Heat-pump system with refrigerant charge diagnostics

What is claimed is: 1. An apparatus for a heat-pump circuit having indoor and outdoor heat exchangers, a compressor circulating a working fluid between the indoor and outdoor heat exchangers, and an expansion device between the indoor and outdoor heat exchangers, the apparatus comprising: a return-air temperature sensor adapted to measure a first air temperature of air upstream of the indoor heat exchanger; a supply-air temperature sensor adapted to measure a second air temperature of air downstream of the indoor heat exchanger; a working-fluid temperature sensor disposed between the expansion device and the indoor heat exchanger and adapted to measure a working-fluid temperature of working fluid flowing between the indoor heat exchanger and the expansion device when the heat-pump system is operating in a heating mode; and a processor in communication with the return-air temperature sensor, the supply-air temperature sensor and the working-fluid temperature sensor, the processor configured to determine a first difference between the second air temperature and the working-fluid temperature, a second difference between the second air temperature and the first air temperature, and a third difference between the working-fluid temperature and the first air temperature, the processor configured to determine a working-fluid-charge condition of the heat-pump system based on a first comparison of the first difference with a first predetermined value and one of: a second comparison of the second difference with a second predetermined value and a third comparison of the third difference with a third predetermined value. 2. The apparatus of claim 1 , wherein the processor is in communication with a notification device configured to generate a first alert indicating that a fault condition of the heat-pump system is related to the working-fluid-charge condition and a second alert indicating that the fault condition of the heat-pump system is unrelated to an amount of working fluid in the heat-pump system. 3. The apparatus of claim 2 , wherein the processor is a cloud-based processor and the notification device includes a mobile, wireless computing device. 4. The apparatus of claim 1 , wherein the processor is in communication with a notification device configured to generate an alert indicating the working-fluid-charge condition. 5. The apparatus of claim 1 , wherein the processor is a cloud-based processor disposed remotely from the compressor, the return-air temperature sensor and the supply-air temperature sensor. 6. A working-fluid circuit having a processor in communication with a return-air temperature sensor adapted to measure a first air temperature of air upstream of an indoor heat exchanger, a supply-air temperature sensor adapted to measure a second air temperature of air downstream of the indoor heat exchanger and a working-fluid temperature sensor, a compressor circulating a working fluid between the indoor heat exchanger and an outdoor heat exchanger, and an expansion device between the indoor and outdoor heat exchangers, the working-fluid temperature sensor disposed between the expansion device and the indoor heat exchanger and adapted to measure a working-fluid temperature of working fluid flowing between the indoor heat exchanger and the expansion device when the heat-pump system is operating in a heating mode, the processor configured to determine a first difference between the second air temperature and the working-fluid temperature and a second difference between the second air temperature and the first air temperature, the processor configured to determine a working-fluid-charge condition of the heat-pump system based on a first comparison of the first difference with a first predetermined value and a second comparison of the second difference with a second predetermined value. 7. The working-fluid circuit of claim 6 , wherein the processor is in communication with a notification device configured to generate a first alert indicating that a fault condition of the heat-pump system is related to the working-fluid-charge condition and a second alert indicating that the fault condition of the heat-pump system is unrelated to an amount of working fluid in the heat-pump system. 8. The working-fluid circuit of claim 7 , wherein the processor is a cloud-based processor and the notification device includes a mobile, wireless computing device. 9. The working-fluid circuit of claim 6 , wherein the processor is in communication with a notification device configured to generate an alert indicating the working-fluid-charge condition. 10. The working-fluid circuit of claim 6 , wherein the processor is a cloud-based processor disposed remotely from the compressor, the return-air temperature sensor and the supply-air temperature sensor. 11. The working-fluid circuit of claim 6 , wherein the processor is configured to determine the working-fluid-charge condition of the heat-pump system based on the first comparison and the second comparison if the first difference is higher than the first predetermined value. 12. The working-fluid circuit of claim 11 , wherein the processor is in communication with a notification device configured to generate a first alert indicating that a fault condition of the heat-pump system is related to a working fluid overcharge condition if the second difference is higher than the second predetermined value and a second alert indicating that the fault condition of the heat-pump system is unrelated to an amount of working fluid in the heat-pump system if the second difference is lower than the second predetermined value. 13. The working-fluid circuit of claim 11 , wherein the processor is configured to determine the working-fluid-charge condition of the heat-pump system based on the first comparison and a third comparison if the first difference is lower than the first predetermined value, wherein the third comparison is a comparison between a third predetermined value and a third difference between the working-fluid temperature and the first air temperature. 14. The working-fluid circuit of claim 13 , wherein the processor is in communication with a notification device configured to generate a first alert indicating that a fault condition of the heat-pump system is related to a working fluid undercharge condition if the third difference is lower than the third predetermined value and a second alert indicating that the fault condition of the heat-pump system is unrelated to an amount of working fluid in the heat-pump system if the third difference is higher than the third predetermined value. 15. The apparatus of claim 1 , wherein the processor is configured to determine the working-fluid-charge condition of the heat-pump system based on the first comparison and the second comparison if the first difference is higher than the first predetermined value, and wherein the processor determines the working-fluid-charge condition of the heat-pump system based on the first comparison and the third comparison if the first difference is lower than the first predetermined value. 16. The apparatus of claim 15 , wherein the processor is in communication with a notification device configured to generate a first alert indicating that a fault condition of the heat-pump system is related to a working fluid overcharge condition if the second difference is higher than the second predetermined value and a second alert indicating that the fault condition of the heat-pump system is unrelated to an amount of working fluid in the heat-pump system if the second difference is lower than the second predetermined value.