The objective of the study was Design inductive coil for rechargeable battery operated Implanted Medical
Devices application . It is a method of improving the efficiency when the distance between the resonators is changed. The
inductive coils tested are used to the transmission of power in the resonance frequency circuit of the induction coil of the
transmitter and receiver. The technique are require additional lossy matching network and is based on optimally adjusting the
coupling factor between the source and the internal resonator load. The measurement shows that high efficiencies over a large
distance are achieved by using matching network. The advantage of the proposed inductive coil is that it can be used to
designed for rechargeable battery operated Implanted Medical Devices.
(英)
The objective of the study was Design inductive coil for rechargeable battery operated Implanted Medical
Devices application . It is a method of improving the efficiency when the distance between the resonators is changed. The
inductive coils tested are used to the transmission of power in the resonance frequency circuit of the induction coil of the
transmitter and receiver. The technique are require additional lossy matching network and is based on optimally adjusting the
coupling factor between the source and the internal resonator load. The measurement shows that high efficiencies over a large
distance are achieved by using matching network. The advantage of the proposed inductive coil is that it can be used to
designed for rechargeable battery operated Implanted Medical Devices.