Method and apparatus for isolating root cause of low state of charge of a DC power source

The invention claimed is: 1. A method for monitoring a DC power source that is electrically connected to a charging system that is disposed on an internal combustion engine that is disposed on a vehicle, the method comprising: determining a State of Charge (SOC) for the DC power source; and upon detecting that the SOC is less than a threshold SOC that is associated with starting the internal combustion engine: evaluating, via a controller, states associated with a plurality of potential root causes related to the SOC being less than the threshold SOC, determining that at least one of the potential root causes is a candidate root cause based upon the states, determining a fault probability for each candidate root cause, and determining that one of the candidate root causes is a final root cause based upon the fault probabilities associated with each of the candidate root causes; and communicating, via a service connector, the final root cause from the controller to an off-board device. 2. The method of claim 1 , wherein determining a fault probability for each candidate root cause comprises determining a probability of occurrence for each candidate root cause and determining a probability of fault for each candidate root cause. 3. The method of claim 1 , wherein determining that one of the candidate root causes is a final root cause based upon the fault probabilities associated with the candidate root causes comprises selecting the one of the candidate root causes having the greatest fault probability as the final root cause. 4. The method of claim 1 , wherein evaluating a plurality of potential root causes associated with the low SOC comprises evaluating a state of health of the DC power source. 5. The method of claim 1 , wherein evaluating a plurality of potential root causes associated with the low SOC comprises evaluating performance of a charging system disposed to supply electric power to charge the DC power source. 6. The method of claim 1 , wherein evaluating a plurality of potential root causes associated with the low SOC comprises evaluating a wake-up current associated with the DC power source. 7. The method of claim 1 , wherein evaluating a plurality of potential root causes associated with the low SOC comprises evaluating engine operation and vehicle usage related to charging of the DC power source. 8. The method of claim 1 , wherein evaluating a plurality of potential root causes associated with the low SOC comprises evaluating engine starting events. 9. The method of claim 1 , wherein evaluating a plurality of potential root causes associated with the low SOC comprises evaluating on-board devices that are disposed to monitor the DC power source. 10. The method of claim 9 , wherein evaluating on-board devices that are disposed to monitor the DC power source comprises evaluating a current sensor, a voltage sensor and a temperature sensor. 11. The method of claim 1 , wherein determining the SOC for the DC power source comprises monitoring current flow into and out of the DC power source. 12. An internal combustion engine of a vehicle, comprising: a starting system that is electrically connected to a DC power source that is electrically connected to a charging system; an electrical charging system electrically connected to the DC power source; a service connector; and a controller, in communication with the internal combustion engine, the starting system, the electrical charging system, the service connector, and the DC power source, the controller including an instruction set, the instruction set executable to: determine a State of Charge (SOC) for the DC power source, and determine that the SOC is less than a threshold SOC, evaluate states associated with a plurality of potential root causes associated with the SOC being less than the threshold SOC, determine that at least one of the potential root causes is a candidate root cause based upon the evaluated states, determine a fault probability for each of the candidate root causes, determine that one of the candidate root causes is a final root cause based upon the fault probabilities associated with the candidate root causes, and communicate, via the service connector, the final root cause from the controller to an off-board device. 13. A service controller for a vehicle that includes an internal combustion engine, a starting system, a DC power source, an electrical charging system, comprising: the service controller being in communication with a service connector and in communication with the internal combustion engine, the starting system, the electrical charging system and the DC power source, the controller including an instruction set, the instruction set executable to: determine a State of Charge (SOC) for the DC power source, and determine that the SOC is less than a threshold SOC, evaluate states associated with a plurality of potential root causes associated with the SOC being less than the threshold SOC, determine that at least one of the potential root causes is a candidate root cause based upon the evaluated states, determine a fault probability for each of the candidate root causes, determine that one of the candidate root causes is a final root cause based upon the fault probabilities associated with the candidate root causes; and communicate, via the service connector, the final root cause from the controller to an off-board device. 14. The service controller of claim 13 , wherein the service connector is disposed to communicate the final root cause from the controller to an off-board service tool. 15. The service controller of claim 14 , wherein the service connector includes a mechanical linkage and a communication link to the off-board service tool. 16. The service controller of claim 14 , wherein the service connector includes a wireless communication link to the off-board service tool. 17. The service controller of claim 14 , wherein the service connector includes a telematics module disposed to communicate to the off-board service tool. 18. The service controller of claim 14 , wherein the off-board service tool is remotely located from the vehicle.