For taking into account electromagnetic wave propagation within a transformer a length unit inductance is proposed to be connected in series to the length unit turn-to-turn capacitance and a unit length inductance is proposed to be connected in series to the unit length layer-to-layer capacitance within the distributed and quasi distributed parameter model of transformers. As a result the model is able to take into account the wave propagation along the turn-to-turn and layer-to-layer capacitance current path of the coil. This model is able to meet the circuit regularity requirements as well. The quasi distributed parameter model contains several identical lumps for modelling the wave propagation but being easily applicable for the practical use with circuit simulator software. A high frequency model of transformer shielding is proposed for the use with circuit simulator software modelling the high frequency behaviour of the shielding. A comprehensive model containing the proposed elements can help in evaluating electromagnetic compatibility (EMC) of a future transformer during its design period.
Les informations fournies dans la section « Synopsis » peuvent faire référence à une autre édition de ce titre.
For taking into account electromagnetic wave propagation within a transformer a length unit inductance is proposed to be connected in series to the length unit turn-to-turn capacitance and a unit length inductance is proposed to be connected in series to the unit length layer-to-layer capacitance within the distributed and quasi distributed parameter model of transformers. As a result the model is able to take into account the wave propagation along the turn-to-turn and layer-to-layer capacitance current path of the coil. This model is able to meet the circuit regularity requirements as well. The quasi distributed parameter model contains several identical lumps for modelling the wave propagation but being easily applicable for the practical use with circuit simulator software. A high frequency model of transformer shielding is proposed for the use with circuit simulator software modelling the high frequency behaviour of the shielding. A comprehensive model containing the proposed elements can help in evaluating electromagnetic compatibility (EMC) of a future transformer during its design period.
György Elmer was born in Pécs (HUNGARY), 30. 12. 1959. He was graduated at the Budapest University of Technology and Economics as an electrical engineer in year 1984. He finished his doctoral (Ph.D.) work at the same university in year 2006. Since 1989 he is working at the University of Pécs, Pollack Mihály Faculty of Engineering.
Les informations fournies dans la section « A propos du livre » peuvent faire référence à une autre édition de ce titre.
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Taschenbuch. Etat : Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -For taking into account electromagnetic wave propagation within a transformer a length unit inductance is proposed to be connected in series to the length unit turn-to-turn capacitance and a unit length inductance is proposed to be connected in series to the unit length layer-to-layer capacitance within the distributed and quasi distributed parameter model of transformers. As a result the model is able to take into account the wave propagation along the turn-to-turn and layer-to-layer capacitance current path of the coil. This model is able to meet the circuit regularity requirements as well. The quasi distributed parameter model contains several identical lumps for modelling the wave propagation but being easily applicable for the practical use with circuit simulator software. A high frequency model of transformer shielding is proposed for the use with circuit simulator software modelling the high frequency behaviour of the shielding. A comprehensive model containing the proposed elements can help in evaluating electromagnetic compatibility (EMC) of a future transformer during its design period. 88 pp. Englisch. N° de réf. du vendeur 9783846525784
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Taschenbuch. Etat : Neu. This item is printed on demand - Print on Demand Titel. Neuware -For taking into account electromagnetic wave propagation within a transformer a length unit inductance is proposed to be connected in series to the length unit turn-to-turn capacitance and a unit length inductance is proposed to be connected in series to the unit length layer-to-layer capacitance within the distributed and quasi distributed parameter model of transformers. As a result the model is able to take into account the wave propagation along the turn-to-turn and layer-to-layer capacitance current path of the coil. This model is able to meet the circuit regularity requirements as well. The quasi distributed parameter model contains several identical lumps for modelling the wave propagation but being easily applicable for the practical use with circuit simulator software. A high frequency model of transformer shielding is proposed for the use with circuit simulator software modelling the high frequency behaviour of the shielding. A comprehensive model containing the proposed elements can help in evaluating electromagnetic compatibility (EMC) of a future transformer during its design period.VDM Verlag, Dudweiler Landstraße 99, 66123 Saarbrücken 88 pp. Englisch. N° de réf. du vendeur 9783846525784
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Taschenbuch. Etat : Neu. nach der Bestellung gedruckt Neuware - Printed after ordering - For taking into account electromagnetic wave propagation within a transformer a length unit inductance is proposed to be connected in series to the length unit turn-to-turn capacitance and a unit length inductance is proposed to be connected in series to the unit length layer-to-layer capacitance within the distributed and quasi distributed parameter model of transformers. As a result the model is able to take into account the wave propagation along the turn-to-turn and layer-to-layer capacitance current path of the coil. This model is able to meet the circuit regularity requirements as well. The quasi distributed parameter model contains several identical lumps for modelling the wave propagation but being easily applicable for the practical use with circuit simulator software. A high frequency model of transformer shielding is proposed for the use with circuit simulator software modelling the high frequency behaviour of the shielding. A comprehensive model containing the proposed elements can help in evaluating electromagnetic compatibility (EMC) of a future transformer during its design period. N° de réf. du vendeur 9783846525784
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