Color Filter Patents (Class 438/70)
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Publication number: 20110212567Abstract: A method of fabricating an image sensor device is provided. First, a substrate comprising a pixel array region and a pad region is provided. A patterned metal layer and a first planarization layer having an opening exposing the patterned metal layer in the pad region are sequentially formed on the substrate. A color filter array is formed on the first planarization layer in the pixel array region. A second planarization layer is formed to cover the color filter array and filled into the opening. A plurality of microlens is formed above the color filter array on the second planarization layer. A capping layer is conformally formed on the microlens and the second planarization layer. An etching step is performed to remove the capping layer and the second planarization layer in the opening so as to expose the patterned metal layer in the pad region.Type: ApplicationFiled: February 26, 2010Publication date: September 1, 2011Inventors: Hsin-Ting TSAI, Cheng-Hung Yu, Chin-Kuang Liu, Kun-Yen Hsu
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Publication number: 20110207258Abstract: A method for forming a pad in a wafer with a three-dimensional stacking structure includes: (a) a first process of bonding a device wafer and a handling wafer; (b) a second process of thinning a back side of an Si substrate which is formed on the device wafer, after the first process; (c) a third process of forming an anti-reflective layer and a PMD (preferential metal deposition) dielectric layer, after the second process; (d) a fourth process of forming vias on back sides of super contacts which are formed on the Si substrate, after the third process; and (e) a fifth process of forming a pad, after the fourth process.Type: ApplicationFiled: February 14, 2011Publication date: August 25, 2011Applicant: SILICONFILE TECHNOLOGIES INC.Inventors: Heui-Gyun Ahn, Se-Jung Oh, In-Gyun Jeon, Jun-Ho Won
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Patent number: 8003429Abstract: A method of fabricating an image sensor includes forming a photoelectric transformation device on a substrate and forming a dielectric layer structure on the substrate. The dielectric layer structure includes multi-layer interlayer dielectric layers and multi-layer metal interconnections which are located between the multi-layer interlayer dielectric layers. A cavity which penetrates the multi-layer interlayer dielectric layers on the photoelectric transformation device is formed. A heat treatment is performed on the substrate on which the cavity is formed.Type: GrantFiled: November 17, 2008Date of Patent: August 23, 2011Assignee: Samsung Electronics Co., Ltd.Inventors: Jeong-Ho Lee, Sang-Il Jung, Young-Hoon Park, Jun-Seok Yang, An-Chul Shin, Min-Young Jung
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Patent number: 8003428Abstract: A flat-top convex-bottom lower lens is formed by first applying a positive tone photoresist over a silicon oxide layer and an optional metallic barrier layer thereupon in a back-end-of-line (BEOL) metallization structure. The positive tone photoresist is exposed under defocused illumination conditions and/or employing a half-tone mask so that a cross-sectional profile of the positive tone photoresist after exposure contains a continuous and smooth concave profile, which is transferred into the underlying silicon oxide layer to form a concave cavity therein. After removing the photoresist, the cavity is filled with a high refractive index material such as silicon nitride, and planarized to form a flat-top convex-bottom lower lens. Various aluminum metal structures, a color filter, and a convex-top flat-bottom upper lens are thereafter formed so that the upper lens and the lower lens constitute a composite lens system.Type: GrantFiled: March 27, 2008Date of Patent: August 23, 2011Assignee: International Business Machines CorporationInventors: Terence Barrett, Jeffrey P. Gambino, Robert K. Leidy
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Patent number: 8004020Abstract: A solid-state image capturing device includes a plurality of electrode pads for inputting and outputting a signal or voltage from and to the outside, a plurality of photoelectric conversion elements, a planarization film for planarizing the difference in the level on the surface above the plurality of photoelectric conversion elements, a microlens for focusing incident light on each of the plurality of photoelectric conversion elements, and a protection film provided above the microlens and the planarization film, the planarization film and the protection film above the plurality of electrode pads being removed as an opening, where the protection film has a protection film removing area that at least includes an area removed across all or a corner portion of the opening and the image capturing area.Type: GrantFiled: October 16, 2008Date of Patent: August 23, 2011Assignee: Sharp Kabushiki KaishaInventor: Takayuki Kawasaki
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Publication number: 20110198486Abstract: An image sensor includes a color filter, an over-coating layer formed on the color filter, and a medium layer formed on the over-coating layer, wherein the medium layer is configured with at least two medium layers of which refractive indices are different from each other.Type: ApplicationFiled: February 17, 2011Publication date: August 18, 2011Applicant: CROSSTEK CAPITAL, LLCInventor: Won-Ho Lee
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Publication number: 20110193147Abstract: Backside illumination CMOS image sensors having convex light-receiving faces and methods of manufacturing the same. A backside illumination CMOS image sensor includes a metal layer, an insulating layer and a photodiode. The insulating layer is on the metal layer. The photodiode is on the insulating layer, and a top face of the photodiode, which receives light, is curved. A method of manufacturing a backside illumination CMOS image sensor including a photodiode having a convex surface includes forming an island smaller than the photodiode on a portion of a light-receiving face of the photodiode, and annealing the island to form the photodiode having the convex light-receiving face.Type: ApplicationFiled: January 4, 2011Publication date: August 11, 2011Inventors: Jung-Chak Ahn, Kyung-ho Lee
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Publication number: 20110189809Abstract: An elevated photosensor for image sensors and methods of forming the photosensor. The photosensor may have light sensors having indentation features including, but not limited to, v-shaped, u-shaped, or other shaped features. Light sensors having such an indentation feature can redirect incident light that is not absorbed by one portion of the photosensor to another portion of the photosensor for additional absorption. In addition, the elevated photosensors reduce the size of the pixel cells while reducing leakage, image lag, and barrier problems.Type: ApplicationFiled: April 12, 2011Publication date: August 4, 2011Inventor: Salman Akram
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Publication number: 20110186951Abstract: Disclosed is a backside illuminated image sensor including a light receiving element formed in a first substrate, an interlayer insulation layer formed on the first substrate including the light receiving element, a via hole formed through the interlayer insulation layer and the first substrate while being spaced apart from the light receiving element, a spacer formed on an inner sidewall of the via hole, an alignment key to fill the via hole, interconnection layers formed on the interlayer insulation layer in a multilayer structure in which a backside of a lowermost layer of the interconnection layers is connected to the alignment key, a passivation layer covering the interconnection layers, a pad locally formed on a backside of the first substrate and connected to a backside of the alignment key, and a color filter and a microlens formed on the backside of the first substrate corresponding to the light receiving element.Type: ApplicationFiled: June 10, 2009Publication date: August 4, 2011Applicant: CROSSTEK CAPITAL, LLCInventor: Sung-Gyu Pyo
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Publication number: 20110186950Abstract: A method of fabricating an image sensor and an image sensor thereof are provided. The method comprises: providing a mask; utilizing the mask at a first position to form a first group of micro-lenses having a first height on a first group of color filters of a color filter array on a pixel array; shifting the mask from the first position to a second position, wherein a distance between the first position and the second position is substantially equal to a width of a pixel of the pixel array; and utilizing the mask at the second position to form a second group of micro-lenses having a second height, different from the first height, on a second group of color filters of the color filter array.Type: ApplicationFiled: February 1, 2010Publication date: August 4, 2011Inventors: Han-Kang Liu, Fang-Ming Huang, Shao-Min Hung, Bo-Nan Chen
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Patent number: 7989752Abstract: A solid-state imaging device 1 includes: a semiconductor substrate 11 on which pixels are placed like a matrix; and each of the pixels having a photoelectric conversion element 13 and a color filter layer 21 which is formed on the photoelectric conversion element 13. The solid-state imaging device 1 includes resin parts 20 which are formed at the boundaries of these photoelectric conversion devices 13 which are adjacent to each other, each of the resin parts 20 having an upward convex shape. Each color filter layer 21 of the device is formed so that the color filter layer covers the area ranging from the summit of a resin part to the summit of an adjacent resin part, and each color filter layer 21 is thinner in the peripheral part than in the center part around the summit.Type: GrantFiled: February 2, 2010Date of Patent: August 2, 2011Assignee: Panasonic CorporationInventor: Kenji Yokozawa
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Patent number: 7989254Abstract: Discussed are methods for fabricating a color filter using a surface plasmon and a liquid crystal display (LCD) device capable of enhancing a transmittance ratio of an LC panel and simplifying entire processes, by forming a transmissive pattern consisting of a plurality of sub-wavelength holes having a period on a metal layer, and by implementing colors by selectively transmitting light of specific wavelengths with using a surface plasmon phenomenon.Type: GrantFiled: November 8, 2010Date of Patent: August 2, 2011Assignee: LG Display Co., Ltd.Inventor: Min-Sung Yoon
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Patent number: 7989908Abstract: Provided is an image sensor. The image sensor includes a semiconductor substrate, photodiode structures, color filters, and microlenses. The semiconductor substrate includes a first region having pixel regions and a second region around the first region. The pixel regions are arranged in a matrix configuration. Each of the photodiode structures has a photodiode in each of the pixel regions. The color filters are disposed on or over the photodiode structures, the color filters correspond to the pixel regions, respectively, and have different areas corresponding to incident angles of light.Type: GrantFiled: December 11, 2007Date of Patent: August 2, 2011Assignee: Dongbu HiTek Co., Ltd.Inventor: Seoung Hyun Kim
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Patent number: 7985613Abstract: A method of manufacturing a back side illumination image sensor is provided. The method can include forming an ion implantation layer in a front side of a first substrate, forming a photodetector and a readout circuit on the first substrate, forming an interlayer dielectric layer and a metal line on the front side of the first substrate, bonding a second substrate with the front side of the first substrate, removing a lower portion of the first substrate on the basis of the ion implantation layer, performing an annealing process with respect on a back side of the first substrate, and forming a microlens over the photodetector.Type: GrantFiled: December 18, 2009Date of Patent: July 26, 2011Assignee: Dongbu Hitek Co., Ltd.Inventor: Mun Hwan Kim
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Patent number: 7985612Abstract: A method and resulting device for reducing crosstalk in a back-illuminated imager is disclosed, comprising providing a substrate comprising an insulator layer and a seed layer substantially overlying the insulator layer, an interface being formed where the seed layer comes in contact with the insulator layer; forming an epitaxial layer substantially overlying the seed layer, the epitaxial layer defining plurality of pixel regions, each pixel region outlining a collection well for collecting charge carriers; and forming one of an electrical, optical, and electrical and optical barrier about the outlined collection well extending into the epitaxial layer to the interface between the seed layer and the insulator layer.Type: GrantFiled: June 4, 2008Date of Patent: July 26, 2011Assignee: SRI InternationalInventors: Pradyumna Kumar Swain, Mahalingam Bhaskaran
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Publication number: 20110177646Abstract: An image sensor comprises a substrate of a first conductivity type. First and second pixels are arrayed over the substrate. A potential barrier is formed in a region of the substrate corresponding to the first pixel but not in a region of the substrate corresponding to the second pixel. The second pixel is responsive to a color having a wavelength longer than the color to which the first pixel is responsive. The potential barrier is doped with dopants by a high energy ion implantation dopants or by an ion implantation or diffusion during epitaxial growth of the P-type epitaxial layer.Type: ApplicationFiled: March 31, 2011Publication date: July 21, 2011Applicant: CROSSTEK CAPITAL LLCInventor: Jaroslav Hynecek
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Publication number: 20110168244Abstract: In methods and apparatus for improving the power generated, and thus efficiency of solar cells, a double or triple junction tandem solar cell that has one or two photon filters of the invention in between the solar cell layers, respectively. The photon filter is arranged to reflect photons with wavelength shorter than ?x and arranged to be transparent to photons of wavelength longer than ?x by focussing the lower energy photons out of small area apertures on the other side of the photon filter and arranging the other side of the photon filter to reflect at least some of the photons of wavelength longer than ?x. By using the photon filters of the invention in between the solar cell layers, photons can be trapped between filters to solar cell layers at an energy at which the quantum efficiency of the solar cell layer is the best.Type: ApplicationFiled: March 18, 2011Publication date: July 14, 2011Inventor: Mikko VÄÄNÄNEN
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Publication number: 20110169119Abstract: Embodiments of the invention provide for fabricating a filter, for electromagnetic radiation, in at least three ways, including (1) fabricating integrated thin film filters directly on a detector; (2) fabricating a free standing thin film filter that may be used with a detector; and (3) treating an existing filter to improve the filter's properties.Type: ApplicationFiled: January 13, 2011Publication date: July 14, 2011Applicant: CALIFORNIA INSTITUTE OF TECHNOLOGYInventors: Frank Greer, Shouleh Nikzad
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Patent number: 7977142Abstract: A method of manufacturing an image sensor having a minimized spatial distance between microlenses to improve integration, and thus, enhance the ability of each microlens to condense light incident.Type: GrantFiled: December 17, 2007Date of Patent: July 12, 2011Assignee: Dongbu HiTek Co., Ltd.Inventor: Eun-Soo Jeong
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Patent number: 7977143Abstract: A CMOS image sensor and fabricating method thereof are disclosed. The method includes forming a plurality of photodiode regions on a semiconductor substrate, forming a plurality of color filters respectively corresponding to the photodiode regions, forming a planarization layer on the color filters, forming a protective layer on the planarization layer, and forming a microlens layer comprising a plurality of microlenses corresponding to the photodiode regions by depositing a low-temperature oxide layer on the protective layer and then patterning the low-temperature oxide layer. After the planarization layer is formed, the protective layer is formed by plasma processing. Thus, the planarization layer can be protected from chemical penetration via numerous pin holes in the microlens layer in the course of wet processing. Accordingly, the method prevents the microlens from lifting from the planarization layer.Type: GrantFiled: October 13, 2008Date of Patent: July 12, 2011Assignee: Dongbu HiTek Co., Ltd.Inventor: Jong Taek Hwang
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Patent number: 7977141Abstract: A method of manufacturing a solid-state image pickup device according to an embodiment includes forming first and second holes in a semiconductor substrate, forming insulating films on surfaces of the first and second holes, forming a contact and an alignment mark by embedding a conducting material in the first and second holes, forming a photodiode in the semiconductor substrate, forming a wiring layer including a connecting part for connecting to the contact and a wiring for connecting to the connecting part, bonding a supporting substrate on the wiring layer, exposing the contact and the alignment mark on the surface of the semiconductor substrate by reducing the semiconductor substrate in thickness, and forming a filter and a lens on the photodiode based on the alignment mark.Type: GrantFiled: August 31, 2009Date of Patent: July 12, 2011Assignee: Kabushiki Kaisha ToshibaInventors: Tsubasa Harada, Atsushi Murakoshi
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Publication number: 20110165723Abstract: A solid state imaging device having a back-illuminated type structure in which a lens is formed on the back side of a silicon layer with a light-receiving sensor portion being formed thereon. Insulating layers are buried into the silicon layer around an image pickup region, with the insulating layer being buried around a contact layer that connects an electrode layer of a pad portion and an interconnection layer of the surface side. A method of manufacturing such a solid-state imaging device is also provided.Type: ApplicationFiled: March 9, 2011Publication date: July 7, 2011Applicant: Sony CorporationInventors: Yuichi Yamamoto, Hayato Iwamoto
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Patent number: 7972890Abstract: Example embodiments may provide methods of manufacturing an image sensor. Example methods of manufacturing an image sensor may include forming a photoelectric converter in a semiconductor substrate, forming an interlayer insulating film covering a surface of the semiconductor substrate, forming metal wires and an inter-metal insulating film filling between the metal wires on the interlayer insulating film, forming openings above the photoelectric converter by removing a part of the inter-metal insulating film and the interlayer insulating film, curing the surface above the photoelectric converter by irradiating light into the openings, and/or forming a light transmitter filling the openings.Type: GrantFiled: September 13, 2007Date of Patent: July 5, 2011Assignee: Samsung Electronics Co., Ltd.Inventors: Tae-seok Oh, Duk-seo Park, Jong-wook Hong, Jung-Hyeok Oh
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Publication number: 20110159631Abstract: A method for fabricating a backside illuminated image sensor is provided. An exemplary method can include providing a substrate having a front surface and a back surface; forming an alignment mark at the front surface of the substrate, wherein the alignment mark is detectable for alignment from the back surface; and processing the substrate from the back surface by performing registration from the back surface and using the alignment mark as a reference.Type: ApplicationFiled: March 9, 2011Publication date: June 30, 2011Applicant: TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY, LTD.Inventors: Shih-Chu Fu, Gwo-Yuh Shiau, Liang-Lung Yao, Yuan-Chih Hsieh, Feng-Jia Shiu
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Patent number: 7968366Abstract: An image sensor and method of manufacturing the same are provided. According to an embodiment, the image sensor comprises: a circuit including an interconnection on a substrate; a lower electrode on the interconnection; a separated intrinsic layer on the lower electrode; a second conductive type conduction layer on the separated intrinsic layer; and an upper electrode on the second conductive type conduction layer. The separated intrinsic layer can have an inwardly sloping sidewall to focus light incident the photodiode for the unit pixel.Type: GrantFiled: March 17, 2008Date of Patent: June 28, 2011Assignee: Dongbu Hitek Co., Ltd.Inventor: Ji Ho Hong
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Patent number: 7968622Abstract: An ink-jet composition for a color filter excellent in storage stability, straightness and sustainability at the time of ejection from a head, wherein a cured layer thereof is excellent in heat resistance, adhesive property, and solvent resistance. The ink-jet ink composition for a color filter is a specific epoxy group-containing polymer (A), a specific epoxy group-containing compound (B) having two or more specific epoxy groups and a polycarboxlic acid derivative (C) in which specific carboxylic acid (c1) having alicyclic hydrocarbon is rendered latent by vinyl ether (c2), wherein the equivalence ratio of carboxyl groups rendered latent by the polycarbonoxylic acid derivative (C) to the total epoxy groups contained in the epoxy-group containing polymer (A) and the epoxy-group containing compound (B) is in the range from 0.7 to 1.1.Type: GrantFiled: March 20, 2006Date of Patent: June 28, 2011Assignees: Dai Nippon Printing Co., Ltd., NOF CorporationInventors: Tomonori Nishida, Masashi Nishiyama, Masato Tezuka, Atsushi Sato, Yukihiro Kato
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Publication number: 20110149102Abstract: A solid-state imaging device includes a silicon substrate, and a photoelectric conversion layer arranged on the silicon substrate and lattice-matched to the silicon substrate, the photoelectric conversion layer being composed of a chalcopyrite-based compound semiconductor of a copper-aluminum-gallium-indium-sulfur-selenium-based mixed crystal or a copper-aluminum-gallium-indium-zinc-sulfur-selenium-based mixed crystal.Type: ApplicationFiled: December 1, 2010Publication date: June 23, 2011Applicant: SONY CORPORATIONInventor: Atsushi Toda
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Publication number: 20110140222Abstract: A pixel cell is formed by locating a first passivation layer over the final layer of metal lines. Subsequently, the uneven, non-uniform passivation layer is subjected to a planarization process such as chemical mechanical polishing, mechanical abrasion, or etching. A spin-on glass layer may be deposited over the non-uniform passivation layer prior to planarization. Once a uniform, flat first passivation layer is achieved over the final metal, a second passivation layer, a color filter array, or a lens forming layer with uniform thickness is formed over the first passivation layer. The passivation layers can be oxide, nitride, a combination of oxide and nitride, or other suitable materials. The color filter array layer may also undergo a planarization process prior to formation of the lens forming layer. The present invention is also applicable to other devices.Type: ApplicationFiled: January 24, 2011Publication date: June 16, 2011Applicant: ROUND ROCK RESEARCH, LLCInventor: Howard E. Rhodes
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Patent number: 7960769Abstract: In a CMOS image sensor, an N-type semiconductor layer is formed on a P-type semiconductor substrate. P-type semiconductor regions are formed in one part of the semiconductor layer over the entire length of the thickness direction of the semiconductor layer in a lattice-like shape as viewed from above to compartment the semiconductor layer into a plurality of regions. Furthermore, a red filter, a green filter and a blue filter are provided in a red picture element, a green picture element and a blue picture element, respectively. Moreover, an N-type buried semiconductor layer being in contact with the semiconductor layer is formed in an immediately lower region of the red filter in an upper layer part of the semiconductor substrate.Type: GrantFiled: March 20, 2009Date of Patent: June 14, 2011Assignee: Kabushiki Kaisha ToshibaInventor: Gaku Sudo
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Publication number: 20110136290Abstract: In an etching method, a thin layer is formed on a first surface of a first substrate doped with first impurities having a first doping concentration. The thin layer is doped with second impurities having a second doping concentration lower than the first doping concentration. A second substrate is formed on the thin layer. A second surface of the first substrate is polished. The polished first substrate is cleaned using a cleaning solution including ammonia and deionized water. The cleaned first substrate is etched to expose the thin layer.Type: ApplicationFiled: December 3, 2010Publication date: June 9, 2011Inventors: Ki-Hyung KO, Byoung-Moon Yoon, Won-Jun Lee, Joon-Sang Park, Jun-Youl Yang, Seung-Ho Park, Myung-Jung Pyo
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Publication number: 20110127629Abstract: A solid state imaging device including a semiconductor layer, an insulating material in an opening penetrating a surface of the semiconductor layer, and a protective film that is resistant to etching covering one end of the insulating material on an interior side of the semiconductor layer.Type: ApplicationFiled: November 12, 2010Publication date: June 2, 2011Applicant: SONY CORPORATIONInventors: Yuhi Yorikado, Shinji Miyazawa, Takeshi Yanagita
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Publication number: 20110129955Abstract: A plurality of image sensor structures and a plurality of methods for fabricating the plurality of image sensor structures provide for inhibited cracking and delamination of a lens capping layer with respect to a planarizing layer within the plurality of image sensor structures. Particular image sensor structures and related methods include at least one dummy lens layer of different dimensions than active lens layer located over a circuitry portion of a substrate within the particular image sensor structures. Additional particular image sensor structures include at least one of an aperture within the planarizing layer and a sloped endwall of the planarizing layer located over a circuitry portion within the particular image sensor structures.Type: ApplicationFiled: February 11, 2011Publication date: June 2, 2011Applicant: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Jeffrey P. Gambino, Mark D. Jaffe, Robert K. Leidy, Charles F. Musante, Richard J. Rassel
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Publication number: 20110127628Abstract: Imager sensor pixels, image sensor and methods for forming image sensors. An image sensor pixel includes a photosensor, a microlens that receives incident light, at least one fabrication layer between the photosensor and the microlens and a passivation layer between the microlens and the at least one fabrication layer. The passivation layer includes a plurality of impurities and passes the incident light from the microlens to the photosensor without substantially redirecting the incident light.Type: ApplicationFiled: November 30, 2009Publication date: June 2, 2011Applicant: APTINA IMAGING CORPORATIONInventor: GIOVANNI MARGUTTI
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Patent number: 7952172Abstract: A light receiving element 1 has a semiconductor substrate 101; a first mesa 11 provided over the semiconductor substrate 101, and having an active region and a first electrode (p-side electrode 111) provided over the active region; a second mesa 12 provided over the semiconductor substrate 101, and having a semiconductor layer and a second electrode (n-side electrode 121) provided over the semiconductor layer; and a third mesa 13 provided over the semiconductor substrate 101, and having a semiconductor layer, wherein the third mesa 13 is arranged so as to surround the first mesa 11.Type: GrantFiled: December 20, 2006Date of Patent: May 31, 2011Assignee: NEC CorporationInventors: Sawaki Watanabe, Kazuhiro Shiba, Takeshi Nakata
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Patent number: 7947526Abstract: An exemplary method for making a backside illumination image sensor includes the follow steps. A substrate having a top surface is firstly provided. Secondly, many recesses are formed in the top surface. Thirdly, a light pervious layer is applied on the top surface. The light pervious layer has a plurality of filling portions received in the recesses. Then, an epitaxial silicon layer is applied on the light pervious layer. Next, many light sensitive regions and circuits are formed on the epitaxial silicon layer. Finally, the substrate is etched to expose the filling portions of the light pervious layer, thereby forming the backside illumination image sensor with the filling portions functioning as micro-lenses.Type: GrantFiled: December 30, 2009Date of Patent: May 24, 2011Assignee: Hon Hai Precision Industry Co., Ltd.Inventor: Jen-Tsorng Chang
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Patent number: 7947525Abstract: A method for manufacturing a liquid crystal display includes the following steps. First, source/drain and a bottom electrode are formed over a color filter substrate with a color filter layer. The next step forms source/drain junction regions over the source/drain. A channel region is also formed between the source/drain in this step. A gate dielectric layer and a gate are formed over the channel region and the source/drain junction regions in this step as well. Moreover, a plurality of stack layers and an upper electrode are formed over the bottom electrode in this step, too. Then, a pixel electrode is formed to electrically connect one of the source/drain and the bottom electrode. Then, a passivation layer pattern is formed to cover the source/drain, the gate, the upper electrode and the bottom electrode by backside exposure. Finally, a plurality of steps are performed to finish the liquid crystal display.Type: GrantFiled: October 27, 2006Date of Patent: May 24, 2011Assignee: AU Optronics CorporationInventor: Ming-Hung Shih
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SOLID-STATE IMAGING DEVICE, MANUFACTURING METHOD AND DESIGNING METHOD THEREOF, AND ELECTRONIC DEVICE
Publication number: 20110108705Abstract: A solid-state imaging device includes: a semiconductor substrate that includes a photodiode separately provided for each of pixels disposed in a matrix on a light-receiving surface; a first insulating film formed on the semiconductor substrate so as to cover multilayer wiring formed on and in contact with the semiconductor substrate, wherein the first insulating film is formed using material of a first refractive index lower than a refractive index of the semiconductor substrate for at least bottom surface and top surface portions of the first insulating film; a second insulating film of a second refractive index higher than the first refractive index formed on the first insulating film; a third insulating film of a third refractive index higher than the second refractive index formed on the second insulating film; and a color filter formed on the third insulating film in a corresponding manner with each pixel so as to transmit light in a wavelength region of red, green, or blue.Type: ApplicationFiled: October 29, 2010Publication date: May 12, 2011Applicant: SONY CORPORATIONInventors: Kyoko Izuha, Hiromi Okazaki, Yoshiaki Kitano -
Publication number: 20110108715Abstract: A method for fabricating image sensor is disclosed. The method includes the steps of: providing a substrate, wherein the substrate comprises a plurality of photodiodes; forming at least one dielectric layer and a passivation layer on surface of the substrate; using a patterned photomask to perform a first pattern transfer process for forming a plurality of trenches corresponding to each photodiode in the passivation layer; forming a plurality of color filters in the trenches; covering a planarizing layer on the color filters; and using the patterned photomask to perform a second pattern transfer process for forming a plurality of microlenses corresponding to each color filter on the planarizing layer.Type: ApplicationFiled: November 10, 2009Publication date: May 12, 2011Inventors: Chi-Chung Chen, Wen-Chen Chiang, Yu-Tsung Lin
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Publication number: 20110108709Abstract: A backside illuminated image sensor includes a photodiode, formed below the top surface of a semiconductor substrate, for receiving light illuminated from the backside of the semiconductor substrate to generate photoelectric charges, a reflecting gate, formed on the photodiode over the front upper surface of the semiconductor substrate, for reflecting light illuminated from the backside of the substrate and receiving a bias to control a depletion region of the photodiode, and a transfer gate for transferring photoelectric charges from the photodiode to a sensing node of a pixel.Type: ApplicationFiled: November 30, 2010Publication date: May 12, 2011Applicant: CROSSTEK CAPITAL, LLCInventors: Sung-Hyung Park, Ju-IL Lee
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Publication number: 20110108940Abstract: Provided is a method of fabricating a backside illuminated image sensor that includes providing a device substrate having a frontside and a backside, where pixels are formed at the frontside and an interconnect structure is formed over pixels, forming a re-distribution layer (RDL) over the interconnect structure, bonding a first glass substrate to the RDL, thinning and processing the device substrate from the backside, bonding a second glass substrate to the backside, removing the first glass substrate, and reusing the first glass substrate for fabricating another backside-illuminated image sensor.Type: ApplicationFiled: November 6, 2009Publication date: May 12, 2011Applicant: TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY, LTD.Inventors: Kuan-Chieh Huang, Dun-Nian Yuang, Chih-Jen Wu, Chen-Ming Huang
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Patent number: 7939358Abstract: In an example embodiment, an image sensor includes a semiconductor layer and isolation regions disposed in the semiconductor layer. The isolation regions define active regions of the semiconductor layer. The image sensor further includes photoelectric converters disposed in the semiconductor layer and at least one wiring layer disposed over a top surface of the semiconductor layer. The image sensor also includes color filters disposed below a bottom surface of the semiconductor layer and lenses disposed below the color filters. Each lens is arranged to concentrate incoming light into an area spanned by a corresponding photoelectric converter.Type: GrantFiled: June 3, 2008Date of Patent: May 10, 2011Assignee: Samsung Electronics Co., Ltd.Inventor: Joon-Young Choi
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Publication number: 20110102547Abstract: Image sensors include three-dimensional (3D) color image sensors having an array of sensor pixels therein. A 3-D color image sensor may include a 3-D image sensor pixel having a plurality of color sensors and a depth sensor therein. The plurality of color sensors may include red, green and blue sensors extending adjacent the depth sensor. A rejection filter is also provided. This rejection filter, which extends opposite a light receiving surface of the 3-D image sensor pixel, is configured to be selectively transparent to visible and near-infrared light relative to far-infrared light. The depth sensor may also include an infrared filter that is selectively transparent to near-infrared light having wavelengths greater than about 700 nm relative to visible light.Type: ApplicationFiled: October 15, 2010Publication date: May 5, 2011Inventors: Sang-Chul Sul, Won-Cheol Jung, Yoon-Dong Park, Myung-Bok Lee, Young-Gu Jin
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Publication number: 20110101482Abstract: A method of manufacturing a backside illuminated image sensor includes providing a start material that has a layer of semiconductor material on a substrate. The layer of semiconductor material has a first face and a second, backside, face. The layer of semiconductor material is processed to form semiconductor devices in the layer adjacent the first face. At least a part of the substrate is removed to leave an exposed face. A passivation layer is formed on the exposed face, the passivation layer having negative fixed charges. The passivation layer can be Al2O3 (Sapphire). The passivation layer can have a thickness less than 5 ?m, advantageously less than 1 ?m, and more advantageously in the range 1 nm-150 nm. Another layer, or layers, can be provided on the passivation layer, including: an anti-reflective layer, a layer to improve passivation, a layer including a color filter pattern, a layer comprising a microlens.Type: ApplicationFiled: November 4, 2010Publication date: May 5, 2011Inventor: Guy MEYNANTS
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Patent number: 7935560Abstract: A method of fabricating a CMOS image sensor comprising an array of active pixel cells. Each active pixel cell includes a substrate; a photosensing device formed at or below a substrate surface for collecting charge carriers in response to incident light; and, one or more light transmissive conductive wire structures formed above the photosensing device, the one or more conductive wire structures being located in an optical path above the photosensing device. The formed light transmissive conductive wire structures provide both an electrical and optical function. An optical function is provided by tailoring the thickness of the conductive wire layer to filter light according to a pixel color scheme. Alternately, the light transmissive conductive wire structures may be formed as a microlens structure providing a light focusing function. Electrical functions for the conductive wire layer include use as a capacitor plate, as a resistor or as an interconnect.Type: GrantFiled: September 6, 2007Date of Patent: May 3, 2011Assignee: International Business Machines CorporationInventors: Brent A. Anderson, John J. Ellis-Monaghan, Edward J. Nowak
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Patent number: 7935562Abstract: Method for annealing at least one photovoltaic cell comprising a substrate based on silicon with a first type of conductivity, a layer doped with a second type of conductivity produced in the substrate and forming a front face of the substrate, an antireflection layer produced on the front face of the substrate and forming a front face of the photovoltaic cell, at least one metallization on the front face of the cell and at least on metallization on a rear face of the substrate. This method comprises at least the steps of: a) a first annealing of the photovoltaic cell at a temperature between around 700° C. and 900° C., b) a second annealing of the photovoltaic cell at a temperature between around 200° C. and 500° C., at ambient pressure and in ambient air, with hydrogen being diffused in the substrate during the process.Type: GrantFiled: August 28, 2007Date of Patent: May 3, 2011Assignee: Commissariat a l'Energie AtomiqueInventors: Nicolas Enjalbert, Sébastein Dubois
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Patent number: 7936528Abstract: A graded order-sorting filter for hyperspectral imagers and methods of making the same are provided. The graded order-sorting filter includes a substrate wafer having a first side and a second side and is formed of a material that is substantially transparent to light photons. The graded order-sorting filter also includes an absorption filter deposited outwardly from the first side of the substrate wafer. The absorption filter is tapered along a taper direction and formed of a graded composition semiconductor material with a bandgap graded to decrease outwardly from the substrate wafer and/or graded along the taper direction. The graded composition semiconductor material is substantially transparent to the light photons for photon energies substantially less than the bandgap. The above filter can also be aligned to a two-dimensional array of pixels to form a hyperspectral imager.Type: GrantFiled: December 31, 2008Date of Patent: May 3, 2011Assignee: Teledyne Scientific & Imaging, LLCInventor: William E Tennant
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Patent number: 7935561Abstract: A method for forming a shielded gate field effect transistor includes the following steps. Trenches are formed in a semiconductor region of a first conductivity type. A shield electrode is formed in a bottom portion of each trench, the shield electrode being insulated from the semiconductor region by a shield dielectric. A gate electrode recessed in each trench is formed over the shield electrode, the gate electrode being insulated from the shield electrode. Using a first mask, a body region of a second conductivity type is formed in the semiconductor region by implanting dopants. Using the first mask, source regions of the first conductivity type are formed in the body region by implanting dopants.Type: GrantFiled: June 8, 2009Date of Patent: May 3, 2011Assignee: Fairchild Semiconductor CorporationInventor: Chanho Park
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Patent number: 7932120Abstract: Complementary metal-oxide semiconductor (CMOS) image sensors (CIS) and methods of manufacturing the same are provided, the sensors include an epitaxial layer on a substrate in which a first, second, third and fourth region are defined. A photodiode may be formed at an upper portion of the epitaxial layer in the first region. A plurality of gate structures may be formed on the epitaxial layer in the second, third and fourth regions. A first blocking layer may be formed on the gate structures and the epitaxial layer in the first and second regions. A first impurity layer may be formed at an upper portion of the epitaxial layer adjacent to the gate structures in the second region, and a second impurity layer at upper portions of the epitaxial layer adjacent to the gate structures in the third and fourth regions. A color filter layer may be formed over the photodiode. A microlens may be formed on the color filter layer.Type: GrantFiled: August 27, 2009Date of Patent: April 26, 2011Assignee: Samsung Electronics Co., Ltd.Inventors: Ui-Sik Kim, Young-Hoon Park, Won-Je Park, Dae-Cheol Seong, Yeo-Ju Yoon, Bo-Bae Kang
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Patent number: 7932122Abstract: A method of manufacturing a solid state image pickup device including photoelectric conversion elements which are two-dimensionally arranged in a semiconductor substrate, and a color filter having a plurality of color filter patterns differing in color from each other and disposed on a surface of the semiconductor substrate according to the photoelectric conversion elements. The method includes successively subjecting a plurality of filter layers differing in color from each other to a patterning process to form the plurality of color filter patterns. At least one color filter pattern to be formed at first among the plurality of color filter patterns is formed by dry etching, and the rest of the plurality of the color filter pattern is formed by photolithography.Type: GrantFiled: April 13, 2010Date of Patent: April 26, 2011Assignee: Toppan Printing Co., Ltd.Inventors: Keisuke Ogata, Kenzo Fukuyoshi, Tadashi Ishimatsu, Mitsuhiro Nakao, Satoshi Kitamura
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Publication number: 20110089514Abstract: An image sensor pixel array includes a photoelectric conversion unit comprising a second region in a substrate and vertically below a gate electrode of a transistor. A first region under a top surface of the substrate and above the second region supports a channel of the transistor. A color filter transmits a light via a light guide, the gate electrode and the first region to generate carriers collected by the second region. The gate electrode may be made thinner by a wet etch. An etchant for thinning the gate electrode may be introduced through an opening in an insulating film on the substrate. The light guide may be formed in the opening after the thinning. An anti-reflection stack may be formed at a bottom of the opening prior to forming the light guide.Type: ApplicationFiled: October 18, 2010Publication date: April 21, 2011Inventor: Hiok Nam TAY