Vapor impermeable solenoid for fuel vapor environment

What is claimed is: 1. A vapor impermeable solenoid for a fuel tank isolation valve assembly, the vapor impermeable solenoid comprising: an outer housing defining an inner cavity and fabricated from a vapor impermeable material configured to prevent fuel vapor molecules from passing therethrough; windings configured to generate a magnetic flux when energized; a flux collector configured to direct the magnetic flux; an armature tube disposed within the inner cavity inboard of the flux collector and formed of magnetic material; a pole piece disposed within the armature tube; and a magnetic armature disposed within the armature tube and coupled to a seal configured to selectively seal a passage that allows fuel vapor to pass to a purge canister, the magnetic armature configured to move from a first position to a second position when an electric current is applied to the windings. 2. The vapor impermeable solenoid of claim 1 , wherein the first position is a sealed position preventing flow of the fuel vapor to the purge canister, and the second position is an unsealed position allowing flow of the fuel vapor to the purge canister. 3. The vapor impermeable solenoid of claim 1 , wherein the magnetic armature includes a first end having a frustoconical shape. 4. The vapor impermeable solenoid of claim 3 , wherein the magnetic armature includes a second end having an arm extending therefrom, wherein the seal is coupled to the arm. 5. The vapor impermeable solenoid of claim 1 , further comprising an encapsulated coil assembly that includes the windings. 6. The vapor impermeable solenoid of claim 5 , wherein the encapsulated coil assembly further includes a bobbin having an armature portion and a terminal portion. 7. The vapor impermeable solenoid of claim 6 , wherein the windings are disposed about the armature portion, and a terminal is coupled to the terminal portion, the terminal electrically coupled to the windings. 8. The vapor impermeable solenoid of claim 7 , further comprising a voltage suppressor disposed within a recess formed in the terminal portion. 9. The vapor impermeable solenoid of claim 7 , further comprising an encapsulation material disposed about and at least partially encapsulating the windings, the bobbin, and the terminal. 10. The vapor impermeable solenoid of claim 6 , wherein the armature tube is formed of stainless steel and is disposed inboard of the bobbin. 11. The vapor impermeable solenoid of claim 10 , wherein the magnetic armature includes at least one groove formed therein configured to receive a bearing to facilitate sliding movement of the magnetic armature within the armature tube. 12. The vapor impermeable solenoid of claim 1 , wherein the armature tube is fabricated from a corrosion resistant metallic material to facilitate preventing a corrosive surface from forming on an inside diameter due to exposure to water dissolved in fuel, and wherein the armature tube defines an open end and a closed end, the pole piece being secured inside of and to the armature tube at the closed end. 13. The vapor impermeable solenoid of claim 1 , wherein the outer housing is a metal liner configured to prevent fuel vapor molecules from passing therethrough. 14. A fuel tank isolation valve assembly for a fuel tank system having a fuel tank coupled to a purge canister via a fuel vapor vent line, the fuel tank isolation valve assembly comprising: a vent passage having a vapor inlet port and a vapor outlet port; and a vapor impermeable solenoid assembly operably coupled to the vent passage, the vapor impermeable solenoid assembly comprising: an outer housing defining an inner cavity and fabricated from a vapor impermeable material configured to prevent fuel vapor molecules from passing therethrough; windings configured to generate a magnetic flux when energized; a flux collector configured to direct the magnetic flux; an armature tube disposed within the inner cavity inboard of the flux collector and formed of magnetic material; a pole piece disposed within the armature tube; and a magnetic armature disposed within the armature tube and coupled to a seal configured to selectively seal the vent passage that allows fuel vapor to pass to purge canister, the magnetic armature configured to move from a first position to a second position when an electric current is applied to the windings. 15. The fuel tank isolation valve assembly of claim 14 , wherein the first position is a sealed position preventing flow of the fuel vapor to the purge canister, and the second position is an unsealed position allowing flow of the fuel vapor to the purge canister. 16. The fuel tank isolation valve assembly of claim 14 , wherein the magnetic armature includes a first end having a frustoconical shape, a second end having an arm extending therefrom, wherein the seal is coupled to the arm. 17. The fuel tank isolation valve assembly of claim 14 , further comprising an encapsulated coil assembly that includes the windings, a bobbin having an armature portion and a terminal portion, and an encapsulation material disposed about and at least partially encapsulating the windings, the bobbin, and the terminal, wherein the windings are disposed about the armature portion, and a terminal is coupled to the terminal portion, the terminal electrically coupled to the windings. 18. The fuel tank isolation valve assembly of claim 17 , wherein the armature tube is disposed inboard of the bobbin and the flux collector, wherein the magnetic armature includes at least one groove formed therein configured to receive a bearing to facilitate sliding movement of the magnetic armature within the armature tube. 19. The fuel tank isolation valve assembly of claim 14 , wherein the outer housing is a metal liner configured to prevent fuel vapor molecules from passing therethrough. 20. A vehicle fuel tank system comprising: a fuel tank; a purge canister; a conduit fluidly coupling the fuel tank and the purge canister; and a fuel tank isolation valve assembly disposed within the conduit and configured to selectively fluidly isolate the fuel tank from the purge canister, the fuel tank isolation valve assembly comprising: a vent passage having a vapor inlet port and a vapor outlet port; and a vapor impermeable solenoid assembly operably coupled to the vent passage, the vapor impermeable solenoid assembly comprising: an outer housing defining an inner cavity and fabricated from a vapor impermeable material configured to prevent fuel vapor molecules from passing therethrough; windings configured to generate a magnetic flux when energized; a flux collector configured to direct the magnetic flux; an armature tube disposed within the inner cavity inboard of the flux collector and formed of magnetic material; a pole piece disposed within the armature tube; and a magnetic armature disposed within the armature tube and coupled to a seal configured to selectively seal the vent passage that allows fuel vapor to pass to the purge canister, the magnetic armature configured to move from a first position to a second position when an electric current is applied to the windings.