Engine system and method

The invention claimed is: 1. A system, comprising: a first fuel injector coupled to a first fuel injector drive circuit and that is operable to inject fuel to a first cylinder; and a controller coupled to the first fuel injector drive circuit, the controller configured to adjust a first actuation signal of the first fuel injector to generate an adjusted first actuation signal of the first fuel injector based at least on an impedance to the first actuation signal, where the controller is configured to adjust the first actuation signal of the first fuel injector by adjusting a rate of current rise of the first fuel injector circuit to track a reference current rise. 2. The system of claim 1 , further comprising a second fuel injector controlled by a second fuel injector circuit for injecting fuel to a second cylinder, where the controller is configured to adjust a second actuation signal of the second fuel injector based at least on an impedance to the second actuation signal that differs from the impedance to the first actuation signal. 3. The system of claim 2 , where the controller is configured to adjust the second actuation signal of the second fuel injector by adjusting a rate of current rise of the second fuel injector circuit to track the reference current rise, where the second actuation signal is adjusted differently than the first actuation signal. 4. The system of claim 3 , further comprising a first wire coupling the first fuel injector to a power source and a second wire coupling the second fuel injector to the power source, and the second wire is longer than the first wire, and the controller is configured to adjust the second actuation signal to account for a longer amount of time after voltage is applied to the first fuel injector circuit for the second fuel injector to open absent the adjustment. 5. A system, comprising: a first fuel injector coupled to a first fuel injector drive circuit and that is operable to inject fuel to a first cylinder; and a controller coupled to the first fuel injector drive circuit, the controller configured to adjust a first actuation signal of the first fuel injector to generate an adjusted first actuation signal of the first fuel injector based at least on an impedance to the first actuation signal, wherein the controller is configured to adjust the first actuation signal of the first fuel injector by changing a rate at which the first fuel injector opens or by changing or offsetting a time that the first fuel injector opens. 6. The system of claim 1 , wherein the first fuel injector is configured to inject fuel responsive to receiving the adjusted first actuation signal. 7. The system of claim 1 , wherein the impedance is based at least on a parameter of a first wire of the first fuel injection circuit. 8. A system, comprising: an engine having at least a first cylinder and a second cylinder; a first fuel injector circuit for injecting fuel to the first cylinder, the first fuel injector circuit including a first solenoid, a first harness, a first switch, and a first current sensor; a second fuel injector circuit for injecting fuel to the second cylinder, the second fuel injector circuit including a second solenoid, a second harness, a second switch, and a second current sensor; a voltage source coupled to the first fuel injector circuit via the first switch and to the second fuel injector circuit via the second switch; and a controller coupled to the first fuel injector circuit and the second fuel injector circuit, where the controller is configured to: during a fuel injection event for the first fuel injector circuit, adjust an average voltage supplied to the first solenoid by adjusting modulation of the first switch based on signals from the first current sensor in order to maintain current in the first solenoid at or below a target current; and during a fuel injection event for the second fuel injector circuit, adjust an average voltage supplied to the second solenoid by adjusting modulation of the second switch based on signals from the second current sensor in order to maintain current in the second solenoid at or below the target current. 9. The system of claim 8 , wherein an impedance of the second fuel injector circuit is greater than an impedance of the first fuel injector circuit, and wherein the second switch is modulated differently than the first switch. 10. The system of claim 8 , wherein the first fuel injection event and second fuel injection event are each divided into a plurality of segments including at least a first segment and a second segment, and wherein the target current is a reference current for the first segment. 11. The system of claim 10 , wherein the controller is further configured to: set a second target current for the second segment; during the first fuel injection event, adjust the average voltage supplied to the first solenoid by adjusting modulation of the first switch based on signals from the first current sensor in order to maintain current in the first solenoid at or below the second target current for the second segment; and during the second fuel injection event, adjust the average voltage supplied to the second solenoid by adjusting modulation the second switch based on signals from the second current sensor in order to maintain current in the second solenoid at or below the second target current for the second segment. 12. The system of claim 11 , wherein the first segment and the second segment comprise equal lengths of time. 13. The system of claim 11 , wherein the first segment and the second segment comprise different lengths of time. 14. A method carried out on a controller, comprising: determining a first delay time for a first actuation signal sent to a first fuel injector to switch the first fuel injector from a closed first position to an open second position; determining a second delay time for a second actuation signal sent to a second fuel injector to switch the second fuel injector from a closed first position to an open second position, the second delay time being longer than the first delay time; and adjusting the first actuation signal so that a first current rise time of the first fuel injector is within a threshold range of a second current rise time of the second fuel injector. 15. The method of claim 14 , wherein the threshold range is five microseconds. 16. The method of claim 14 , wherein the first delay time is based at least in part on a first length of wire coupling the first fuel injector to the controller and the second delay time is based at least in part on a second length of wire coupling the second fuel injector to the controller, the second length being longer than the first length. 17. The method of claim 14 , wherein adjusting the first actuation signal comprises adjusting the first current rise time of the first fuel injector. 18. The method of claim 17 , wherein adjusting the first current rise time comprises determining a difference between a measured current rise time and a target current rise time and adjusting an amount of voltage applied to a solenoid of the first fuel injector based on the determined difference. 19. A method comprising: with a first fuel injector coupled to a first fuel injector drive circuit, injecting fuel to a first cylinder; and with a controller coupled to the first fuel injector drive circuit, adjusting a first actuation signal of the first fuel injector to generate an adjusted first actuation signal of the first fuel injector based at least on an impedance to the f