Patent application number | Description | Published |
20110279725 | IMAGE SENSOR IN CMOS TECHNOLOGY WITH HIGH VIDEO CAPTURE RATE - An time-delay-integration image sensor comprises a matrix of photosensitive pixels organized in rows and columns, a first matrix of memory cells associated with control and adding means to store accumulated brightness levels of several rows of pixels in a row of memory cells. The first memory cell matrix is provided with the control and adding means to store in its rows accumulated brightness levels of the rows of a first half of the pixel matrix. The sensor comprises a second memory cell matrix associated with the control and adding means to store accumulated brightness levels of the rows of the second half of the pixel matrix in a row of the second memory cell matrix. Means are provided for adding the levels accumulated in a row of the first memory cell matrix to the levels accumulated in a corresponding row of the second memory cell matrix. | 11-17-2011 |
20110298956 | LINEAR IMAGE SENSOR IN CMOS TECHNOLOGY - A time-delay-integration image sensor comprises a matrix of pixels organized in rows and columns. Each pixel comprises a first photosensitive element, a storage node and a first transfer element connected between the first photosensitive element and the storage node, Each pixel further comprises a second photosensitive element, a second transfer element connected between the second photosensitive element and the storage node, and a third transfer element connected between the storage node and the second photosensitive element of an adjacent pixel of the column. A control circuit is configured to simultaneously command the first and second transfer elements to on state and the third transfer element to off state, and, in a distinct phase, to simultaneously command the first and third transfer elements to on state and the second transfer element to off state. | 12-08-2011 |
20120097946 | PHOTO-DETECTING DEVICE AND METHOD OF MAKING A PHOTO-DETECTING DEVICE - A photo-detecting device including a plurality of pixels, each including at least one alternate stack of photodiodes and electrically conducting electrodes. Each photodiode includes one intrinsic amorphous semiconductor layer in contact with one doped amorphous semiconductor layer distinct from the amorphous semiconductor layers in other photodiodes, and is arranged between two electrodes. Each pair of photodiodes includes one of the electrodes arranged between photodiodes. In each pixel: each electrode includes an electrically conducting portion not superposed on other electrodes of the pixel and electrically connected to one interconnection hole filled with an electrically conducting material; and portions of an electrically conducting material are superposed approximately on each of non-superposed portions of electrodes. | 04-26-2012 |
20130214160 | VISIBLE AND NEAR-INFRARED RADIATION DETECTOR - The visible and near-infrared radiation detector includes a near-infrared photosensitive element, a readout circuit for reading the near-infrared photosensitive element, four visible photosensitive elements, one of which being placed facing the near-infrared photosensitive element, and three interference filters to define a pixel quadruplet. A first pixel, including the near-infrared photosensitive element and one of the visible photosensitive elements, has no filter. The three other pixels, respectively including the three other visible photosensitive elements, are respectively provided with filters associated with the three primary colors. Each interference filter includes an alternation of metal layers and of dielectric layers. | 08-22-2013 |
20130214161 | VISIBLE AND NEAR-INFRARED RADIATION DETECTOR - The detector of visible and near-infrared radiation comprises a near-infrared photosensitive element, a readout circuit for reading the near-infrared photosensitive element, four visible photosensitive elements, one of which being placed facing the near-infrared photosensitive element, and four pigmented resin filters to define a pixel quadruplet. A first pixel, including the near-infrared photosensitive element and one of the visible photosensitive elements, is provided with a resin filter opaque to visible radiation. The three other pixels, respectively including the three other visible photosensitive elements, are respectively provided with filters associated with the three primary colors. | 08-22-2013 |
20130284889 | MONOLITHIC MULTISPECTRAL VISIBLE AND INFRARED IMAGER - The invention relates to a radiation detection device including a silicon substrate and an infrared photodiode made of a material optimized for infrared detection. The substrate comprises a photosensitive area, readout circuits, and interconnects formed in an electrically-insulating material. The interconnects and the metal contact connect the readout circuits, the photosensitive areas, and the infrared photodiode. The detection device also comprises an infrared radiation filtering structure which covers the photosensitive area without covering the infrared photodiode. | 10-31-2013 |
20140346356 | OPTICAL DETECTOR UNIT - This optical detector unit is a hybrid unit operating in a given wavelength range and includes, superposed, a first optical detector comprising detecting elements formed in a semiconductor structure, each detecting element being intended for converting a flux of incident photons into an electrical signal; and a first read out circuit, for reading the electrical signal from each detecting element. The optical detector unit furthermore has an imaging system with a second optical detector intended for increasing the operating wavelength range of the optical detector unit and a second read out circuit for reading the electrical signals from the detecting elements of the second optical detector. | 11-27-2014 |
Patent application number | Description | Published |
20120086010 | ELECTRONIC IMAGE DETECTION DEVICE - The instant disclosure relates to an electronic image detection device comprising: a plurality of metal electrodes on a first face of an insulating layer; and amorphous silicon regions extending over the insulating layer between the metal electrodes. | 04-12-2012 |
20120112247 | IMAGE SENSOR FOR IMAGING AT A VERY LOW LEVEL OF LIGHT - A basic device for an image sensor includes a photogeneration and charge-collecting region formed at the surface of a semiconductor substrate having a first type of conductivity, adapted to be biased at a reference voltage, the photogeneration region being associated with a device for the transfer, multiplication, and insulation of charges. The photogeneration region has an insulated gate mounted thereon, which is adapted to be alternately biased at a first voltage and at a second voltage, the insulated gate being made of a low-absorption material. | 05-10-2012 |
20120119264 | BUILT-IN VERY HIGH SENSITIVITY IMAGE SENSOR - A basic device for an image sensor includes a photodiode consisting of a doped area having a first type of conductivity and formed at the surface of a semiconductor substrate having a second type of conductivity, adapted to be biased at a first reference voltage, wherein the photodiode is combined with a device for the transfer, multiplication and insulation of charges, the photodiode being a fully depleted one and including, at the surface of the doped area having a first type of conductivity, a strongly doped region having the second type of conductivity and adapted to be biased at a second reference voltage. | 05-17-2012 |