The present invention suppresses leakage magnetic field. A power transfer coil configured to transmit or receive power includes: an inner coil; a first outer coil formed so as to surround the inner coil such that a magnetic flux opposite in phase to a magnetic flux outside the inner coil is generated outside the first outer coil, the first outer coil having one end connected to a first terminal and the other end connected to one end of the inner coil; and a second outer coil formed so as to surround the inner coil such that a magnetic flux opposite in phase to the magnetic flux outside the inner coil is generated outside the second outer coil, the second outer coil having one end connected to a second terminal and the other end connected to the other end of the inner coil.

The present invention suppresses leakage magnetic field. A power transfer coil configured to transmit or receive power includes: an inner coil; a first outer coil formed so as to surround the inner coil such that a magnetic flux opposite in phase to a magnetic flux outside the inner coil is generated outside the first outer coil, the first outer coil having one end connected to a first terminal and the other end connected to one end of the inner coil; and a second outer coil formed so as to surround the inner coil such that a magnetic flux opposite in phase to the magnetic flux outside the inner coil is generated outside the second outer coil, the second outer coil having one end connected to a second terminal and the other end connected to the other end of the inner coil.

An embodiment wireless charging vehicle includes a secondary charging pad configured to generate an induced current by a magnetic field generated to a primary charging pad of a wireless charging station and to charge a battery, a plurality of ultra-wideband (UWB) tags disposed to surround the vehicle, and a UWB controller configured to perform a wireless charging arrangement mode for arranging the secondary charging pad on the primary charging pad by using a sensor value measured by the UWB tags, wherein the UWB controller is configured to calculate a coordinate of the primary charging pad by using a line of sight (LOS) sensor value of a UWB tag having a line of sight from among the UWB tags.

A system and method are provided for a feed-forward control of an inverter to reduce, and potentially minimize, a DC link capacitor of a wireless power transfer system. The feed-forward control may be utilized to reduce the capacitance of the DC link capacitor in a single-phase series-series compensated WPT system.

A system and method are provided for a feed-forward control of an inverter to reduce, and potentially minimize, a DC link capacitor of a wireless power transfer system. The feed-forward control may be utilized to reduce the capacitance of the DC link capacitor in a single-phase series-series compensated WPT system.

An information processing apparatus accepts an inquiry about rental of a power feed mat that can supply electric power to a movable body. In the information processing apparatus, association information in which category information is associated with identification information of each of a plurality of power feed mats is stored. The category information indicates to which of a plurality of categories set for characteristics at least one characteristic of the power feed mat belongs. The information processing apparatus specifies at least one power feed mat among the plurality of power feed mats based on the accepted inquiry and the association information. The information processing apparatus provides information based on a result of specifying.

Systems and methods for charging electric vehicles and for quantitative and qualitative load balancing of electrical demand are provided.

Systems and methods for charging electric vehicles and for quantitative and qualitative load balancing of electrical demand are provided.

In certain aspects, an enclosure for a wireless power transfer pad is disclosed. The enclosure includes a cover shell configured to be positioned over a portion of the wireless power transfer pad configured to face a wireless power receiver when wirelessly transferring power, wherein at least a portion of the cover shell is made of a heat resistant material.

A wireless power transfer (WPT) method based on a state of an auxiliary battery and an electric vehicle (EV) for the same includes receiving, by an EV charging apparatus, a wireless jump start request message from a user terminal; transmitting, by the EV charging apparatus, a primary jump start power according to the wireless jump start request message to the EV; driving an auxiliary power supply device provided in the EV by a secondary jump start power induced by the primary jump start power; driving a controller of the EV based on a preset power outputted from the auxiliary power supply device; and charging, by the controller of the EV, an auxiliary battery of the EV.