Patents by Inventor Chih-Wei Hsiung
Chih-Wei Hsiung 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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Publication number: 20180076247Abstract: A backside-illuminated color image sensor with crosstalk-suppressing color filter array includes (a) a silicon layer including an array of photodiodes and (b) a color filter layer on the light-receiving surface of the silicon layer, wherein the color filter layer includes (i) an array of color filters cooperating with the array of photodiodes to form a respective array of color pixels and (ii) a light barrier grid disposed between the color filters to suppress transmission of light between adjacent ones of the color filters.Type: ApplicationFiled: September 13, 2016Publication date: March 15, 2018Inventors: Chin-Poh Pang, Boyang Zhang, Chia-Ying Liu, Wu-Zang Yang, Chih-Wei Hsiung, Chun-Yung Ai
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Patent number: 9735196Abstract: A method of fabricating a pixel array includes forming a transistor network along a frontside of a semiconductor substrate. A contact element is formed for every pixel in the pixel array that is electrically coupled to a transistor within the transistor network. An interconnect layer is formed upon the frontside to control the transistor network with a dielectric that covers the contact element. A cavity is formed in the interconnect layer. A conductive layer is formed along cavity walls of the cavity and a dielectric layer is formed over the conductive layer within the cavity. A photosensitive semiconductor material is deposited over the dielectric layer within the cavity. An electrode cavity is formed that extends into the contact element. The electrode cavity is at least partially filled with a conductive material to form an electrode. The electrode, the conductive layer, and the photosensitive semiconductor material form a photosensitive capacitor.Type: GrantFiled: October 5, 2016Date of Patent: August 15, 2017Assignee: OmniVision Technologies, Inc.Inventors: Wu-Zang Yang, Chia-Ying Liu, Chih-Wei Hsiung, Chun-Yung Ai, Dyson H. Tai, Dominic Massetti
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Patent number: 9691810Abstract: An image sensor includes a plurality of photodiodes arranged in an array and disposed in a semiconductor material with pinning wells disposed between individual photodiodes in the plurality of photodiodes. The image sensor also includes a microlens layer. The microlens layer is disposed proximate to the semiconductor material and is optically aligned with the plurality of photodiodes. A spacer layer disposed between the semiconductor material and the microlens layer. The spacer layer has a concave cross-sectional profile across the array, and the microlens layer is conformal with the concave cross-sectional profile of the spacer layer.Type: GrantFiled: December 18, 2015Date of Patent: June 27, 2017Assignee: OmniVision Technologies, Inc.Inventors: Yuanwei Zheng, Gang Chen, Duli Mao, Dyson Tai, Arvind Kumar, Hung Chih Chang, Chih-Wei Hsiung
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Publication number: 20170179189Abstract: An image sensor includes a plurality of photodiodes arranged in an array and disposed in a semiconductor material with pinning wells disposed between individual photodiodes in the plurality of photodiodes. The image sensor also includes a microlens layer. The microlens layer is disposed proximate to the semiconductor material and is optically aligned with the plurality of photodiodes. A spacer layer disposed between the semiconductor material and the microlens layer. The spacer layer has a concave cross-sectional profile across the array, and the microlens layer is conformal with the concave cross-sectional profile of the spacer layer.Type: ApplicationFiled: December 18, 2015Publication date: June 22, 2017Inventors: Yuanwei Zheng, Gang Chen, Duli Mao, Dyson Tai, Arvind Kumar, Hung Chih Chang, Chih-Wei Hsiung
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Patent number: 9565405Abstract: A back side illuminated image sensor includes a pixel array including semiconductor material, and image sensor circuitry disposed on a front side of the semiconductor material to control operation of the pixel array. A first pixel includes a first doped region disposed proximate to a back side of the semiconductor material and extends into the semiconductor material a first depth to reach the image sensor circuitry. A second pixel with a second doped region is disposed proximate to the back side of the semiconductor material and extends into the semiconductor material a second depth which is less than the first depth. A third doped region is disposed between the second doped region and the image sensor circuitry on the front side of the semiconductor material. The third doped region is electrically isolated from the first doped region and the second doped region.Type: GrantFiled: February 3, 2015Date of Patent: February 7, 2017Assignee: OmniVision Technologies, Inc.Inventors: Gang Chen, Dominic Massetti, Chih-Wei Hsiung, Arvind Kumar, Yuanwei Zheng, Duli Mao, Dyson H. Tai
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Publication number: 20170025468Abstract: A method of fabricating a pixel array includes forming a transistor network along a frontside of a semiconductor substrate. A contact element is formed for every pixel in the pixel array that is electrically coupled to a transistor within the transistor network. An interconnect layer is formed upon the frontside to control the transistor network with a dielectric that covers the contact element. A cavity is formed in the interconnect layer. A conductive layer is formed along cavity walls of the cavity and a dielectric layer is formed over the conductive layer within the cavity. A photosensitive semiconductor material is deposited over the dielectric layer within the cavity. An electrode cavity is formed that extends into the contact element. The electrode cavity is at least partially filled with a conductive material to form an electrode. The electrode, the conductive layer, and the photosensitive semiconductor material form a photosensitive capacitor.Type: ApplicationFiled: October 5, 2016Publication date: January 26, 2017Inventors: Wu-Zang Yang, Chia-Ying Liu, Chih-Wei Hsiung, Chun-Yung Ai, Dyson H. Tai, Dominic Massetti
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Patent number: 9520431Abstract: An image sensor includes a semiconductor layer with a plurality of photodiodes. A plurality of isolation structures is disposed in the back side of the semiconductor layer between individual photodiodes in the plurality of photodiodes. The plurality of isolation structures extend into the back side of the semiconductor layer a first depth and extend out of the back side of the semiconductor layer a first length. A plurality of light filters is disposed proximate to the back side of the semiconductor layer such that the plurality of isolation structures is disposed between individual light filters in the plurality of light filters. An antireflection coating is also disposed between the semiconductor layer and the plurality of light filters.Type: GrantFiled: October 3, 2014Date of Patent: December 13, 2016Assignee: OmniVision Technologies, Inc.Inventors: Wei Zheng, Chia-Ying Liu, Chun-Yung Ai, Wu-Zang Yang, Chih-Wei Hsiung, Chen-Wei Lu
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Patent number: 9490282Abstract: An image sensor pixel, and image sensor, and a method of fabricating the same is disclosed. The image pixel includes a photosensitive capacitor and a transistor network. The photosensitive capacitor includes an electrode, a conductive layer, a dielectric layer, and a photosensitive semiconductor material. The conductive layer is disposed around the electrode and the dielectric layer is formed between the conductive layer and the electrode. The photosensitive semiconductor material is for generating an image signal in response to image light and is disposed between the dielectric layer and the electrode. The transistor network is coupled to readout the image signal from the electrode of the photosensitive capacitor.Type: GrantFiled: March 19, 2015Date of Patent: November 8, 2016Assignee: OmniVision Technologies, Inc.Inventors: Wu-Zang Yang, Chia-Ying Liu, Chih-Wei Hsiung, Chun-Yung Ai, Dyson H. Tai, Dominic Massetti
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Patent number: 9455291Abstract: A back side illuminated image sensor includes a semiconductor material having a front side and a back side. The semiconductor material is disposed between image sensor circuitry and a light filter array. The image sensor circuitry is disposed on the front side, and the light filter array is disposed proximate to the back side. The image sensor includes a first pixel with a first doped region that extends from the image sensor circuitry into the semiconductor material a first depth. The first pixel also includes a second doped region that is disposed between the back side of the semiconductor material and the first doped region. The second doped region is electrically isolated from the first doped region. A second pixel with a third doped region is also included in the image sensor. The third doped region extends from the image sensor circuitry into the semiconductor material a second depth.Type: GrantFiled: January 20, 2015Date of Patent: September 27, 2016Assignee: OmniVision Technologies, Inc.Inventors: Gang Chen, Duli Mao, Yuanwei Zheng, Chih-Wei Hsiung, Arvind Kumar, Dyson H. Tai
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Publication number: 20160276380Abstract: An image sensor pixel, and image sensor, and a method of fabricating the same is disclosed. The image pixel includes a photosensitive capacitor and a transistor network. The photosensitive capacitor includes an electrode, a conductive layer, a dielectric layer, and a photosensitive semiconductor material. The conductive layer is disposed around the electrode and the dielectric layer is formed between the conductive layer and the electrode. The photosensitive semiconductor material is for generating an image signal in response to image light and is disposed between the dielectric layer and the electrode. The transistor network is coupled to readout the image signal from the electrode of the photosensitive capacitor.Type: ApplicationFiled: March 19, 2015Publication date: September 22, 2016Inventors: Wu-Zang Yang, Chia-Ying Liu, Chih-Wei Hsiung, Chun-Yung Ai, Dyson H. Tai, Dominic Massetti
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Patent number: 9443899Abstract: An improved back side illuminated (BSI) complementary metal oxide semiconductor (CMOS) image sensor, and associated methods, improve phase detecting capability. The BSI CMOS image sensor has an array of pixels that include a phase detecting pixel (PDP), a composite grid formed of a buried color filter array and composite metal/oxide grid, and a photodiode implant corresponding to the PDP. A PDP mask is fabricated with a deep trench isolation (DTI) structure proximate the PDP and positioned to mask at least part of the photodiode implant such that the PDP mask is positioned between the composite grid and the photodiode implant.Type: GrantFiled: November 4, 2015Date of Patent: September 13, 2016Assignee: OmniVision Technologies, Inc.Inventors: Chia-Ying Liu, Chin-Poh Pang, Chih-Wei Hsiung, Vincent Venezia
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Patent number: 9431452Abstract: An image sensor includes a photodiode proximate to a front side of semiconductor material to accumulate image charge. A metal layer reflector structure is disposed in a dielectric layer proximate to the front side of the semiconductor material. A contact reflecting ring structure is disposed in the dielectric layer between the metal layer reflector structure and a contact etch stop layer disposed over the front side of the semiconductor material. The contact reflecting ring structure defines a portion of a light guide in the dielectric layer such that light that is directed through a back side of the semiconductor material, through the photodiode, and reflected from the metal layer reflector structure back through the photodiode is confined to remain within an interior of the contact reflecting ring structure when passing through the dielectric layer between the photodiode and the metal layer reflector structure.Type: GrantFiled: May 13, 2015Date of Patent: August 30, 2016Assignee: OmniVision Technologies, Inc.Inventors: Chia-Ying Liu, Chih-Wei Hsiung
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Publication number: 20160227147Abstract: A back side illuminated image sensor includes a pixel array including semiconductor material, and image sensor circuitry disposed on a front side of the semiconductor material to control operation of the pixel array. A first pixel includes a first doped region disposed proximate to a back side of the semiconductor material and extends into the semiconductor material a first depth to reach the image sensor circuitry. A second pixel with a second doped region is disposed proximate to the back side of the semiconductor material and extends into the semiconductor material a second depth which is less than the first depth. A third doped region is disposed between the second doped region and the image sensor circuitry front side of the semiconductor material. The third doped region is electrically isolated from the first doped region and the second doped region.Type: ApplicationFiled: February 3, 2015Publication date: August 4, 2016Inventors: Gang Chen, Dominic Massetti, Chih-Wei Hsiung, Arvind Kumar, Yuanwei Zheng, Duli Mao, Dyson H. Tai
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Publication number: 20160211295Abstract: A back side illuminated image sensor includes a semiconductor material having a front side and a back side. The semiconductor material is disposed between image sensor circuitry and a light filter array. The image sensor circuitry is disposed on the front side, and the light filter array is disposed proximate to the back side. The image sensor includes a first pixel with a first doped region that extends from the image sensor circuitry into the semiconductor material a first depth. The first pixel also includes a second doped region that is disposed between the back side of the semiconductor material and the first doped region. The second doped region is electrically isolated from the first doped region. A second pixel with a third doped region is also included in the image sensor. The third doped region extends from the image sensor circuitry into the semiconductor material a second depth.Type: ApplicationFiled: January 20, 2015Publication date: July 21, 2016Inventors: Gang Chen, Duli Mao, Yuanwei Zheng, Chih-Wei Hsiung, Arvind Kumar, Dyson H. Tai
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Patent number: 9391111Abstract: An intermediate integrated circuit die of a stacked integrated circuit system includes an intermediate semiconductor substrate including first polarity dopants is thinned from a second side. A first well including first polarity dopants is disposed in the intermediate semiconductor proximate to a first side. A second well including second polarity dopants is disposed in the intermediate semiconductor substrate proximate to the first side. A deep well having second polarity dopants is disposed in the intermediate semiconductor substrate beneath the first and second wells. An additional implant of first polarity dopants is implanted into the intermediate semiconductor substrate between the deep well and the second side of the intermediate semiconductor substrate to narrow a depletion region overlapped by the additional implant of first polarity dopants. The depletion region is between the deep well and the second side of the intermediate semiconductor substrate.Type: GrantFiled: August 7, 2015Date of Patent: July 12, 2016Assignee: OmniVision Technologies, Inc.Inventors: Keiji Mabuchi, Chih-Wei Hsiung
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Publication number: 20160099266Abstract: An image sensor includes a semiconductor layer with a plurality of photodiodes. A plurality of isolation structures is disposed in the back side of the semiconductor layer between individual photodiodes in the plurality of photodiodes. The plurality of isolation structures extend into the back side of the semiconductor layer a first depth and extend out of the back side of the semiconductor layer a first length. A plurality of light filters is disposed proximate to the back side of the semiconductor layer such that the plurality of isolation structures is disposed between individual light filters in the plurality of light filters. An antireflection coating is also disposed between the semiconductor layer and the plurality of light filters.Type: ApplicationFiled: October 3, 2014Publication date: April 7, 2016Inventors: Wei Zheng, Chia-Ying Liu, Chun-Yung Ai, Wu-Zang Yang, Chih-Wei Hsiung, Chen-Wei Lu
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Publication number: 20160071892Abstract: An image sensor pixel including a photodiode includes a first dopant region disposed within a semiconductor layer and a second dopant region disposed above the first dopant region and within the semiconductor layer. The second dopant region contacts the first dopant region and the second dopant region is of an opposite majority charge carrier type as the first dopant region. A third dopant region is disposed above the first dopant region and within the semiconductor layer. The third dopant region is of a same majority charge carrier type as the second dopant region but has a greater concentration of free charge carriers than the second dopant region. A transfer gate is positioned to transfer photogenerated charge from the photodiode. The second dopant region extends closer to an edge of the transfer gate than the third dopant region.Type: ApplicationFiled: September 5, 2014Publication date: March 10, 2016Inventors: Gang Chen, Philippe Matagne, Chih-Wei Hsiung, Yuanwei Zheng, Duli Mao, Dyson H. Tai
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Patent number: 9240431Abstract: 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.Type: GrantFiled: July 2, 2015Date of Patent: January 19, 2016Assignee: OmniVision Technologies, Inc.Inventors: Yuanwei Zheng, Gang Chen, Duli Mao, Dyson H. Tai, Chih-Wei Hsiung, Arvind Kumar
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Patent number: 9224881Abstract: 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.Type: GrantFiled: April 4, 2013Date of Patent: December 29, 2015Assignee: OmniVision Technologies, Inc.Inventors: Chih-Wei Hsiung, Oray Orkun Cellek, Gang Chen, Duli Mao, Vincent Venezia, Hsin-Chih Tai
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Patent number: 9111993Abstract: 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.Type: GrantFiled: August 21, 2014Date of Patent: August 18, 2015Assignee: OmniVision Technologies, Inc.Inventors: Yuanwei Zheng, Gang Chen, Duli Mao, Dyson H. Tai, Chih-Wei Hsiung, Arvind Kumar