Cost, poor energy density and long charging time of batteries are a barrier to electro-mobility. Dynamic inductive power transfer is an effective technology able to overcome these limits. The paper presents the problem formulation, the methodology and the models for the analysis of the human exposure to the stray magnetic field with application to a light electric commercial vehicle.
Cirimele, V., Freschi, F., Giaccone, L., Pichon, L., Repetto, M. (2016). Human exposure assessment in dynamic inductive power transfer for automotive applications. Institute of Electrical and Electronics Engineers Inc. [10.1109/CEFC.2016.7816121].
Human exposure assessment in dynamic inductive power transfer for automotive applications
Cirimele, VincenzoPrimo
;
2016
Abstract
Cost, poor energy density and long charging time of batteries are a barrier to electro-mobility. Dynamic inductive power transfer is an effective technology able to overcome these limits. The paper presents the problem formulation, the methodology and the models for the analysis of the human exposure to the stray magnetic field with application to a light electric commercial vehicle.File in questo prodotto:
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