Initial validation & performance analysis of the bearingless double u-core switched reluctance machine topology

Fariba Shakibapour; Peter O. Rasmussen; Fariba Shakibapour

doi:10.1049/icp.2021.1200

Initial validation & performance analysis of the bearingless double u-core switched reluctance machine topology

Fariba Shakibapour, Peter O. Rasmussen, Fariba Shakibapour

Research output: Contribution to conference without publisher/journal › Paper without publisher/journal › Research › peer-review

1 Citation (Scopus)

Abstract

Due to the capabilities which switched reluctance machines (SRMs) offer, including simple design, robustness of construction, reliability, low cost and low idle losses, developing and upgrading their structure is a vital issue to expand the industrial applications. During recent years, various structures have been carried out to enhance the efficiency of these type of electrical machines in which double u-core layout has been introduced as one of the viable solutions. In order to upgrade the technology to a bearingless double u-core SRM as a further investigation, this paper presents a feasible demonstrations and performance evaluation of a single phase double u-core SRM under three individual currents for each coil to examine the control and design topology. To this end, it is essential to scrutinize the behaviour of the single phase machine with producing three various duty cycles applied to each coil, and distinguish as a three individual controller coils to work not only as a motor and a generator, but also as a magnetic bearing. Moreover, the impact of varied currents on the force exerted to the rotor has been extracted for subsequent inquiry by a performance tracking of the single phase machine under three individual currents.

Original language	English
Publication date	2020
Number of pages	7
DOIs	https://doi.org/10.1049/icp.2021.1200
Publication status	Published - 2020
Event	10th International Conference on Power Electronics, Machines and Drives, PEMD 2020 - Virtual, Online Duration: 15 Dec 2020 → 17 Dec 2020

Conference

Conference	10th International Conference on Power Electronics, Machines and Drives, PEMD 2020
City	Virtual, Online
Period	15/12/2020 → 17/12/2020

Bibliographical note

Funding Information:
The authors of this paper would like to really grateful of the time and support given by Dong Wang who assign cooperation in programming the control part. We also sincerely acknowledge the members of the double u-core technology, who have presented and developed this type of electrical machines [7],[8].

Publisher Copyright:
© PEMD 2020.All right reserved.

Keywords

Bearingless switched reluctance machine
Control strategy
Double u-core technology
Fem modelling
Single phase SRM

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Cite this

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title = "Initial validation & performance analysis of the bearingless double u-core switched reluctance machine topology",

abstract = "Due to the capabilities which switched reluctance machines (SRMs) offer, including simple design, robustness of construction, reliability, low cost and low idle losses, developing and upgrading their structure is a vital issue to expand the industrial applications. During recent years, various structures have been carried out to enhance the efficiency of these type of electrical machines in which double u-core layout has been introduced as one of the viable solutions. In order to upgrade the technology to a bearingless double u-core SRM as a further investigation, this paper presents a feasible demonstrations and performance evaluation of a single phase double u-core SRM under three individual currents for each coil to examine the control and design topology. To this end, it is essential to scrutinize the behaviour of the single phase machine with producing three various duty cycles applied to each coil, and distinguish as a three individual controller coils to work not only as a motor and a generator, but also as a magnetic bearing. Moreover, the impact of varied currents on the force exerted to the rotor has been extracted for subsequent inquiry by a performance tracking of the single phase machine under three individual currents.",

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author = "Fariba Shakibapour and Rasmussen, {Peter O.} and Fariba Shakibapour",

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Initial validation & performance analysis of the bearingless double u-core switched reluctance machine topology. / Shakibapour, Fariba; Rasmussen, Peter O.; Shakibapour, Fariba.
2020. 752-758 Paper presented at 10th International Conference on Power Electronics, Machines and Drives, PEMD 2020, Virtual, Online.

Research output: Contribution to conference without publisher/journal › Paper without publisher/journal › Research › peer-review

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PY - 2020

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AB - Due to the capabilities which switched reluctance machines (SRMs) offer, including simple design, robustness of construction, reliability, low cost and low idle losses, developing and upgrading their structure is a vital issue to expand the industrial applications. During recent years, various structures have been carried out to enhance the efficiency of these type of electrical machines in which double u-core layout has been introduced as one of the viable solutions. In order to upgrade the technology to a bearingless double u-core SRM as a further investigation, this paper presents a feasible demonstrations and performance evaluation of a single phase double u-core SRM under three individual currents for each coil to examine the control and design topology. To this end, it is essential to scrutinize the behaviour of the single phase machine with producing three various duty cycles applied to each coil, and distinguish as a three individual controller coils to work not only as a motor and a generator, but also as a magnetic bearing. Moreover, the impact of varied currents on the force exerted to the rotor has been extracted for subsequent inquiry by a performance tracking of the single phase machine under three individual currents.

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Initial validation & performance analysis of the bearingless double u-core switched reluctance machine topology

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