Refrigerator and dehumidification control method thereof

What is claimed is: 1. A dehumidification control method of a refrigerator comprising: detecting a temperature of outside air around the refrigerator to determine if the detected temperature corresponds to a low-temperature mode requiring dehumidification; and when the detected temperature corresponds to the low-temperature mode, heating a refrigerating compartment by operating a refrigerating compartment heater and a refrigerating compartment fan together for a first predetermined time for the dehumidification; after the first predetermined time, and during the heating, initiating cooling of the refrigerating compartment by operating a compressor to perform temperature compensation by heating the refrigerating compartment and to perform dehumidification by cooling the refrigerating compartment; wherein the heating of the refrigerating compartment and the cooling of the refrigerating compartment are controlled to partially overlap each other for a second predetermined time. 2. A refrigerator comprising: a compressor to compress a refrigerant; a refrigerator compartment; a refrigerating compartment evaporator to cool air in the refrigerating compartment; a refrigerating compartment heater to heat air around the refrigerating compartment evaporator; a refrigerating compartment fan to blow the air around the refrigerating compartment evaporator and into the refrigerating compartment; and a control unit configured to perform, when detected temperature of outside air around the refrigerator corresponds to a low-temperature mode, heating of the refrigerating compartment by operating the refrigerating compartment heater and the refrigerating compartment fan together for a first predetermined time for a dehumidification, and after the first predetermined time, and during the heating, initiating cooling of the refrigerating compartment by operating the compressor to perform temperature compensation by heating the refrigerating compartment and to perform dehumidification by cooling the refrigerating compartment, wherein the heating of the refrigerating compartment and the cooling of the refrigerating compartment are controlled to partially overlap each other for a second predetermined time. 3. The refrigerator according to claim 2 , wherein the refrigerating compartment evaporator is located upstream of an air stream generated by rotation of the refrigerating compartment fan and the refrigerating compartment heater is located downstream of the air stream. 4. The refrigerator according to claim 2 , wherein the refrigerating compartment heater is located upstream of an air stream generated by rotation of the refrigerating compartment fan and the refrigerating compartment evaporator is located downstream of the air stream. 5. The refrigerator according to claim 2 , wherein the refrigerating compartment includes a multi-purpose chamber providing a partitioned storage space, the multi-purpose chamber is separably coupled to a guide passage to guide cold air from the refrigerating compartment evaporator into the multi-purpose chamber, and a flap at an entrance of the guide passage, the flap being hinged to the guide passage. 6. The refrigerator according to claim 5 , further comprising a damper above the refrigerating compartment fan, wherein, when the damper is opened, the cold air is supplied into the refrigerating compartment, when the damper is closed, the cold air is supplied only into the multi-purpose chamber, and the damper is driven to be opened or closed by a damper motor. 7. The refrigerator according to claim 2 , further comprising: a key input unit including a plurality of function keys to set operating conditions of the refrigerator; a freezing compartment temperature sensor and a refrigerating compartment temperature sensor to sense interior temperatures of a freezing compartment and the refrigerating compartment, respectively, and transmit the sensed results to the control unit; a refrigerating compartment evaporator temperature sensor to sense a refrigerant evaporation temperature of the refrigerating compartment evaporator and transmit the sensed result to the control unit; and an outside air temperature sensor to sense an air temperature outside of the refrigerator and transmit the sensed result to the control unit. 8. The refrigerator according to claim 7 , wherein the control unit enables automated dehumidification of the refrigerating compartment, to prevent formation of dewdrops or frost at an inner surface of the refrigerating compartment. 9. The refrigerator according to claim 7 , wherein the control unit enables dehumidification whenever a user requests dehumidification, regardless of the air temperature outside of the refrigerator.