All-wheel drive disconnect clutch

We claim: 1. A wedge clutch, comprising: an inner hub; an outer race including an axially extending portion; and, a plurality of wedge plates radially located between the inner hub and the axially extending portion, wherein: in a closed position for the clutch, the plurality of wedges are non-rotatably connected to the inner hub and the axially extending portion; and, in an open position for the clutch: the plurality of wedge plates is rotatable with respect to the outer race; each wedge plate is separated, in a radial direction, from the axially extending portion by a respective first radial distance; and, the respective first radial distance for said each wedge plate is different from the respective first radial distance for each remaining wedge plate in the plurality of wedge plates. 2. The wedge clutch of claim 1 , wherein in the open position: said each wedge plate includes a respective radial portion furthest, in the radial direction, from an axis of rotation for the wedge clutch; each respective radial portion is at a respective second radial distance from the axis of rotation; and, the respective second radial distance for said each wedge plate is different from the respective second radial distance for said each remaining wedge plate in the plurality of wedge plates. 3. The wedge clutch of claim 1 , wherein: the axially extending portion includes an inner circumferential surface; the plurality of wedge plates is radially located between the inner hub and the inner circumferential surface; and, in the open position, the inner circumferential surface is substantially parallel to an axis of rotation for the wedge clutch. 4. The wedge clutch of claim 1 , wherein: the inner hub includes an outer circumferential surface; the plurality of wedge plates is radially located between the outer circumferential surface and the axially extending portion; and, the outer circumferential surface is substantially parallel to an axis of rotation for the wedge clutch. 5. The wedge clutch of claim 1 , wherein: the axially extending portion includes an inner circumferential surface; the plurality of wedge plates is radially located between the inner circumferential surface and the inner hub; and, in the open position, the inner circumferential surface tapers radially inward in an axial direction. 6. The wedge clutch of claim 1 , wherein: said each wedge plate includes a respective maximum radial extent; the respective maximum extent is a respective distance, in the first radial direction, between: a respective first portion of said each wedge plate closest to an axis of rotation for the wedge clutch; and, a respective second portion of said each wedge plate furthest from the axis of rotation; and, the respective maximum radial extent for said each wedge plate is different from the respective maximum radial extent for said each remaining wedge plate in the plurality of wedge plates. 7. The wedge clutch of claim 1 , wherein: the inner hub includes an outer circumferential surface including a plurality of radially outwardly extending ramps; said each wedge plate includes a respective plurality of radially inwardly extending ramps; and, to transit from the open position of the clutch to the closed position for the clutch, the plurality of radially inwardly extending ramps are arranged to rotate with respect to the respective pluralities of radially outwardly extending ramps to urge the plurality of wedge plates radially outward. 8. The wedge clutch of claim 1 , wherein: said each wedge plate includes a respective plurality of first slots in a respective radially inner circumference; and, the inner hub includes a plurality of second slots in a radially outer circumference, the wedge clutch further comprising: a respective key disposed within each second slot, wherein: in the open position for the clutch, each respective key is at least partially disposed in a respective first slot for said each wedge plate to non-rotatably connect the plurality of wedge plates with the inner hub; and, to transit from the open position of the clutch to the closed position for the clutch, the plurality of keys is arranged to displace radially inward out of the respective first slots to enable rotation of the plurality of wedge plates with respect to the inner hub. 9. A wedge clutch, comprising: an inner hub; an outer race including an axially extending portion; and, a plurality of wedge plates radially located between the inner hub and the axially extending portion, wherein: in a closed position for the clutch, the plurality of wedges is non-rotatably connected to the inner hub and the axially extending portion; said each wedge plate includes a respective maximum radial extent; the respective maximum extent is a respective distance, in radial direction orthogonal to an axis of rotation for the wedge clutch, between: a respective first portion of said each wedge plate closest to the axis of rotation; and, a respective second portion of said each wedge plate furthest from the axis of rotation; and, the respective maximum radial extent for said each wedge plate is different from the respective maximum radial extent for said each remaining wedge plate in the plurality of wedge plates. 10. The wedge clutch of claim 9 , wherein: the axially extending portion includes an inner circumferential surface; the inner hub includes an outer circumferential surface; the plurality of wedge plates is radially located between the inner and outer circumferential surfaces; and, in an open position for the clutch, the inner and outer circumferential surfaces are substantially parallel to the axis of rotation. 11. The wedge clutch of claim 9 , wherein: the inner hub includes an outer circumferential surface including a plurality of radially outwardly extending ramps; said each wedge plate includes a respective plurality of radially inwardly extending ramps; and, to transit from the open position of the clutch to the closed position for the clutch, the plurality of radially inwardly extending ramps are arranged to rotate with respect to the respective pluralities of radially outwardly extending ramps to urge the plurality of wedge plates radially outward. 12. The wedge clutch of claim 9 , wherein: said each wedge plate includes a respective plurality of first slots in a respective radially inner circumference; and, the inner hub includes a plurality of second slots in a radially outer circumference, the wedge clutch further comprising: a respective key disposed within each second slot, wherein: in the open position for the clutch, each respective key is at least partially disposed in a respective first slot for said each wedge plate to non-rotatably connect the plurality of wedge plates with the inner hub; and, to transit from the open position of the clutch to the closed position for the clutch, the plurality of keys is arranged to displace radially inward out of the respective first slots to enable rotation of the plurality of wedge plates with respect to the inner hub. 13. A wedge clutch, comprising: an inner hub including an outer circumferential surface; an outer race including: a radially extending portion; and, an axially extending portion with an inner circumferential surface, the axially extending portion extending from the radially extending portion in a first axial direction; and, a plurality of wedge plates radially located between the inner and outer circumferential surfaces, wherein: in a closed position for the clutch, the plurality of wedges are non-rotatably connected to the outer circumferential