Wireless charging apparatus

We claim: 1 . A wireless charging apparatus comprising: an exciter that initiates and shapes microwave power, the exciter comprising: a ground structure; and a feed structure disposed within the ground structure; and an adapter configured to hold a device to be charged with a side of the device to be charged exposed external to the apparatus while charging the device to be charged, the adapter configured to transmit the microwave power from the exciter to the device to be charged. 2 . The apparatus according to claim 1 , wherein the exciter, the adapter, and the device to be charged create a structure that facilitates the transfer of microwave power to the device to be charged when the device to be charged is attached to the adapter. 3 . The apparatus according to claim 1 , wherein the exciter establishes electromagnetic fields that concentrate on an antenna aperture of the device to be charged when the device to be charged is attached to the adapter. 4 . The apparatus according to claim 1 , wherein the exciter establishes an electromagnetic field distribution at an interface between the apparatus and the device to be charged such that electromagnetic fields are uniformly distributed when the device to be charged is not attached to the adapter. 5 . The apparatus according to claim 1 , wherein the feed structure and the ground structure control an input impedance of the exciter and an electromagnetic field distribution at an interface between the exciter and the device to be charged. 6 . The apparatus according to claim 1 , wherein the feed structure comprises a conductive truncated cone with a diameter and a cone angle, and wherein a height of the ground structure and the cone angle, lower diameter, and upper diameter of the truncated cone control an input impedance of the exciter and an electromagnetic field distribution at an exit of the exciter. 7 . The apparatus according to claim 1 , wherein the feed structure comprises a cone, which can be truncated, and wherein the ground structure comprises a tube with the cone disposed within the tube. 8 . The apparatus according to claim 1 , wherein the feed structure comprises a truncated cone with a cross-sectional area in a plane perpendicular to a direction from the adapter, where the cross-sectional area becomes smaller in a direction away from the adapter. 9 . The apparatus according to claim 1 , wherein the exciter and the adapter provide at least one of a coaxial interface and an open waveguide that is terminated by the device to be charged. 10 . The apparatus according to claim 1 , wherein the microwave frequency comprises a frequency of at least 500 MHz. 11 . The apparatus according to claim 1 , wherein the adapter comprises an impedance matching medium between the exciter and the device to be charged. 12 . The apparatus according to claim 11 , wherein a shape of an inner wall of the adapter, a filling material of the adapter, and the adapter height provide proper impedance matching between the exciter and the device to be charged. 13 . The apparatus according to claim 1 , further comprising: a cooling fan located at an opposite end of the exciter from the adapter, the cooling fan providing airflow within the apparatus to cool the device to be charged, and at least one aperture in at least one of the exciter and the adapter, the aperture allowing airflow from the cooling fan, wherein a diameter of the aperture is small enough to reduce emissions of radio frequency energy from the exciter through the aperture. 14 . The apparatus according to claim 1 , further comprising a directional coupler configured to monitor reflected power to determine the presence of the device to be charged. 15 . The apparatus according to claim 1 , wherein the exciter is configured to operate at a same microwave frequency as an antenna of a device to be charged. 16 . The apparatus according to claim 1 , wherein the exciter ground structure and the adapter are one of a unitary structure and separate structures. 17 . A wireless charging apparatus comprising: an exciter configured to operate at a same frequency of an antenna of a device to be charged, where the antenna of the device to be charged is used for wireless communication, where the exciter initiates and shapes electromagnetic fields, the exciter comprises: a ground structure; and a feed structure disposed in a volume within the ground structure; and an adapter configured to hold a device to be charged with a side of the device to be charged physically exposed external to the apparatus while charging the device to be charged, the adapter configured to transmit the microwave power from the exciter to the device to be charged. 18 . The apparatus according to claim 17 , wherein the exciter and the adapter provide at least one of a coaxial interface and an open waveguide that is terminated by the device to be charged. 19 . The apparatus according to claim 17 , wherein the exciter, the adapter, and the device to be charged create a structure that facilitates the transfer of microwave power to the device to be charged when the device to be charged is attached to the adapter. 20 . A wireless charging apparatus comprising: an exciter configured to operate at a same frequency of an antenna of a device to be charged, where the exciter initiates and shapes microwave energy at a frequency of at least 500 MHz, where the exciter comprises: a ground structure; and a feed structure that is driven against the ground structure; and an adapter configured to hold a device to be charged with a side of the device to be charged exposed external to the apparatus while charging the device to be charged, the adapter configured to transmit the microwave power from the exciter to the device to be charged, wherein the exciter and the adapter provide a mechanism to transfer microwave power that is terminated by the device to be charged, and wherein the exciter, the adapter, and the device to be charged create a structure that facilitates the transfer of microwave power to the device to be charged when the device to be charged is attached to the adapter.