Apparatus and method for controlling indoor airflow for heat pumps

The invention claimed is: 1. A method for heating an airflow, the method comprising: sensing a temperature of a first heat exchanger; identifying a speed of a compressor, the compressor adapted to compress a refrigerant; determining a heating capacity of a second heat exchanger; determining a target leaving temperature from the second heat exchanger; measuring an inlet temperature of air entering the second heat exchanger; determining a volumetric air flow based on the determined heating capacity, the target leaving temperature and the inlet temperature; determining a blower speed for an air blower using the temperature of the first heat exchanger, the speed of the compressor and the volumetric air flow; and operating the air blower at the determined blower speed to direct a flow of air across the second heat exchanger to heat the airflow to a leaving air temperature. 2. The method of claim 1 , wherein the first heat exchanger is an outdoor heat exchanger, the second heat exchanger is an indoor heat exchanger, and the air blower is an indoor air blower. 3. The method of claim 2 , wherein the first heat exchanger is an evaporator and the second heat exchanger is a condenser. 4. The method of claim 3 , wherein the step of detecting the temperature of the first heat exchanger indicates a temperature of the refrigerant at the first heat exchanger. 5. The method of claim 4 , further including the step of determining a target air leaving temperature for the heated airflow, and wherein the step of determining the blower speed includes determining an operating speed for the air blower for the leaving air temperature to be approximately equal to the target air leaving temperature. 6. The method of claim 3 , further including the steps of: sensing, by a temperature sensor, an outside ambient temperature; determining, by a command apparatus, a target leaving air temperature for the heated airflow, the target leaving air temperature being variable based on the sensed outside ambient temperature; and wherein the step of determining the blower speed includes determining an operating speed for the air blower that allows the leaving air temperature to be approximately equal to the target air leaving temperature. 7. The method of claim 6 , wherein the target leaving air temperature when the outside ambient temperature is below approximately 5° Fahrenheit is approximately 90° Fahrenheit to approximately 100° Fahrenheit. 8. The method of claim 6 , wherein the target leaving air temperature when the outside ambient temperature is between approximately 5° Fahrenheit and approximately 40° Fahrenheit is approximately 100° Fahrenheit to approximately 105° Fahrenheit. 9. The method of claim 6 , wherein the target leaving air temperature when the outside ambient temperature is above approximately 40° Fahrenheit is approximately 95° Fahrenheit to approximately 100° Fahrenheit. 10. A method for providing a heated airflow, the method comprising: sensing a heat exchanger temperature of a first heat exchanger; determining a system heating capacity based at least in part on a sensed outside ambient temperature and a speed of a compressor, the compressor adapted to compress a refrigerant; determining an indoor volumetric airflow flow rate for a flow of air across a second heat exchanger based at least in part on the determined system heating capacity and the heat exchanger temperature; and determining a blower speed for an air blower based at least in part on the determined indoor volumetric airflow rate and the heat exchanger temperature; and operating the air blower at the determined blower speed to facilitate the flow of the air across the second heat exchanger. 11. The method of claim 10 , wherein the first heat exchanger is an outdoor heat exchanger that provides an evaporator and the second heat exchanger is an indoor heat exchanger that provides a condenser. 12. The method of claim 11 , wherein the determined heat exchanger temperature indicates a temperature of the refrigerant at the first heat exchanger. 13. The method of claim 12 , further including the step of identifying, during a transient event, the heat exchanger temperature before the transient event, the identified heat exchanger temperature being used to determine the heat exchanger temperature that is to be used in determining the indoor volumetric airflow rate and the blower speed during at least the transient event. 14. The method of claim 13 , wherein the heat exchanger temperature used during the transient event is a floating point average temperature. 15. The method of claim 11 , wherein the step of determining the system heating capacity is further based on a leaving air temperature, and wherein the step of determining the indoor volumetric airflow rate is further based on a temperature of an airflow at an inlet of a condenser. 16. An apparatus for heating an airflow using a refrigerant, the apparatus comprising: a compressor adapted to operate at a compressor speed to compress the refrigerant; a first heat exchanger in fluid communication with the compressor; a temperature sensor positioned to sense a temperature of the first heat exchanger; a second heat exchanger in fluid communication with the first heat exchanger; an air blower adapted to operate at one or more variable blower speeds, the air blower further adapted to facilitate a flow of air across at least a portion of the second heat exchanger; and a command apparatus having a memory, the command apparatus adapted to define: the one or more variable blower speeds for operation of the air blower based on the compressor speed; a system heating capacity; an indoor volumetric airflow flow rate for a flow of air across the second heat exchanger based at least in part on the determined system heating capacity and the heat exchanger temperature; and a blower speed for a second air blower based at least in part on the determined indoor volumetric airflow rate and the temperature of the first heat exchanger. 17. The apparatus of claim 16 , wherein the temperature of the first heat exchanger indicates a refrigerant temperature of refrigerant at the first heat exchanger. 18. The apparatus of claim 17 , wherein the first heat exchanger is an evaporator and the second heat exchanger is a condenser. 19. The apparatus of claim 18 , wherein the first heat exchanger is an outdoor heat exchanger and the second heat exchanger is an indoor heat exchanger. 20. The apparatus of claim 16 , wherein the command apparatus is an inverter drive. 21. A method for heating an airflow, the method comprising: sensing a temperature of a first heat exchanger; identifying a speed of a compressor, the compressor adapted to compress a refrigerant; determining a blower speed for an air blower using the temperature of the first heat exchanger and the speed of the compressor; operating the air blower at the determined blower speed to direct a flow of air across a second heat exchanger to heat the airflow to a leaving air temperature; wherein the first heat exchanger is an outdoor heat exchanger, the second heat exchanger is an indoor heat exchanger, and the air blower is an indoor air blower; wherein the first heat exchanger is an evaporator and the second heat exchanger is a condenser; further including the steps of: sensing, by a temperature sensor, an outside ambient temperature; determining, by a command apparatus, a target leaving air temperature for the heated airflow, the target leaving air tem