Compliant seal assembly and method of operating

What is claimed is: 1. A turbine engine system comprising: a compliant seal assembly; a mid-turbine frame that includes a body; and a wall carried by the body, where the wall defines a bore that contains at least a portion of the complaint seal assembly, wherein the compliant seal assembly includes a housing orientated about an axis with a circumferentially extending groove in the housing opened radially outward; an annular carrier constructed and arranged to move radially within the groove, and with a circumferentially extending channel in the carrier opened radially outward; a piston ring located in the channel and radially and axially movable in the channel; and a ring shaped seal disposed in the groove and for sealing between the carrier and the housing, wherein the housing includes a first radial surface facing axially and which forms at least part of the groove, and the carrier includes a first radial face opposing the first radial surface, and the seal is in sealable contact between the first surface and the first face, wherein the housing includes a second radial surface opposite the first radial surface, and the carrier includes a second radial face opposite the first radial face, and wherein the second radial surface and the second radial face are opposed to and axially spaced from one-another, wherein the housing includes a circumferential surface that extends between the first radial surface and the second radial surface, wherein the carrier includes a circumferential face that that extends between the first radial face and the second radial face, wherein the wall and the housing are separated from one another by a first radial distance, wherein the circumferential surface and the circumferential face are separated from one another by a second radial distance, and wherein the first radial distance is less than the second radial distance to prevent the carrier from bottoming-out against the housing. 2. The system set forth in claim 1 , wherein the circumferential surface faces radially outward and defines in-part the groove. 3. The system set forth in claim 2 , wherein the carrier is constructed and arranged to move axially within the groove. 4. The system set forth in claim 3 , wherein an axial length of the circumferential surface is greater than an axial length of the circumferential face. 5. The system set forth in claim 1 , wherein the seal is disposed at least in-part in a seal channel defined by the first radial face. 6. The system set forth in claim 1 , wherein the complaint seal assembly separates a cavity from a chamber and the cavity has a pressure greater than the chamber thus producing an axial force that biases the carrier axially against the housing for sealing contact. 7. The system set forth in claim 1 wherein the piston ring is disposed in the bore and is in axial sliding and sealing contact with the body. 8. The system set forth in claim 1 , wherein the seal is a rope seal. 9. The seat system set forth in claim 1 further comprising: a fastener for axially connecting first and second segments of the housing together, wherein the first and second segments each define in-part the groove. 10. The system set forth in claim 9 , wherein the first and second segments are generally cylindrical. 11. A turbine engine system comprising: an assembly; a frame that includes a body; and a wall carried by the body, where the wall defines a bore that contains at least a portion of the assembly, wherein the assembly includes; a housing orientated about an axis with a circumferentially extending groove in the housing opened radially outward; a carrier constructed and arranged to move within the groove, and with a circumferentially extending channel in the carrier opened radially outward; a piston ring located in the channel and radially and axially movable in the channel; and, a ring-shaped seal disposed in the groove, and for sealing between the carrier and the housing, wherein the housing includes a first radial surface facing axially and which forms at least part of the groove, and the carrier includes a first radial face opposing the first radial surface, wherein the housing includes a second radial surface opposite the first radial surface, and the carrier includes a second radial face opposite the first radial face, and wherein the second radial surface and the second radial face are opposed to and axially spaced from one-another, wherein the housing includes a circumferential surface that extends between the first radial surface and the second radial surface, wherein the carrier includes a circumferential face that that extends between the first radial face and the second radial face, wherein the wall and the housing are separated from one another by a first radial distance, wherein the circumferential surface and the circumferential face are separated from one another by a second radial distance, and wherein the first radial distance is less than the second radial distance to prevent the carrier from bottoming-out against the housing.