Wedge clutch assembly having segmented wedges and wedge clutch assembly having an axially displaceable assembly

What is claimed is: 1. A wedge clutch assembly for selectively engaging and disengaging an inner and outer hub, comprising: first and second wedge plate segments arranged radially between the inner and outer hubs; third and fourth wedge plate segments arranged radially between the first and second wedge plate segments and the inner hub; and, an axially displaceable assembly arranged to non-rotatably connect the first, second, third, and fourth wedge plate segments with the inner and outer hubs, the axially displaceable assembly comprising: first extension members contacting the first and second wedge plate segments; and, second extension members contacting the third and fourth wedge plate segments, the second extension members being different than the first extension members; wherein the first wedge plate segment includes a first inner circumferential surface having an increasing radius in a first circumferential direction and the second wedge plate segment includes a second inner circumferential surface having a decreasing radius in the first circumferential direction, and the third wedge plate segment includes a first outer circumferential surface in contact with the first inner circumferential surface and the fourth wedge plate segment includes a second outer circumferential surface in contact with the second inner circumferential surface. 2. The wedge clutch assembly recited in claim 1 , wherein at least one extension member of the first extension members includes first and second portions having first and second circumferential thicknesses, respectively, the second circumferential thickness being smaller than the first circumferential thickness. 3. The wedge clutch assembly recited in claim 2 , wherein another extension of the first extension members includes third and fourth portions having third and fourth circumferential thicknesses, respectively, the fourth circumferential thickness being smaller than the third circumferential thickness, the third circumferential thickness being smaller than the first circumferential thickness and the fourth circumferential thickness being smaller than the second circumferential thickness. 4. The wedge clutch assembly recited in claim 1 , wherein at least one extension member of the second extension members includes first and second portions having first and second circumferential thicknesses, respectively, the second circumferential thickness being smaller than the first circumferential thickness. 5. The wedge clutch assembly recited in claim 4 , wherein another extension of the second extension members includes third and fourth portions having third and fourth circumferential thicknesses, respectively, the fourth circumferential thickness being smaller than the third circumferential thickness, the third circumferential thickness being smaller than the first circumferential thickness and the fourth circumferential thickness being smaller than the second circumferential thickness. 6. The wedge clutch assembly recited in claim 1 , further comprising first and second annular members connected to the first and second extension members. 7. The wedge clutch assembly recited in claim 1 , wherein the first and second extension members move the first and second wedge plate segments relative to the third and fourth wedge plate segments circumferentially and radially to transition between disengaged and engaged modes. 8. A wedge clutch assembly for selectively engaging and disengaging an inner and outer hub, comprising: first and second wedge plate segments arranged radially between the inner and outer hubs; third and fourth wedge plate segments arranged radially between the first and second wedge plate segments and the inner hub; and, an axially displaceable assembly arranged to non-rotatably connect the first, second, third, and fourth wedge plate segments with the inner and outer hubs, the axially displaceable assembly comprising: first extension members contacting the first and second wedge plate segments; and second extension members contacting the third and fourth wedge plate segments, the second extension members being different than the first extension members; wherein the first and second extension members move the first and second wedge plate segments relative to the third and fourth wedge plate segments circumferentially and radially to transition between disengaged and engaged modes. 9. The wedge clutch assembly as recited in claim 8 , wherein the first wedge plate segment includes a first inner circumferential surface having an increasing radius in a first circumferential direction and the second wedge plate segment includes a second inner circumferential surface having a decreasing radius in the first circumferential direction, and the third wedge plate segment includes a first outer circumferential surface in contact with the first inner circumferential surface and the fourth wedge plate segment includes a second outer circumferential surface in contact with the second inner circumferential surface. 10. The wedge clutch assembly recited in claim 8 , wherein at least one extension member of the first extension members includes first and second portions having first and second circumferential thicknesses, respectively, the second circumferential thickness being smaller than the first circumferential thickness. 11. The wedge clutch assembly recited in claim 10 , wherein another extension of the first extension members includes third and fourth portions having third and fourth circumferential thicknesses, respectively, the fourth circumferential thickness being smaller than the third circumferential thickness, the third circumferential thickness being smaller than the first circumferential thickness and the fourth circumferential thickness being smaller than the second circumferential thickness. 12. The wedge clutch assembly recited in claim 8 , wherein at least one extension member of the second extension members includes first and second portions having first and second circumferential thicknesses, respectively, the second circumferential thickness being smaller than the first circumferential thickness. 13. The wedge clutch assembly recited in claim 12 , wherein another extension of the second extension members includes third and fourth portions having third and fourth circumferential thicknesses, respectively, the fourth circumferential thickness being smaller than the third circumferential thickness, the third circumferential thickness being smaller than the first circumferential thickness and the fourth circumferential thickness being smaller than the second circumferential thickness. 14. The wedge clutch assembly recited in claim 8 , further comprising first and second annular members connected to the first and second extension members.