Wireless power using resonant magnetic induction has been proposed as a potentially superior method of recharging the batteries of electric vehicles. However, unlike conductive charging, the control of wireless charging requires a complementary wireless data link. Several methods have been proposed for this, including IEEE 802.11 packet-based topologies, Bluetooth, and other RF systems. However, high power wireless charging requires a very low latency communication system that provides absolutely unambiguous node-to-node connectivity. The authors will present a novel near-field communications platform that is designed specifically for the needs of wireless charging.
Inductively Coupled, Full Duplex Data Link for Use in Resonant Induction Wireless Charging
2019-06-01
830232 byte
Conference paper
Electronic Resource
English
Near field, full duplex data link for resonant induction wireless charging
European Patent Office | 2023
|NEAR FIELD, FULL DUPLEX DATA LINK FOR USE IN STATIC AND DYNAMIC RESONANT INDUCTION WIRELESS CHARGING
European Patent Office | 2019
|Near field, full duplex data link for use in static and dynamic resonant induction wireless charging
European Patent Office | 2018
|NEAR FIELD FULL DUPLEX DATA LINK FOR USE IN STATIC AND DYNAMIC RESONANT INDUCTION WIRELESS CHARGING
European Patent Office | 2021
|NEAR FIELD, FULL DUPLEX DATA LINK FOR USE IN STATIC AND DYNAMIC RESONANT INDUCTION WIRELESS CHARGING
European Patent Office | 2018
|