Reluctance network model of a permanent magnet tubular motor

Waindok, A.; Tomczuk, B.

doi:10.1515/ama-2017-0029

Artykuł - szczegóły

Tytuł artykułu

Reluctance network model of a permanent magnet tubular motor

Autorzy

Waindok A. , Tomczuk B.

Treść / Zawartość

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DOI

10.1515/ama-2017-0029

Warianty tytułu

Języki publikacji

Abstrakty

The reluctance network model of a permanent magnet tubular motor (PMTM) has been presented in the paper. The reluctance values of the magnetic circuit have been calculated with using analytical expressions. The air gap reluctance has been determined with using both analytical expressions and the finite element method (FEM). Using the calculation model, the flux values coupled with the windings have been obtained and used in the calculations of force value. The calculated results have been compared with numerical and measured ones.

Słowa kluczowe

reluctance network method tubular linear motors electrodynamic force calculation

Wydawca

Oficyna Wydawnicza Politechniki Białostockiej

Czasopismo

Acta Mechanica et Automatica

Rocznik

2017

Tom

Vol. 11, no. 3

Strony

194--198

Opis fizyczny

Bibliogr. 18 poz., rys., tab., wykr.

Twórcy

autor

Waindok A.

a.waindok@po.opole.p

Opole University of Technology, Department of Industrial Electrical Engineering ul. Prószkowska 76, 45-758 Opole, Poland

autor

Tomczuk B.

b.tomczuk@po.opole.pl

Opole University of Technology, Department of Industrial Electrical Engineering ul. Prószkowska 76, 45-758 Opole, Poland

Bibliografia

1. Amara Y., Barakat G. (2010), Analytical modeling of magnetic field in surface mounted permanent-magnet tubular linear machines, IEEE Trans. on Magnetics, 46, 3870-3884.
2. Batdorff M.A., Lumkes J.H. (2009), High-fidelity magnetic equivalent circuit model for an axisymmetric electromagnetic actuator, IEEE Trans. on Magnetics, 45, 3064-3072.
3. Bianchi N. (2000), Analytical field computation of a tubular permanent-magnet linear motor, IEEE Trans. on Magnetics, 36, 3798-3801.
4. Boroujeni S.T., Milimonfared J., Ashabani M. (2009), Design, prototyping and analysis of a novel tubular permanent-magnet linear machine, IEEE Trans. on Magnetics, 45, 5405-5413.
5. Chevailler S., Markovic M., Jufer M., Perriard Y. (2004), Linear motor optimization using an analytical model, ICEM, Cracow, Poland, 5-8 September, paper no 311 (on conference CD).
6. Chung M.J., Gweon D.G. (2002), Modeling of the armature slotting effects in the magnetic field distribution of a linear permanent magnet motor, Electrical Engineering, 84, 101-108.
7. Gieras J.F., Piech Z.J., Tomczuk B. (2011), Linear synchronous motors, CRC Press, Taylor & Francis Group, USA.
8. Gysen B.L.J., Meessen K.J., Paulides J.J.H., Lomonova E.A. (2011), 3-D analytical and numerical modeling of tubular actuators with skewed permanent magnets, IEEE Trans. on Magnetics, 47, 2200-2212.
9. Kazan E., Onat A. (2011), Modeling of air core permanent-magnet linear motors with a simplified nonlinear magnetic analysis, IEEE Trans. on Magnetics, 47, 1753-1762.
10. Okonkwo R.C. (2006), Design and performance of permanentmagnet DC linear motors, IEEE Trans. on Magnetics, 42, 2179-2183.
11. Polinder H., Slootweg J.G., Hoeijmakers M.J., Compter J.C. (2003), Modeling of a linear PM machine including magnetic saturation and end effects: maximum force-to-current ratio, IEEE Trans. on Magnetics, 39, 1681-1688.
12. Sheikh-Ghalavand B., Vaez-Zadeh S., Hassanpour Isfahani A. (2010), An improved magnetic equivalent circuit model for iron-core linear permanent-magnet synchronous motors, IEEE Trans. on Magnetics, 46, 112-120.
13. Tomczuk B., Schröder G., Waindok A. (2007), Finite element analysis of the magnetic field and electromechanical parameters calculation for a slotted permanent magnet tubular linear motor, IEEE Trans. on Magnetics, 43, 3229-3236.
14. Tomczuk B., Waindok A. (2009), Tubular linear actuator as a part of mechatronic system, Solid State Phenomena, 147- 149, 173-178.
15. Tomczuk B., Waindok A., Wajnert D. (2012), Transients in the electromagnetic actuator with the controlled supplier, Journal of Vibroengineering, 14, 39-44.
16. Wang J., Howe D. (2005), Tubular modular permanent-magnet machines equipped with quasi-Halbach magnetized magnets – Part I: magnetic field distribution, EMF, and thrust force, IEEE Trans. on Magnetics, 41, 2470-2478.
17. Wang J., Howe D., Jewell G.W. (2003), Fringing in tubular permanent-magnet machines: Part II. Cogging force and its minimization, IEEE Trans. on Magnetics, 39, 3517-3522.
18. Wang J., Jewell G.W., Howe D. (1998), A general framework for the analysis and design of tubular linear permanent magnet machines, IEEE Trans. on Magnetics, 35, 1986-1999.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).

Typ dokumentu

Bibliografia

Identyfikator YADDA

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