Wireless power control method and apparatus

The invention claimed is: 1. A wireless power transmitter comprising: a controller; at least first, second, third and fourth transmission coils; and an alternating current (AC) power generator including: at least first, second, third and fourth inverters directly connected to the controller and configured to receive first, second, third and fourth switch control signals output by the controller to control the first, second, third and fourth inverters to convert an applied direct current (DC) power into first, second, third and fourth AC power signals, respectively; and at least first, second, third and fourth phase control circuits directly connected between an output of the first, second, third and fourth inverters and an input of the first, second, third and fourth transmission coils, respectively, and configured to adjust phases of the first, second, third and fourth AC power signals based on first, second, third and fourth input phase control signals output by the controller, respectively, wherein each of the first, second, third and fourth inverters receives a same DC power output by a power converter directly connected to the AC power generator, wherein each of the first, second, third and fourth switch control signals is the same, and wherein the controller is configured to: in response to receiving a first request requesting a first wireless power from a wireless power receiver, output the first, second, third and fourth switch control signals being the same, and output the first, second, third and fourth phase control signals to change phases of the first, second, third and fourth AC power signals to deliver the requested first wireless power, in response to receiving a second request requesting a second wireless power from the wireless power receiver that is greater than the first wireless power, output the first, second, third and fourth switch control signals being the same to control amplitudes of the first, second, third and fourth AC power signals to be equal to each other, and output the first, second, third and fourth phase control signals to decrease phases of the third and fourth AC power signals a same amount without increasing or decreasing phases of the first and second AC power signals to increase a total power level of power output through the plurality of transmission coils and to deliver the requested second wireless power, and in response to receiving a third request requesting a third wireless power from the wireless power receiver that is less than the first wireless power, output the first, second, third and fourth switch control signals being the same to control amplitudes of the first, second, third and fourth AC power signals to be equal to each other, and output the first, second, third and fourth phase control signals to increase phases of the third and fourth AC power signals a same amount without increasing or decreasing phases of the first and second AC power signals to decrease the total power level of the power output through the plurality of transmission coils and to deliver the requested third wireless power. 2. The wireless power transmitter of claim 1 , wherein the power converter is configured to rectify received AC power and to supply the DC power to the AC power generator and the controller. 3. The wireless power transmitter of claim 1 , wherein the first switch control signal includes K number of pulse width modulation signals for controlling K number of switches included in the first inverter, wherein the second switch control signal includes K number of pulse width modulation signals for controlling K number of switches included in the second inverter, wherein the third switch control signal includes K number of pulse width modulation signals for controlling K number of switches included in the third inverter, and wherein the fourth switch control signal includes K number of pulse width modulation signals for controlling K number of switches included in the fourth inverter. 4. The wireless power transmitter of claim 3 , wherein the controller controls a duty rate of the pulse width modulation signal to maintain the first, second, third and fourth AC power signals in a duty ratio of 50% or greater. 5. The wireless power transmitter of claim 3 , wherein the controller fixes an operation frequency by controlling a frequency of the pulse width modulation signal. 6. The wireless power transmitter of claim 1 , further comprising: a demodulator configured to demodulate a control signal of the wireless power receiver, wherein the controller controls the first, second, third and fourth phase control circuits by determining the transmission power based on a required power of the wireless power receiver, received from the demodulator, and generating the first, second, third and fourth phase control signals corresponding to the determined transmission power. 7. The wireless power transmitter of claim 1 , further comprising: at least first, second, third and fourth amplifiers configured to receive the DC voltage and to amplify signals being transmitted to the first, second, third and fourth transmission coils, respectively. 8. The wireless power transmitter of claim 7 , wherein total power output from the first, second, third and fourth transmission coils is equal to a sum of output power of the first, second, third and fourth amplifiers. 9. The wireless power transmitter of claim 7 , wherein the first, second, third and fourth transmission coils partially overlap each other. 10. The wireless power transmitter of claim 7 , wherein an intensity of the DC voltage applied to the first, second, third and fourth amplifiers is maintained constant. 11. The wireless transmitter of claim 1 , wherein the controller is further configured to: in response to receiving a fourth request requesting a maximum amount of wireless power from the wireless power receiver, output the first, second, third and fourth switch control signals being the same to control the amplitudes of the first, second, third and fourth AC power signals to be 1, and control the first, second, third and fourth phase control signals to control the phases of the first, second, third and fourth AC power signals to be 0 degrees to deliver the requested maximum amount of wireless power. 12. The wireless transmitter of claim 11 , wherein the controller is further configured to: in response to receiving a fifth request requesting half of the maximum wireless power from the wireless power receiver, maintain the output of the first, second, third and fourth switch control signals being the same to control the amplitudes of the first, second, third and fourth AC power signals to be 1, output the first and second phase control signals to control the phases of the first and second AC power signals to be 0 degrees and output the third and fourth phase control signals to control the phases of the third and fourth AC power signals to be 120 degrees to deliver the requested half of the maximum wireless power. 13. A wireless power control method of a wireless power transmitter including a controller; at least first, second, third and fourth transmission coils; and an alternating current (AC) power generator including at least first, second, third and fourth inverters directly connected to the controller, and at least first, second, third and fourth phase control circuits directly connected between an output of the first, second, third and fourth inverters and an input of the first, second, third and fourth transmission coils, the method comprising: outputting, by the controller, first, second, third and fourth switch control signals to the first, second, third and four