Wireless power receiver and method for controlling the same

What is claimed is: 1. A control method in a wireless power receiver that receives power from a wireless power transmitter, the method comprising: receiving the power from the wireless power transmitter wirelessly; rectifying the received power; modulating the rectified power by connecting one of a variable resistor and a variable capacitor of a modulator to a rectifier of the wireless power receiver or disconnecting one of the variable resistor and the variable capacitor of the modulator from the rectifier, wherein the variable resistor and the variable capacitor are disposed outside of a battery of the wireless power receiver; monitoring a voltage value of the rectified power while modulating the rectified power; determining whether a ripple of the voltage value of the rectified power is greater than or equal to a preset threshold; and if the ripple of the voltage value of the rectified power is greater than or equal to the preset threshold, changing one of a resistance of the variable resistor and a capacitance of the variable capacitor during the modulation of the rectified power in real time to suppress the ripple below the preset threshold and charging the battery by using the rectified power of which the ripple is suppressed, wherein the ripple is caused by the modulation of the rectified wireless power. 2. The control method of claim 1 , further comprising outputting the rectified power in a form of Direct Current (DC). 3. The control method of claim 1 , wherein the rectified power is modulated based on a resistive load modulation scheme. 4. The control method of claim 1 , wherein the rectified power is modulated based on a capacitive load modulation scheme. 5. The control method of claim 1 , wherein changing one of the resistance of the variable resistor and the capacitance of the variable capacitor comprises: calculating a difference between an absolute value of the ripple and an absolute value of a proper ripple; reading a look-up table for a relationship between the difference and one of a change in the resistance and a change in the capacitance, which corresponds to the difference; and changing one of the resistance of the variable resistor and the capacitance of the variable capacitor based on the read change in the resistance and the change in the capacitance. 6. A power receiver for receiving power from a wireless power transmitter, comprising: a power receiver configured to receive the power from the wireless power transmitter wirelessly; a rectifier configured to rectify the received power; a modulator comprising one of a variable resistor and a variable capacitor and configured to modulate the rectified power by connecting one of the variable resistor and the variable capacitor to the rectifier or disconnecting one of the variable resistor and the variable capacitor of the modulator from the rectifier; a controller configured to: monitor a voltage value of the rectified power while modulating the rectified power, determine whether a ripple of the voltage value of the rectified power is greater than or equal to a preset threshold, and if the ripple of the voltage value of the wireless power is greater than or equal to a preset threshold, control to change one of a resistance of the variable resistor and a capacitance of the variable capacitor during the modulation of the rectified power in real time to suppress the ripple below the preset threshold; and a battery for charging by using the rectified power of which the ripple is suppressed, wherein the variable resistor and the variable capacitor are disposed outside of a battery of the wireless power receiver, and wherein the ripple is caused by the modulation of the rectified power. 7. The wireless power receiver of claim 6 , wherein the controller outputs the rectified power in a form of Direct Current (DC). 8. The wireless power receiver of claim 7 , wherein the modulator comprises: a first resistor having a first end connected to the rectifier and a second end connected to the controller; a second resistor having a first end connected to the controller and the second end of the first resistor, and a second end connected to the rectifier; the variable resistor having a first end connected to the first resistor and a second end connected to the controller; and a switch having a first end connected to the second end of the variable resistor and a second end connected to the battery. 9. The wireless power receiver of claim 8 , wherein the switch includes an N-channel Metal-Oxide-Semiconductor (N-MOS) element, a gate of which is connected to the controller. 10. The wireless power receiver of claim 6 , wherein the modulator modulates the rectified power based on a resistive load modulation scheme. 11. The wireless power receiver of claim 6 , wherein the modulator modulates the rectified power based on a capacitive load modulation. 12. The wireless power receiver of claim 6 , further comprising a storage for storing a look-up table including a relationship between an absolute value of a proper ripple and one of a change in the resistance and a change in the capacitance that corresponds to a difference between absolute value of a ripple and the absolute value of the proper ripple, wherein the controller calculates the difference between the absolute value of the ripple and the absolute value of the proper ripple, reads the look-up table for the relationship between the difference and one of the change in the resistance and the change in the capacitance, which corresponds to the difference, and changes one of the resistance of the variable resistor and the capacitance of the variable capacitor based on the read change in the resistance and the change in the capacitance.