexey Vedyakov: Faculty of Control Systems and Robotics ITMO University St. Petersburg Russia
Dmitry Cherginets: Faculty of Control Systems and Robotics ITMO University St. Petersburg Russia
Alexey Ovcharov: Faculty of Control Systems and Robotics ITMO University St. Petersburg Russia
Dmitry Bazylev: Faculty of Control Systems and Robotics ITMO University St. Petersburg Russia
Igor Petranevsky: Faculty of Control Systems and Robotics ITMO University St. Petersburg Russia

DOI: https://doi.org/10.1049/cth2.12065
Journal volume & issue: Vol. 15, no. 4
pp. 604 – 616

Abstract

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Abstract This paper is devoted to the application of a recently proposed globally convergent adaptive position observer to non‐salient permanent magnet synchronous motors. Following the Dynamic Regressor Extension and Mixing Based Adaptive Observer (DREMBAO) approach, a new finite‐time robust observer is presented that allows to track adaptively the rotor position by measuring only the currents and voltages and without knowledge of mechanical, electrical and magnetic parameters. A numerical example for the case with different rotor speeds and time‐varying load torque is considered to reveal the advantages of the proposed approach in comparison with other existing methods. Experimental studies of the proposed robust nonlinear observer implementation are presented to illustrate the efficiency of the new design technique in different speed modes together with adaptive estimation of unknown parameters.

Published in IET Control Theory & Applications

ISSN: 1751-8644 (Print); 1751-8652 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology: Mechanical engineering and machinery: Control engineering systems. Automatic machinery (General)
Website: https://ietresearch.onlinelibrary.wiley.com/journal/17518652

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