Active damper and power supply including the same

What is claimed is: 1. An active damper, comprising: a damper resistor coupled to an input voltage; a damper switch coupled in parallel with the damper resistor; a capacitor configured to receive a reset current generated by a leading edge of the input voltage, wherein the damper switch is turned off by the reset current; and a turn-on circuit configured to supply an on-bias current to a node where a first electrode of the capacitor and a control end of the damper switch are coupled, wherein the damper switch is turned off when the reset current is higher than the on-bias current. 2. The active damper of claim 1 , wherein a charge voltage of the capacitor follows the input voltage. 3. The active damper of claim 1 , further comprising a Zener diode coupled between the damper resistor and a gate of the damper switch, wherein the reset current flows to the capacitor through the Zener diode. 4. The active damper of claim 1 , further comprising a diode coupled between the damper resistor and a gate of the damper switch, wherein the reset current flows to the capacitor through the diode. 5. The active damper of claim 1 , wherein the damper switch is a metal oxide semiconductor field effect transistor (MOSFET); and a first electrode of the capacitor is coupled to a gate of the damper switch. 6. The active damper of claim 1 , wherein the damper switch is a bipolar junction transistor (BJT); and a first electrode of the capacitor is coupled to a base of the damper switch. 7. The active damper of claim 1 , further comprising a resistor coupled to the capacitor, wherein the resistor operates as a damping resistor when the capacitor is charged by the reset current. 8. The active damper of claim 7 , wherein a first electrode of the capacitor is coupled to a control end of the damper switch, and the resistor is coupled to a second electrode of the capacitor. 9. The active damper of claim 7 , wherein a time at which the damper switch is turned off by the leading edge and a time at which the damper switch is turned on are determined by the capacitor and the resistor. 10. A power supply, comprising: a power switch; and an active damper coupled to an input voltage and the power switch so as to provide the input voltage to the power switch, wherein the active damper comprises: a damper resistor coupled to the input voltage; a damper switch coupled in parallel with the damper resistor; a capacitor configured to receive a reset current generated by a leading edge of the input voltage, wherein the damper switch is turned off by the reset current; and a turn-on circuit configured to supply an on-bias current to a node where a first electrode of the capacitor and a control end of the damper switch are coupled, wherein the damper switch is turned off when the reset current is higher than the on-bias current. 11. The power supply of claim 10 , wherein the turn-on circuit comprises: a first resistor including a first end coupled to a transformer of the power supply; a first capacitor including a first electrode coupled to the transformer; and a second resistor including a first end coupled to a second end of the first resistor and a second electrode of the first capacitor, and a second end coupled to the control end of the damper switch. 12. The power supply of claim 10 , wherein the power supply further comprises a bleeder resistor and a bleeder capacitor coupled between the input voltage and a ground. 13. The power supply of claim 12 , wherein the active damper further comprises a third resistor coupled between a first electrode of the bleeder capacitor and a control end of the damper switch, and the third resistor operates as a damping resistor when the bleeder capacitor is charged by the reset current. 14. The power supply of claim 10 , wherein a charge voltage of the capacitor follows the input voltage. 15. The power supply of claim 10 , wherein the active damper further comprises a Zener diode coupled between the damper resistor and a gate of the damper switch, wherein the reset current flows to the capacitor through the Zener diode. 16. The power supply of claim 10 , wherein the active damper further comprises a diode coupled between the damper resistor and a gate of the damper switch, wherein the reset current flows to the capacitor through the diode. 17. An active damper comprising: a damper resistor coupled to an input voltage; a damper switch coupled in parallel with the damper resistor; a detection circuit configured to detect a voltage of an inductor coupled to a first input voltage through the damper resistor or the damper switch, the detection circuitry including: a diode including an anode coupled to a first end of the inductor; and a first capacitor coupled between a cathode of the diode and the first input voltage, wherein the detection voltage is a voltage between a first node to which the cathode of the diode and the first capacitor are coupled and a second end of the inductor; and a control circuit configured to control a switching operation of the damper switch using a detection voltage according to the detected inductor voltage. 18. The active damper of claim 17 , further comprising: a first resistor coupled between a control electrode of the damper switch and the first node; and a second resistor coupled between the first input voltage and the first resistor. 19. The active damper of claim 18 , further comprising a second capacitor coupled between a first end of the first resistor coupled to the control electrode of the damper switch and the first input voltage. 20. The active damper of claim 18 , further comprising a Zener diode coupled between the first resistor and the first node. 21. The active damper of claim 18 , further comprising a Zener diode coupled between the first resistor and the first input voltage. 22. A power supply comprising: an inductor including a first end and a second end; a power switch coupled to the second end of the inductor; and an active damper coupled to an input voltage and the first end of the inductor so as to provide the input voltage to the inductor, wherein the active damper comprises: a damper resistor coupled to the input voltage; a damper switch coupled in parallel with the damper resistor; a detection circuit configured to detect a voltage of the inductor, the detection circuit including: a diode including an anode coupled to a second end of the inductor; and a first capacitor coupled between a cathode of the diode and the input voltage, wherein the detection voltage is a voltage between a first node to which the cathode of the diode and the first capacitor are coupled and a first end of the inductor; and a control circuit configured to control a switching operation of the damper switch using a detection voltage according to the detected inductor voltage. 23. The power supply of claim 22 , wherein the active damper further comprises: a first resistor coupled between a control electrode of the damper switch and the first node; and a second resistor coupled between the first input voltage and the first resistor. 24. The power supply of claim 23 , wherein the active damper further comprises a second capacitor coupled between a first end of the first resistor coupled to the control electrode of the damper switch and the first input voltage. 25. The power supply of claim 23 , wherein the active damper further comprises a Zener diode