Variable diffuser having a respective penny for each vane

What is claimed is: 1. A variable diffuser comprising: a passage defined between opposing faces of a hub and a tip; at least one vane within the passage, said vane comprising a body having a leading edge and a trailing edge, the body extending between the hub face and the tip face; and at least one rotatable penny coupled to said body and an actuator, wherein the penny is coupled to the body near an edge of the penny; wherein the hub face defines a slot and the body is coupled to the hub face via a pin extending from the body and into the slot, the pin movable within the slot; wherein rotation of at least one penny changes an orientation of the at least one vane relative to the hub face. 2. The variable diffuser of claim 1 , wherein the slot can be oriented radially with respect to a center axis. 3. The variable diffuser of claim 1 , wherein the slot can be oriented circumferentially with respect to a center axis. 4. The variable diffuser of claim 1 , wherein the tip face defines a second slot opposite the slot in the hub face, and the body is coupled to the tip face via a second pin extending from the body to the second slot. 5. The variable diffuser of claim 1 , wherein the penny is configured to rotate in unison with other pennies. 6. The variable diffuser of claim 5 , wherein the first position results in a passage that is more open than the second position. 7. The variable diffuser of claim 5 , wherein said actuator comprises an actuating ring, the penny having a drive shaft extending from a first face of the penny, said first face opposite a second face of the penny proximate the respective vane body, and wherein said actuating ring is coupled to each penny drive shaft via a respective coupling member. 8. The variable diffuser of claim 7 , wherein the coupling member is a pinion gear. 9. The variable diffuser of claim 7 , wherein the coupling member is an arm linkage. 10. The variable diffuser of claim 1 , wherein the orientation of the vane is continuously variable between a first position and a second position. 11. The variable diffuser of claim 1 , wherein the penny is housed in the hub face. 12. The variable diffuser of claim 11 , wherein the vane body is coupled to the tip face via a freewheeling penny. 13. A variable diffuser comprising: a passage defined between opposing faces of a hub and a tip; a vane within the passage, said vane comprising a leading edge segment and a trailing edge segment, each segment extending between the hub face and the tip face; a rotatable penny coupled to the leading edge segment and an actuator, wherein the penny is coupled to the leading edge segment near an edge of the penny; and wherein the hub face defines a slot and the leading edge segment is coupled to the hub face via a pin extending from the leading edge segment into the slot, the pin movable within the slot; wherein the trailing edge segment is coupled to the hub face via a pin extending from the trailing edge segment to the hub face; and wherein rotation of the penny changes an orientation of the leading edge segment relative to the hub face, and changes in the orientation of the leading edge segment causes changes an orientation of the trailing edge segment relative to the hub face. 14. The variable diffuser of claim 13 , wherein the leading edge segment is coupled to the penny near an aft end. 15. The variable diffuser of claim 13 , wherein a forward end of the trailing edge segment rests on an aft end of the leading edge segment. 16. The variable diffuser of claim 13 , wherein the slot can be oriented radially with respect to a center axis. 17. The variable diffuser of claim 13 , wherein the slot can be oriented circumferentially with respect to a center axis. 18. The variable diffuser of claim 13 , wherein the tip defines a second slot opposite the slot in the hub, and the body is coupled to the tip via a second pin extending from the body to the second slot. 19. A method of varying fluid flow exiting a centrifugal compressor, the method comprising: defining a diffuser passage between a pair of axially displaced and opposing disk faces; defining a plurality of slots within the first disk face; fixing a plurality of vanes in the diffuser passage, each vane extending between the opposing disk faces, coupled to a respective penny housed in a first of the disk faces and coupled to a respective pin extending from the vane into the respective slot; and transitioning each of the plurality of vanes from a first orientation relative to the diffuser passage to a second orientation relative to the diffuser passage by rotating each respective penny in unison and allowing each respective pin to translate within each respective slot. 20. The method of claim 19 wherein each respective penny is coupled to an actuator and wherein the step of transitioning each of the plurality of vanes from a first orientation relative to the diffuser passage to a second orientation relative to the diffuser passage by rotating each respective penny in unison is performed by actuating the actuator.