End-of-current trim for common rail fuel system

What is claimed is: 1. A common rail fuel system comprising: a common rail; a high pressure pump fluidly connected to the common rail; a plurality of fuel injectors fluidly connected to the common rail, and each of the fuel injectors includes a valve and a solenoid with an armature; an electronic controller in control communication with the high pressure pump and each of the plurality of fuel injectors, and including an end-of-current trim determination algorithm configured to determine an individual end-of-current trim for each of the plurality of fuel injectors; wherein the end-of-current trim determination algorithm is configured to determine each end-of-current trim at least in part by estimating a duration between an induced current event in a circuit of the solenoid and a valve/armature interaction event for each of the plurality of fuel injectors. 2. The fuel system of claim 1 wherein the valve of each of the fuel injectors includes a valve member movable between a first position in contact with a seat to block a pressure control passage to a drain, and a second position out of contact with the seat to open the pressure control passage to the drain; wherein the armature of the solenoid is operatively coupled to the valve member; and the armature is movable with respect to the valve member toward an overtravel stop when the valve member is at the first position. 3. The fuel system of claim 2 wherein the induced current event is associated with the armature contacting an overtravel stop. 4. The fuel system of claim 3 wherein the end-of-current trim determination algorithm is configured to energize the solenoid for a plurality of diagnostic events. 5. The fuel system of claim 4 wherein a diagnostic on-time for each diagnostic event is sufficiently long to move the valve member out of contact with the seat, but insufficiently long to inject fuel from the fuel injector. 6. The fuel system of claim 5 wherein the solenoid is energized and de-energized twice during each of the diagnostic events. 7. The fuel system of claim 6 wherein each diagnostic event includes a first diagnostic on-time separated by a dwell from a second diagnostic on-time. 8. The fuel system of claim 7 wherein the dwell of each diagnostic event of the plurality of diagnostic events is different. 9. The fuel system of claim 8 wherein the end-of-current trim determination algorithm is configured to identify which diagnostic event of the plurality of diagnostic events has an armature bounce delay that is smaller than the armature bounce delay of the remaining diagnostic events of the plurality of diagnostic events. 10. The fuel system of claim 9 wherein the end-of-current trim determination algorithm is configured to calculate an overtravel return delay for the identified diagnostic event; and configured to determine the end-of-current trim based on the overtravel return delay.