Dual fuel injector and engine using same

What is claimed is: 1. A method of operating an engine comprising the steps of: injecting a first fuel into an engine cylinder through a first set of nozzle outlets of one of a plurality of fuel injectors; injecting a second fuel into the engine cylinder through a second set of nozzle outlets of the one of the plurality of fuel injectors; each of the injecting steps includes moving one of a first armature and a second armature toward an other of the first armature and the second armature along a common centerline; and igniting the first fuel by compression igniting the second fuel. 2. The method of claim 1 , wherein the first fuel is natural gas and the second fuel is diesel fuel. 3. The method of claim 1 , wherein the step of injecting the first fuel includes moving a first control valve member along the common centerline; and the step of injecting the second fuel includes moving a second control valve member along the common centerline. 4. The method of claim 1 , wherein the injecting steps are performed simultaneously. 5. The method of claim 4 including a step of biasing a first control valve member of each of the plurality of fuel injectors toward a closed position with a shared spring; and biasing a second control valve member of each of the plurality of fuel injectors toward a closed position with the shared spring. 6. The method of claim 5 , wherein the step of injecting the first fuel includes moving the first control valve member along the common centerline, and the step of injecting the second fuel includes moving a second control valve member along the common centerline. 7. A method of operating an engine comprising the steps of: injecting a first fuel into an engine cylinder through a first set of nozzle outlets of one of a plurality of fuel injectors; injecting a second fuel into the engine cylinder through a second set of nozzle outlets of the one of the plurality of fuel injectors; each of the injecting steps includes moving one of a first armature and a second armature toward an other of the first armature and the second armature along a common centerline shared with respective first and second pushers in each of the plurality of fuel injectors; controlling, using the respective first and second pushers, a first and second control valve member corresponding to first and second needle valve members, the first and second needle valve members being further controlled by a shared spring that opens or closes a first pressure relief passage and a second pressure relief passage via the first and second pushers; and igniting the first fuel by compression igniting the second fuel. 8. The method of claim 7 , wherein the first fuel is natural gas and the second fuel is diesel fuel. 9. The method of claim 7 , wherein said injecting the first fuel includes moving the first control valve member along the common centerline, and said injecting the second fuel includes moving the second control valve member along the common centerline. 10. The method of claim 7 , wherein said injecting the first fuel is performed simultaneously with said injecting the second fuel. 11. The method of claim 10 further comprising: biasing the first control valve member of each of the plurality of fuel injectors toward a closed position with the shared spring; and biasing the second control valve member of each of the plurality of fuel injectors toward a closed position with the shared spring. 12. The method of claim 11 , wherein said injecting the first fuel includes moving the first control valve member along the common centerline, and said injecting the second fuel includes moving a second control valve member along the common centerline. 13. A method of operating an engine comprising the steps of: injecting a first fuel into an engine cylinder through a first set of nozzle outlets of one of a plurality of fuel injectors; injecting a second fuel into the engine cylinder through a second set of nozzle outlets of the one of the plurality of fuel injectors; each of the injecting steps includes moving one of a first armature and a second armature of a dual solenoid actuator toward an other of the first armature and the second armature along a common centerline; coupling a first pusher and a second pusher to the first armature and the second armature, respectively, and operatively to a first control valve member and a second control valve member, respectively, via a first valve seat and a second valve seat, respectively; moving a first needle valve member and a second needle valve member by moving the first valve seat and the second valve seat, respectively, using a shared spring to open or close a first pressure relief passage and a second pressure relief passage via the first pusher and the second pusher, respectively, wherein the opening and closing of the first pressure relief passage and the second pressure relief passage opens and closes a first hydraulic surface of the first needle valve member and a second hydraulic surface of the second needle valve member; and igniting the first fuel by compression igniting the second fuel. 14. The method of claim 13 , wherein the first fuel is natural gas and the second fuel is diesel fuel. 15. The method of claim 13 , wherein said injecting the first fuel includes moving the first control valve member along the common centerline, and said injecting the second fuel includes moving the second control valve member along the common centerline. 16. The method of claim 13 , wherein said injecting the first fuel is performed simultaneously with said injecting the second fuel. 17. The method of claim 16 further comprising: biasing the first control valve member of each of the plurality of fuel injectors toward a closed position with the shared spring; and biasing the second control valve member of each of the plurality of fuel injectors toward a closed position with the shared spring. 18. The method of claim 17 , wherein said injecting the first fuel includes moving the first control valve member along the common centerline, and said injecting the second fuel includes moving a second control valve member along the common centerline. 19. The method of claim 13 , wherein the dual solenoid actuator has a non-injection configuration at which the first armature is at an un-energized position and the second armature is at an un-energized position; the dual solenoid actuator has a first fuel injection configuration at which a first fuel inlet is fluidly connected to the first set of nozzle outlets, the first armature is at an energized position and the second armature is at the un-energized position; and the dual solenoid actuator has a second fuel injection configuration at which a second fuel inlet is fluidly connected to the second set of nozzle outlets, the first armature is at the un-energized position and the second armature is at an energized position. 20. The method of claim 13 further comprising: mounting a first coil of the first armature and a second coil of the second armature on a shared stator of the dual solenoid actuator.