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Analysis and Experimentation of a Novel Modulation Technique for a Dual-Output WPT Inverter

Dynamic wireless power transfer systems require to supply many transmitting coils deployed under the road surface and arranged along the so-called track. This layout entails the use of a large number of inverters or of devices that switch the power to the proper coils. This article presents a techni...

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Published in:	IEEE transactions on industrial electronics (1982) 2023-11, Vol.70 (11), p.11174-11184
Main Authors:	Bertoluzzo, Manuele, Buja, Giuseppe, Dashora, Hemant Kumar
Format:	Article
Language:	English
Subjects:	Amplitudes Coils Coils (windings) Complexity theory Costs Harmonic analysis Inductive power transmission Inverters Legged locomotion Logic gates Modulation phase control voltage source inverters wireless power transfer Wireless power transmission
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container_end_page	11184
container_issue	11
container_start_page	11174
container_title	IEEE transactions on industrial electronics (1982)
container_volume	70
creator	Bertoluzzo, Manuele Buja, Giuseppe Dashora, Hemant Kumar
description	Dynamic wireless power transfer systems require to supply many transmitting coils deployed under the road surface and arranged along the so-called track. This layout entails the use of a large number of inverters or of devices that switch the power to the proper coils. This article presents a technique that uses a single three-phase inverter to supply two coils with voltages having different and independently adjustable amplitudes of their first harmonic component. Differently from the well-known phase shift technique, the amplitude and the phase of the voltages are not correlated. Moreover, the presented technique has the ability of inherently reducing the phase difference between the two output currents when the supplied loads are partially reactive. This feature enhances the power transfer capability of the inverter when both the track coils are coupled with the same pickup. After presenting this technique, this article analyzes the functioning of the dual-output inverter in different load conditions recognizing the boundaries of four different modes of operation. For each of them the analytical expression of the amplitude and phase of the generated voltages are given. The theoretical findings are validated by experiments performed on a prototypal setup that implements the presented modulation technique.
doi_str_mv	10.1109/TIE.2022.3227298
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subjects	Amplitudes Coils Coils (windings) Complexity theory Costs Harmonic analysis Inductive power transmission Inverters Legged locomotion Logic gates Modulation phase control voltage source inverters wireless power transfer Wireless power transmission
title	Analysis and Experimentation of a Novel Modulation Technique for a Dual-Output WPT Inverter
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