Integral vane base angle of attack sensor

The invention claimed is: 1. An angle of attack sensor comprising: a housing; a heated chassis positioned at least partially within the housing and defining a pocket; a mounting plate positioned on the heated chassis and having a circular opening, an external surface facing away from the housing, and an internal surface facing toward the housing; and a vane assembly extending through the circular opening of the mounting plate, the vane assembly including: a vane extending from a root to a tip; and a vane base having a body with a cylindrical portion, the body defining a face at an outer surface of the body, wherein the root of the vane is connected to the face of the vane base, and the vane base is positioned within the pocket of the heated chassis such that the face of the vane base is offset inwardly from the external surface of the mounting plate toward the housing. 2. The angle of attack sensor of claim 1 , wherein the vane base includes: an end stop extending radially out of the body, the end stop being adjacent an inner radial surface of the pocket. 3. The angle of attack sensor of claim 2 , wherein the end stop is configured to limit rotation of the vane assembly. 4. The angle of attack sensor of claim 1 , wherein an annular gap exists between an outer radial surface of the vane base and an inner radial surface of the pocket. 5. The angle of attack sensor of claim 1 , wherein a portion of the heated chassis extends into the opening of the mounting plate toward the external surface of the mounting plate such that it is flush with the external surface of the mounting plate. 6. The angle of attack sensor of claim 5 , wherein the vane base is offset inwardly toward the housing from an external surface of the portion of the heated chassis. 7. The angle of attack sensor of claim 1 , wherein the root of the vane is offset inwardly from the external surface of the mounting plate toward the housing. 8. The angle of attack sensor of claim 1 , wherein the vane assembly is configured to rotate with respect to the mounting plate. 9. The angle of attack sensor of claim 1 , wherein the vane base is connected to a vane shaft. 10. The angle of attack sensor of claim 9 , wherein the vane shaft is connected to a counterweight. 11. The angle of attack sensor of claim 1 , wherein the vane assembly further includes heating elements within the vane. 12. The angle of attack sensor of claim 11 , wherein the heating elements in the vane extend into a body of the vane base and inward from the external surface of the mounting plate toward the housing. 13. The angle of attack sensor of claim 1 , wherein the vane includes a trailing edge that extends linearly between the root of the vane and the tip of the vane. 14. The angle of attack sensor of claim 1 , wherein shaft connectors extend through the vane base. 15. A vane assembly for an angle of attack sensor, the angle of attack sensor having a housing, a heated chassis positioned at least partially within the housing and defining a pocket, and a mounting plate positioned adjacent the heated chassis and having a circular opening, an external surface facing away from the housing, and an internal surface facing toward the housing, the vane assembly comprising: a vane extending from a root to a tip; and a vane base connected to the root of the vane and configured to be positioned within the pocket of the heated chassis, the vane base including: a body having a cylindrical portion, the body defining a face at an outer surface of the body, wherein the root of the vane is connected to the face of the vane base; and an end stop extending radially out of a sidewall of the body, the end stop being adjacent an inner radial surface of the pocket. 16. The vane assembly of claim 15 , wherein the vane base is positioned within the pocket of the heated chassis such that the vane base is offset inwardly from the external surface toward the housing. 17. The vane assembly of claim 15 , further including an annular gap between an outer radial surface of the vane base and an inner radial surface of the pocket of the heated chassis. 18. The vane assembly of claim 15 , wherein the end stop is configured to limit rotation of the vane assembly.