Pressure sensing system and method of housing a pressure sensor

What is claimed is: 1. A pressure sensing system, comprising: a pressure sensor; an optical fiber in operable communication with the pressure sensor; and a body disposed about the pressure sensor and the optical fiber, the body including a first end, a second end and an intermediate portion defining a cavity, the second end defining a diaphragm fluidically connected with the cavity, the body being separated a distance from the optical fiber arranged within the cavity, wherein operation of the pressure sensor is independent of changes in distance between the optical fiber and the diaphragm. 2. The pressure sensing system of claim 1 , wherein the body defines a cavity housing the pressure sensor and is sealedly engaged with the optical fiber extending through an opening in the body. 3. The pressure sensing system of claim 2 , wherein volume of the cavity when the body is sealed to an optical fiber is changed when the diaphragm is deformed. 4. The pressure sensing system of claim 3 , wherein pressure in the cavity changes in response to deformation of the diaphragm. 5. The pressure sensing system of claim 2 , wherein a relationship between displacement of a portion of the diaphragm and pressure changes within the cavity are linear. 6. The pressure sensing system of claim 2 , wherein pressure changes within the cavity are transmitted to the pressure sensor within the cavity by a fluid. 7. The pressure sensing system of claim 1 , wherein the diaphragm is configured to deform in response to forces acting thereagainst. 8. The pressure sensing system of claim 1 , wherein the optical fiber is in operable communication with the pressure sensor. 9. The pressure sensing system of claim 1 , wherein the diaphragm is flat. 10. The pressure sensing system of claim 1 , wherein the diaphragm is rectangular. 11. The pressure sensing system of claim 1 , wherein the body is sealedly engagable with a header that is sealedly engaged to the optical fiber. 12. The pressure sensing system of claim 11 , wherein the body is radially compressed against the header by at least one ferrule deformed into radial interference with the body. 13. The pressure sensing system of claim 1 , wherein the body is one of metal, polymer and glass. 14. The pressure sensing system of claim 1 , wherein the body is configured such that substantially only the diaphragm is deformable. 15. A method of housing a pressure sensor, comprising: forming a diaphragm integrally in a body, the diaphragm being deformable in response to forces acting thereagainst; enclosing a pressure sensor within a cavity defined by the body and the diaphragm, the pressure sensor being separated a distance from the diaphragm; and functionally connecting an optical fiber to the pressure sensor with distance changes between the optical fiber and the diaphragm being independent of operation of the pressure sensor. 16. The method of housing a pressure sensor of claim 15 , further comprising swaging a ferrule to radially compress the body between the ferrule and a header sealed to the optical fiber. 17. The method of housing a pressure sensor of claim 15 , wherein the forming the diaphragm includes flattening a rectangular portion of the body. 18. The method of housing a pressure sensor of claim 15 , wherein the forming the diaphragm includes altering a thickness of the body at the diaphragm. 19. The method of housing a pressure sensor of claim 15 , wherein the forming a diaphragm is through hydroforming. 20. The method of housing a pressure sensor of claim 15 , further comprising etching or machining the diaphragm. 21. The method of housing a pressure sensor of claim 15 , wherein the forming a diaphragm includes creating convolutions in the body.