Fuel delivery injector

What is claimed is: 1. A fuel delivery injector, comprising: a housing defining a cavity and extending along a central longitudinal axis, wherein the housing includes an upper portion and a lower portion including a sleeve having an outlet; an end cap coupled to the upper portion of the housing, the end cap including an inlet port fluidly coupled to the cavity to direct liquid fuel and fuel vapor into the cavity and an outlet port fluidly coupled to the cavity to direct liquid fuel and fuel vapor out of the cavity; a magnetic assembly including a plurality of plates, wherein the plates are arranged to alternate between a non-magnetized plate and a magnetized plate, and wherein the magnetic assembly is fixedly positioned within the cavity; a pumping assembly including a bobbin and a piston; the bobbin including a coil configured to be coupled to an electrical power supply, wherein the bobbin is configured to move the pumping assembly within the cavity in response to interaction between a magnetic field created by the coil and the magnetic assembly, wherein the piston is coupled to the bobbin and configured to move within the sleeve; a return spring coupled to the pumping assembly to bias the pumping assembly to a home position; and a valve assembly positioned within a piston portion between an inlet chamber and an outlet chamber, wherein the valve assembly includes a valve configured to move between an open position in which liquid fuel may flow between the inlet chamber and the outlet chamber and a closed position in which liquid fuel is restricted from flowing between the inlet chamber and the outlet chamber; wherein the valve assembly includes a biasing spring configured to bias the valve toward the open position; wherein the inlet port is configured so that the liquid fuel entering the housing through the inlet port flows from the inlet port to the cavity and fuel vapor entering the housing through the inlet port is directed through a conduit to the outlet port. 2. The fuel delivery injector of claim 1 , wherein the end cap includes a protrusion extending therefrom and terminating at an end face, the protrusion configured to redirect fuel vapor toward the outlet port. 3. The fuel delivery injector of claim 1 , wherein the conduit is substantially perpendicular to the inlet port. 4. The fuel delivery injector of claim 1 , wherein the inlet port and the outlet port extend from the end cap perpendicular to the central longitudinal axis of the housing. 5. The fuel delivery injector of claim 1 , wherein the end cap further includes an electrical connector configured to electrically couple the coil to the electrical power supply. 6. The fuel delivery injector of claim 5 , wherein the electrical connector comprises a female connector formed integrally with the end cap. 7. The fuel delivery injector of claim 5 , wherein the electrical connector comprises a connector sealed to the end cap by a sealing feature. 8. The fuel delivery injector of claim 5 , wherein the electrical connector comprises insert molded electrical pins connected to the coil of the bobbin. 9. A fuel delivery injector, comprising: a housing defining a cavity and extending along a central longitudinal axis, wherein the housing includes an upper portion and a lower portion including a sleeve having an outlet; an end cap coupled to the upper portion of the housing, the end cap including an inlet port fluidly coupled to the cavity to direct liquid fuel and fuel vapor into the cavity and an outlet port fluidly coupled to the cavity to direct liquid fuel and fuel vapor out of the cavity, wherein the inlet port extends along an inlet port axis; a magnetic assembly including a plurality of plates, wherein the plates are arranged to alternate between a non-magnetized plate and a magnetized plate, and wherein the magnetic assembly is fixedly positioned within the cavity; a pumping assembly including a bobbin and a piston; the bobbin including a coil configured to be coupled to an electrical power supply, wherein the bobbin is configured to move the pumping assembly within the cavity in response to interaction between a magnetic field created by the coil and the magnetic assembly, wherein the piston is coupled to the bobbin and configured to move within the sleeve; a return spring coupled to the pumping assembly to bias the pumping assembly to a home position; and a valve assembly positioned within a piston portion between an inlet chamber and an outlet chamber, wherein the valve assembly includes a valve configured to move between an open position in which liquid fuel may flow between the inlet chamber and the outlet chamber and a closed position in which liquid fuel is restricted from flowing between the inlet chamber and the outlet chamber; wherein the valve assembly includes a biasing spring configured to bias the valve toward the open position; wherein the magnetic assembly is positioned offset from the piston. 10. The fuel delivery injector of claim 9 , wherein the inlet port is positioned offset from the central longitudinal axis on the end cap between the outlet port and the central longitudinal axis of the housing. 11. The fuel delivery injector of claim 10 , wherein the fuel vapor freely exits the housing through the outlet port having been separated from the liquid fuel. 12. The fuel delivery injector of claim 9 , wherein the inlet port and the outlet port extend from the end cap perpendicular to the central longitudinal axis of the housing. 13. The fuel delivery injector of claim 9 , wherein the end cap further includes an electrical connector configured to electrically couple the coil to the electrical power supply. 14. The fuel delivery injector of claim 13 , wherein the electrical connector comprises a female connector formed integrally with the end cap. 15. The fuel delivery injector of claim 13 , wherein the electrical connector comprises a connector sealed to the end cap by a sealing feature. 16. The fuel delivery injector of claim 13 , wherein the electrical connector comprises insert molded electrical pins connected to the coil of the bobbin. 17. An internal combustion engine, comprising: a cylinder; a piston positioned within the cylinder and configured to reciprocate within the cylinder; and a fuel delivery injector, comprising: a housing defining a cavity and extending along a central longitudinal axis, wherein the housing includes an upper portion and a lower portion including a sleeve having an outlet; an end cap coupled to the upper portion of the housing, the end cap including an inlet port fluidly coupled to the cavity to direct liquid fuel and fuel vapor into the cavity and an outlet port fluidly coupled to the cavity to direct liquid fuel and fuel vapor out of the cavity, the fuel vapor exiting the fuel delivery injector directly through the cavity and through the outlet port without coming into contact with the liquid fuel within the cavity; a magnetic assembly including a plurality of plates, wherein the plates are arranged to alternate between a non-magnetized plate and a magnetized plate, and wherein the magnetic assembly is fixedly positioned within the cavity; a pumping assembly including a bobbin and a piston; the bobbin including a coil configured to be coupled to an electrical power supply, wherein the bobbin is configured to move the pumping assembly within the cavity in response to interaction between a magnetic field created by the coil and the magnetic assembly, wherein the piston is coupled to the bobbin and configured to move within the sleeve; a retur