Plate and enclosure assembly for use in construction equipment

What is claimed is: 1. A plate, comprising: a sensor face; a plate base surface disposed opposite the sensor face in an axial direction; the plate having an inner passage connecting the sensor face to the plate base surface; and a blocking surface disposed axially between the sensor face and the plate base surface, wherein the plate base surface is connected to the blocking surface by an inner periphery having an inner periphery diameter, wherein the blocking surface is connected to the sensor face by an outer periphery having an outer periphery diameter and a middle periphery having a middle periphery diameter, the outer periphery transitioning to the middle periphery at two circumferential reductions, and wherein each circumferential reduction comprises an S-shaped portion that transitions the outer periphery to the middle periphery. 2. The plate of claim 1 , wherein the outer periphery diameter is larger than the middle periphery diameter and the middle periphery diameter is larger than the inner periphery diameter. 3. The plate of claim 1 , wherein the sensor face, the plate base surface, and the blocking surface are disposed in parallel planes. 4. The plate of claim 1 , wherein an outer periphery height equals a middle periphery height. 5. The plate of claim 4 , wherein an inner periphery height is approximately equal to the outer periphery height. 6. The plate of claim 1 , the plate having: a plurality of plate fastener holes disposed around the inner passage, each of the plurality of plate fastener holes extending from the sensor face to the plate base surface. 7. The plate of claim 1 , wherein each S-shaped portion comprises a reduction round in contact with the outer periphery, a reduction fillet in contact with the middle periphery, and a reduction middle section connecting the reduction round and the reduction fillet. 8. The plate of claim 7 , wherein each reduction middle section extends generally in a radial direction that is perpendicular to the axial direction. 9. The plate of claim 8 , wherein the reduction middle section of each circumferential reduction is co-linear. 10. The plate of claim 1 , wherein the outer periphery is perpendicular to the sensor face and the blocking surface. 11. The plate of claim 1 , wherein the inner periphery is perpendicular to the plate base surface. 12. The plate of claim 1 , wherein the inner periphery merges with the blocking surface with a merging fillet. 13. An enclosure assembly for use in connection with positioning a seat on a piece of construction equipment, the enclosure assembly comprising: a housing; a plate disposed in the housing, the plate comprising: a sensor face; a plate base surface disposed opposite the sensor face in an axial direction; the plate having an inner passage connecting the sensor face to the plate base surface; and a blocking surface disposed axially between the sensor face and the plate base surface, and at least one sensor configured to detect the sensor face to determine a rotational position of the plate, wherein the plate base surface is connected to the blocking surface by an inner periphery having an inner periphery diameter, wherein the blocking surface is connected to the sensor face by an outer periphery having an outer periphery diameter and a middle periphery having a middle periphery diameter, the outer periphery transitioning to the middle periphery at two circumferential reductions, and wherein the outer periphery diameter is larger than the middle periphery diameter and the middle periphery diameter is larger than the inner periphery diameter. 14. The enclosure assembly of claim 13 , further comprising: a plate base; and a bearing disposed around the plate base, the bearing having an inner bearing race and an outer bearing race, the outer bearing race being fixed with respect to the housing by a plurality of bearing fasteners. 15. The enclosure assembly of claim 14 , wherein the plate includes a plurality of plate fastener holes, and wherein plate fasteners are disposed in at least two plate fastener holes of the plurality of plate fastener holes so as to secure the plate and the inner bearing race to the plate base. 16. The enclosure assembly of claim 15 , wherein the blocking surface overhangs at least one bearing fastener of the plurality of bearing fasteners and the outer bearing race at least partially. 17. The enclosure assembly of claim 13 , wherein the at least one sensor comprises two sensors, the two sensors being disposed in the housing diametrically opposite each other with respect to the plate. 18. The enclosure assembly of claim 13 , wherein the housing is rotatable with respect to the plate. 19. The enclosure assembly of claim 13 , further comprising: a seat suspension mounting surface disposed on the housing. 20. A plate, comprising: a sensor face; a plate base surface disposed opposite the sensor face in an axial direction; the plate having an inner passage connecting the sensor face to the plate base surface; and a blocking surface disposed axially between the sensor face and the plate base surface, wherein the plate base surface is connected to the blocking surface by an inner periphery having an inner periphery diameter, wherein the blocking surface is connected to the sensor face by an outer periphery having an outer periphery diameter and a middle periphery having a middle periphery diameter, the outer periphery transitioning to the middle periphery at two circumferential reductions, and wherein the outer periphery diameter is larger than the middle periphery diameter and the middle periphery diameter is larger than the inner periphery diameter.