Bearing centering spring with integral outer rings

The invention claimed is: 1. A bearing centering spring comprising: a cylindrical body having a first end, a second end, an inner surface, and an outer surface; a first outer ring proximate the first end, the first outer ring including a first outer raceway on the inner surface; a second outer ring proximate the second end, the second outer ring including a second outer raceway on the inner surface; a retaining feature at the second end; a plurality of ports through the body positioned between the first outer ring and the second outer ring; a first seal groove on the outer surface proximate the first end; a second seal groove on the outer surface positioned between the first groove and the plurality of ports; an oil groove on the outer surface positioned between the first and second seal grooves; and an anti-rotation lug that extends radially from the outer surface positioned between the second seal groove and the plurality of ports. 2. The bearing centering spring of claim 1 , further comprising: a contact surface on the outer surface directly radially outward of the second outer raceway. 3. The bearing centering spring of claim 1 , wherein the retaining feature is a flange. 4. The bearing centering spring of claim 3 , wherein the retaining feature includes an anti-rotation lug that extends radially from the flange. 5. A bearing arrangement comprising: an outer member having an inner portion; an inner member that is rotatable with respect to the outer member, the inner member having an outer portion; a first inner ring connected to the outer portion and including a first inner raceway; a second inner ring connected to the outer portion and including a second inner raceway; a first plurality of bearing elements in engagement with the first inner raceway; a second plurality of bearing elements in engagement with the second inner raceway; a bearing centering spring retained to the outer member, the bearing centering spring comprising: a first outer ring including a first outer raceway in engagement with the first plurality of bearing elements proximate a first end of the bearing centering spring; a second outer ring including a second outer raceway in engagement with the second plurality of bearing elements proximate a second end of the bearing centering spring; a plurality of ports positioned between the first outer ring and the second outer ring; a retaining feature at the second end of the bearing centering spring; and an anti-rotation lug that extends radially from the outer surface positioned between the first outer ring and the plurality of ports, the anti-rotation lug being configured to contact the outer member. 6. The bearing arrangement of claim 5 , wherein the bearing centering spring further comprises: a contact surface on an outer surface of the bearing centering spring positioned directly radially outward of the second outer raceway; wherein the contact surface contacts the inner portion of the outer member. 7. The bearing arrangement of claim 6 , wherein the outer surface of the bearing centering spring that is directly radially outward of the first outer raceway is configured to be spaced apart from the inner portion of the outer member. 8. The bearing arrangement of claim 5 , wherein the bearing centering spring further comprises: a first seal groove on the outer surface proximate the first end; a second seal groove on the outer surface positioned between the first seal groove and the plurality of ports; and an oil groove on the outer surface positioned between the first and second seal. 9. The bearing arrangement of claim 8 , and further comprising: a first seal positioned in the first seal groove, the first seal configured to form a seal between the bearing centering spring and the outer member; and a second seal positioned in the first seal groove, the second seal configured to form a seal between the bearing centering spring and the outer member. 10. The bearing arrangement of claim 5 , wherein the retaining feature is a flange. 11. The bearing arrangement of claim 10 , wherein the bearing centering spring further comprises: an anti-rotation lug that extends radially from the flange, the anti-rotation lug being configured to contact the outer member. 12. The bearing arrangement of claim 10 , further comprising: a nut connected to the outer member; wherein flange is retained between the static member and the nut. 13. The bearing arrangement of claim 12 , wherein the nut is connected to the inner portion of the outer member. 14. A gas turbine engine comprising: a low spool including a low pressure compressor connected to a low pressure turbine via a low shaft; a high spool including a high pressure compressor positioned downstream of the low pressure compressor connected to a high pressure turbine positioned upstream of the low pressure turbine via a high shaft; a combustor positioned between the high pressure compressor and the high pressure turbine; a power spool including a power turbine positioned downstream of the low pressure turbine and a power shaft; and a bearing arrangement for the power shaft, the bearing arrangement comprising: an outer member having an inner portion; an inner member that is rotatable with respect to the outer member, the inner member having an outer portion; a first inner ring connected to the outer portion and including a first inner raceway; a second inner ring connected to the outer portion and including a second inner raceway; a first plurality of bearing elements in engagement with the first inner raceway; a second plurality of bearing elements in engagement with the second inner raceway; a bearing centering spring retained to the outer member, the bearing centering spring comprising: a first outer ring including a first outer raceway in engagement with the first plurality of bearing elements proximate a first end of the bearing centering spring; a second outer ring including a second outer raceway in engagement with the second plurality of bearing elements proximate a second end of the bearing centering spring; a plurality of ports positioned between the first outer ring and the second outer ring; a retaining feature at the second end of the bearing centering spring; and an anti-rotation lug that extends radially from the outer surface positioned between the first outer ring and the plurality of ports, the anti-rotation lug being configured to contact the outer member. 15. The gas turbine engine of claim 14 , wherein the first outer ring is utilized in an eighth bearing and the second outer ring is utilized in a ninth bearing of the gas turbine engine. 16. The gas turbine engine of claim 14 , further comprising: a pressurized oil source; wherein the bearing centering spring further comprises: an oil groove that is fluidly connected to the pressurized oil source. 17. The gas turbine engine of claim 14 , the gas turbine engine further comprises: a static member; and a nut connected to the static member; wherein the retaining feature is a flange; and wherein flange is retained between the static member and the nut.