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A millimeter-scale wireless imaging system with continuous motion detection and energy harvesting
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2014
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EngineeringContinuous Motion DetectionBiomedical EngineeringIntegrated CircuitsWireless Implantable DeviceMinimal Form FactorPhotovoltaicsImage SensorPhotoelectric SensorMillimeter-scale WirelessComputational ImagingInstrumentationRadiation ImagingRadiologyHealth SciencesElectrical EngineeringEnergy HarvestingSolar HarvestingMedical ImagingSolar PowerComputer EngineeringSystem ComponentsPhotoelectric MeasurementDigital ImagingElectronic ImagingBiomedical ImagingImage ProcessorImaging
We present a 2×4×4mm <sup xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">3</sup> imaging system complete with optics, wireless communication, battery, power management, solar harvesting, processor and memory. The system features a 160×160 resolution CMOS image sensor with 304nW continuous in-pixel motion detection mode. System components are fabricated in five different IC layers and die-stacked for minimal form factor. Photovoltaic (PV) cells face the opposite direction of the imager for optimal illumination and generate 456nW at 10klux to enable energy autonomous system operation.