Method and apparatus for controlling wireless power transmission

What is claimed is: 1. An apparatus for controlling wireless power transmission, the apparatus comprising: a controller configured to determine an output voltage of a power factor correction unit based on charging information of a battery of a wireless power reception apparatus, the power factor correction unit configured to correct an input voltage into the determined output voltage, and output a variable voltage; an inverter configured to convert the output voltage of the power factor correction unit into an alternating current (AC) voltage based on a variable frequency; and a resonance unit configured to transmit power converted from the variable voltage to the wireless power reception apparatus, wherein the power factor correction unit is further configured to obtain the input voltage from a power supply, and to output the variable voltage based on a result of the determining of the controller; the resonance unit is further configured to transmit the power converted from the variable voltage to the AC voltage using a resonant frequency of a resonator to the wireless power reception apparatus; and the controller is further configured to determine a value of the variable frequency in a resonant frequency hand of the resonator and the output voltage of the power factor correction unit, based on the obtained charging information of the battery. 2. The apparatus of claim 1 , wherein the inverter is further configured to convert a fixed output voltage into the AC voltage based on the variable frequency, and wherein the power factor correction unit is further configured to output the fixed output voltage. 3. The apparatus of claim 2 , wherein the controller comprises: a gain calculator configured to calculate a voltage gain with respect to the output voltage of the power factor correction unit, based on a value of a voltage to be applied to the battery; and a frequency determiner configured to determine the value of the variable frequency, among frequencies having transmission efficiencies greater than or equal to a predetermined transmission efficiency, based on a transmission efficiency allowing for the calculated voltage gain, wherein the value of the voltage to be applied to the battery is obtained from the wireless power reception apparatus. 4. The apparatus of claim 1 , further comprising: a communication unit configured to receive the charging information of the battery from the wireless power reception apparatus. 5. An apparatus for controlling wireless power transmission, the apparatus comprising: a controller configured to determine a variable frequency of an inverter based on charging information of a battery of a wireless power reception apparatus, the inverter configured to convert an output voltage of a power factor correction unit into an alternating current (AC) voltage based on the variable frequency; and a resonance unit configured to transmit power converted into the AC voltage to the wireless power reception apparatus. 6. The apparatus of claim 5 , wherein the inverter is further configured to convert an input voltage into the AC voltage based on the determined variable frequency. 7. The apparatus of claim 6 , wherein the input voltage to the inverter is obtained from a power supply; and the resonance unit is further configured to transmit the power converted into the AC voltage using the variable frequency as a resonant frequency of a resonator to the wireless power reception apparatus. 8. The apparatus of claim 7 , wherein the power factor correction unit is further configured to correct the input voltage from the power supply into the determined output voltage, to output a variable voltage based on a result of the determining by the controller, and wherein the inverter is further configured to convert the variable voltage into the AC voltage using a basic resonant frequency of the resonator. 9. The apparatus of claim 7 , wherein the controller comprises: a gain calculator configured to calculate a voltage gain with respect to the input voltage, based on a value of a voltage to be applied to the battery; and a frequency determiner configured to determine a value of the variable frequency, among frequencies having transmission efficiencies greater than or equal to a predetermined transmission efficiency, based on a transmission efficiency allowing for the calculated voltage gain, wherein the value of the voltage to be applied to the battery is obtained from the wireless power reception apparatus. 10. The apparatus of claim 7 , wherein the power factor correction unit is further configured to correct the input voltage into the determined output voltage and output a variable voltage based on a result of the determining by the controller, and wherein the controller is configured to determine a value of the variable frequency in a resonant frequency band of the resonator and the output voltage of the power factor correction unit, based on the obtained charging information of the battery. 11. The apparatus of claim 5 , further comprising: a communication unit configured to receive the charging information of the battery from the wireless power reception apparatus. 12. An apparatus for controlling wireless power transmission, the apparatus comprising: a controller configured to determine an output voltage of a power factor correction unit and a variable frequency of an inverter, based on charging information of a battery of a wireless power reception apparatus, wherein the power factor correction unit is configured to correct an input voltage into the determined output voltage, to output a variable voltage based on a result of the determining by the controller, and the inverter is configured to convert the output voltage of the power factor correction unit into an alternating current (AC) voltage based on the variable frequency; and a resonance unit configured to transmit power converted into the AC voltage to the wireless power reception apparatus. 13. The apparatus of claim 12 , wherein the inverter is further configured to convert the variable voltage into the AC voltage based on the determined variable frequency. 14. The apparatus of claim 12 , wherein the power factor correction unit is further configured to obtain the input voltage from a power supply; and the resonance unit is further configured to transmit the power converted into the AC voltage using the variable frequency as a resonant frequency of a resonator to the wireless power reception apparatus. 15. The apparatus of claim 14 , wherein the controller comprises: a gain calculator configured to calculate a voltage gain with respect to the output voltage of the power factor correction unit, based on a value of a voltage to be applied to the battery; a frequency determiner configured to determine a value of the variable frequency, among frequencies having transmission efficiencies greater than or equal to a predetermined transmission efficiency, based on a transmission efficiency allowing for the calculated voltage gain; and a voltage determiner configured to determine the output voltage of the power factor correction unit based on the transmission efficiency, wherein the value of the voltage to be applied to the battery is obtained from the wireless power reception apparatus. 16. The apparatus of claim 12 , further comprising: a communication unit configured to receive the charging information of the battery from the wireless power reception apparatus. 17. A method for controlling power transmission, the method comprising: determining an output voltage of a power