Power supply and DC-DC converter with voltage drop circuit therein

What is claimed is: 1. A power supply comprising: a smoothing circuit unit to receive a voltage and to smoothen the voltage; and a voltage drop circuit unit to drop the smoothened voltage, wherein the voltage drop circuit unit comprises: an electric charge storage circuit to output the dropped smoothened voltage; a resonance circuit to receive first current from the smoothing circuit unit and to supply second current to the electric charge storage circuit; a switching circuit, the switching circuit including: a first switch to control the first current such that the first current is supplied to the resonance circuit and the electric charge storage circuit via the first switch; and a second switch to control the second current such that the second current is supplied to the electric charge storage circuit via the second switch; and a rectifier circuit, the rectifier circuit including: a first diode to pass the first current and to shut off the second current; and a second diode to pass the second current and to shut off the first current. 2. The power supply according to claim 1 , further comprising a voltage drop controller to control the first switch and the second switch. 3. The power supply according to claim 2 , wherein the voltage drop controller alternately opens and closes the first switch and the second switch. 4. The power supply according to claim 3 , wherein the voltage drop controller opens and closes the first switch and the second switch at a same period as a resonance period of the resonance circuit. 5. The power supply according to claim 1 , wherein the first switch and the second switch are connected in series to each other. 6. The power supply according to claim 5 , wherein the first diode and the second diode are connected in series to each other. 7. The power supply according to claim 6 , wherein the resonance circuit is disposed between a node to which the first switch and the second switch are connected and a node to which the first diode and the second diode are connected. 8. The power supply according to claim 7 , wherein the resonance circuit comprises at least one capacitor and at least one inductor. 9. The power supply according to claim 1 , further comprising an initial charging circuit to initially charge the electric charge storage circuit. 10. The power supply according to claim 9 , wherein the initial charging circuit is disposed in series between one side of the electric charge storage circuit and one side of the switching circuit. 11. The power supply according to claim 10 , wherein the initial charging circuit comprises a charged current limiting circuit to limit an amount of initial charged current for charging the electric charge storage circuit, and a first initial charging switch to interrupt initial charged current supplied to the electric charge storage circuit. 12. The power supply according to claim 11 , wherein the initial charging circuit further comprises a second initial charging switch to interrupt initial charged current supplied to a resonance capacitor included in the resonance circuit. 13. The power supply according to claim 12 , wherein the second initial charging switch is disposed between the other side of the electrical charge storage circuit and the resonance capacitor included in the resonance circuit. 14. A voltage drop circuit for dropping a voltage of a power source, the voltage drop circuit comprising: an electric charge storage circuit unit to output the dropped voltage; a resonance circuit unit to receive first current from the power source and to supply second current to the electric charge storage circuit; a switching circuit, the switching circuit including: a first switch to control the first current such that the first current is supplied to the resonance circuit unit and the electric charge storage circuit unit via the first switch; and a second switch to control the second current such that the second current is supplied to the electric charge storage circuit unit via the second switch; and a rectifier circuit, the rectifier circuit including: a first diode to pass the first current and to shut off the second current; and a second diode to pass the second current and to shut off the first current. 15. The voltage drop circuit according to claim 14 , further comprising a voltage drop controller to control the first switch and the second switch. 16. The voltage drop circuit according to claim 15 , wherein the voltage drop controller alternately opens and closes the first switch and the second switch. 17. The voltage drop circuit according to claim 16 , wherein the voltage drop controller opens and closes the first switch and the second switch at the same period as a resonance period of the resonance circuit. 18. The voltage drop circuit according to claim 14 , further comprising an initial charging circuit to initially charge the electric charge storage circuit. 19. The voltage drop circuit according to claim 18 , wherein the initial charging circuit comprises a charged current limiting circuit to limit an amount of initial charged current for charging the electric charge storage circuit, and a first initial charging switch to interrupt initial charged current supplied to the electric charge storage circuit. 20. A voltage drop circuit for dropping a voltage of a power source, the voltage drop circuit comprising: at least one electric charge storage circuit unit to output the dropped voltage; at least one resonance circuit unit to receive first current from the power source and to supply second current to the electric charge storage circuit; a switching circuit including a first switch to interrupt the first current and a second switch to interrupt the second current; a rectifier circuit to rectify the first current and the second current; and a voltage drop controller to control the switching circuit, wherein the rectifier circuit comprises: a first plurality of diodes connected in series to pass the first current and to shut off the second current when the first switch is controlled to be closed and the second switch is controlled to be opened; and a second plurality of diodes connected in series to shut off the first current and to pass the second current when the first switch is controlled to be open and the second switch is controlled to be closed. 21. The voltage drop circuit according to claim 20 , wherein the first switch receives a first control signal from the voltage drop controller to interrupt the first current and the second switch receives a second control signal from the voltage drop controller to interrupt the second current. 22. The voltage drop circuit according to claim 20 , wherein: the at least one resonance circuit comprises: a resonance inductor; and a resonance capacitor, and a first end of the resonance circuit is connected to a first node disposed between the first switch and the second switch, and a second end of the resonance circuit is connected to a second node disposed between one of the first plurality of diodes and one of the second plurality of diodes. 23. The voltage drop circuit according to claim 22 , wherein the resonance capacitor is connected to the first node and the resonance inductor is connected to the second node. 24. The voltage drop circuit according to claim 20 , wherein the at least one electric charge storage circuit unit comprises: a first electric charge storage circuit con