This wireless charging device allows for a high degree of flexibility when positioning mobile electronics for charging. More than 7 billion mobile devices are active worldwide, and the wireless charging market will reach $13.7 billion by 2020. However, available wireless charging devices are flat and require close alignment of the transmitter to the receiver in order to sufficiently charge, which limits the types of devices and the positions conducive to charging. Researchers at the University of Florida have developed an array of coils that can be arranged around a 3D structure and selectively activated to optimize charging of mobile devices at a wide range of orientations. For instance, the wireless device creates the opportunity for optimal wireless charging in cars as the device could be integrated into a cup holder, allowing a driver to arbitrarily place a smart phone inside the charger without taking attention from the road.
3D structure for flexible positioning and optimal wireless charging of devices
This charger uses a small array of transmitter coils that can be selectively activated with different phase relationships to optimize charging. The coils are arranged as a 3D structure to allow charging of mobile devices at a wide range of orientations. This no longer limits the design possibilities of wireless chargers to mostly planar structures such as charging pads, which are not always optimal. . It might be advantageous to design a non-planar in-vehicle charger, for example.