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Application guide
Wireless charging for consumer
Introducing cost-eective solutions to ensure excellent user experience
www.infineon.com/wirelesscharging
Wireless charging uses electromagnetic fields to transfer power from a transmitter to a receiver
to charge the battery of the end-application.
Infineon’s broad selection of components helps you to master your design challenges for resonant
and inductive solutions. As a member of the Wireless Power Consortium and the AirFuel Alliance,
Infineon is dedicated to actively shape the trends of tomorrow.
Choose Infineon to solve your application requirements:
›
High performance MOSFETs, ICs and MCU at optimum price/performance ratio thanks to cost-
eective packages and leading, reliable and mature silicon technology
›
High power density in small designs: Enabling the lowest switching and conduction losses in
smallest packages for MOSFETs and power stage
›
Smallest possible package size (2 x 2, 3 x 3 half-bridge) for low power MOSFETs 30 V-250 V
›
Highest eiciency: In hard switching topologies, enjoy low switching losses thanks to low input
and output capacitances
Infineon is working on its own medium voltage GaN technology and will bring it to the market with
a significant performance increase over silicon MOSFETs and at the same level of reliability.
Smartphones
Service robots
Wearables
Electric toys
Notebooks
Medical
Tablets
In-car charging
Battery powered tools Multicopter
Industrial
Solutions from Infineon
Standards are required for wireless charging
Qi (inductive)
100 kHz-300 kHz
Inductive AirFuel (PMA)
100 kHz-300 kHz
Resonant AirFuel (A4WP)
6.78 MHz
Wireless charging receivers
Receivers (Rx)
Wireless charging pads/sockets
Transmitters (Tx)
Various adapters/chargers
AC-DC adapters
