HVAC system prognostics and diagnostics based on temperature rise or drop

What is claimed is: 1. A controller of a heating, ventilation, and air conditioning (HVAC) system configured to operate as a heat pump in a heating configuration, the controller communicatively coupled to: a discharge air temperature sensor positioned and configured to measure a discharge air temperature of a flow of air provided to a conditioned space; a return air temperature sensor positioned and configured to measure a return air temperature of air received from the conditioned space; and the controller configured to: determine whether the HVAC system is operating in a heating or cooling mode; and in response to determining that the HVAC system is operating in the heating mode: determine that the HVAC system has been operating in the heating mode for at least a predefined amount of time; receive the discharge air temperature measured by the discharge air temperature sensor; receive the return air temperature measured by the return air temperature sensor; determine a temperature rise value based on the discharge air temperature and the return air temperature; in response to determining that the temperature rise value is less than a first predefined minimum threshold value: detect at least one of an under-charging of the HVAC system with refrigerant and a high rate of the flow of air provided to the conditioned space to protect components of the HVAC system; and provide a first alert indicating detection of a first fault, wherein the first alert comprises an indication of one or more of the under-charging of the HVAC system with refrigerant and the high rate of the flow of air provided to the conditioned space; and in response to determining that the temperature rise value is greater than a predefined maximum threshold value: detect at least one of an over-charging of the HVAC system with refrigerant and a low rate of the flow of air provided to the conditioned space to protect the components of the HVAC system; and provide a second alert indicating detection of a second fault, wherein the second alert comprises an indication of one or more of the over-charging of the HVAC system with refrigerant and the low rate of the flow of air provided to the conditioned space; and in response to determining that the HVAC system is operating in the cooling mode: determine that the HVAC system has been operating in the cooling mode for at least the predefined amount of time; receive the discharge air temperature measured by the discharge air temperature sensor; receive the return air temperature measured by the return air temperature sensor; determine a temperature drop value based on the discharge air temperature and the return air temperature; in response to determining that the temperature drop value is less than a second predefined minimum threshold value: detect at least one of an under-charging of the HVAC system with refrigerant, a high rate of the flow of air provided to the conditioned space, and an expansion valve of the HVAC system being stuck in an open position to protect the components of the HVAC system; and provide a third alert indicating detection of a third fault, wherein the third alert comprises an indication of one or more of the under-charging of the HVAC system with refrigerant, the high rate of the flow of air provided to the conditioned space, and the expansion valve of the HVAC system being stuck in the open position; and in response to determining that the discharge air temperature is less than a predefined threshold value: detect at least one of a low rate of the flow of air provided to the conditioned space and an expansion valve of the HVAC system being stuck in a closed position to protect the components of the HVAC system; and provide a fourth alert indicating detection of a fourth fault, wherein the fourth alert comprises an indication of one or both of the low rate of the flow of air provided to the conditioned space and the expansion valve of the HVAC system being stuck in the closed position. 2. The controller of claim 1 , further configured to, prior to providing the first alert, the second alert, the third alert, or the fourth alert: determine that the discharge air temperature changes by less than a threshold amount for a predefined time interval; and determine that the return air temperature changes by less than the threshold amount for the predefined time interval. 3. The controller of claim 1 , further configured to: determine the temperature rise value as a difference between the discharge air temperature and the return air temperature; and determine the temperature drop value as a difference between the return air temperature and the discharge air temperature. 4. The controller of claim 1 , further communicatively coupled to a thermostat configured to measure an indoor air temperature of the conditioned space; the controller further configured to: determine that the return air temperature is outside a predefined range of values; and in response to determining that the return air temperature is outside a predefined range of temperature values: determine the temperature rise value as a difference between the discharge air temperature and the indoor air temperature; and determine the temperature drop value as a difference between the indoor air temperature and the discharge air temperature. 5. The controller of claim 1 , further configured to: prior to determining that the first fault is detected, determine that the temperature rise value is less than the first predefined minimum threshold value for at least a threshold number of times; prior to determining that the second fault is detected, determine that the temperature rise value is greater than the predefined maximum threshold value for at least the threshold number of times; prior to determining that the third fault is detected, determine that the temperature drop value is less than the second predefined minimum threshold value for at least a threshold number of times; and prior to determining that the fourth fault is detected, determine that the discharge air temperature is less than the predefined threshold value for at least the threshold number of times. 6. A controller of a heating, ventilation, and air conditioning (HVAC) system configured to operate as a heat pump in a heating configuration, the controller communicatively coupled to: a discharge air temperature sensor positioned and configured to measure a discharge air temperature of a flow of air provided to a conditioned space; a return air temperature sensor positioned and configured to measure a return air temperature of air received from the conditioned space; and the controller configured to: determine that the HVAC system is operating in a heating mode; receive the discharge air temperature measured by the discharge air temperature sensor; receive the return air temperature measured by the return air temperature sensor; determine a temperature rise value based on the discharge air temperature and the return air temperature; in response to determining that the temperature rise value is less than a first predefined minimum threshold value: detect at least one of an under-charging of the HVAC system with refrigerant and a high rate of the flow of air provided to the conditioned space to protect components of the HVAC system; and provide a first alert indicating detection of a first fault, wherein the first alert comprises an indication of one or more of the under-charging of the HVAC system with refrigerant and the high rate of the flow of air provided to the conditioned space; and in response to determining that the temperature rise value is greater than a predefined maximum threshold value: detect at least one of an over-charging of the HVAC system with refrigerant and a l