Compensation of Radial and Tangential Mode 0 Vibration of a Dual Three-Phase Synchronous Machine by Injecting a Leakage Flux

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Authors

  • Jonas Henkenjohann
  • Dapu Zhang
  • Axel Mertens

Research Organisations

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Details

Original languageEnglish
Title of host publicationIECON 2023
Subtitle of host publication49th Annual Conference of the IEEE Industrial Electronics Society
PublisherIEEE Computer Society
ISBN (electronic)9798350331820
ISBN (print)9798350331837
Publication statusPublished - 2023
EventIECON 2023 - 49th Annual Conference of the IEEE Industrial Electronics Society - Singapore, Singapore
Duration: 16 Oct 202319 Oct 2023

Publication series

NameIECON Proceedings (Industrial Electronics Conference)
ISSN (Print)2162-4704
ISSN (electronic)2577-1647

Abstract

This paper investigates a new method for noise com-pensation in dual three-phase electrically excited synchronous machines through the use of harmonic currents, with a particular focus on preventing the force excitation of the radial and tangential mode 0. The approach of harmonic field injection (HFI) is examined, and an existing analytical relationship is presented and extended using the mechanical transfer function. This extended relationship allows for the precalculation of har-monic currents, thereby reducing extensive parameter variations. The HFI method is validated on a test bench, and the results demonstrate significant reductions in vibration in the radial and tangential directions with the mode shape 0.

Keywords

    Acoustic noise, active noise reduction, force control, magnetic noise, vibration control

ASJC Scopus subject areas

Cite this

Compensation of Radial and Tangential Mode 0 Vibration of a Dual Three-Phase Synchronous Machine by Injecting a Leakage Flux. / Henkenjohann, Jonas; Zhang, Dapu; Mertens, Axel.
IECON 2023: 49th Annual Conference of the IEEE Industrial Electronics Society. IEEE Computer Society, 2023. (IECON Proceedings (Industrial Electronics Conference)).

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Henkenjohann, J, Zhang, D & Mertens, A 2023, Compensation of Radial and Tangential Mode 0 Vibration of a Dual Three-Phase Synchronous Machine by Injecting a Leakage Flux. in IECON 2023: 49th Annual Conference of the IEEE Industrial Electronics Society. IECON Proceedings (Industrial Electronics Conference), IEEE Computer Society, IECON 2023 - 49th Annual Conference of the IEEE Industrial Electronics Society, Singapore, Singapore, 16 Oct 2023. https://doi.org/10.1109/IECON51785.2023.10311815
Henkenjohann, J., Zhang, D., & Mertens, A. (2023). Compensation of Radial and Tangential Mode 0 Vibration of a Dual Three-Phase Synchronous Machine by Injecting a Leakage Flux. In IECON 2023: 49th Annual Conference of the IEEE Industrial Electronics Society (IECON Proceedings (Industrial Electronics Conference)). IEEE Computer Society. https://doi.org/10.1109/IECON51785.2023.10311815
Henkenjohann J, Zhang D, Mertens A. Compensation of Radial and Tangential Mode 0 Vibration of a Dual Three-Phase Synchronous Machine by Injecting a Leakage Flux. In IECON 2023: 49th Annual Conference of the IEEE Industrial Electronics Society. IEEE Computer Society. 2023. (IECON Proceedings (Industrial Electronics Conference)). doi: 10.1109/IECON51785.2023.10311815
Henkenjohann, Jonas ; Zhang, Dapu ; Mertens, Axel. / Compensation of Radial and Tangential Mode 0 Vibration of a Dual Three-Phase Synchronous Machine by Injecting a Leakage Flux. IECON 2023: 49th Annual Conference of the IEEE Industrial Electronics Society. IEEE Computer Society, 2023. (IECON Proceedings (Industrial Electronics Conference)).
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abstract = "This paper investigates a new method for noise com-pensation in dual three-phase electrically excited synchronous machines through the use of harmonic currents, with a particular focus on preventing the force excitation of the radial and tangential mode 0. The approach of harmonic field injection (HFI) is examined, and an existing analytical relationship is presented and extended using the mechanical transfer function. This extended relationship allows for the precalculation of har-monic currents, thereby reducing extensive parameter variations. The HFI method is validated on a test bench, and the results demonstrate significant reductions in vibration in the radial and tangential directions with the mode shape 0.",
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AU - Henkenjohann, Jonas

AU - Zhang, Dapu

AU - Mertens, Axel

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N2 - This paper investigates a new method for noise com-pensation in dual three-phase electrically excited synchronous machines through the use of harmonic currents, with a particular focus on preventing the force excitation of the radial and tangential mode 0. The approach of harmonic field injection (HFI) is examined, and an existing analytical relationship is presented and extended using the mechanical transfer function. This extended relationship allows for the precalculation of har-monic currents, thereby reducing extensive parameter variations. The HFI method is validated on a test bench, and the results demonstrate significant reductions in vibration in the radial and tangential directions with the mode shape 0.

AB - This paper investigates a new method for noise com-pensation in dual three-phase electrically excited synchronous machines through the use of harmonic currents, with a particular focus on preventing the force excitation of the radial and tangential mode 0. The approach of harmonic field injection (HFI) is examined, and an existing analytical relationship is presented and extended using the mechanical transfer function. This extended relationship allows for the precalculation of har-monic currents, thereby reducing extensive parameter variations. The HFI method is validated on a test bench, and the results demonstrate significant reductions in vibration in the radial and tangential directions with the mode shape 0.

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