Abstract: A three-piece all-aspheric adapter fisheye lens includes a negative meniscus lens, a biconvex lens, and a biconcave lens positioned between the negative meniscus lens and the biconvex lens. The lenses are coaxial and are arranged with an exit pupil to cooperatively generate an image with a camera lens that has greater field of view than the camera lens alone when the exit pupil is coplanar and coaxial with an entrance pupil of the camera lens. Each lens has an aspheric object-side surface and an aspheric image-side surface.

Abstract: A color image sensor includes a plurality of pixel cells arranged in a pixel array. A plurality of color filters is arranged in a color filter array disposed over the pixel array. Each color filter is aligned with a corresponding underlying pixel cell. An optical isolation grid is disposed over the color filter array such that incident light is directed through the optical isolation grid prior to be being directed through the color filter array to the pixel array. The optical isolation grid includes a plurality of sidewalls arranged to define a plurality of openings in the optical isolation grid. Each opening is aligned with a corresponding color filter such that each color filter is optically isolated by the optical isolation grid to receive incident light only through a corresponding aligned one of the plurality of openings.

Abstract: An image capture unit includes an image sensor and a lens structure disposed proximate to the image sensor to focus an image onto the image sensor. A movable color filter grouping is disposed over the lens structure. The movable color filter grouping includes a plurality of N color filters arranged therein such that all light that is incident upon the image sensor through the lens structure is directed through only one of the plurality of N color filters of the movable color filter grouping per each exposure of the image sensor. A positioning device is attached to the movable color filter grouping to reposition the movable color filter grouping such that substantially all of the light that is incident upon the image sensor through the lens structure is directed through a different one of the plurality of N color filters for each successive exposure of the image sensor.

Abstract: A method for calibrating auto white balancing in an electronic camera includes (a) obtaining a plurality of color values from a respective plurality of images of real-life scenes captured by the electronic camera under a first illuminant, (b) invoking an assumption about a true color value of at least portions of the real-life scenes, and (c) determining, based upon the difference between the true color value and the average of the color values, a plurality of final auto white balance parameters for a respective plurality of illuminants including the first illuminant. An electronic camera device includes an image sensor for capturing real-life images of real-life scenes, instructions including a partly calibrated auto white balance parameter set and auto white balance self-training instructions, and a processor for processing the real-life images according to the self-training instructions to produce a fully calibrated auto white balance parameter set specific to the electronic camera.

Abstract: An optical system for capturing three-dimensional images of a three-dimensional object is provided. The optical system includes a projector for structured illumination of the object. The projector includes a light source, a grid mask positioned between the light source and the object for structured illumination of the object, and a first Wavefront Coding (WFC) element having a phase modulating mask positioned between the grid mask and the object to receive patterned light from the light source through the grid mask. The first WFC element is constructed and arranged such that a point spread function of the projector is substantially invariant over a wider range of depth of field of the grid mask than a point spread function of the projector without the first WFC element.

Abstract: An imaging device provides efficient heat transfer by orienting components of the imaging device such that heat is transferred out of the imaging device instead of within the imaging device assembly. Heat is transferred out of the imaging device assembly through a printed circuit board to which the assembly housing is mounted thereon and/or through the housing itself.

Abstract: Reducing consumption of image sensor processor bandwidth includes capturing an image containing subject matter with an image sensor and cropping the image to generate a cropped image. Cropping the image is performed by the image sensor in response to coordinates received from an image sensor processor. The cropped image is sent from the image sensor to the image sensor processor and new coordinates based on a position of the subject matter in the cropped image are determined with the image sensor processor. The new coordinates are then sent to the image sensor.

Abstract: A system for performing digital correlated double sampling in an image sensor includes a memory for storing most significant bits of the digital image data and reset data produced by an analog-to-digital convertor. The system further includes least significant bit latches for each of the digital image data and reset data. The most significant bits are recombined with the least significant bits in respective recombined latches for each of the digital image data and reset data. A correlated double sampling stage then performs correlated double sampling and stores the correlated double sampled data in memory.

Abstract: An apparatus and method for increasing uniformity in light from a light source at a plurality of targets of the light include a plurality of movable aperture elements, locatable between the light source and the targets, each aperture element defining an aperture through which the light passes from the light source to an associated one of the plurality of targets associated with the aperture element along a longitudinal axis of the aperture element. A holder movably holds the plurality of aperture elements, each of the plurality of aperture elements being movable within the holder along the longitudinal axis of the aperture element to change a feature of light incident on the target associated with the aperture element.

Abstract: An image sensor including a plurality of photodiodes disposed in a semiconductor layer and a plurality of deep trench isolation regions disposed in the semiconductor layer. The plurality of deep trench isolation regions include: (1) an oxide layer disposed on an inner surface of the plurality of deep trench isolation regions and (2) a conductive fill disposed in the plurality of deep trench isolation regions where the oxide layer is disposed between the semiconductor layer and the conductive fill. A plurality of pinning wells is also disposed in the semiconductor layer, and the plurality of pinning wells in combination with the plurality of deep trench isolation regions separate individual photodiodes in the plurality of photodiodes. A fixed charge layer is disposed on the semiconductor layer, and the plurality of deep trench isolation regions are disposed between the plurality of pinning wells and the fixed charge layer.

Abstract: Embodiments are disclosed of an apparatus comprising a color filter arrangement including a set of color filters. The set of color filters includes a pair of first color filters, each having first and second hard mask layers formed thereon, a second color filter having the first hard mask layer formed thereon, and a third color filter having no hard mask layer formed thereon. Other embodiments are disclosed and claimed.

Abstract: A monolithic backside-sensor-illumination (BSI) image sensor has a sensor array is tiled with a multiple-pixel cells having a first pixel sensor primarily sensitive to red light, a second pixel sensor primarily sensitive to red and green light, and a third pixel sensor having panchromatic sensitivity, the pixel sensors laterally adjacent each other. The image sensor determines a red, a green, and a blue signal comprising by reading the red-sensitive pixel sensor of each multiple-pixel cell to determine the red signal, reading the sensor primarily sensitive to red and green light to determine a yellow signal and subtracting the red signal to determine a green signal. The image sensor reads the panchromatic-sensitive pixel sensor to determine a white signal and subtracts the yellow signal to provide the blue signal.

Abstract: An imaging device includes a semiconductor substrate having a photosensitive element for accumulating charge in response to incident image light. The semiconductor substrate includes a light-receiving surface positioned to receive the image light. The imaging device also includes a negative charge layer and a charge sinking layer. The negative charge layer is disposed proximate to the light-receiving surface of the semiconductor substrate to induce holes in an accumulation zone in the semiconductor substrate along the light-receiving surface. The charge sinking layer is disposed proximate to the negative charge layer and is configured to conserve or increase an amount of negative charge in the negative charge layer. The negative charge layer is disposed between the semiconductor substrate and the charge sinking layer.

Abstract: An image sensor includes a first pixel and a second pixel. The first pixel includes a first light sensitive element, a first light filter, and a first microlens. The second pixel is disposed adjacent to the first pixel and includes a second light sensitive element, a second light filter, and a second microlens. The first pixel is configured to direct at least some of the light received at the first microlens to the second light sensitive element of the second pixel to increase optical crosstalk so as to reduce color aliasing.

Abstract: An optical touchpad including a prism having a four-sided cross section including a light entry interface, a light exit interface, a touch interface and a back interface substantially parallel to and spaced apart from the touch interface. Collimated light enters the prism through the light entry interface, is reflected from the touch interface by total internal reflection, and exits the prism through the light exit interface. A first image sensor detects the collimated light exiting from the light exit interface and a second image sensor detects the image of an object positioned over the touch interface.

Abstract: A method of fabricating an avalanche photodiode pixel includes growing a second doped semiconductor layer on a first doped semiconductor layer having a first doping concentration. The second doped semiconductor layer is grown with a second doping concentration and is of an opposite majority charge carrier type as the first doped semiconductor layer. A doped contact region having a third doping concentration is formed in the second doped semiconductor layer between the doped contact region and the first doped semiconductor layer. The doped contact region is of a same majority charge carrier type as the second doped semiconductor layer. The third doping concentration is greater than the second doping concentration. A guard ring region is formed in the second doped semiconductor layer, is of an opposite majority charge carrier type as the second doped semiconductor layer, and extends through the second doped semiconductor layer surrounding the doped contact region.

Abstract: An imaging system includes a pixel array including a plurality of pixels. Each one of the pixels includes a single photon avalanche diode (SPAD) coupled to detect photons in response to incident light. A photon counter included in readout circuitry coupled to each pixel to count a number of photons detected by each pixel. The photon counter is coupled to stop counting photons in each pixel when a threshold photon count is reached for each pixel. Control circuitry is coupled to the pixel array to control operation of the pixel array. The control circuitry includes an exposure time counter coupled to count a number of exposure times elapsed before each pixel detects the threshold photon count. Respective exposure time counts and photon counts are combined for each pixel of the pixel array.

Abstract: A method for testing an electronic memory while the memory is in use includes: (a) detecting an access to the electronic memory at a test address, (b) saving, in a register subsystem, write data written to the electronic memory at a location corresponding to the test address, (c) comparing the write data to data read from the electronic memory at the location corresponding to the test address to determine whether the memory has a fault, and (d) generating an error signal if the memory has a fault.

Abstract: A method for embedding stereo imagery includes (a) transforming a foreground stereo image, extracted from a source stereo image captured by a first stereo camera, from a scale associated with the first stereo camera to a scale associated with a second stereo camera, to form a transformed foreground stereo image, and (b) embedding the transformed foreground stereo image into a target stereo image, captured by the second stereo camera, to form an embedded stereo image.

Abstract: An image transformation and multi-view output system and associated method generates output view data from raw image data using a coordinate mapping that reverse maps pixels of the output view data onto the raw image data. The coordinate mapping is stored in a lookup table and incorporates perspective correction and/or distortion correction for a wide angle lens used to capture the raw image data. The use of the lookup table with reverse mapping improves performance of the image transformation and multi-view output system to allow multi-view video streaming of images corrected for one or both of perspective and distortion.