Finite-element simulations show that combining dielectric shielding, distributed capacitors, and a coil-array transmitter reduces peak E-field from 1416 V/m to 82 V/m while preserving the required 8 A/m H-field.
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Electric Field Attenuation Techniques for Inductive Wireless Charging of Medical Implants
Finite-element simulations show that combining dielectric shielding, distributed capacitors, and a coil-array transmitter reduces peak E-field from 1416 V/m to 82 V/m while preserving the required 8 A/m H-field.