Rotor Vibration Control using Multi-Three-Phase Permanent Magnet Synchronous Machines

M. Di Nardo; M. R. Ilkhani; M. Wang; M. Degano; C. Gerada; G. Sala; T. Spadi; M. Gaertner; C. Brecher; M. Hoppert

doi:10.1109/IEMDC55163.2023.10238954

Rotor Vibration Control using Multi-Three-Phase Permanent Magnet Synchronous Machines

M. Di Nardo, M. R. Ilkhani, M. Wang, M. Degano, C. Gerada, G. Sala, T. Spadi, M. Gaertner, C. Brecher, M. Hoppert

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

Abstract

This paper investigates the possibility to control the radial displacements of the shaft of an electrical machine equipped with a multi-three-phase winding arrangement with the aim of reducing the related vibrations. A comprehensive dynamic modeling of all subsystems is first presented. Each part of the system is described in order to comprehend the developed model. Then the dynamic simulation of the full system is performed considering different rotating speeds. The results show the effectiveness of the proposed control strategy, highlighting the possibility of safely operating the motor around the critical speed and presenting the requirement for a control improvement at high-speed values.

Original language	English
Title of host publication	2023 IEEE International Electric Machines and Drives Conference, IEMDC 2023
Publisher	Institute of Electrical and Electronics Engineers Inc.
ISBN (Electronic)	9798350398991
DOIs	https://doi.org/10.1109/IEMDC55163.2023.10238954
Publication status	Published - 2023
Externally published	Yes
Event	2023 IEEE International Electric Machines and Drives Conference, IEMDC 2023 - San Francisco, United States Duration: 15 May 2023 → 18 May 2023

Publication series

Name	2023 IEEE International Electric Machines and Drives Conference, IEMDC 2023

Conference

Conference	2023 IEEE International Electric Machines and Drives Conference, IEMDC 2023
Country/Territory	United States
City	San Francisco
Period	15/05/23 → 18/05/23

Keywords

Bearingless motor
finite element analysis
magnetic levitation
multiphase drives
permanent magnet motors
radial force control

ASJC Scopus subject areas

Electrical and Electronic Engineering
Mechanical Engineering

Access to Document

10.1109/IEMDC55163.2023.10238954

Cite this

Di Nardo, M., Ilkhani, M. R., Wang, M., Degano, M., Gerada, C., Sala, G., Spadi, T., Gaertner, M., Brecher, C., & Hoppert, M. (2023). Rotor Vibration Control using Multi-Three-Phase Permanent Magnet Synchronous Machines. In 2023 IEEE International Electric Machines and Drives Conference, IEMDC 2023 (2023 IEEE International Electric Machines and Drives Conference, IEMDC 2023). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/IEMDC55163.2023.10238954

@inproceedings{c1fa97697a22443c8b5a603dcca4876d,

title = "Rotor Vibration Control using Multi-Three-Phase Permanent Magnet Synchronous Machines",

abstract = "This paper investigates the possibility to control the radial displacements of the shaft of an electrical machine equipped with a multi-three-phase winding arrangement with the aim of reducing the related vibrations. A comprehensive dynamic modeling of all subsystems is first presented. Each part of the system is described in order to comprehend the developed model. Then the dynamic simulation of the full system is performed considering different rotating speeds. The results show the effectiveness of the proposed control strategy, highlighting the possibility of safely operating the motor around the critical speed and presenting the requirement for a control improvement at high-speed values.",

keywords = "Bearingless motor, finite element analysis, magnetic levitation, multiphase drives, permanent magnet motors, radial force control",

author = "{Di Nardo}, M. and Ilkhani, {M. R.} and M. Wang and M. Degano and C. Gerada and G. Sala and T. Spadi and M. Gaertner and C. Brecher and M. Hoppert",

note = "Publisher Copyright: {\textcopyright} 2023 IEEE.; 2023 IEEE International Electric Machines and Drives Conference, IEMDC 2023 ; Conference date: 15-05-2023 Through 18-05-2023",

year = "2023",

doi = "10.1109/IEMDC55163.2023.10238954",

language = "English",

series = "2023 IEEE International Electric Machines and Drives Conference, IEMDC 2023",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

booktitle = "2023 IEEE International Electric Machines and Drives Conference, IEMDC 2023",

address = "United States",

}

Di Nardo, M, Ilkhani, MR, Wang, M, Degano, M, Gerada, C, Sala, G, Spadi, T, Gaertner, M, Brecher, C & Hoppert, M 2023, Rotor Vibration Control using Multi-Three-Phase Permanent Magnet Synchronous Machines. in 2023 IEEE International Electric Machines and Drives Conference, IEMDC 2023. 2023 IEEE International Electric Machines and Drives Conference, IEMDC 2023, Institute of Electrical and Electronics Engineers Inc., 2023 IEEE International Electric Machines and Drives Conference, IEMDC 2023, San Francisco, United States, 15/05/23. https://doi.org/10.1109/IEMDC55163.2023.10238954

Rotor Vibration Control using Multi-Three-Phase Permanent Magnet Synchronous Machines. / Di Nardo, M.; Ilkhani, M. R.; Wang, M. et al.
2023 IEEE International Electric Machines and Drives Conference, IEMDC 2023. Institute of Electrical and Electronics Engineers Inc., 2023. (2023 IEEE International Electric Machines and Drives Conference, IEMDC 2023).

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Rotor Vibration Control using Multi-Three-Phase Permanent Magnet Synchronous Machines

AU - Di Nardo, M.

AU - Ilkhani, M. R.

AU - Wang, M.

AU - Degano, M.

AU - Gerada, C.

AU - Sala, G.

AU - Spadi, T.

AU - Gaertner, M.

AU - Brecher, C.

AU - Hoppert, M.

PY - 2023

Y1 - 2023

N2 - This paper investigates the possibility to control the radial displacements of the shaft of an electrical machine equipped with a multi-three-phase winding arrangement with the aim of reducing the related vibrations. A comprehensive dynamic modeling of all subsystems is first presented. Each part of the system is described in order to comprehend the developed model. Then the dynamic simulation of the full system is performed considering different rotating speeds. The results show the effectiveness of the proposed control strategy, highlighting the possibility of safely operating the motor around the critical speed and presenting the requirement for a control improvement at high-speed values.

AB - This paper investigates the possibility to control the radial displacements of the shaft of an electrical machine equipped with a multi-three-phase winding arrangement with the aim of reducing the related vibrations. A comprehensive dynamic modeling of all subsystems is first presented. Each part of the system is described in order to comprehend the developed model. Then the dynamic simulation of the full system is performed considering different rotating speeds. The results show the effectiveness of the proposed control strategy, highlighting the possibility of safely operating the motor around the critical speed and presenting the requirement for a control improvement at high-speed values.

KW - Bearingless motor

KW - finite element analysis

KW - magnetic levitation

KW - multiphase drives

KW - permanent magnet motors

KW - radial force control

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M3 - Conference contribution

AN - SCOPUS:85172726006

T3 - 2023 IEEE International Electric Machines and Drives Conference, IEMDC 2023

BT - 2023 IEEE International Electric Machines and Drives Conference, IEMDC 2023

PB - Institute of Electrical and Electronics Engineers Inc.

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Di Nardo M, Ilkhani MR, Wang M, Degano M, Gerada C, Sala G et al. Rotor Vibration Control using Multi-Three-Phase Permanent Magnet Synchronous Machines. In 2023 IEEE International Electric Machines and Drives Conference, IEMDC 2023. Institute of Electrical and Electronics Engineers Inc. 2023. (2023 IEEE International Electric Machines and Drives Conference, IEMDC 2023). doi: 10.1109/IEMDC55163.2023.10238954

Rotor Vibration Control using Multi-Three-Phase Permanent Magnet Synchronous Machines

Abstract

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Conference

Keywords

ASJC Scopus subject areas

Access to Document

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