Automatic testable breather valve

We claim: 1. A breather valve comprising: a housing; a rigid substrate located within the housing; a breathable membrane mounted to the rigid substrate; a gasket having a top surface and a bottom surface; and a preloaded compression element across the gasket and the rigid substrate, the preloaded compression element providing at least: a first compressive position, and a second compressive position. 2. The breather valve of claim 1 , wherein the gasket includes an upper energy director located at the top surface and a lower energy director located at the bottom surface. 3. The breather valve of claim 2 , wherein the first compressive position provides a contact between the lower energy director and a bottom portion of the housing. 4. The breather valve of claim 2 , wherein in the second compressive position air passes around the lower energy director and the upper energy director. 5. The breather valve of claim 3 , wherein in the first compressive position, the lower energy director forms a seal around the opening in the bottom portion of the housing to prevent air and water from penetrating through the gasket. 6. The breather valve of claim 2 , wherein the housing includes a top portion with a plurality of openings and wherein the preloaded compression element provides a third compressive position providing a contact between the upper energy director and the top portion of the housing. 7. The breather valve of claim 6 , wherein in the third compressive position, the upper energy director forms a seal around one of the plurality of openings of the top portion to prevent air and water from penetrating through the gasket. 8. The breather valve of claim 7 , wherein the preloaded compression element is normally in the first compressive position and wherein the preloaded compression element may be moved to the second compressive position and the third compressive position by an external probe. 9. The breather valve of claim 1 , wherein the rigid substrate is a stainless steel substrate and wherein the breathable membrane is mounted to the rigid substrate with an adhesive seal. 10. The breather valve of claim 1 , wherein the gasket is over molded to a perimeter of the rigid substrate and the breathable membrane. 11. The breather valve of claim 1 , wherein the preloaded compression element is a preloaded spring. 12. A portable communication device comprising: a device housing including a valve opening, a breather valve positioned at the valve opening, the breather valve including: a housing; a rigid substrate located within the housing; a breathable membrane mounted to the rigid substrate; a gasket; and a preloaded compression element across the gasket and the rigid substrate, the preloaded compression element providing at least: a first compressive position, and a second compressive position. 13. The portable communication device of claim 12 , wherein the valve opening includes first threaded grooves and the breather valve includes second threaded grooves such that the breather valve can be fastened into the valve opening. 14. The portable communication device of claim 12 , wherein the gasket includes an upper energy director located at a top surface of the gasket and a lower energy director located at a bottom surface of the gasket. 15. The portable communication device of claim 14 , wherein the first compressive position provides a contact between the lower energy director and a bottom portion of the housing. 16. The portable communication device of claim 14 , wherein in the second compressive position air passes around the lower energy director and the upper energy director. 17. The portable communication device of claim 15 , wherein in the first compressive position, the lower energy director forms a seal around the opening in the bottom portion of the housing to prevent air and water from penetrating through the gasket. 18. The portable communication device of claim 14 , wherein the housing includes a top portion with a plurality of openings and wherein the preloaded compression element provides a third compressive position providing a contact between the upper energy director and the top portion of the housing. 19. The portable communication device of claim 18 , wherein in the third compressive position, the upper energy director forms a seal around one of the plurality of openings of the top portion to prevent air and water from penetrating through the gasket. 20. The portable communication device of claim 19 , wherein the preloaded compression element is normally in the first compressive position and wherein the preloaded compression element may be moved to the second compressive position and the third compressive position by an external probe.