Selectable height actuating piston

What is claimed is: 1. An actuating piston comprising: an annular backing plate having an axial projection on a first side between an inner radius and an outer radius; an annular piston having a recess between an inner radius and an outer radius, the annular piston disposed on the annular backing plate so that the axial projection is received in the recess, wherein at least one of a wall thickness of the annular piston or a height of the axial projection is based on a measured height of an assembled friction device. 2. The actuating piston of claim 1 , wherein the axial projection is continuous in a circumferential direction. 3. The actuating piston of claim 1 , wherein the axial projection and the recess form an interference fit. 4. The actuating piston of claim 1 , wherein the recess includes an inner circumferential wall, an outer circumferential wall, and a radial wall. 5. The actuating piston of claim 4 , wherein a plurality of annular pistons are provided, the radial wall of each said annular piston of the plurality having a different radial wall thickness, wherein the annular piston of the plurality of annular pistons which is installed in the actuating piston includes a wall thickness which is based on the measured height of the assembled friction device. 6. The actuating piston of claim 4 , wherein the inner circumferential wall and the outer circumferential wall are formed on the same side of the radial wall to form the recess therebetween. 7. The actuating piston of claim 1 , wherein a plurality of annular backing plates are provided, the axial projections of each said annular backing plate having a different axial height, wherein the annular backing plate of the plurality of annular backing plates which is installed in the actuating piston includes an axial projection with an axial height which is based on the measured height of the assembled friction device. 8. The actuating piston of claim 7 , wherein the backing plate and the piston move in unison in a first axial direction in response to pressurization of the pressure medium and move in an opposite second axial direction in response to a resilient element. 9. The actuating piston of claim 1 , wherein the axial projection is formed by an inner circumferential wall connected to an outer circumferential wall by a radial wall, and wherein the inner circumferential wall and the outer circumferential wall are formed on the same side of the radial wall. 10. An actuating piston assembly, comprising: an actuating piston comprising: an annular backing plate having an axial projection on a first side between an inner radius and an outer radius; an annular piston including a recess having an inner circumferential wall, and outer circumferential wall, and a radial wall, the recess formed between an inner radius and an outer radius, the annular piston is disposed on the annular backing plate so that the axial projection is received in the recess; and a thrust bearing abutting the radial wall; wherein at least one of a wall thickness of the annular piston or a height of the axial projection is based on a measured height of an assembled friction device. 11. The assembly of claim 10 , wherein the piston further includes a pilot portion extending in an axial direction away from the backing plate. 12. The assembly of claim 11 , wherein a radially inward portion of the thrust bearing is piloted on the pilot portion. 13. The assembly of claim 11 , wherein a portion of the radial wall forms a raceway for the thrust bearing. 14. A disconnect system comprising: a friction device comprising a plurality of axially stacked clutch plates; an actuating piston axially disposed proximate to the friction device, the actuating piston comprising: an annular backing plate having an axial projection on a first side between an inner radius and an outer radius; an annular piston including a recess having an inner circumferential wall, and outer circumferential wall, and a radial wall, the radial wall having a thickness, the recess formed between an inner radius and an outer radius, the annular piston is disposed on the annular backing plate so that the axial projection is received in the recess; and a first axial side of a thrust bearing abutting the radial wall, wherein at least one of the wall thickness of the annular piston or a height of the axial projection is based on a measured height of the friction device. 15. The disconnect system of claim 14 , wherein a plurality of annular pistons are provided, each of the annular pistons of the plurality including radial walls with different thicknesses, and wherein the annular piston installed in the actuating piston is the one of the plurality of annular pistons which corresponds to a desired height of the actuating piston. 16. The disconnect system of claim 14 , wherein a plurality of annular backing plates are provided, each of the annular backing plates including the axial projections with different heights, and wherein the annular backing plate installed in the actuating piston is the one of the plurality of annular backing plates which corresponds to a desired height of the actuating piston.