Modeling demagnetization effects in permanent magnet synchronous machines

C. Kral; R.L.J. Sprangers; J. Waarma; A. Haumer; O. Winter; E. Lomonova

Modeling demagnetization effects in permanent magnet synchronous machines

C. Kral, R.L.J. Sprangers, J. Waarma, A. Haumer, O. Winter, E. Lomonova

Electromechanics and Power Electronics

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

14 Citations (Scopus)

1 Downloads (Pure)

Abstract

This paper presents a permanent magnet model which takes temperature dependencies and demagnetization effects into account. The proposed model is integrated into a magnetic fundamental wave machine model using the model- ing language Modelica. For different rotor types permanent magnet models are developed. The simulation results of the Modelica are compared with measurement results. Addition- ally, the fundamental wave model is compared to a finite element analysis in order to assess the applicability of the proposed model.

Original language	English
Title of host publication	ICEM 2010, The XIX International Conference on Electrical Machines, Rome - ITALY, September 6-8, 2010
Publisher	ICEM
Pages	1-6
ISBN (Print)	978-1-4244-4175-4
Publication status	Published - 2010

Cite this

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title = "Modeling demagnetization effects in permanent magnet synchronous machines",

abstract = "This paper presents a permanent magnet model which takes temperature dependencies and demagnetization effects into account. The proposed model is integrated into a magnetic fundamental wave machine model using the model- ing language Modelica. For different rotor types permanent magnet models are developed. The simulation results of the Modelica are compared with measurement results. Addition- ally, the fundamental wave model is compared to a finite element analysis in order to assess the applicability of the proposed model.",

author = "C. Kral and R.L.J. Sprangers and J. Waarma and A. Haumer and O. Winter and E. Lomonova",

year = "2010",

language = "English",

isbn = "978-1-4244-4175-4",

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booktitle = "ICEM 2010, The XIX International Conference on Electrical Machines, Rome - ITALY, September 6-8, 2010",

publisher = "ICEM",

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Modeling demagnetization effects in permanent magnet synchronous machines. / Kral, C.; Sprangers, R.L.J.; Waarma, J.; Haumer, A.; Winter, O.; Lomonova, E.

ICEM 2010, The XIX International Conference on Electrical Machines, Rome - ITALY, September 6-8, 2010. ICEM, 2010. p. 1-6.

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

TY - GEN

T1 - Modeling demagnetization effects in permanent magnet synchronous machines

AU - Kral, C.

AU - Sprangers, R.L.J.

AU - Waarma, J.

AU - Haumer, A.

AU - Winter, O.

AU - Lomonova, E.

PY - 2010

Y1 - 2010

N2 - This paper presents a permanent magnet model which takes temperature dependencies and demagnetization effects into account. The proposed model is integrated into a magnetic fundamental wave machine model using the model- ing language Modelica. For different rotor types permanent magnet models are developed. The simulation results of the Modelica are compared with measurement results. Addition- ally, the fundamental wave model is compared to a finite element analysis in order to assess the applicability of the proposed model.

AB - This paper presents a permanent magnet model which takes temperature dependencies and demagnetization effects into account. The proposed model is integrated into a magnetic fundamental wave machine model using the model- ing language Modelica. For different rotor types permanent magnet models are developed. The simulation results of the Modelica are compared with measurement results. Addition- ally, the fundamental wave model is compared to a finite element analysis in order to assess the applicability of the proposed model.

M3 - Conference contribution

SN - 978-1-4244-4175-4

SP - 1

EP - 6

BT - ICEM 2010, The XIX International Conference on Electrical Machines, Rome - ITALY, September 6-8, 2010

PB - ICEM

ER -

Modeling demagnetization effects in permanent magnet synchronous machines

Abstract

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