Wedge clutch for a camshaft phaser

What is claimed is: 1. A wedge clutch, comprising: a stator including a pressure plate; a wedge plate including a notch, the notch comprising a pulling surface; and a rotor including a pin inside of a chamber, wherein the wedge plate is located radially between the stator and the rotor, and wherein the pin is configured to rotate the wedge plate in a first circumferential direction relative to the rotor by sliding along the pulling surface as the pin extends out of the chamber to disengage the wedge plate from the pressure plate. 2. The wedge clutch of claim 1 , wherein the pulling surface is angled or curved toward an inside of the notch as the pulling surface extends radially outward. 3. The wedge clutch of claim 1 , wherein the notch is positioned adjacent to a free end of the wedge plate. 4. The wedge clutch of claim 1 , wherein the notch further includes an engagement surface positioned opposite from the pulling surface. 5. The wedge clutch of claim 4 , wherein the engagement surface is longer than the pulling surface. 6. The wedge clutch of claim 4 , wherein the rotor includes a resilient element configured to apply a force on the engagement surface to bias the wedge plate in a second circumferential direction, opposite from the first circumferential direction to engage the wedge plate with the pressure plate. 7. The wedge clutch of claim 1 , wherein the pin is configured to extend out of the chamber via hydraulic pressure. 8. A camshaft phaser, comprising: a stator configured to receive torque from a crankshaft and including a pressure plate; a rotor configured to be non-rotatably connected to a camshaft and including a plurality of first ramps and a pin inside of a chamber; and a first wedge plate including a plurality of second ramps engaging the plurality of first ramps and a notch including a pulling surface, wherein the pressure plate is configured to engage the wedge plate, wherein the pin is configured to disengage the wedge plate from the pressure plate by sliding along the pulling surface as the pin extends out of the chamber. 9. The camshaft phaser of claim 8 , wherein the second plurality of ramps are configured to slide down the first plurality of ramps to move the first wedge plate inward toward the center of the rotor, the inward movement disengaging the first wedge plate from the pressure plate. 10. The camshaft phaser of claim 8 , wherein the rotor further includes a resilient element configured to bias the first wedge plate toward a position in which the wedge plate engages the pressure plate. 11. The camshaft phaser of claim 10 , wherein the notch further includes an engagement surface positioned opposite from the pulling surface, the resilient element configured to apply a force on the engagement surface to bias the first wedge plate to engage the pressure plate. 12. The camshaft phaser of claim 11 , wherein the engagement surface is longer than the pulling surface. 13. The camshaft phaser of claim 11 , wherein the pin is positioned near a top portion of a first ramp of the plurality of first ramps and the resilient element is positioned near a bottom portion of a second ramp of the plurality of second ramps. 14. The camshaft phaser of claim 13 , wherein the first ramp is directly adjacent to the second ramp. 15. The camshaft phaser of claim 8 , wherein the first wedge plate is positioned on a first side of the rotor and the camshaft phaser further includes a second wedge plate positioned on a second side of the rotor.