Self-calibrating device for X-ray imaging scanners

What is claimed is: 1. A position sensor comprising: a radio-translucent body; one or more fiducials formed of radio-opaque material and disposed in or on the radio-translucent body; an area sensor element coupled to the radio-translucent body and spaced apart from the one or more fiducials at a fixed distance and energizable to acquire image content of the one or more fiducials during receipt of exposure energy from an X-ray source to generate a signal according to the acquired image content, wherein the sensor element is in signal communication with a processor energizable to generate data indicative of a position of the X-ray source relative to the position sensor; and a radio-opaque covering coupled against an outer surface of the radio-translucent body, wherein the position sensor is configured to be attached to and detached from an edge of a digital radiographic detector outside an imaging area of the digital radiographic detector and attached to and detached from a rear side of the digital radiographic detector. 2. The position sensor of claim 1 wherein the radio-translucent body is formed of a thermoplastic material. 3. The position sensor of claim 1 wherein the radio-opaque covering comprises a lead sheet or coating. 4. The position sensor of claim 1 further comprising a coupling mechanism to couple the position sensor to a radiography detector. 5. The position sensor of claim 1 wherein the sensor element is a CCD device. 6. The position sensor of claim 1 wherein the sensor element is a CMOS device. 7. The position sensor of claim 1 wherein the sensor element is a TFT device. 8. The position sensor of claim 1 wherein the position sensor has a single surface that is radio-translucent. 9. The position sensor of claim 1 wherein at least one of the one or more fiducials is spherical. 10. A method for sensing a position of a radiographic radiation source relative to a digital radiographic detector, the method comprising: coupling two or more position sensors to the digital radiographic detector each at different locations on the digital radiographic detector, wherein each of the position sensors comprises a radio-translucent body, a radio-opaque fiducial disposed in or on the radio-translucent body, and an area sensor element coupled to the radio-translucent body, the two or more position sensors spaced apart from the fiducial at a fixed distance and energizable to acquire image content of the fiducial during receipt of exposure energy from the radiographic radiation source and to generate a signal according to the acquired image content, and wherein the area sensor elements are in signal communication with a processor energizable to generate data indicative of a position of the radiographic radiation source relative to the two or more position sensors; directing radiation from the radiographic radiation source toward the two or more position sensors; and calculating a position of the radiographic radiation source relative to the digital radiographic detector according to the signals from the coupled two or more position sensors. 11. The method of claim 10 wherein coupling the two or more position sensors comprises coupling the sensors along different edges of the digital radiographic detector outside an imaging area of the digital radiographic detector. 12. The method of claim 10 wherein coupling the two or more position sensors comprises coupling the sensors each at a different location on a rear side of the digital radiographic detector relative to the radiation source. 13. An imaging system comprising: an X-ray source; a digital radiographic detector; and two or more position sensors attached to the digital radiographic detector each at a different location, the position sensors each comprising: a radio-translucent body; one or more fiducials formed of radio-opaque material and disposed in or on the radio-translucent body; and an area sensor element coupled to the radio-translucent body and spaced apart from the one or more fiducials at a fixed distance and energizable to acquire image content of the one or more fiducials during receipt of exposure energy from the X-ray source to generate a signal according to the acquired image content, wherein the sensor element is in signal communication with a processor energizable to generate data indicative of a position of the X-ray source relative to the position sensor. 14. The system of claim 13 , wherein the two or more position sensors are configured to each be attached to and detached from a different edge of the digital radiographic detector outside an imaging area of the digital radiographic detector or each be attached to and detached from a different location on a rear side of the digital radiographic detector.