Performance improvement of inductive coupling system using ferrite materials

“…[4][5][6] Wireless transmission methods are divided mainly into two types: near-field and far-field. In near-field or nonradiative technologies, energy is conveyed over relatively short distances by magnetic fields using inductive coupling [7][8][9][10] among coils, or by electric fields utilizing capacitive coupling [11,12] between metallic electrodes. Inductive coupling is the most prevalent wireless technology; its applications include charging portable devices, RFID tags, wireless charging, or continuous wireless energy transfer in implantable medical devices such as artificial pacemakers or electric vehicles.…”

Photovoltaic Class‐E Inverter for Resonance Wireless Power Transfer for Electric Vehicle Charging Applications with Optimization Algorithms

“…[4][5][6] Wireless transmission methods are divided mainly into two types: near-field and far-field. In near-field or nonradiative technologies, energy is conveyed over relatively short distances by magnetic fields using inductive coupling [7][8][9][10] among coils, or by electric fields utilizing capacitive coupling [11,12] between metallic electrodes. Inductive coupling is the most prevalent wireless technology; its applications include charging portable devices, RFID tags, wireless charging, or continuous wireless energy transfer in implantable medical devices such as artificial pacemakers or electric vehicles.…”

Photovoltaic Class‐E Inverter for Resonance Wireless Power Transfer for Electric Vehicle Charging Applications with Optimization Algorithms

Novel Fe-C-B-P-Cu nanocrystalline alloys with superb magnetic properties and processability