Patents by Inventor Thomas R. Ayers
Thomas R. Ayers has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 10129487Abstract: An image sensor including an array of pixel elements is operated according to two operation modes to modulate the conversion gain of the pixel to operate the image sensor based on the impinging light conditions. More specifically, an image sensor pixel element is operated in a high conversion gain mode for low light conditions and in a low conversion gain mode for bright light conditions. The low conversion gain mode implements charge sharing between the floating diffusion and the photodiode. The low conversion gain mode further implements partial reset where the photodiode and the floating diffusion are reset to the same potential and to a potential slightly less than the pinning voltage of the photodiode.Type: GrantFiled: August 29, 2014Date of Patent: November 13, 2018Assignee: PIXIM, INC.Inventors: Thomas R. Ayers, Frederick Thomas Brady, Jinsuk Kang, Sungin Hwang, Sen Yu
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Patent number: 9813652Abstract: An image sensing device may include one or more compression modules that compress digitized pixel reset values obtained from light sensing elements. The device may perform a CDS operation in which the compressed reset values are stored, decompressed, and then subtracted from light dependent values obtained from the light sensing elements. The compressed reset values may also be output from the device without CDS subtraction having been performed. The light dependent values may also be compressed. CDS corrected output pixel values may also be compressed.Type: GrantFiled: October 29, 2015Date of Patent: November 7, 2017Assignees: Sony Corporation, Pixim, Inc.Inventors: Ping Wah Wong, Thomas R. Ayers
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Patent number: 9514514Abstract: A system and method for scaling an image includes receiving raw image data comprising input pixel values which correspond to pixels of an image sensor; and filtering pixels according to a Bayer-consistent ruleset by a first scaling factor in a first direction and a second scaling factor in a second direction perpendicular to the first direction, wherein the first scaling factor is different from the second scaling factor. The system and method may also include outputting scaled image data as output pixel values, which correspond to subgroups of the input pixel values. The Bayer-consistent ruleset includes a set of filter weights and a series of scaling rules. The Bayer-consistent ruleset results in a scaled image having a high degree of Bayer-consistency.Type: GrantFiled: October 5, 2015Date of Patent: December 6, 2016Assignee: Sony CorporationInventors: Ping W. Wong, Thomas R. Ayers
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Patent number: 9413999Abstract: An image sensing device and image sensing method are described herein. By way of example, the imaging sensing device includes a two-dimensional array of light sensing elements, each light sensing element being configured to generate an output signal indicative of an intensity level of light impinging on the light sensing element, one or more analog-to-digital converters configured to digitize output signals read out from the array of light sensing elements to generate digital output pixel values, a control circuit configured to generate digital pixel reset values, and a compression module configured to receive the digital pixel reset values and to generate a compressed digital pixel reset value corresponding to each digital pixel reset value.Type: GrantFiled: June 19, 2015Date of Patent: August 9, 2016Assignee: Sony CorporationInventors: Ping W. Wong, Thomas R. Ayers
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Patent number: 9398237Abstract: An image sensor includes a pixel circuit that includes a light sensing element and a charge storage node formed in a substrate, an output element having a control electrode formed in an electrode layer above the substrate, the output element generating an output signal corresponding to charge generated by the light sensing element and held by the charge storage node, and a local metal interconnect that electrically connects the charge storage node to the control electrode. Control wirings that control operations of the pixel circuit are formed in wiring layers that are located above the electrode layer. The metal interconnect is formed in a layer that is located above the electrode layer and below a lowest one of the wiring layers such that a given one of the control wirings overlaps the metal interconnect so as to form a parallel plate capacitor in a region of overlap.Type: GrantFiled: April 30, 2014Date of Patent: July 19, 2016Assignee: Sony CorporationInventors: Frederick Brady, Sungin Hwang, Thomas R. Ayers
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Publication number: 20160119570Abstract: An image sensing device may include one or more compression modules that compress digitized pixel reset values obtained from light sensing elements. The device may perform a CDS operation in which the compressed reset values are stored, decompressed, and then subtracted from light dependent values obtained from the light sensing elements. The compressed reset values may also be output from the device without CDS subtraction having been performed. The light dependent values may also be compressed. CDS corrected output pixel values may also be compressed.Type: ApplicationFiled: October 29, 2015Publication date: April 28, 2016Inventors: Ping Wah Wong, Thomas R. Ayers
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Publication number: 20160093018Abstract: A system and method for scaling an image includes receiving raw image data comprising input pixel values which correspond to pixels of an image sensor; and filtering pixels according to a Bayer-consistent ruleset by a first scaling factor in a first direction and a second scaling factor in a second direction perpendicular to the first direction, wherein the first scaling factor is different from the second scaling factor. The system and method may also include outputting scaled image data as output pixel values, which correspond to subgroups of the input pixel values. The Bayer-consistent ruleset includes a set of filter weights and a series of scaling rules. The Bayer-consistent ruleset results in a scaled image having a high degree of Bayer-consistency.Type: ApplicationFiled: October 5, 2015Publication date: March 31, 2016Inventors: Ping W. Wong, Thomas R. Ayers
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Publication number: 20150319386Abstract: An image sensor includes a pixel circuit that includes a light sensing element and a charge storage node formed in a substrate, an output element having a control electrode formed in an electrode layer above the substrate, the output element generating an output signal corresponding to charge generated by the light sensing element and held by the charge storage node, and a local metal interconnect that electrically connects the charge storage node to the control electrode. Control wirings that control operations of the pixel circuit are formed in wiring layers that are located above the electrode layer. The metal interconnect is formed in a layer that is located above the electrode layer and below a lowest one of the wiring layers such that a given one of the control wirings overlaps the metal interconnect so as to form a parallel plate capacitor in a region of overlap.Type: ApplicationFiled: April 30, 2014Publication date: November 5, 2015Applicants: SONY CORPORATION, PIXIM, INC.Inventors: Frederick Brady, Sungin Hwang, Thomas R. Ayers
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Publication number: 20150311240Abstract: An active pixel image sensor includes a photodiode structure which enables high near-infrared modulation transfer function and high quantum efficiency, with low pinning voltage for a medium- to large-size pixel. The photodiode includes a shallow photodiode region and a deep photodiode region both of a first dopant type, where the length of the shallow photodiode region is larger than the length of the deep photodiode region; and a shallow depleting region and a deep depleting region both of a second dopant type. The deep depleting region surrounds the deep photodiode region on at least two opposite sides.Type: ApplicationFiled: April 28, 2014Publication date: October 29, 2015Applicant: Sony CorporationInventors: Muriel Cohen, Fred Brady, Thomas R. Ayers, Sungin Hwang
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Publication number: 20150288910Abstract: An image sensing device and image sensing method are described herein. By way of example, the imaging sensing device includes a two-dimensional array of light sensing elements, each light sensing element being configured to generate an output signal indicative of an intensity level of light impinging on the light sensing element, one or more analog-to-digital converters configured to digitize output signals read out from the array of light sensing elements to generate digital output pixel values, a control circuit configured to generate digital pixel reset values, and a compression module configured to receive the digital pixel reset values and to generate a compressed digital pixel reset value corresponding to each digital pixel reset value.Type: ApplicationFiled: June 19, 2015Publication date: October 8, 2015Inventors: Ping W. Wong, Thomas R. Ayers
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Publication number: 20140368680Abstract: An image sensor including an array of pixel elements is operated according to two operation modes to modulate the conversion gain of the pixel to operate the image sensor based on the impinging light conditions. More specifically, an image sensor pixel element is operated in a high conversion gain mode for low light conditions and in a low conversion gain mode for bright light conditions. The low conversion gain mode implements charge sharing between the floating diffusion and the photodiode. The low conversion gain mode further implements partial reset where the photodiode and the floating diffusion are reset to the same potential and to a potential slightly less than the pinning voltage of the photodiode.Type: ApplicationFiled: August 29, 2014Publication date: December 18, 2014Inventors: Thomas R. Ayers, Frederick Thomas Brady, Jinsuk Kang, Sungin Hwang, Sen Yu
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Patent number: 7891036Abstract: A power washer is provided with a transport frame, a wash unit and a gun. The wash unit and the gun may be separated from the transport frame to be used in multiple modes. Possible modes include a walk-behind mode, a spray mode and hand wash modes. A quick connection is also provided to make it easier to disconnect and reconnect various components of the power washer.Type: GrantFiled: March 14, 2006Date of Patent: February 22, 2011Assignee: Techtronic Outdoor Products Technology LimitedInventors: Klaus Karl Hahn, Charles Keith Long, Thomas R. Ayers
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Patent number: 5923385Abstract: A method and apparatus for single-buffered display capture which eliminates a "tearing" problem inherent in certain conventional video display techniques. A video signal including a sequence of frames each having an even field and an odd field is applied to a video capture circuit. First and second sets of lines each representing a different subset of all the lines in a given even or odd field are captured in the video capture circuit and displayed by a video display circuit. The video capture circuit captures the first set of lines in an even field of the video signal during a time period in which the video display circuit displays the second set of lines in the even field. The video capture circuit also captures the second set of lines in an odd field of the video signal during a time period in which the video display circuit displays the first set of lines in the odd field.Type: GrantFiled: October 11, 1996Date of Patent: July 13, 1999Assignee: C-Cube Microsystems Inc.Inventors: Christopher Mills, Thomas R. Ayers
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Patent number: 5793427Abstract: A method and apparatus for differential video data encoding which utilizes a reduced number of bits per pixel to encode chroma and luma components of a video data stream. A 4-bit absolute code is determined for a given 8-bit luma or chroma component in the data stream. The determined absolute code is indicative of a particular one of a plurality of ranges into which the given component falls. The given component is encoded using the determined absolute code if the absolute code produces a lower encoding error than a 4-bit delta code which encodes the component as a difference relative to a previously-encoded component. If the delta code produces a lower encoding error than the determined absolute code, the given component is encoded using the delta code. In a situation in which the given component is the first component of its type on a line of video, an absolute code may be used regardless of whether or not the absolute code produces a higher encoding error than the delta code.Type: GrantFiled: October 11, 1996Date of Patent: August 11, 1998Assignee: Divicom Inc.Inventors: Christopher Mills, Thomas R. Ayers, Michael P. Lenihan