Method and apparatus to evaluate a starter for an internal combustion engine

1 . Method for monitoring pinion and motor solenoids of an electrically-powered motor for a starter of an internal combustion engine, comprising: monitoring current and electrical energy consumed by said pinion and motor solenoids of the starter during an engine starting event; determining electrical energy consumed by the pinion and motor solenoids during the engine starting event; monitoring current ringing associated with activation of the pinion and motor solenoids during the engine starting event; and identifying a fault in one of the pinion solenoid and the motor solenoid based upon the current ringing and the electrical energy consumed by the pinion and motor solenoids during the engine starting event. 2 . The method of claim 1 , wherein determining the electrical energy consumed by said pinion and motor solenoids during the engine starting event comprises: monitoring battery voltage and current flow through the pinion and motor solenoids during activation of the motor solenoid prior to activation of the pinion solenoid; determining an equivalent resistance of the pinion and motor solenoids based upon said battery voltage and current flow; determining current flow during the engine starting event based upon the equivalent resistance of the pinion and motor solenoids; and determining solenoid energy based upon the current flow during the engine starting event. 3 . The method of claim 2 , wherein determining solenoid energy based upon the current flow during the engine starting comprises integrating a term comprising the current flow multiplied by battery voltage during the engine starting event. 4 . The method of claim 2 , wherein determining the electrical energy consumed by pinion and motor solenoids during the engine starting event further comprises: adjusting the equivalent resistance of the pinion and motor solenoids based upon temperature; determining current flow during the engine starting event based upon the temperature-adjusted equivalent resistance of the pinion and motor solenoids; and determining solenoid energy based upon the current flow during the engine starting event. 5 . The method of claim 1 , wherein identifying a fault in the pinion solenoid based upon the current ringing and the electrical energy consumed by the pinion and motor solenoids during the engine starting event comprises identifying a fault in the pinion solenoid when the electrical energy consumed by the pinion and motor solenoids during the engine starting event is greater than a threshold. 6 . The method of claim 1 , wherein identifying a fault in the motor solenoid based upon the current ringing and the electrical energy consumed by the pinion and motor solenoids during the engine starting event comprises identifying a fault in the motor solenoid when the current ringing is greater than a threshold during the engine starting event. 7 . The method of claim 1 , further comprising: determining a state of health (SOH) of the pinion and motor solenoids based upon the current ringing and the electrical energy consumed by the pinion and motor solenoids; and identifying a motor solenoid fault when the SOH of the pinion and motor solenoids is less than a first threshold and a time factor correlated to the current ringing is less than a threshold and identifying a pinion solenoid fault when the SOH of the pinion and motor solenoids is less than the first threshold and the electrical energy consumed by the pinion and motor solenoids during the engine starting event is greater than a threshold.