Power factor correction device with first and second output parts

What is claimed is: 1. A power supply device, comprising: an input power supply unit configured to rectify alternating-current (AC) power; an amplification unit configured to amplify an input voltage by n times, where n is a real number greater than 1; and a controller controlling the amplification unit; wherein the amplification unit includes first and second amplification units and an inductor, the first amplification unit outputs a first output voltage corresponding to n1 times the input voltage to a first output part depending on an operation of a first switching element, where n1 is a positive real number, and the second amplification unit outputs a second output voltage corresponding to n2 times the input voltage to a second output part depending on an operation of a second switching element, where n2 is a positive real number; wherein the first amplification unit includes the first output part connected to the first switching element in parallel, and the second amplification unit includes the second output part connected to the second switching element in parallel; wherein the first amplification unit, the second amplification unit, and the inductor are serially connected; wherein the controller includes first and second power factor correction integrated circuits (PFC ICs), and first and second adders; wherein the first adder adds the output voltage of the second output part to the input voltages of the first and second output parts to output a first feedback signal to the first PFC IC; wherein the second adder adds the output voltage of the first output part to the input voltages of the first and second output parts to output a second feedback signal to the second PFC IC; wherein the first PFC IC receives the first feedback signal, the input voltage, an output current, and a triangle wave signal, and outputs a first pulse width modulation (PWM) signal for controlling the first switching element; and wherein the second PFC IC receives the second feedback signal, the input voltage, the output current, and the triangle wave signal, and outputs a second PWM signal for controlling the second switching element. 2. The power supply device of claim 1 , wherein the inductor is connected between the first amplification unit and the second amplification unit, wherein the first adder includes first to fourth resistors, a third capacitor, and a first Zener diode; and wherein the second adder includes fifth to eighth resistors, a fourth capacitor, and a second Zener diode. 3. The power supply device of claim 2 , wherein the first switching element is an IGBT element, wherein the second switching element is an insulated gate bipolar transistor (IGBT) element, wherein the first resistor is connected between a first node and a terminal to which the output voltages of the first and second output parts are applied, wherein the second resistor is connected between the first node and a terminal to which the output voltage of the second output part is applied, wherein the third resistor and the third capacitor, which are connected to each other in series, are connected between the first node and a second node; wherein the first Zener diode is connected between the first node, the second node, and a ground; wherein the first feedback signal is outputted from the second node, wherein the fourth resistor is connected between the first node and the ground, wherein the fifth resistor is connected between a third node and the terminal to which the output voltages of the first and second output parts are applied, wherein the sixth resistor is connected between the third node and a terminal to which the output voltage of the first output part is applied, wherein the seventh resistor and the fourth capacitor, which are connected to each other in series, are connected between the third node and a fourth node; wherein the second Zener diode is connected between the third node, the fourth node, and the ground; wherein the second feedback signal is outputted from the fourth node, and wherein the eighth resistor is connected between the third node and the ground. 4. The power supply device of claim 3 , wherein the input power supply unit includes a rectifier, and the rectifier is a bridge rectifier; wherein a resistance of the first resistor is smaller than a resistance of the second resistor, and wherein a resistance of the fifth resistor is smaller than a resistance of the sixth resistor. 5. The power supply device of claim 1 , wherein the first and second switching elements serve to control a current supplied from the inductor to the first and second output parts, and wherein the output current is defined as a current flowing in the inductor. 6. The power supply device of claim 1 , wherein the first output part includes a first diode and a first capacitor-resistor unit which are connected to each other in series, and the second output part includes a second diode and a second capacitor-resistor unit which are connected to each other in series. 7. The power supply device of claim 6 , wherein a capacitor and a resistor included in each of the first and second capacitor-resistor units are connected to each other in parallel. 8. The power supply device of claim 1 , wherein n, n1, and n2 satisfy Equation 1: n=n 1+ n 2.  [Equation 1] 9. The power supply device of claim 1 , wherein n1 and n2 have the same value as each other. 10. The power supply device of claim 1 , wherein the first and second switching elements are simultaneously turned on and simultaneously turned off. 11. The power supply device of claim 1 , wherein the first and second switching elements are simultaneously turned on, the first switching element is turned off at a first time point, and the second switching element is turned off at a second time point, wherein the first time point arrives later than the second time point when n1 has a value greater than that of n2. 12. A power supply device, comprising: a rectifier configured to rectify AC power to a first voltage; an amplification unit configured to receive and boost the first voltage from the rectifier and divide the boosted voltage to output the divided voltage as second and third voltages; and a controller controlling the amplification unit; wherein the amplification unit includes: a first amplification unit configured to receive and amplify the first voltage to output the second voltage; a second amplification unit serially connected to the first amplification unit, and configured to receive and amplify the first voltage to output the third voltage; and an inductor serially connected to the first and second amplification units; wherein the first amplification unit includes a first output part connected to a first switching element in parallel, and the second amplification unit includes a second output part connected to a second switching element in parallel; wherein the first output part outputs the second voltage; wherein the second output part outputs the third voltage; wherein the controller includes first and second PFC ICs, and first and second adders; wherein the first adder adds the third voltage to the second and third voltages to output a first feedback signal to the first PFC IC; wherein the second adder adds the second voltage to the second and third voltages to output a second feedback signal to the second PFC IC; wherein the first PFC IC receives the first feedback signal, the first voltage, an output current, and a triangle wave signal, and outputs a first PWM signal for controlling the first switching element; and wherein the second PFC IC receives the second feedback signal, the first voltage, the