Clutch with selectable locked and one-way modes

What is claimed is: 1. A clutch comprising: an inner race; an outer race defining an inner cam surface having lobes and valleys; a plurality of wedge segments configured to selectively couple the inner and outer races and circumferentially arranged around the inner race with each segment disposed between adjacent ones of the lobes and valleys, each segment being circumferentially movable towards the adjacent lobe to create circumferential movement and increase friction with the inner race and towards the adjacent valley to decrease friction with the inner race, wherein the wedge segments are biased towards the lobes; and a cage configured to drive the circumferential movement of the wedge segments, wherein the cage includes an annular plate defining arcuate slots circumferentially spaced around the plate and fasteners extending through the slots to attach the cage to the outer race such that the cage is rotatable relative to the outer race via the slots, wherein rotation of the cage relative to the outer race in a first direction moves a first set of the segments towards their adjacent valley to permit overrunning of the inner race in a second direction that is opposite the first direction while a second set of the segments locks the inner race from rotating in the first direction relative to the outer race. 2. The clutch of claim 1 , wherein rotation of the cage relative to the outer race in the second direction moves the second set of segments towards their adjacent valley to permit overrunning of the inner race in the first direction while the first set of the segments locks the inner race from rotating in the second direction relative to the outer race. 3. The clutch of claim 1 further comprising resilient members acting between the outer race and the wedge segments to bias the wedge segments towards the lobes. 4. The clutch of claim 3 , wherein the outer race defines projections that are each located at one of the valleys and extend radially inward therefrom, and each resilient member acts between one of the projections and at least one of the wedge segments. 5. The clutch of claim 1 , wherein each wedge segment includes a ramped surface that matches the inner cam surface such that circumferential movement of the segment towards the adjacent lobe radially moves the segment towards the inner race and such that circumferential movement of the segment towards the adjacent valley radially moves the segment towards the outer race. 6. The clutch of claim 1 further comprising an electric coil energizeable to apply a braking force on the cage to rotate the cage relative to the outer race. 7. The clutch of claim 1 , wherein the cage includes a plurality of axially extending fingers circumferentially arranged to be interposed with the wedge segments such that each finger is disposed between one of the segments of the first set and one of the segments of the second set. 8. The clutch of claim 7 , wherein the fingers engage with the first set of the segments when rotated in the first direction and engage with the second set of the segments when rotated in the second direction. 9. A clutch comprising: an inner race; an outer race having an inner cam surface including lobes and valleys; and a plurality of clutch segments circumferentially arranged between the inner and outer races and having an outer ramped surface coordinating in shape with the inner cam surface so that radial positions of the clutch segments change in response to movement along the inner cam surface, wherein each of the clutch segments is disposed between adjacent ones of the lobes and valleys, wherein the clutch segments are grouped in pairs of first and second segments that are arranged in a mirrored orientation relative to each other so that the first segment wedges between the inner and outer races in response to rotation of the inner race relative to the outer race in a first direction and so that the second segment wedges between the inner and outer races in response to relative rotation of the inner race relative to the outer race in a second direction; a cage rotatable relative to the outer race in the first and second directions and engagable with at least the first clutch segments, wherein rotation of the cage in the second direction relative to the outer race slides the first clutch segments on the inner cam surface to de-wedge the first segments permitting relative rotation between the races in the first direction; and an electric coil energizeable to apply a braking force on the cage to rotate the cage relative to the outer race; and wherein the outer race defines projections located at the valleys and extending radially inward therefrom to be disposed between the first and second segments of the pairs, and further comprising resilient members each attached to one of the projections at a midpoint of the resilient member and having first and second ends attached to associated one of the first and second segments, respectively, to bias the associated first and second segments away from the projection. 10. The clutch of claim 9 , wherein the clutch segments are biased towards the lobes. 11. The clutch of claim 9 , wherein the cage includes a plurality of axially extending fingers circumferentially arranged to be disposed between adjacent ones of the pairs. 12. The clutch of claim 11 , wherein the cage includes an annular plate defining arcuate slots circumferentially spaced around the plate and fasteners extending through the slots to attach the cage to the outer race such that the cage is rotatable relative to the outer race via the slots. 13. The clutch of claim 9 , wherein the cage is engageable with the second segments, and rotation of the cage in the first direction relative to the outer race slides the second segments on the inner cam surface to de-wedge the second segments permitting relative rotation between the races in the second direction. 14. A clutch comprising: an inner race; an outer race circumscribing the inner race and defining an inner cam surface and projections circumferentially spaced around the inner cam surface and extending radially inward therefrom; a wedge element radially disposed between the inner and outer races, the wedge element including a plurality of arcuate segments circumferentially arranged around the inner race and cooperating to form a discontinuous outer cam surface that nests with the inner cam surface; resilient members acting between the projections and the segments to bias the segments away from their corresponding projection, wherein the cam surfaces cooperate to urge the segments inwardly to increase friction between the segments and the inner race in response to movement of the segments away from their corresponding projection; and a cage including axially extending fingers disposed between the segments, the cage being rotatable relative to the outer race to engage the fingers with select ones of the segments to compress the resilient members and move the select segments towards their corresponding projections so that the cam surfaces cooperate to decrease friction between the select segments and the inner race permitting relative rotation between the inner and outer races. 15. The clutch of claim 14 further comprising an electric coil energizeable to apply a braking force on the cage to rotate the cage relative to the outer race. 16. The clutch of claim 14 further comprising a first shaft attachable to the inner race and a second shaft attachable to the outer race. 17. The clutch of claim 14 , wherein the inner race defines a circular groove and each of