@inproceedings{SeligerHonsa2023, author = {Seliger, Norbert and Honsa, Johannes}, title = {Time-variable Mutual Inductance for Enhanced Inductive Power Transmission}, series = {Proceedings International Symposium on Fundamentals of Electrical Engineering 2023 (ISFEE 2023)}, booktitle = {Proceedings International Symposium on Fundamentals of Electrical Engineering 2023 (ISFEE 2023)}, publisher = {IEEE}, address = {Bucharest, Romania}, isbn = {tbd}, pages = {5}, year = {2023}, abstract = {Enhanced inductive power transmission (IPT) between coaxially arranged circular coils is introduced by time-modulation of the mutual inductance. This modulation is accomplished by coherent switching of the short circuit current induced in a third loop. An analytical circuit model supporting the design for future time-modulated IPT systems is derived. We demonstrate an increase in load rms-voltage by 13\% (28\% gain in power) compared to an unmodulated transfer on an experimental system operating at fundamental frequencies ranging from 40kHz to 500kHz.}, language = {en} }