Adaptive valve spring retainer with vibration damping

The invention claimed is: 1. An adaptive valve assembly comprising: a pipe defining a passageway for conducting engine exhaust gases; a pivot shaft supported by said pipe; a valve body coupled to said pivot shaft, said valve body moveable between an open position where exhaust gas flow through said passageway is increased and a closed position where exhaust gas flow through said passageway is reduced; a resilient member biasing said valve body toward said closed position; and a retainer assembly including at least one damping feature that engages said resilient member to dampen vibrations. 2. The adaptive valve assembly according to claim 1 wherein said retainer assembly comprises a first retainer piece fixed to a non-rotating structure and a second retainer pieced fixed to said pivot shaft, and wherein said damping feature comprises an offset between said first and said second retainer pieces. 3. The adaptive valve assembly according to claim 2 wherein each of said first and said second retainer pieces each include an end plate having an opening associated with said pivot shaft, and wherein a center of one of said end plates is non-concentric with a center of the other of said endplates to provide said offset. 4. The adaptive valve assembly according to claim 3 including first and second bearings for rotatably supporting said pivot shaft for rotation relative to said pipe, and wherein said offset generates a bearing reaction force in a direction that is non-parallel to said axis of rotation. 5. The adaptive valve assembly according to claim 3 wherein said resilient member comprises a coil spring with a plurality of coils and having a first spring end fixed to a non-rotating structure and a second spring end configured for rotation with said pivot shaft, and wherein each of said first and said second retainer pieces includes a transversely extending portion extending axially away from the respective end plate toward the opposite end plate, and wherein at least one transversely extending portion is in engagement with at least two coils of said plurality of coils. 6. The adaptive valve assembly according to claim 5 , wherein both of said transversely extending portions are in engagement with at least two coils of said plurality of coils. 7. The adaptive valve assembly according to claim 1 , wherein said resilient member has an internal surface surrounding a pivot axis defined by the pivot shaft and an external surface spaced radially outward of the internal surface, and wherein said retainer assembly comprises a first retainer piece fixed to a non-rotating structure and a second retainer pieced fixed to said pivot shaft, and wherein said damping feature comprises a damper that is in engagement with the external surface of said resilient member. 8. The adaptive valve assembly according to claim 7 , wherein said resilient member comprises a coil spring with a plurality of coils and having a first spring end fixed to the non-rotating structure and a second spring end configured for rotation with said pivot shaft, and wherein said damper engages at least one spring coil at a location spaced from said first and said second spring ends. 9. The adaptive valve assembly according to claim 8 , wherein said damper engages at least two spring coils and is axially spaced apart from said first and said second retainer pieces. 10. The adaptive valve assembly according to claim 8 , wherein said damper engages at least one spring coil and engages at least one of said first and said second retainer pieces. 11. The adaptive valve assembly according to claim 7 , wherein said pivot shaft defines an axis of rotation, and wherein each of said first and second retainer pieces includes an end plate having a center that is concentric with said axis of rotation. 12. The adaptive valve assembly according to claim 7 , wherein said damper comprises an o-ring that surrounds said resilient member. 13. The adaptive valve assembly according to claim 1 , wherein the adaptive valve assembly comprises a passive valve where said valve body is solely moveable from said closed position toward said open position in response to an increase in exhaust gas pressure flow against said valve body. 14. An adaptive valve assembly comprising: a pipe defining a passageway for conducting engine exhaust gases; a pivot shaft supported by said pipe, said pivot shaft defining an axis of rotation; a valve body coupled to said pivot shaft, said valve body moveable between an open position where exhaust gas flow through said passageway is increased and a closed position where exhaust gas flow through said passageway is reduced; a resilient member biasing said valve body toward said closed position; and a retainer assembly comprising a first retainer piece fixed to a non-rotating structure and a second retainer pieced fixed to said pivot shaft, and wherein one of said first and said second retainer pieces has a center that is non-concentric with a center of the other of said first and second retainer pieces to create an offset between said first and said second retainer pieces. 15. The adaptive valve assembly according to claim 14 , wherein said first retainer piece includes a first end plate with a first center and said second retainer piece includes a second endplate with a second center, and wherein one of said first and said second centers is concentric with said axis of rotation and the other of said first and said second centers is non-concentric with said axis of rotation. 16. The adaptive valve assembly according to claim 14 , wherein said resilient member comprises a coil spring including a plurality of coils and having a first spring end fixed to a non-rotating structure and a second spring end configured to pivot with said pivot shaft, and wherein at least one of said plurality of coils is non-concentric with said axis of rotation. 17. The adaptive valve assembly according to claim 14 , including first and second bearings for rotatably supporting said pivot shaft for rotation relative to said pipe, and wherein said offset generates a bearing reaction force in a direction that is non-parallel to said axis of rotation. 18. The adaptive valve assembly according to claim 14 , wherein said resilient member comprises a coil spring with a plurality of coils and having a first spring end fixed to a non-rotating structure and a second spring end configured for rotation with said pivot shaft, and wherein each of said first and said second retainer pieces includes an endplate with a transversely extending portion extending axially away from the respective end plate toward the opposite end plate, and wherein at least one transversely extending portion is in engagement with at least two coils of said plurality of coils. 19. The adaptive valve assembly according to claim 18 , wherein both of said transversely extending portions are in engagement with at least two coils of said plurality of coils. 20. The adaptive valve assembly according to claim 18 , wherein at least one of said plurality of coils is non-concentric with said axis of rotation. 21. An adaptive valve assembly comprising: a pipe defining a passageway for conducting engine exhaust gases; a pivot shaft supported by said pipe, said pivot shaft defining an axis of rotation; a valve body coupled to said pivot shaft, said valve body moveable between an open position where exhaust gas flow through said passageway is increased and a closed position where exhaust gas flow through said passageway is redu