Mosad and Stream Vision for a Telerobotic, Flying Camera System

Two full custom camera systems using the Multiplexed OverSample Analog to Digital (MOSAD) conversion technology for visible light sensing were built and demonstrated. They include a photo gate sensor and a photo diode sensor. The system includes the camera assembly, driver interface assembly, a frame stabler board with integrated decimeter and Windows 2000 compatible software for real time image display. An array size of 320X240 with 16 micron pixel pitch was developed for compatibility with 0.3 inch CCTV optics. With 1.2 micron technology, a 73% fill factor was achieved. Noise measurements indicated 9 to 11 bits operating with 13.7 bits best case. Power measured under 10 milliwatts at 400 samples per second. Nonuniformity variation was below noise floor. Pictures were taken with different cameras during the characterization study to demonstrate the operable range. The successful conclusion of this program demonstrates the utility of the MOSAD for NASA missions, providing superior performance over CMOS and lower cost and power consumption over CCD. The MOSAD approach also provides a path to radiation hardening for space based applications.Mandl, WilliamGlenn Research Center; Jet Propulsion LaboratoryCAMERAS; TELEROBOTICS; ANALOG TO DIGITAL CONVERTERS; FABRICATION; SENSORS; LIGHT (VISIBLE RADIATION); CHARGE COUPLED DEVICES; NOISE MEASUREMENT; PIXELS; PHOTODIODES; COST REDUCTION; CMOS; NASA SPACE PROGRAMS; FOCAL PLANE DEVICES