Control method for laundry drying machine

What is claimed is: 1. A method to control a laundry drying machine including a heat pump cycle to generate heated air, the method comprising: driving a compressor; sensing a compressor outlet temperature (TE) at an outlet of the compressor and a drum outlet temperature (TD) at an exhaust duct of a drum of the laundry drying machine; and determining that plugging of a filter at the exhaust duct occurs based on determining that a difference between the compressor outlet temperature (TE) and the drum outlet temperature (TD) is equal to or greater than a prescribed temperature difference (TA), wherein the compressor is driven at one dry mode of a plurality of dry modes, wherein the plurality of dry modes include a first dry mode in which the compressor is driven at a first frequency and a second dry mode in which the compressor is driven at a second frequency that is higher than the first frequency, wherein when the compressor is driven in the first dry mode, the prescribed temperature difference (TA) is a first temperature difference (T 1 ), wherein when the compressor is driven in the second dry mode, the prescribed temperature difference (TA) is a second temperature difference (T 2 ), and wherein the second temperature difference (T 2 ) is greater than the first temperature difference (T 1 ). 2. The method of claim 1 , further comprising: determining whether a compressor driving time (T 0 ) that the compressor is driven exceeds a prescribed time (TS), wherein the compressor outlet temperature (TE) and the drum outlet temperature (TD) are sensed based on determining that the compressor driving time (T 0 ) exceeds to the prescribed time (TS). 3. The method of claim 2 , further comprising: determining, after the compressor driving time (T 0 ) exceeds the prescribed time (TS), whether an opening degree value (V) of an expansion valve included in the heat pump cycle is equal to or greater than a prescribed opening degree value (VA), wherein the compressor outlet temperature (TE) and the drum outlet temperature (TD) are sensed further based on determining that the opening degree value (V) of the expansion valve is equal to or greater than the prescribed opening degree value (VA). 4. The method of claim 1 , further comprising: outputting a filter cleaning notification indicating that the filter should be cleaned based on determining that plugging of the filter occurs. 5. The method of claim 1 , further comprising: stopping the driving of the compressor based on determining that plugging of the filter occurs. 6. The method of claim 1 , wherein the plurality of dry modes further includes a third dry mode in which the compressor is driven at a third frequency that is greater than the first and second frequencies. 7. The method of claim 6 , wherein the prescribed temperature difference (TA) is a third temperature difference (T 3 ) when the compressor is driven in the third dry mode, and the first temperature difference (T 1 ), the second temperature difference (T 2 ), and the third temperature difference (T 3 ) are different. 8. The method of claim 7 , wherein the second temperature difference (T 2 ) is higher than the first temperature difference (T 1 ) and lower than the third temperature difference (T 3 ). 9. The method of claim 7 , wherein the first temperature difference (T 1 ) is 45° C., the second temperature difference (T 2 ) is 50° C., and the third temperature difference (T 3 ) is 60° C. 10. The method of claim 1 , wherein the heat pump cycle includes: the compressor that compresses a refrigerant to form a high-temperature and high-pressure vapor refrigerant; a condenser that condenses the high-temperature and high-pressure vapor refrigerant from the compressor to form a high-temperature and high-pressure liquid refrigerant; an expansion valve that expands the high-temperature and high-pressure liquid refrigerant from the compressor to form a low-temperature and low-pressure two-phase refrigerant; and an evaporator that evaporates the low-temperature and low-pressure two-phase refrigerant from the expansion valve to form a low-temperature and low-pressure vapor refrigerant, and wherein the refrigerant circulates in the heat pump cycle to generate the heated air. 11. A laundry drying machine comprising: a heat pump cycle to heat air; a first temperature sensor that senses a first temperature at an inlet of the heat pump cycle; a second temperature sensor that senses a second temperature at an outlet of the heat pump cycle; and a controller that determines that plugging of a filter at the inlet of the heat pump cycle occurs based on determining that a difference between the first temperature and the second temperature is equal to or greater than a prescribed temperature difference, wherein the second temperature includes a compressor outlet temperature (TE) at an outlet of a compressor included in the heat pump cycle, wherein the first temperature includes a drum outlet temperature (TD) at an exhaust duct of a drum of the laundry drying machine, wherein the compressor is driven at one dry mode of a plurality of dry modes, wherein the plurality of dry modes include a first dry mode where the compressor is driven at a first frequency and a second dry mode where the compressor is driven at a second frequency that is higher than the first frequency, wherein when the compressor is driven at the first dry mode, the prescribed temperature difference is a first temperature difference (T 1 ), wherein when the compressor is driven at the second dry mode, the prescribed temperature difference is a second temperature difference (T 2 ), and wherein the second temperature difference (T 2 ) is greater than the first temperature difference (T 1 ). 12. The laundry drying machine of claim 11 , wherein the controller further stops a driving of the heat pump cycle when plugging of the filter occurs. 13. The laundry drying machine of claim 11 , further comprising: a notification interface that outputs a notification when plugging of the filter occurs. 14. The laundry drying machine of claim 11 , wherein the second temperature is sensed after the heat pump cycle is driven for at least a prescribed time (TS). 15. The laundry drying machine of claim 11 , wherein the second temperature is sensed after an opening degree value of an expansion valve included in the heat pump cycle is equal to or greater than a prescribed opening degree value (VA). 16. The laundry drying machine of claim 11 , wherein the heat pump cycle circulates a refrigerant to generate heated air, and includes: a compressor that compresses the refrigerant to form a high-temperature and high-pressure vapor refrigerant, a condenser that condenses the high-temperature and high-pressure vapor refrigerant from the compressor to form a high-temperature and high-pressure liquid refrigerant; an expansion valve that expands the high-temperature and high-pressure liquid refrigerant from the compressor to form a low-temperature and low-pressure two-phase refrigerant; and an evaporator that evaporates the a low-temperature and low-pressure two-phase refrigerant from the expansion valve to form a low-temperature and low-pressure vapor refrigerant. 17. The laundry drying machine of claim 11 , wherein the plurality of dry modes further includes a third dry mode in which the compressor is driven at a third frequency that is greater than the first and second frequencies, wherein the prescribed temperature difference (TA) is a third temperature difference (T 3 ) when the compressor is driven in the thir