Difference between revisions of "Electromechanical relay"
From ONELAB
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{{metamodel|relay}} | {{metamodel|relay}} | ||
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| + | == Additional information == | ||
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| + | The example contains: | ||
| + | * ""relay.pro"": 2D model of a linear actuator. It comprises a yoke, two permanent magnets, two coils and a mover. The yoke and the mover are made of iron. | ||
| + | Eddy currents in the magnets and in the laminated yoke and mover are neglected. The permanent magnets constitute a magnetic lock that keeps the mover either in the upper or lower position tending to diminish the residual airgap. The mover is moved down or up by applying a voltage pulse to one of the coils. The commutation is facilitated by two springs. <ref>[http://orbi.ulg.ac.be/handle/2268/22765 Application of the fast multipole method to the 2D finite element-boundary element analysis of electromechanical devices], R. V. Sabariego, J. Gyselinck, C. Geuzaine, P. Dular, W. Legros, COMPEL:The International Journal for Computation and Mathematics in Electrical and Electronic Engineering, 22(3), pp. 659-673. </ref> | ||
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| + | == References == | ||
| + | <div class="references-small"> <references /> </div> | ||
Revision as of 17:21, 3 May 2013
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2D model of an electro-mechanical relay.
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Download model archive (relay.zip) |
Additional information
The example contains:
- ""relay.pro"": 2D model of a linear actuator. It comprises a yoke, two permanent magnets, two coils and a mover. The yoke and the mover are made of iron.
Eddy currents in the magnets and in the laminated yoke and mover are neglected. The permanent magnets constitute a magnetic lock that keeps the mover either in the upper or lower position tending to diminish the residual airgap. The mover is moved down or up by applying a voltage pulse to one of the coils. The commutation is facilitated by two springs. [1]
References
- ↑ Application of the fast multipole method to the 2D finite element-boundary element analysis of electromechanical devices, R. V. Sabariego, J. Gyselinck, C. Geuzaine, P. Dular, W. Legros, COMPEL:The International Journal for Computation and Mathematics in Electrical and Electronic Engineering, 22(3), pp. 659-673.
