A voltage-behind-reactance synchronous machine model with saturation and arbitrary rotor network representation / Aliprantis, D. C. in IEEE transactions on energy conversion, Vol. 23 n°2 (Juin 2008)  

Public ISBD [article]  inIEEE transactions on energy conversion > Vol. 23 n°2 (Juin 2008) . - pp. 499 - 508 Titre : A voltage-behind-reactance synchronous machine model with saturation and arbitrary rotor network representation Type de document : texte imprimé Auteurs : Aliprantis, D. C., Auteur ; Wasynczuk, O., Auteur ; Rodriguez Valdez, C.D., Auteur Année de publication : 2008 Article en page(s) : pp. 499 - 508 Note générale : Energy conversion Langues : Anglais (eng) Mots-clés : Synchronous machines  transfer functions Résumé : A voltage-behind-reactance formulation of a synchronous machine model is set forth, which incorporates saturation and cross-saturation, and is general enough to encapsulate a variety of rotor structures by use of arbitrary linear networks instead of equivalent circuits. Specifically, the model's equations - originally expressed in the qd-axes framework - are rewritten in such a way as to allow the actual abc stator windings to be represented by inductive branches, which can then be naturally connected in the desired circuit topology, e.g., to a rectifier. The model's predictions are validated against experimental results. En ligne : http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=4509482&sortType%3Das [...] [article] A voltage-behind-reactance synchronous machine model with saturation and arbitrary rotor network representation [texte imprimé] / Aliprantis, D. C., Auteur ; Wasynczuk, O., Auteur ; Rodriguez Valdez, C.D., Auteur . - 2008 . - pp. 499 - 508. Energy conversion Langues : Anglais (eng) in IEEE transactions on energy conversion > Vol. 23 n°2 (Juin 2008) . - pp. 499 - 508 Mots-clés : Synchronous machines  transfer functions Résumé : A voltage-behind-reactance formulation of a synchronous machine model is set forth, which incorporates saturation and cross-saturation, and is general enough to encapsulate a variety of rotor structures by use of arbitrary linear networks instead of equivalent circuits. Specifically, the model's equations - originally expressed in the qd-axes framework - are rewritten in such a way as to allow the actual abc stator windings to be represented by inductive branches, which can then be naturally connected in the desired circuit topology, e.g., to a rectifier. The model's predictions are validated against experimental results. En ligne : http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=4509482&sortType%3Das [...]

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