Scanning laser projector system utilizing photodiodes inside scan area but outside of projection area for feedback

The invention claimed is: 1. A scanning laser projector, comprising: an optical module comprising a housing carrying: a laser generator configured to output a single laser beam; a movable mirror apparatus including a first mirror position sensor generating output indicative of deflection of a first mirror within the movable mirror apparatus; wherein the movable mirror apparatus is configured to scan the single laser beam across an exit window defined through the housing in a scanning pattern wider than the exit window such that the single laser beam is directed through the exit window in a projection pattern, the projection pattern being smaller than and within the scanning pattern; and a first light detector positioned about a periphery of the exit window such that as the movable mirror apparatus scans the single laser beam in the scanning pattern, at a point in the scanning pattern where the single laser beam is scanned across an interior of the housing and not through the exit window, the single laser beam impinges upon the first light detector; and a projection engine configured to adjust driving of the movable mirror apparatus based upon output from the first light detector by; wherein the projection engine comprises: a trigger circuit coupled to receive output from the first light detector and to assert a trigger signal in response to the output from the first light detector indicating that the single laser beam has impinged upon the first light detector; a first sample/hold circuit configured to sample and hold output of the first mirror position sensor in response to assertion of the trigger signal as a first held value; an analog to digital converter configured to digitize the first held value to produce a first digitized value; and a control circuit configured to adjust driving of the movable mirror apparatus based upon the first digitized value. 2. The scanning laser projector of claim 1 , wherein the control circuit is configured to calibrate the first mirror position sensor based upon the first digitized value. 3. The scanning laser projector of claim 2 , wherein the control circuit calibrates the first mirror position sensor based upon the first digitized value using a priori knowledge of an expected deflection angle of the first mirror when the single laser beam impinges upon the first light detector. 4. The scanning laser projector of claim 2 , wherein the control circuit calibrates the first mirror position sensor based upon the first digitized value by: determining an instantaneous gain in output of the first mirror position sensor as a ratio of a calibration value to the first digitized value; and scaling the first digitized value to account for the instantaneous gain in the output of the first mirror position sensor prior to adjusting driving of the movable mirror apparatus based upon the first digitized value. 5. The scanning laser projector of claim 1 , wherein the control circuit adjusts the driving of the movable mirror apparatus to maintain the first mirror within the movable mirror apparatus at a first opening angle, based upon the first digitized value. 6. The scanning laser projector of claim 1 , wherein the control circuit is configured to cause the laser generator to cease outputting the single laser beam based upon lack of the trigger circuit asserting the trigger signal. 7. The scanning laser projector of claim 1 , wherein the control circuit is configured to cause the laser generator to cease outputting the single laser beam based upon lack of the trigger circuit asserting the trigger signal when expected. 8. The scanning laser projector of claim 1 , further comprising a second light detector positioned about the periphery of the exit window and on a different side thereof than the first light detector, the second light detector being located such that as the movable mirror apparatus scans the single laser beam in the scanning pattern, at a point in the scanning pattern where the single laser beam is scanned across the interior of the housing and not through the exit window, the single laser beam impinges upon the second light detector; and wherein the control circuit adjusts the driving of the movable mirror apparatus based upon output from the first and second light detectors. 9. The scanning laser projector of claim 1 , wherein the control circuit adjusts the driving of the movable mirror apparatus so as to maintain a first mirror within the movable mirror apparatus at a first opening angle, based upon the output from the first light detector. 10. The scanning laser projector of claim 1 , wherein the control circuit is configured to cause the laser generator to cease outputting the single laser beam based upon the output from the first light detector indicating that the single laser beam did not impinge upon the first light detector. 11. The scanning laser projector of claim 1 , wherein the control circuit is configured to cause the laser generator to cease outputting the single laser beam based upon the output from the first light detector indicating that the single laser beam did not impinge upon the first light detector when expected. 12. The scanning laser projector of claim 1 , wherein the control circuit is configured to cause the laser generator to modify color and intensity of the single laser beam based upon the output from the first light detector. 13. The scanning laser projector of claim 8 , wherein the movable mirror apparatus includes a second mirror position sensor generating output indicative of deflection of a second mirror within the movable mirror apparatus; wherein the trigger circuit is also coupled to receive output from the second light detector and to assert the trigger signal in response to the output from the second light detector indicating that the single laser beam has impinged upon the second light detector; wherein the projection engine further comprises a second sample/hold circuit configured to sample and hold output of the second mirror position sensor in response to assertion of the trigger signal as a second held value; wherein the analog to digital converter is further configured to digitize the second held value to produce a second digitized value; and wherein the control circuit is further configured to adjust driving of the movable mirror apparatus based upon the second digitized value. 14. The scanning laser projector of claim 13 , wherein the control circuit is configured to calibrate the first mirror position sensor based upon the first digitized value and calibrate the second mirror position sensor based upon the second digitized value. 15. The scanning laser projector of claim 14 , wherein the control circuit calibrates the first mirror position sensor based upon the first digitized value using a priori knowledge of an expected deflection angle of the first mirror when the single laser beam impinges upon the first light detector and calibrates the second mirror position sensor based upon the second digitized value using a priori knowledge of an expected deflection angle of the second mirror when the single laser beam impinges upon the second light detector. 16. The scanning laser projector of claim 14 , wherein the control circuit calibrates the first mirror position sensor based upon the first digitized value by: determining an instantaneous gain in output of the first mirror position sensor as a ratio of a first calibration value to the first digitized value; and scaling the first digitized value to account for the instantaneous gain in the output of the first mirror position sensor prior to adjustin