Vehicle air conditioning system

What is claimed is: 1. A vehicle air conditioning system comprising: a compressor configured to compress refrigerant, the compressor being disposed within a vehicle; a condenser fluidly coupled to the compressor to receive the refrigerant from the compressor; an evaporator fluidly coupled to the condenser to receive the refrigerant from the condenser and fluidly coupled to the compressor to supply the refrigerant to the compressor; and a controller operatively coupled to the compressor to manage operation of the compressor during a cooling operation that provides temperature reduction of air flowing across heat transferring portions of the evaporator, the controller further configured to manage operation of the compressor in a moisture releasing operation in response to termination of the cooling operation when the vehicle continues to be operated, moisture releasing operation including finite operation of the compressor to retard release of moisture from the heat transferring portions of the evaporator and upon completion of the moisture releasing operation the controller ceases operating the compressor. 2. The vehicle air conditioning system according to claim 1 , wherein the controller further manages operation of the compressor for a predetermined period of time after termination of the cooling operation during the moisture releasing operation. 3. The vehicle air conditioning system according to claim 1 , further comprising an evaporator temperature sensor positioned to measure a temperature in an area proximate to the evaporator that is indicative of an evaporator temperature of the evaporator, and during the moisture releasing operation, the controller cycling the compressor on in response to the evaporator temperature being equal to or greater than an upper compressor threshold temperature, and further cycling the compressor off in response to the evaporator temperature being equal to or less than a lower compressor threshold temperature. 4. The vehicle air conditioning system according to claim 3 , wherein the controller progressively increases the upper compressor threshold temperature and the lower compressor threshold temperature during the moisture releasing operation. 5. The vehicle air conditioning system according to claim 3 , wherein the controller linearly increases the upper compressor threshold temperature and the lower compressor threshold temperature as a function of time during the moisture releasing operation. 6. The vehicle air conditioning system according to claim 3 , wherein the controller periodically increases the upper compressor threshold temperature and the lower compressor threshold temperature over a plurality of predetermined time intervals and holds the upper compressor threshold temperature and the lower compressor threshold temperature at respective predetermined and discrete values during each of the plurality of predetermined time intervals. 7. The vehicle air conditioning system according to claim 3 , further comprising a moisture sensor configured and arranged to measure moisture in airflow downstream from the evaporator, and during the moisture releasing operation, the controller selectively cycles the compressor on in response to the moisture in airflow downstream from the evaporator being equal to or greater than a moisture threshold. 8. The vehicle air conditioning system according to claim 1 , further comprising an evaporator temperature sensor positioned to measure a temperature in an area proximate to the evaporator that is indicative of an evaporator temperature of the evaporator, and during the moisture releasing operation, the controller cycling the compressor on in response to the evaporator temperature being equal to or greater than an upper compressor threshold temperature. 9. The vehicle air conditioning system according to claim 8 , wherein the controller progressively increases the upper compressor threshold temperature during the moisture releasing operation. 10. The vehicle air conditioning system according to claim 8 , wherein the controller linearly increases the upper compressor threshold temperature as a function of time during the moisture releasing operation. 11. The vehicle air conditioning system according to claim 8 , wherein the controller periodically increases the upper compressor threshold temperature over a plurality of predetermined time intervals and holds the upper compressor threshold temperature at a respective predetermined and discrete value during each of the plurality of predetermined time intervals. 12. A method for controlling operation of a vehicle air conditioning system, comprising managing operation of a compressor in a vehicle during a cooling operation that provides temperature reduction of air flowing across surfaces of a heat transferring portion of an evaporator; and managing operation of the compressor in a moisture releasing operation in response to termination of the cooling operation when the vehicle continues to be operated, the moisture releasing operation including finite operation of the compressor that retards release of moisture from the heat transferring portions of the evaporator and upon completion of the moisture releasing operation the controller ceases operating the compressor. 13. The method according to claim 12 , wherein the managing of operation of the compressor, during the moisture releasing operation, includes managing operation of the compressor for a predetermined period of time after termination of the cooling operation. 14. The method according to claim 12 , further comprising determining an evaporator temperature of an evaporator associated with the air conditioning system, and the managing of operation of the compressor, during the moisture releasing operation, includes cycling the compressor on in response to the evaporator temperature being equal to or greater than an upper compressor threshold temperature and further cycling the compressor off in response to the evaporator temperature being equal to or less that a lower compressor threshold temperature. 15. The method according to claim 14 , wherein the managing of operation of the compressor, during the moisture releasing operation, includes progressively increasing the upper compressor threshold temperature and the lower compressor threshold temperature. 16. The method according to claim 14 , wherein the managing of operation of the compressor, during the moisture releasing operation, includes linearly increasing the upper compressor threshold temperature and the lower compressor threshold temperature as a function of time. 17. The method according to claim 14 , wherein the managing of operation of the compressor, during the moisture releasing operation, includes periodically increasing the upper compressor threshold temperature and the lower compressor threshold temperature over a plurality of predetermined time intervals and holding the upper compressor threshold temperature and the lower compressor threshold temperature at respective predetermined and discrete values during each of the plurality of predetermined time intervals. 18. The method according to claim 12 , further comprising determining moisture in airflow downstream from an evaporator associated with the air conditioning system, and the managing of operation of the compressor, during the moisture releasing operation, includes selectively cycling the compressor on in response to the moisture in airflow downstream from the evaporator being equal to or greater than a moisture th