Battery temperature raising system and control method thereof

What is claimed is: 1. A control method of a battery temperature raising system, comprising: sensing, by a sensor, a battery temperature and a heater temperature; operating, by a controller, a heater to increase the battery temperature by turning on a heater relay when the sensed battery temperature is less than a predetermined first reference temperature T 1 ; adjusting, by the controller, a resistance value to increase a heating value of the heater after operating the heater by reducing a resistance value of a variable resistor when the sensed battery temperature is in a cryogenic state less than a second reference temperature T 2 (T 2 <T 1 ); additionally adjusting, by the controller, a resistance value to decrease the heating value of the heater by increasing the resistance value of the variable resistor when the sensed battery temperature rises to a temperature greater than a predetermined third reference temperature by comparing the sensed battery temperature with the third reference temperature T 3 (T 1 >T 3 >T 2 ) after the adjusting of the resistance value; and decreasing, by the controller, the resistance value of the variable resistor when deviation between the sensed heater temperature and the sensed battery temperature is equal to or less than a predetermined temperature deviation by comparing the deviation between the sensed heater temperature and the sensed battery temperature with the predetermined temperature deviation in the adjusting of the resistance value. 2. The control method of claim 1 , further comprising: decreasing, by the controller, the heating value of the heater by increasing the resistance value of the variable resistor when the deviation between the heater temperature and the battery temperature is greater than the predetermined temperature deviation in the adjusting of the resistance value. 3. The control method of claim 1 , further comprising: increasing, by the controller, the resistance value of the variable resistor when the deviation between the heater temperature and the battery temperature is equal to or less than the predetermined temperature deviation by comparing the deviation between the heater temperature and the battery temperature with the predetermined temperature deviation in the additionally adjustment of the resistance value. 4. The control method of claim 3 , further comprising: increasing, by the controller, the resistance value of the variable resistor to decrease the heating value of the heater when the deviation between the heater temperature and the battery temperature is greater than the predetermined temperature deviation in the additionally adjustment of the resistance value; and additionally increasing, by the controller, the resistance value of the variable resistor then when the deviation between the heater temperature and the battery temperature is less than the predetermined temperature deviation. 5. A non-transitory computer readable medium containing program instructions executed by a controller, the computer readable medium comprising: program instructions that control a sensor to sense a battery temperature and a heater temperature; program instructions that control a heater to increase the battery temperature by turning on a heater relay when the sensed battery temperature is less than a predetermined first reference temperature T 1 ; program instructions that adjust a resistance value to increase a heating value of the heater by reducing a resistance value of a variable resistor when the sensed battery temperature is in a cryogenic state less than a second reference temperature T 2 (T 2 <T 1 ); program instructions that additionally adjust a resistance value to decrease the heating value of the heater by increasing the resistance value of the variable resistor when the sensed battery temperature rises to a temperature greater than a predetermined third reference temperature by comparing the sensed battery temperature with the third reference temperature T 3 (T 1 >T 3 >T 2 ) after the adjusting of the resistance value; and program instructions that decrease the resistance value of the variable resistor when deviation between the sensed heater temperature and the sensed battery temperature is equal to or less than a predetermined temperature deviation by comparing the deviation between the sensed heater temperature and the sensed battery temperature with the predetermined temperature deviation in the adjusting of the resistance value. 6. The non-transitory computer readable medium of claim 5 , further comprising: program instructions that decrease the heating value of the heater by increasing the resistance value of the variable resistor when the deviation between the heater temperature and the battery temperature is greater than the predetermined temperature deviation in the adjusting of the resistance value. 7. The non-transitory computer readable medium of claim 5 , further comprising: program instructions that increase the resistance value of the variable resistor when the deviation between the heater temperature and the battery temperature is equal to or less than the predetermined temperature deviation by comparing the deviation between the heater temperature and the battery temperature with the predetermined temperature deviation in the additionally adjustment of the resistance value. 8. The non-transitory computer readable medium of claim 7 , further comprising: program instructions that increase the resistance value of the variable resistor to decrease the heating value of the heater when the deviation between the heater temperature and the battery temperature is greater than the predetermined temperature deviation in the additionally adjustment of the resistance value; and program instructions that additionally increase the resistance value of the variable resistor then when the deviation between the heater temperature and the battery temperature is less than the predetermined temperature deviation.