Wireless charging transmitter and method thereof

What is claimed is: 1. A wireless charging transmitter for charging an electronic device having a receiver coil, comprising: a charging module, comprising a transmitter coil electromagnetically coupled to the receiver coil, and an array of comb-shaped structures with combined electric radiation shielding and antenna coupling functions; and a control unit coupled to the array of comb-shaped structures for switching the charging module from a standby mode to a charging mode to wirelessly charge the electronic device; wherein the array includes a plurality of planar dipole antennas, and each of the planar dipole antennas includes a plurality of comb-like antenna portions, wherein, in the standby mode, the planar dipole antennas wirelessly couple with an antenna of the electronic device for receiving a mobile communication signal from the electronic device, and the charging module determines whether the electronic device is to be charged by the transmitter coil through the mobile communication signal when the electronic device approaches within a predetermined radius of the wireless charging transmitter, and wherein, in the charging mode, the planar dipole antennas operate for electric radiation shielding and for coupling with the antenna of the electronic device. 2. The wireless charging transmitter as claimed in claim 1 , wherein each of the antenna portions includes a comb base, and a plurality of parallel tracks connected to the comb base. 3. The wireless charging transmitter as claimed in claim 2 , wherein: an electric field produced by the transmitter coil is shielded by the array in the charging mode; the array enables a magnetic field produced by the transmitter coil to be inductively coupled to the receiver coil; and the magnetic field produced by the transmitter coil crosses through the array of comb-shaped structures. 4. The wireless charging transmitter of claim 1 , wherein the mobile communication signal transmitted from the electronic device is received by the array of comb-shaped structures; and in pinging, modulation information of the mobile communication signal from the electronic device is demodulated by the wireless charging transmitter and thus the wireless charging transmitter demodulates the modulation information to determine whether the electronic device is to be charged by the wireless charging transmitter. 5. The wireless charging transmitter as claimed in claim 1 , wherein, in pinging, the control unit sends a ping signal to the electronic device via the transmitter coil, and the electronic device responds to the ping signal for charging. 6. The wireless charging transmitter as claimed in claim 5 , wherein the control unit further comprises a switch, the switch is controlled to couple the array of comb-shaped structures to ground when the wireless charging transmitter is in the charging mode, and if the electronic device while approaching the wireless charging transmitter does not respond to the ping signal, the control unit keeps the wireless charging transmitter in the standby mode. 7. The wireless charging transmitter as claimed in claim 1 , wherein the planar dipole antennas are coupled and arranged on a plane. 8. The wireless charging transmitter as claimed in claim 7 , wherein the plurality of planar dipole antennas are three dipole antennas, each having a different polarity arrangement from an adjacent one. 9. A wireless charging method applicable to a wireless charging transmitter, the wireless charging method including: wirelessly coupling an array of comb-shaped structures with combined electric radiation shielding and antenna coupling functions of the wireless charging transmitter to an antenna of an electronic device for receiving a mobile communication signal from the electronic device when the wireless charging transmitter is in a standby mode; determining whether the electronic device is to be charged by a transmitter coil of the wireless charging transmitter through the mobile communication signal when the electronic device approaches within a predetermined radius of the wireless charging transmitter, and if so, switching the wireless charging transmitter from the standby mode to a charging mode to wirelessly charge the electronic device; wherein an electric field produced by the transmitter coil is shielded by the array of comb-shaped structures in wireless charging; and wherein the array includes a plurality of planar dipole antennas, and each of the planar dipole antennas includes a plurality of comb-like antenna portions. 10. The wireless charging method of claim 9 , wherein each of the antenna portions includes a comb base, and a plurality of parallel tracks connected to the comb base. 11. The wireless charging method of claim 10 , further comprising: enabling the transmitter coil to be inductively coupled to a receiver coil of the electronic device; and crossing a magnetic field from the transmitter coil through the array. 12. The wireless charging method of claim 9 , wherein said determining includes: sending a ping signal from a control unit coupled to the array of comb-shaped structures via the transmitter coil; receiving the mobile communication signal transmitted from the electronic device by the array of comb-shaped structures; and in pinging, demodulating modulation information of the mobile communication signal from the electronic device to determine whether the electronic device is to be charged by the wireless charging transmitter. 13. The wireless charging method as claimed in claim 12 , wherein the control unit further comprises a switch, the switch is controlled to couple the array of comb-shaped structure to ground when the wireless charging transmitter is in the charging mode, and if the electronic device approaching the wireless charging transmitter does not respond to the ping signal, the control unit keeps the wireless charging transmitter in the standby mode. 14. The wireless charging method as claimed in claim 12 , wherein the planar dipole antennas are coupled and arranged on a plane. 15. The wireless charging method as claimed in claim 14 , wherein the plurality of planar dipole antennas are three dipole antennas, each having a different polarity arrangement from an adjacent one. 16. A wireless charging transmitter for charging an electronic device having a receiver coil, comprising: a charging module, including a transmitter coil electromagnetically coupled to the receiver coil, and an array of comb-shaped structures with combined electric radiation shielding and antenna coupling functions; and wherein the array includes a plurality of planar dipole antennas, and each of the planar dipole antennas includes a plurality of comb-like antenna portions, wherein, in pinging, the wireless charging transmitter sends a ping signal via the transmitter coil, and detects whether the electronic device responds to the ping signal, and wherein the planar dipole antennas of the wireless charging transmitter wirelessly couple an antenna of the electronic device for receiving a mobile communication signal from the electronic device, and the charging module determines whether the electronic device is to be charged by the transmitter coil through the mobile communication signal when the electronic device approaches within a predetermined radius of the wireless charging transmitter, wherein the planar dipole antennas of the wireless charging transmitter operate for electric radiation shielding and for coupling with the antenna of the electronic device when charging the electronic device. 17. The wireless ch