Door strike assembly with a revolving latch ejector

What is claimed is: 1. A door strike assembly for use in conjunction with a lockset of a door, wherein the lockset includes a door latch selectively moveable from a latched condition when the door is in a closed orientation and an unlatched condition when the door is in an openable orientation, wherein the lockset includes a deadlatch configured to prevent unauthorized movement of the door latch when the door is in the closed orientation, the door strike assembly comprising: a) a strike housing; and b) a latch release assembly received within the strike housing, the latch release assembly comprising: i) a latch ejector rotatably connected to the strike housing about a first axis, wherein the latch ejector includes a leading edge and a trailing edge, wherein the leading edge is disposed at a first angle relative to the trailing edge, wherein the latch ejector includes a cam portion extending from and non-movably mounted to the trailing edge, wherein the cam portion includes an outer cam surface and a cam edge, wherein the cam edge is disposed at a second angle relative to the leading edge, wherein the first angle is greater than the second angle, wherein the outer cam surface is configured to engage the deadlatch when the door is in the closed orientation; and ii) a motor operatively coupled to the latch ejector, wherein actuation of the motor rotates the latch ejector in a first rotational direction about the first axis whereby the outer cam surface is configured to disengage from the deadlatch as the latch ejector is rotating in the first rotational direction about the first axis, and wherein further rotation of the latch ejector in the first rotational direction causes the leading edge of the latch ejector to engage the door latch whereby the door latch is moved from the latched condition to the unlatched condition such that the door is placed in the openable orientation. 2. The door strike assembly of claim 1 wherein the latch release assembly further comprises a motor housing configured to receive the motor, wherein a motor shaft extends outwardly through the motor housing. 3. The door strike assembly of claim 2 wherein the latch ejector includes a magnet therein proximate to the motor housing, and wherein the motor housing includes a printed circuit board in communication with a Hall Effect sensor whereby the Hall Effect sensor monitors a rotational position of the latch ejector. 4. The door strike assembly of claim 1 further including a position sensor configured for sensing the rotational position of the latch ejector. 5. The door strike assembly of claim 4 wherein the position sensor is a high speed infrared emitting diode coupled to a silicon PIN photodiode, wherein a motor housing includes a printed circuit board, and wherein the printed circuit board is in communication with the position sensor to sense the rotational position of the latch ejector. 6. The door strike assembly of claim 1 wherein the cam portion is selectively mountable on the trailing edge and the leading edge of the latch ejector so that the latch release assembly may be selectively configured in either a left-handed configuration or a right-handed configuration. 7. The door strike assembly of claim 6 wherein the strike housing includes a removable end plate whereby the latch release assembly may be removed from and replaced within the strike housing when selectively configuring the latch release assembly in either the left-handed configuration or the right-handed configuration. 8. The door strike assembly of claim 1 wherein the motor comprises a planetary gear motor. 9. The door strike assembly of claim 1 wherein the strike housing includes a latch roller rotatably fixed to the strike housing and contactable by the door latch when the door latch is in its latched condition and the door is in the closed orientation. 10. The door strike assembly of claim 1 wherein the latch ejector is cylindrically-shaped. 11. The door strike assembly of claim 1 wherein the outer cam surface is configured to directly engage the deadlatch when the door is in the closed orientation. 12. The door strike assembly of claim 1 wherein the second angle is an obtuse angle. 13. The door strike assembly of claim 12 wherein the first angle is a reflex angle. 14. The door strike assembly of claim 1 wherein the first angle is fixed, and wherein the second angle is fixed. 15. A method for selectively swapping an electric door strike assembly from either a left-handed or a right-handed configuration to the other of the left-handed configuration or the right-handed configuration, wherein the electric door strike assembly is configured for use in conjunction with a lockset of a door, wherein the lockset includes a door latch selectively moveable from a latched condition when the door is in a closed orientation and an unlatched condition when the door is in an openable orientation, and wherein the lockset includes a deadlatch configured to prevent unauthorized movement of the door latch when the door is in the closed orientation, the method comprising the steps of: a) providing an electric door strike assembly having a strike housing including a latch release assembly received within the strike housing, the latch release assembly including a latch ejector rotatably connected to the strike housing about a first axis, wherein the latch ejector includes a first edge and a second edge, wherein the first edge is disposed at a first angle relative to the second edge, wherein the latch ejector includes a removable cam portion extending from and mounted to the second edge, wherein the removable cam portion includes a cam edge that is disposed at a second angle relative to the first edge, wherein the first angle is greater than the second angle, wherein the removable cam portion is configured to engage the deadlatch when the door is in the closed orientation, wherein the latch release assembly further includes a motor coupled to the latch ejector, wherein actuation of the motor rotates the latch ejector in a first rotational direction about the first axis to disengage the removable cam portion from the deadlatch as the latch ejector is rotating in the first rotational direction about the first axis, and wherein further rotation of the latch ejector in the first rotational direction causes the first edge of the latch ejector to engage the door latch whereby the door latch is moved from the latched condition to the unlatched condition such that the door is placed in the openable orientation; b) removing the latch release assembly from the strike housing; c) removing the removable cam portion from the second edge of the latch ejector and mounting the removable cam portion on the first edge of the latch ejector to swap the electric door strike assembly from one of the left-handed configuration or the right-handed configuration to the other of the left-handed or right-handed configuration; d) inverting the latch release assembly end-over-end; and e) reinstalling the latch release assembly within the strike housing, wherein step d occurs before or after step c) and prior to step e). 16. The method of claim 15 , wherein the latch release assembly further comprises a motor housing configured to receive the motor, wherein a motor shaft extends outwardly through the motor housing. 17. The method of claim 16 wherein the latch ejector includes a magnet therein proximate to the motor housing, and wherein the motor housing includes a printed circuit board in communication with a Hall Effect sensor whereby the Hall Effect sensor monitors a rotational pos