Abstract: Disclosed is a sensor device with pixels that in addition to sensing an image, performs captured image or scene analysis. The device saves further image processing downstream, is characterized by minimal charge movements and reduces a large fraction (about 90%) of the consumed electric energy as compared to the existing devices.

Abstract: Disclosed is a sensor device with pixels that in addition to sensing an image, performs captured image or scene analysis. The device saves further image processing downstream, is characterized by minimal charge movements and reduces a large fraction (about 90%) of the consumed electric energy as compared to the existing devices.

Abstract: In a capacitive sensor, a detection structure, of a microelectromechanical type, is provided with a fixed element and a mobile element, capacitively coupled to one another, generating a capacitive variation as a function of a quantity to be detected, and with a parasitic coupling element, capacitively coupled to at least one between the mobile element and the fixed element generating a first parasitic capacitance, intrinsic to the detection structure; a readout-interface circuit is connected to the detection structure and generates, on an output terminal thereof, an output signal as a function of the capacitive variation. The readout-interface circuit has a feedback path between the output terminal and the parasitic coupling element so as to drive the first intrinsic parasitic capacitance with the output signal.

Abstract: A position and color detection sensor (for detecting a position of a light spot in a light distribution that can include stray light components, e.g. from other lasers, ambient lighting etc.) includes two discrete response position sensitive detectors (DRPSDs). The first DRPSD is used to calculate a raw estimate of the spot position and the second DRPSD is used to calculate the actual spot position based on information from the first DRPSD. Color is supported by further dividing each pixel of the first DRPSD into elementary photocells, each one covered with an appropriate optical filter. The use of two DRPSDs differing in pixel geometries makes them suitable for integration on the same chip using the same process. This reduces production and alignment costs. Further, analogue microelectronic processes can be used for color filter deposition and simple optics can be used for beam splitting and shaping.

Abstract: A position and color detection sensor (for detecting a position of a light spot in a light distribution that can include stray light components, e.g. from other lasers, ambient lighting etc.) includes two discrete response position sensitive detectors (DRPSDs). The first DRPSD is used to calculate a raw estimate of the spot position and the second DRPSD is used to calculate the actual spot position based on information from the first DRPSD. Color is supported by further dividing each pixel of the first DRPSD into elementary photocells, each one covered with an appropriate optical filter. The use of two DRPSDs differing in pixel geometries makes them suitable for integration on the same chip using the same process. This reduces production and alignment costs. Further, analogue microelectronic processes can be used for color filter deposition and simple optics can be used for beam splitting and shaping.