Power supply apparatus and control method thereof

What is claimed is: 1. A power supply apparatus, which comprises a load, an outside power source to supply the load with a power voltage and a switch electrically connected between the load and the outside power source, the power supply apparatus further comprising: a temperature detector unit configured to detect a temperature of the load; a dry contact point unit having a relay, which is electrically connected between the load and the switch, and configured to activate a contact point of the relay before the power voltage is applied to the load; a control unit configured to turn on the switch according to a power supply command from outside of the power supply apparatus that is input to the control unit from outside the power supply apparatus and configured to control an on/off of the switch according to the detected temperature of the load; a comparator unit configured to compare the detected temperature of the load with a reference temperature that is set in advance; and a memory unit configured to store a temperature table, which enables the control unit to trace the detected temperature of the load, and information on at least one of a first error state, a second error state, a third error state, and a fourth error state, classified by the load's temperature, a variation of the load's temperature, and intensity of the power voltage, wherein one of the control unit and the comparator unit is configured to determine whether at least one element in the power supply apparatus is broken based on the at least one of the first error state, the second error state, the third error state, and the fourth error state, and to output a signal to inactivate the contact point of the relay based on the determination. 2. The power supply apparatus of claim 1 , wherein the comparator unit outputs a signal to activate the contact point of the relay if the detected temperature of the load is lower than the reference temperature, and the dry contact point unit activates or inactivates the contact point of the relay according to the output of the comparator unit. 3. The power supply apparatus of claim 2 , wherein the control unit turns off the switch if the detected temperature of the load is higher than a target temperature that is set in advance, and turns on the switch if the detected temperature of the load is lower than the target temperature. 4. The power supply apparatus of claim 3 , wherein the control unit outputs a signal to inactivate the contact point of the relay according to the detected temperature of the load, and the dry contact point unit inactivates the contact point of the relay according to at least one of the outputs of the comparator unit and the output of the control unit. 5. The power supply apparatus of claim 4 , wherein the control unit, if the detected temperature of the load represents the first error state at which the detected temperature of the load is higher than an abnormal temperature that is set in advance, outputs the signal to inactivate the contact point of the relay. 6. The power supply apparatus of claim 5 , wherein the comparator unit, if the detected temperature of the load represents the second error state at which the detected temperature of the load is higher than the reference temperature that is set in advance, outputs a signal to inactivate the contact point of the relay. 7. The power supply apparatus of claim 6 , wherein the reference temperature is set to be in a range above the abnormal temperature. 8. The power supply apparatus of claim 7 , wherein the control unit, if a variation of the detected temperature of the load for a unit time represents the third error state at which the variation is larger than an abnormal variation that is set in advance, outputs the signal to inactivate the contact point of the relay. 9. The power supply apparatus of claim 8 , further comprising a high voltage detector unit configured to detect an intensity of the power voltage, wherein the control unit, if the detected intensity of the power voltage represents the fourth error state at which the detected intensity of the power voltage is greater than an abnormal voltage that is set in advance, outputs the signal to inactivate the contact point of the relay. 10. The power supply apparatus of claim 1 , further comprising an alarming unit configured to report at least one of the first error state, the second error state, the third error state, and the fourth error state to a user. 11. A method of controlling a power supply apparatus, which comprises a load, an outside power source to supply the load with a power voltage, a switch electrically connected between the load and the outside power source, a temperature detector unit configured to detect a temperature of the load, and a dry contact point unit provided with a relay, which is electrically connected between the load and the switch, and a memory unit configured to store a temperature table, which enables the control unit to trace the detected temperature of the load, and information on at least one of a first error state, a second error state, a third error state, and a fourth error state, classified by the load's temperature, a variation of the load's temperature, and intensity of the power voltage, the method comprising: at the dry contact point unit, activating a contact point of the relay before the power voltage is applied to the load; at a control unit, turning on the switch according to a power supply command from outside of the power supply apparatus that is input to the control unit from outside the power supply apparatus; at the control unit, controlling an on/off of the switch according to the detected temperature of the load. 12. The method of claim 11 , wherein in the activating of the contact, of the relay, a comparator unit compares the detected temperature of the load with a reference temperature that is set in advance, and outputs a signal to activate the contact point of the relay if the detected temperature of the load is lower than the reference temperature, and the dry contact point unit activates or inactivates the contact point of the relay according to the output of the comparator unit. 13. The method of claim 12 , wherein in the controlling of the on/off of the switch, the control unit turns off the switch if the detected temperature of the load is higher than a target temperature that is set in advance, and turns on the switch if the detected temperature of the load is lower than the target temperature. 14. The method of claim 13 , further comprising: at the control unit, outputting a signal to inactivate the contact point of the relay according to the detected temperature of the load; and at the dry contact point unit, inactivating the contact point of the relay according to at least one of the output of the comparator unit and the output of the control unit. 15. The method of claim 14 , wherein in the inactivating of the contact point of the relay, the control unit, if the detected temperature of the load represents the first error state at which the detected temperature of the load is higher than an abnormal temperature that is set in advance, outputs the signal to inactivate the contact point of the relay. 16. The method of claim 15 , wherein in the inactivating of the contact point of the relay, the comparator unit, if the detected temperature of the load represents the second error state at which the detected temperature of the load is higher than the reference temperature, outputs a signal to inactivate the contact point of the relay. 17. The method of claim 16 , wherein in