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Inductive wireless power transfer (IPT) necessarily involves intense time-varying magnetic fields. As predicted by Faraday's law, the time-varying magnetic flux due to the primary-side coupler of an IPT system induces electric field and hence current in all conductive materials which enter its field, intentionally or inadvertently. Thus, we examine the possibility of magnetostimulation or more specifically...
Inductive wireless power transfer (IPT) necessarily involves intense time-varying magnetic fields. As predicted by Faraday's law, the time-varying magnetic flux due to the primary-side coupler of an IPT system induces electric field and hence current in all conductive materials which enter its field, intentionally or inadvertently. Thus, we examine the possibility of magnetostimulation or more specifically...
Inductive wireless power transfer (IPT) necessarily involves intense time-varying magnetic fields. As predicted by Faraday's law, the time-varying magnetic flux due to the primary-side coupler of an IPT system induces electric field and hence current in all conductive materials which enter its field, intentionally or inadvertently. Thus, we examine the possibility of magnetostimulation or more specifically...
Inductive wireless power transfer (IPT) necessarily involves intense time-varying magnetic fields. As predicted by Faraday's law, the time-varying magnetic flux due to the primary-side coupler of an IPT system induces electric field and hence current in all conductive materials which enter its field, intentionally or inadvertently. Thus, we examine the possibility of magnetostimulation or more specifically...
Inductive wireless power transfer (IPT) necessarily involves intense time-varying magnetic fields. As predicted by Faraday's law, the time-varying magnetic flux due to the primary-side coupler of an IPT system induces electric field and hence current in all conductive materials which enter its field, intentionally or inadvertently. Thus, we examine the possibility of magnetostimulation or more specifically...
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