Heater and pump performance diagnostic for a hybrid battery thermal system

The invention claimed is: 1. A system comprising: a battery pack; a supply of heat transfer fluid; a heater; a pump that circulates the fluid to the battery pack through the heater; a temperature sensor configured to measure a temperature of the fluid; and a controller in communication with the temperature sensor, the pump, the battery pack, and the heater, wherein the controller includes a processor and tangible, non-transitory memory on which is recorded instructions for diagnosing the performance of the heater and the pump; wherein the controller, via the processor, receives and processes temperature signals from the temperature sensor, and is configured to: turn on the pump in response to a received enabling signal; calculate a temperature gradient of the coolant entering the battery pack using the temperature signals while the pump remains on; record a passing pump diagnostic code if the absolute value of the calculated temperature gradient exceeds a calibrated rate in the form of a calibrated temperature gradient value; and execute a heater diagnostic, after calculating the temperature gradient, only when heating is requested or the absolute value of the calculated temperature gradient does not exceed the calibrated temperature gradient value, including turning off the pump, cycling the heater on and off, and monitoring the temperature signals for a calibrated temperature rise. 2. The system of claim 1 , further comprising an electric traction motor that is electrically connected to the battery pack. 3. The system of claim 2 , further comprising a transmission having an output member connected to a set of drive wheels, wherein the electric traction motor delivers torque to the transmission using electrical energy drawn from the battery pack. 4. The system of claim 3 , wherein the controller detects a key-on state of a vehicle as the enabling signal. 5. The system of claim 1 , wherein the controller is configured to record a failing heater diagnostic code when the calibrated temperature rise does not occur. 6. The system of claim 1 , wherein the controller is further configured to run a pump diagnostic when the calibrated temperature rise occurs, and to record a passing or failing pump diagnostic code corresponding to the result of the pump diagnostic. 7. The system of claim 6 , wherein the pump diagnostic includes turning on the pump after cycling the heater, detecting the presence or absence of a calibrated drop in temperature of the fluid using the temperature signals, and recording a passing or failing pump diagnostic code when the calibrated drop in temperature is present or absent, respectively. 8. The system of claim 1 , further comprising an air conditioning compressor and a chiller, wherein the fluid is passed from the chiller to the pump. 9. A method for diagnosing a system having a battery pack, heat transfer fluid, a heater, and a pump that circulates the fluid to the battery pack through the heater, the method comprising: measuring a temperature of the fluid; receiving an enabling signal via a controller; turning on the pump, via a controller, in response to the received enabling signal; calculating, via the controller, an absolute value of a temperature gradient of the fluid using the temperature signals while the pump remains on; recording a passing pump diagnostic code if the absolute value of the temperature gradient exceeds a calibrated rate in the form of a calibrated temperature gradient value; and executing a heater diagnostic, after calculating the absolute value of the temperature gradient, only when battery heating is requested or the absolute value of the temperature gradient does not exceed the calibrated temperature gradient value, including turning off the pump, cycling the heater on and off, and monitoring the temperature signals for a calibrated temperature rise. 10. The method of claim 9 , further comprising: detecting a key-on state of a vehicle as the enabling signal. 11. The method of claim 9 , further comprising: recording a failing heater diagnostic code when the calibrated temperature rise does not occur. 12. The method of claim 9 , further comprising: executing a pump diagnostic using the controller when the calibrated temperature rise occurs, and recording a passing or failing pump diagnostic code corresponding to the result of the pump diagnostic. 13. The method of claim 12 , wherein executing the pump diagnostic includes: turning on the pump after cycling the heater; detecting the presence or absence of a calibrated drop in temperature of the fluid using the temperature signals; and recording a passing or failing pump diagnostic code when the calibrated drop in temperature is present or absent, respectively. 14. A method for diagnosing a thermal system in a vehicle, wherein the thermal system includes a battery pack, heat transfer fluid, a heater, and a pump that circulates the fluid to the battery pack through the heater, the method comprising: measuring a temperature of the fluid at a point in which the fluid enters the battery pack; detecting a key-on state of the vehicle as an enabling signal; receiving the enabling signal via a controller; turning on the pump, using the controller, in response to receipt of the enabling signal; calculating, via the controller, an absolute value of a temperature gradient of the fluid the battery pack using the temperature signals while the pump remains on; recording a passing pump diagnostic code if the calculated absolute value of the temperature gradient exceeds a calibrated rate in the form of a calibrated temperature gradient value; executing a heater diagnostic, after calculating the absolute value of the temperature gradient, only when battery heating is requested or the calculated absolute value of the temperature gradient does not exceed the calibrated rate, including turning off the pump, cycling the heater on and off, and monitoring the temperature signals for a calibrated temperature rise; recording a failing heater diagnostic code in memory of the controller when the calibrated temperature rise does not occur; and executing a pump diagnostic using the controller when the calibrated temperature rise occurs, including turning on the pump after cycling the heater, detecting the presence or absence of a calibrated drop in temperature of the fluid using the temperature signals, and recording a passing or failing pump diagnostic code when the calibrated drop in temperature is present or absent, respectively.