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Digital Library of the
European Council for Modelling and Simulation |
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Title: |
Using Co-Simulations In Fault Tolerant Machine's Study |
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Authors: |
Loránd Szabó, Mircea Ruba |
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Published in:
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(2009).ECMS
2009 Proceedings edited by J. Otamendi, A. Bargiela, J. L. Montes, L. M. Doncel
Pedrera. European Council for Modeling and
Simulation. doi:10.7148/2009 ISBN: 978-0-9553018-8-9 23rd
European Conference on Modelling and Simulation, Madrid, June
9-12, 2009 |
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Citation
format: |
Szabo, L., & Ruba,
M. (2009). Using Co-Simulations In Fault Tolerant Machine's Stud. ECMS 2009
Proceedings edited by J. Otamendi, A. Bargiela, J. L. Montes, L. M. Doncel Pedrera (pp.
756-762). European Council for Modeling and Simulation. doi:10.7148/2009-0756-0762 |
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DOI: |
http://dx.doi.org/10.7148/2009-0756-0762 |
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Abstract: |
The
Switched Reluctance Machine (SRM) is ideal for safety critical applications
(aerospace, automotive, defense, medical, etc.) where it is desirable that
the electrical drive system to be fault tolerant. During the design of a
fault tolerant electrical drive system it is indispensable to use advanced
simulation techniques. Finite elements method (FEM) based magnetic field
computation programs are the most precise tools in simulating the electrical
machines. These programs must be embedded in a general simulation platform. The
paper deals with the analysis of a proposed SRM's
fault tolerant capacity. The study was performed by means of a coupled
simulation program. The main program was built up in Simulink®, the most widely used dynamic
system simulating platform. The SRM was modeled using the Flux 2D FEM based
numerical field computation program. The machine's model was connected to the main program thru the Flux-to-Simulink
link. This co-simulation technique
proved to be a very useful tool in the fault tolerance study of the proposed
SRM. |
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