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A Nonlinear Resonance Paradigm Enabling Position-agile Wireless Power Transmission — NSF Award to Regents of the University of Mic

The aim of this project is to research a novel high-order nonlinear resonance wireless power transfer (WPT) approach for implementation in practical position-agile WPT applications ranging from dynamic and opportunistic electric vehicle (EV) charging to powering biomedical devices. Inductive coupling near-field WPT is

Award titleA Nonlinear Resonance Paradigm Enabling Position-agile Wireless Power Transmission
Award ID2516033
AwardeeRegents of the University of Michigan - Ann Arbor
CityANN ARBOR
StateMI
Amount obligated$450,000
Principal investigatorAmir Mortazawi
ProgramCSCS: Circuits and Systems for
Start date10/01/2025
AbstractThe aim of this project is to research a novel high-order nonlinear resonance wireless power transfer (WPT) approach for implementation in practical position-agile WPT applications ranging from dynamic and opportunistic electric vehicle (EV) charging to powering biomedical devices. Inductive coupling near-field WPT is an emerging technology with an immense potential for a wide range of applications. WPT systems use dedicated sources or transmitters for contactless electrical power transfer at di
SourceNSF Awards

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