Wedge clutch with mutually supporting wedge plates and self-locking displacement assembly

What is claimed is: 1. A wedge clutch, comprising: an axis of rotation; a shaft; a hub radially disposed about the shaft and including a first ramp extending radially outwardly in a first circumferential direction; an outer ring located radially outward of the hub; a wedge plate radially disposed between the hub and the outer ring and including a second ramp extending radially outwardly in the first circumferential direction and engaged with the first ramp; and, a displacement assembly including: a first element urging the hub in a first axial direction; and, a plunger assembly, at least a portion of which is disposed within the hub, wherein: to transition from a disconnect mode for the wedge clutch, in which the hub and the outer ring are rotatable with respect to each other, to a connect mode for the wedge clutch, in which the hub and the outer ring are non-rotatably connected: the displacement assembly is arranged to displace the hub in a second axial direction, opposite the first axial direction; and, at least a portion of the plunger assembly is arranged to displace radially inward, through the hub, in a first radial direction to block axial displacement of the hub in the first axial direction; to transition from the connect mode to the disconnect mode: the at least a portion of the plunger assembly is arranged to displace radially outward, through the hub, in a second radial direction, opposite the first radial direction; and, the first element is arranged to displace the hub in the first axial direction; the wedge plate includes a plurality of segments, each segment in the plurality of segments separately formed from remaining segments in the plurality of segments; and, each segment in the plurality of segments includes a respective circumferentially extending groove, the wedge clutch further comprising: an annular resilient element disposed in the respective circumferentially extending grooves and urging the plurality of segments radially inward, wherein: each segment in the plurality of segments includes a respective first plurality of ramps; the hub includes a second plurality of ramps engaged with the respective first pluralities of ramps; and, to transition from the disconnect mode to the connect mode, the respective first pluralities of ramps are arranged to slide radially outwardly along the second plurality of ramps, in a first circumferential direction. 2. The wedge clutch of claim 1 , wherein the plunger assembly is non-rotatably connected to the hub. 3. The wedge clutch of claim 1 , wherein: the displacement assembly includes: a slider ring radially disposed about at least a portion of the hub; and, an actuator; the plunger assembly includes a plunger, at least a part of which is disposed in the hub; to transition from the disconnect mode to the connect mode: the actuator is arranged to slide the slider ring along the plunger in the second axial direction; and, the slider ring is arranged to displace the plunger in the first radial direction; and, in the connect mode: the slider ring is radially aligned with the plunger so that a first line, orthogonal to the axis of rotation, passes through the slider ring and the plunger; and, the slider ring is arranged to block displacement of the plunger in the second radial direction. 4. The wedge clutch of claim 3 , wherein to transition from the disconnect mode to the connect mode the slider ring is arranged to displace the hub in the second axial direction. 5. The wedge clutch of claim 3 , wherein: the displacement assembly includes a spring with a first end engaged with the hub and with a second end engaged with the plunger; and, urging the plunger in the second radial direction; and, to transition from the connect mode to the disconnect mode, the spring is arranged to displace the plunger in the second radial direction. 6. The wedge clutch of claim 3 , wherein: the plunger is axially located between first and second surfaces of the hub; and, in the disconnect mode: a first surface of the slider ring is radially aligned with the first surface of the hub so that a second line, orthogonal to the axis of rotation, passes through the first surface of the slider ring and the first surface of the hub; and, the first line passes through a second surface of the slider ring. 7. The wedge clutch of claim 6 , wherein: in the disconnect mode, the second surface of the slider ring is in contact with the plunger; and, in the connect mode, the first surface of the slider ring is in contact with the plunger. 8. The wedge clutch of claim 6 , wherein in the connect mode: the second surface of the slider ring is radially aligned with the second surface of the hub so that a third line, orthogonal to the axis of rotation, passes through the second surface of the slider ring and the second surface of the hub; and, the first line passes through the first surface of the slider ring. 9. The wedge clutch of claim 6 , wherein: the plunger includes a radially outermost end including a third surface sloping radially outward in the second axial direction; the second surface of the slider ring slopes radially outward in the second axial direction; and, to transition from the disconnect mode to the connect mode, the actuator is arranged to slide the second surface of the slider ring along the third surface in the second axial direction. 10. The wedge clutch of claim 6 , wherein: the plunger includes a radially outermost end with a third surface sloping radially outward in the second axial direction; the second surface of the slider ring slopes radially outward in the second axial direction; and, in the disconnect mode, the second surface of the slider ring is in contact with the third surface. 11. The wedge clutch of claim 3 , further comprising: a second hub, wherein: the hub is non-rotatably connected to the second hub; and, in the connect mode, the plunger is axially fixed, with respect to the second hub, with respect to displacement in the first axial direction. 12. The wedge clutch of claim 11 , wherein: the second hub includes a radially disposed bore; and, in the connect mode, the plunger is disposed in the radially disposed bore; or, wherein: the wedge clutch further comprises an inner ring radially disposed between the first and second hubs; the inner ring includes a radially disposed bore; and, in the connect mode, the plunger is disposed in the radially disposed bore. 13. The wedge clutch of claim 1 , wherein the first element is a resilient element. 14. A wedge clutch, comprising: an axis of rotation; a hub including a bore bounded by the hub in a first axial direction and in a second axial direction opposite the first axial direction; an outer ring located radially outward of the hub; a wedge plate radially disposed between the hub and the outer ring; and, a displacement assembly including: a first element urging the hub in the first axial direction; an actuator; a slider ring; and, a plunger assembly, including a plunger, at least a portion of which is disposed within the bore of the hub, wherein: to transition from a disconnect mode for the wedge clutch, in which the hub and the outer ring are rotatable with respect to each other, to a connect mode for the wedge clutch, in which the hub and the outer ring are non-rotatably connected: the actuator is arranged to displace the slider ring in the second axial direction; the slider ring is arranged to displace the hub in the second axial direction; and, the slider ring is arranged to displace the plunger radially inward,