Photodiode Array Or Mos Imager (epo) Patents (Class 257/E27.133)
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Patent number: 8823123Abstract: According to one embodiment, there is provided a solid-state image sensor including a photoelectric conversion layer, and a multilayer interference filter. The multilayer interference filter is arranged to conduct light of a particular color, of incident light, selectively to the photoelectric conversion layer. The multilayer interference filter has a laminate structure in which a first layer having a first refraction index and a second layer having a second refraction index are repeatedly laminated, and a third layer which is in contact with a lower surface of the laminate structure and has a third refraction index. A lowermost layer of the laminate structure is the second layer. The third refraction index is not equal to the first refraction index and is higher than the second refraction index.Type: GrantFiled: August 31, 2012Date of Patent: September 2, 2014Assignee: Kabushiki Kaisha ToshibaInventors: Koichi Kokubun, Yusaku Konno
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Patent number: 8816412Abstract: An image sensor having a light receiving region and an optical black region includes a semiconductor substrate, an interconnection disposed on the semiconductor substrate and extending along an interface between the light receiving region and the optical black region, and via plugs disposed between the interconnection and the semiconductor substrate and serving as light shielding members at the interface. The via plugs are arranged in a zigzagging pattern along the interface.Type: GrantFiled: June 8, 2011Date of Patent: August 26, 2014Assignee: Samsung Electronics Co., Ltd.Inventors: Keon Yong Cheon, Jong-Won Choi, Sung-Hyun Yoon
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Patent number: 8816405Abstract: 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: GrantFiled: April 12, 2011Date of Patent: August 26, 2014Assignee: Micron Technology, Inc.Inventor: Salman Akram
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Patent number: 8809925Abstract: An image sensor pixel includes a photosensitive element, a floating diffusion (“FD”) region, and a transfer device. The photosensitive element is disposed in a substrate layer for accumulating an image charge in response to light. The FD region is disposed in the substrate layer to receive the image charge from the photosensitive element. The transfer device is disposed between the photosensitive element and the FD region to selectively transfer the image charge from the photosensitive element to the FD region. The transfer device includes a gate, a buried channel dopant region and a surface channel region. The gate is disposed between the photosensitive element and the FD region. The buried channel dopant region is disposed adjacent to the FD region and underneath the gate. The surface channel region is disposed between the buried channel dopant region and the photosensitive element and disposed underneath the gate.Type: GrantFiled: October 11, 2012Date of Patent: August 19, 2014Assignee: OmniVision Technologies, Inc.Inventors: Gang Chen, Hsin-Chih Tai, Duli Mao, Zhenhong Fu
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Patent number: 8809913Abstract: In accordance with an embodiment, a gating device is connected to a pixel core. The gating device may include a control structure and one or more terminals, wherein the one or more terminals are commonly connected to each other and connected to the pixel core. Alternatively, the terminals may be connected to corresponding photodiodes.Type: GrantFiled: November 7, 2012Date of Patent: August 19, 2014Assignee: Semiconductor Components Industries, LLCInventor: Yannick De Wit
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Patent number: 8803204Abstract: In a manufacturing method of a solid-state image pickup device according to an embodiment, a transfer gate electrode is formed in a predetermined position on an upper surface of a first conductive semiconductor area, through a gate insulating film. A second conductive charge storage area is formed in an area adjacent to the transfer gate electrode in the first conductive semiconductor area. A sidewall is formed on a side surface of the transfer gate electrode. An insulating film is formed to extend from a circumference surface of the sidewall on a side of the charge storage area to a position partially covering the upper part of the charge storage area. A first conductive charge storage layer is formed in the charge storage area by implanting first conductive impurities from above, into the charge storage area which is partially covered with the insulating film.Type: GrantFiled: May 17, 2013Date of Patent: August 12, 2014Assignee: Kabushiki Kaisha ToshibaInventors: Atsushi Ohta, Hitohisa Ono
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Patent number: 8803057Abstract: A method of resetting a photosite is disclosed. Photogenerated charges accumulated in the photosite are reset by recombining the photogenerated charges with charges of opposite polarity.Type: GrantFiled: July 18, 2011Date of Patent: August 12, 2014Assignees: STMicroelectronics (Crolles 2) SAS, STMicroelectronics SAInventors: François Roy, Julien Michelot
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Patent number: 8796748Abstract: Transistors, methods of manufacturing thereof, and image sensor circuits are disclosed. In one embodiment, a transistor includes a buried channel disposed in a workpiece, a gate dielectric disposed over the buried channel, and a gate layer disposed over the gate dielectric. The gate layer comprises an I shape in a top view of the transistor.Type: GrantFiled: August 8, 2012Date of Patent: August 5, 2014Assignee: Taiwan Semiconductor Manufacturing Company, Ltd.Inventors: Fredrik Ramberg, Tse-Hua Lu, Tsun-Lai Hsu, Victor Chiang Liang, Chi-Feng Huang, Yu-Lin Wei, Shu Fang Fu
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Patent number: 8791514Abstract: An apparatus and method to decrease light saturation in a photosensor array and increase detection efficiency uses a light distribution profile from a scintillator-photodetector geometry to configure the photosensor array to have a non-uniform sensor cell pattern, with varying cell density and/or varying cell size and shape. A solid-state photosensor such as a SiPM sensor having such a non-uniform cell structure realizes improved energy resolution, higher efficiency and increased signal linearity. In addition the non-uniform sensor cell array can have improved timing resolution due to improvements in statistical fluctuations. A particular embodiment for such photosensors is in PET medical imaging.Type: GrantFiled: July 2, 2012Date of Patent: July 29, 2014Assignees: Siemens Medical Solutions USA, Inc., Siemens AktiengesellschaftInventors: Debora Henseler, Ronald Grazioso, Nan Zhang
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Patent number: 8791541Abstract: 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: GrantFiled: July 5, 2012Date of Patent: July 29, 2014Assignee: Taiwan Semiconductor Manufacturing Company, Ltd.Inventors: Kuan-Chieh Huang, Dun-Nian Yaung, Chih-Jen Wu, Chen-Ming Huang
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Solid state imaging device, method of producing solid state imaging device, and electronic apparatus
Patent number: 8790949Abstract: A solid state imaging device includes: a substrate; a photoelectric conversion unit that is formed on the substrate to generate and accumulate signal charges according to light quantity of incident light; a vertical transmission gate electrode that is formed to be embedded in a groove portion formed in a depth direction from one side face of the substrate according to a depth of the photoelectric conversion unit; and an overflow path that is formed on a bottom portion of the transmission gate to overflow the signal charges accumulated in the photoelectric conversion unit.Type: GrantFiled: December 13, 2013Date of Patent: July 29, 2014Assignee: Sony CorporationInventor: Ryosuke Nakamura -
Patent number: 8785983Abstract: A solid-state image pickup device 1 according to the present invention includes a semiconductor substrate 2 on which a pixel 20 composed of a photodiode 3 and a transistor is formed. The transistor comprising the pixel 20 is formed on the surface of the semiconductor substrate, a pn junction portion formed between high concentration regions of the photodiode 3 is provided within the semiconductor substrate 2 and a part of the pn junction portion of the photodiode 3 is extended to a lower portion of the transistor formed on the surface of the semiconductor substrate 2. According to the present invention, there is provided a solid-state image pickup device in which a pixel size can be microminiaturized without lowering a saturated electric charge amount (Qs) and sensitivity.Type: GrantFiled: April 29, 2013Date of Patent: July 22, 2014Assignee: Sony CorporationInventors: Takayuki Ezaki, Teruo Hirayama
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Patent number: 8779482Abstract: Provided is a semiconductor device having good properties. Particularly, the semiconductor device is provided which can improve imaging properties. The semiconductor device (CMOS image sensor) includes a plurality of pixels, each having a photodiode PD for generating a charge by receiving light, and a transfer transistor TX for transferring the charge generated by the photodiode PD. The semiconductor device further includes an active region AcTP with the photodiode, and an active region AcG located on an upper side of the region AcTP in the planar direction and having a contact Pg to which a ground potential is applied. A gettering region GET is disposed in the active region AcG.Type: GrantFiled: June 4, 2013Date of Patent: July 15, 2014Assignee: Renesas Electronics CorporationInventor: Tadashi Yamaguchi
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Patent number: 8772844Abstract: Capacitance between a detection capacitor and a reset transistor is the largest among the capacitances between the detection capacitor and transistors placed around the detection capacitor. In order to reduce this capacitance, it is effective to reduce the channel width of the reset transistor. It is possible to reduce the effective channel width by distributing, in the vicinity of the channel of the reset transistor and the boundary line between an active region and an element isolation region, ions which enhance the generation of carriers of an opposite polarity to the channel.Type: GrantFiled: December 29, 2011Date of Patent: July 8, 2014Assignee: Wi Lan, Inc.Inventors: Motonari Katsuno, Ryouhei Miyagawa, Masayuki Matsunaga
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Patent number: 8766391Abstract: Photodetector arrays, image sensors, and other apparatus are disclosed. In one aspect, an apparatus may include a surface to receive light, a plurality of photosensitive regions disposed within a substrate, and a material coupled between the surface and the plurality of photosensitive regions. The material may receive the light. At least some of the light may free electrons in the material. The apparatus may also include a plurality of discrete electron repulsive elements. The discrete electron repulsive elements may be coupled between the surface and the material. Each of the discrete electron repulsive elements may correspond to a different photosensitive region. Each of the discrete electron repulsive elements may repel electrons in the material toward a corresponding photosensitive region. Other apparatus are also disclosed, as are methods of use, methods of fabrication, and systems incorporating such apparatus.Type: GrantFiled: March 26, 2012Date of Patent: July 1, 2014Assignee: OmniVision Technologies, Inc.Inventor: Hidetoshi Nozaki
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Patent number: 8754457Abstract: An output terminal of a photoelectric conversion element included in the photoelectric conversion device is connected to a drain terminal and a gate terminal of a MOS transistor which is diode-connected, and a voltage Vout generated at the gate terminal of the MOS transistor is detected in accordance with a current Ip which is generated at the photoelectric conversion element. The voltage Vout generated at the gate terminal of the MOS transistor can be directly detected, so that the range of output can be widened than a method in which an output voltage is converted into a current by connecting a load resistor, and so on.Type: GrantFiled: February 22, 2012Date of Patent: June 17, 2014Assignee: Semiconductor Energy Laboratory Co., Ltd.Inventors: Makoto Yanagisawa, Atsushi Hirose
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Patent number: 8748952Abstract: A system and method for image sensing is disclosed. An embodiment comprises a substrate with a pixel region, the substrate having a front side and a backside. A co-implant process is performed along the backside of the substrate opposing a photosensitive element positioned along the front side of the substrate. The co-implant process utilizes a first pre-amorphization implant process that creates a pre-amorphization region. A dopant is then implanted wherein the pre-amorphization region retards or reduces the diffusion or tailing of the dopants into the photosensitive region. An anti-reflective layer, a color filter, and a microlens may also be formed over the co-implant region.Type: GrantFiled: May 10, 2013Date of Patent: June 10, 2014Assignee: Taiwan Semiconductor Manufacturing Company, Ltd.Inventors: Cheng-Tsung Chen, Hsun-Ying Huang, Yung-Cheng Chang, Yung-Fu Yeh, Yu-Ping Chen, Chi-Yuan Liang, Shou Shu Lu, Juan-Lin Chen, Jia-Ren Chen, Horng-Daw Shen, Chi-Hsun Hsieh
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Patent number: 8748955Abstract: A CMOS image sensor includes a substrate, a punch-through prevention layer formed over the substrate, an epitaxial layer formed over the punch-through prevention layer, a gate electrode formed over the epitaxial layer; a photodiode formed in the epitaxial layer to be substantially aligned with one side of the gate electrode, a floating diffusion region formed in the epitaxial layer to be substantially aligned with the other side of the gate electrode, and an extended photodiode region formed below the photodiode to be coupled with the punch-through prevention layer.Type: GrantFiled: August 30, 2012Date of Patent: June 10, 2014Assignee: SK Hynix Inc.Inventor: Youn-Sub Lim
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Patent number: 8736007Abstract: A method and device is disclosed for reducing noise in CMOS image sensors. An improved CMOS image sensor includes a light sensing structure surrounded by a support feature section. An active section of the light sensing structure is covered by no more than optically transparent materials. A light blocking portion includes an opaque layer or a black light filter layer in conjunction with an opaque layer, covering the support feature section. The light blocking portion may also cover a peripheral portion of the light sensing structure. The method for forming the CMOS image sensors includes using film patterning and etching processes to selectively form the opaque layer and the black light filter layer where the light blocking portion is desired, but not over the active section. The method also provides for forming microlenses over the photosensors in the active section.Type: GrantFiled: September 21, 2012Date of Patent: May 27, 2014Assignee: Taiwan Semiconductor Manufacturing Co., Ltd.Inventors: Tien-Chi Wu, Tsung-Yi Lin
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Patent number: 8729655Abstract: Methods of forming isolation structures are disclosed. A method of forming isolation structures for an image sensor array of one aspect may include forming a dielectric layer over a semiconductor substrate. Narrow, tall dielectric isolation structures may be formed from the dielectric layer. The narrow, tall dielectric isolation structures may have a width that is no more than 0.3 micrometers and a height that is at least 1.5 micrometers. A semiconductor material may be epitaxially grown around the narrow, tall dielectric isolation structures. Other methods and apparatus are also disclosed.Type: GrantFiled: August 2, 2012Date of Patent: May 20, 2014Assignee: OmniVision Technologies, Inc.Inventors: Chia-Ying Liu, Keh-Chiang Ku, Wu-Zhang Yang
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Patent number: 8723100Abstract: A Geiger-mode avalanche photodiode may include an anode, a cathode, an output pad electrically insulated from the anode and the cathode, a semiconductor layer having resistive anode and cathode regions, and a metal structure in the semiconductor layer and capacitively coupled to a region from the resistive anode and resistive cathode regions and connected to the output pad. The output pad is for detecting spikes correlated to avalanche events.Type: GrantFiled: March 22, 2011Date of Patent: May 13, 2014Assignee: STMicroelectronics S.R.L.Inventors: Delfo Nunziato Sanfilippo, Giovanni Condorelli
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Patent number: 8710561Abstract: A pixel structure of a solid-state image sensor in which residual electrons in a photodiode is reduced and which has a first-stage gate that is arranged adjacent to the photodiode and controls read-out of electrons generated in the photodiode, a second-stage gate that is adjacent to the first-stage gate on the rear stage of the gate at a predetermined gap and controls movement of electrons read out by the readout control of the first-stage gate to the plurality of the charge-storage sections, and a plurality of third-stage gates that are adjacent to the second-stage gate on the rear stage of the gate at a predetermined gap, severally arranged corresponding to the plurality of the charge-storage sections, and perform control of distributing the electrons moved by the movement control of the second-stage gate severally to the plurality of the charge-storage sections, and gradient on which electrons are moved in the first-stage gate direction is formed on the potential of the photodiode.Type: GrantFiled: May 11, 2009Date of Patent: April 29, 2014Assignees: Brainvision Inc., Stanley Electric Co., Ltd.Inventors: Michinori Ichikawa, Takanori Tanite, Tadashi Kawata, Ryohoi Ikono
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Patent number: 8710613Abstract: A pickup device according to the present invention includes a photoelectric conversion portion, a charge holding portion configured to include a first semiconductor region, and a transfer portion configured to include a transfer gate electrode that controls a potential between the charge holding portion and a sense node. A second semiconductor region is disposed on a surface of a semiconductor region between the control electrode and the transfer gate electrode. A third semiconductor region is disposed below the second semiconductor region. An impurity concentration of the third semiconductor region is higher than the impurity concentration of the first semiconductor region.Type: GrantFiled: October 6, 2010Date of Patent: April 29, 2014Assignee: Canon Kabushiki KaishaInventors: Yuichiro Yamashita, Masahiro Kobayashi, Yusuke Onuki
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Publication number: 20140103410Abstract: An image sensor pixel includes a photosensitive element, a floating diffusion (“FD”) region, and a transfer device. The photosensitive element is disposed in a substrate layer for accumulating an image charge in response to light. The FD region is dispose in the substrate layer to receive the image charge from the photosensitive element. The transfer device is disposed between the photosensitive element and the FD region to selectively transfer the image charge from the photosensitive element to the FD region. The transfer device includes a gate, a buried channel dopant region and a surface channel region. The gate is disposed between the photosensitive element and the FD region. The buried channel dopant region is disposed adjacent to the FD region and underneath the gate. The surface channel region is disposed between the buried channel dopant region and the photosensitive element and disposed underneath the gate.Type: ApplicationFiled: October 11, 2012Publication date: April 17, 2014Applicant: OMNIVISION TECHNOLOGIES, INC.Inventors: Gang Chen, Hsin-Chih Tai, Duli Mao, Zhenhong Fu
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Patent number: 8698208Abstract: A manufacturing method of a photoelectric conversion device comprises a first step of forming a gate electrode, a second step of forming a semiconductor region of a first conductivity type, a third step of forming an insulation film, and a fourth step of forming a protection region of a second conductivity type, which is the opposite conductivity type to the first conductivity type, by implanting ions in the semiconductor region using the gate electrode of the transfer transistor and a portion covering a side face of the gate electrode of the transfer transistor of the insulation film as a mask in a state in which the semiconductor substrate and the gate electrode of the transfer transistor are covered by the insulation film, and causing a portion of the semiconductor region of the first conductivity type from which the protection region is removed to be the charge accumulation region.Type: GrantFiled: March 27, 2012Date of Patent: April 15, 2014Assignee: Canon Kabushiki KaishaInventors: Ryuichi Mishima, Mineo Shimotsusa, Hiroaki Naruse
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Patent number: 8686483Abstract: A photosite may include, in a semi-conductor substrate, a photodiode pinched in the direction of the depth of the substrate including a charge storage zone, and a charge transfer transistor to transfer the stored charge. The charge storage zone may include a pinching in a first direction passing through the charge transfer transistor defining a constriction zone adjacent to the charge transfer transistor.Type: GrantFiled: February 16, 2012Date of Patent: April 1, 2014Assignees: STMicroelectronics SA, STMicroelectronics (Crolles 2) SASInventors: Julien Michelot, Francois Roy, Frederic Lalanne
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Patent number: 8686481Abstract: Disclosed are embodiments of a semiconductor device comprising a semiconductor body with a semiconductor image sensor comprising a two-dimensional matrix of picture elements, each picture element comprising a radiation-sensitive element coupled to MOS field effect transistors for reading the radiation-sensitive elements, wherein a semiconductor region is sunken in the surface of the body having the same conductivity type as the body and having an increased doping concentration, the semiconductor region being disposed between the radiation-sensitive elements of neighboring picture elements.Type: GrantFiled: April 26, 2006Date of Patent: April 1, 2014Assignee: TrixellInventors: Joris Pieter Valentijn Maas, Willem-Jan Toren, Hein Otto Folkerts, Willem Hendrik Maes, Willem Hoekstra, Daniel Wilhelmus Elisabeth Verbugt, Daniel Hendrik Jan Maria Hermes
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Patent number: 8686480Abstract: Disclosed is a method for manufacturing a semiconductor device that can improve the performance of a photodiode that is formed on a same substrate as a thin film transistor without greatly deteriorating the productivity of the semiconductor device. On a glass substrate 30, a base layer 31 having a recess 33b on the surface is formed, and on the base layer 31, an amorphous silicon thin film 42 is formed. The amorphous silicon thin film 42 is melted to form a crystalline silicon thin film 43, while moving the molten silicon into the recess 33b. Of the silicon thin film 43, a silicon film 11 that constitutes a portion of a thin film transistor 10 is formed of the silicon thin film 43 in a part other than the recess 33b, while a silicon film 21 that constitutes a portion of a photodiode 20 is formed of the silicon thin film 43 in the recess 33b.Type: GrantFiled: April 6, 2011Date of Patent: April 1, 2014Assignee: Sharp Kabushiki KaishaInventors: Tsuyoshi Itoh, Hiroshi Nakatsuji, Masahiro Fujiwara
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Patent number: 8686477Abstract: Pixel array structures to provide a ground contact for a CMOS pixel cell. In an embodiment, an active area of a pixel cell includes a photodiode disposed in a first portion of an active area, where a second portion of the active area extends from a side of the first portion. The second portion includes a doped region to provide a ground contact for the active area. In another embodiment, the pixel cell includes a transistor to transfer the charge from the photodiode, where a gate of the transistor is adjacent to the second portion and overlaps the side of the first portion.Type: GrantFiled: July 25, 2012Date of Patent: April 1, 2014Assignee: OmniVision Technologies, Inc.Inventors: Sohei Manabe, Jeong-Ho Lyu
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Patent number: 8680514Abstract: An electric energy generator may include a semiconductor layer and a plurality of nanowires having piezoelectric characteristics. The electric energy generator may convert optical energy into electric energy if external light is applied and may generate piezoelectric energy if external pressure (e.g., sound or vibration) is applied.Type: GrantFiled: October 27, 2010Date of Patent: March 25, 2014Assignee: Samsung Electronics Co., Ltd.Inventors: Young-jun Park, Seung-nam Cha
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Patent number: 8680639Abstract: A photodetector with a bandwidth-tuned cell structure is provided. The photodetector is fabricated from a semiconductor substrate that is heavily doped with a first dopant. A plurality of adjoining cavities is formed in the semiconductor substrate having shared cell walls. A semiconductor well is formed in each cavity, moderately doped with a second dopant opposite in polarity to the first dopant. A layer of oxide is grown overlying the semiconductor wells and an annealing process is performed. Then, metal pillars are formed that extend into each semiconductor well having a central axis aligned with an optical path. A first electrode is connected to the metal pillar of each cell, and a second electrode connected to the semiconductor substrate. The capacitance between the first and second electrodes decreases in response to forming an increased number of semiconductor wells with a reduced diameter, and forming metal pillars with a reduced diameter.Type: GrantFiled: January 23, 2012Date of Patent: March 25, 2014Assignees: Applied Micro Circuits Corporation, Volex PLCInventors: Subhash Roy, Igor Zhovnirovsky, Sergey Vinogradov
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Patent number: 8679890Abstract: A method includes: forming a transfer gate on a semiconductor substrate; forming a first ion implantation region on a first side of the transfer gate; forming a second ion implantation region on the first side of the transfer gate such that the second ion implantation region encloses the first ion implantation region; forming a third ion implantation region along a surface of the semiconductor substrate; and forming a floating diffusion region at a second side of the transfer gate.Type: GrantFiled: September 22, 2011Date of Patent: March 25, 2014Assignee: Intellectual Ventures II LLCInventor: Youn-Sub Lim
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Patent number: 8674468Abstract: A method of fabricating an imaging array includes providing a single crystal silicon substrate and bonding the single crystal silicon substrate to an insulating substrate. One or more portions of an exposed surface of the single-crystal silicon substrate are removed to form a pattern of first areas having a first height measured from the insulating substrate and second areas having a second height measured from the insulating substrate. Photosensitive elements are formed on the first areas and readout elements are formed on the second areas. The single-crystal silicon substrate is treated by hydrogen implantation to form an internal separation boundary and a portion of the single-crystal silicon substrate is removed at the internal separation boundary to form the exposed surface.Type: GrantFiled: May 29, 2009Date of Patent: March 18, 2014Assignee: Carestream Health, Inc.Inventors: Timothy J. Tredwell, Jackson Lai
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Patent number: 8674417Abstract: A solid-state imaging device including: a substrate; a light-receiving part; a second-conductivity-type isolation layer; a detection transistor; and a reset transistor.Type: GrantFiled: March 21, 2012Date of Patent: March 18, 2014Assignee: Sony CorporationInventor: Isao Hirota
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Patent number: 8674401Abstract: This invention comprises photodiodes, optionally organized in the form of an array, including p+ deep diffused regions or p+ and n+ deep diffused regions. More specifically, the invention permits one to fabricate thin 4 inch and 6 inch wafer using the physical support provided by a n+ deep diffused layer and/or p+ deep diffused layer. Consequently, the present invention delivers high device performances, such as low crosstalk, low radiation damage, high speed, low leakage dark current, and high speed, using a thin active layer.Type: GrantFiled: July 8, 2009Date of Patent: March 18, 2014Assignee: OSI Optoelectronics, Inc.Inventors: Peter Steven Bui, Narayan Dass Taneja
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Patent number: 8669634Abstract: To provide a solid-state imaging device able to improve light transmittance of a transparent insulation film in a light incident side of a substrate, suppress the dark current, and prevent a quantum efficiently loss, wherein a pixel circuit is formed in a first surface of the substrate and light is received from a second surface, and having: a light receiving unit formed in the substrate and for generating a signal charge corresponding to an amount of incidence light and storing it; a transparent first insulation film formed on the second surface; and a transparent second insulation film formed on the first insulation film and for retaining a charge having the same polarity as the signal charge in an interface of the first insulation film or in inside, thicknesses of the first and second insulation film being determined to obtain a transmittance higher than when using only the first insulation film.Type: GrantFiled: November 14, 2012Date of Patent: March 11, 2014Assignee: Sony CorporationInventors: Hideo Kanbe, Takayuki Ezaki
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Patent number: 8669133Abstract: The present disclosure provides an image sensor semiconductor device. The semiconductor device includes a semiconductor substrate having a first type of dopant; a semiconductor layer having a second type of dopant different from the first type of dopant and disposed on the semiconductor substrate; and an image sensor formed in the semiconductor layer.Type: GrantFiled: May 14, 2010Date of Patent: March 11, 2014Assignee: Taiwan Semiconductor Manufacturing Company, Ltd.Inventors: Chung-Wei Chang, Han-Chi Liu, Chun-Yao Ko, Shou-Gwo Wuu
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Patent number: 8664661Abstract: A method of fabricating a TFT includes providing a substrate where a gate, an insulating layer, and a channel layer are formed. A conductive layer is formed on the substrate to cover the channel layer and the insulating layer. A photoresist layer is formed on the conductive layer. A photo mask is placed above the photoresist layer and has a data line pattern, a source pattern, and a drain pattern. A first width (W1) between the source pattern and the drain pattern and a second width (W2) of the data line pattern satisfy the following: if W1?1(um), then W2+a(um), and 0.3<a<0.7. An exposing process is performed by using the photo mask, and a development process is performed to pattern the photoresist layer. The conductive layer is patterned by using the photoresist layer as an etching mask to form a source, a drain, and a data line.Type: GrantFiled: June 13, 2013Date of Patent: March 4, 2014Assignee: Au Optronics CorporationInventors: Huang-Chun Wu, Shine-Kai Tseng
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Patent number: 8659061Abstract: In one embodiment, a solid-state image capturing element of an embodiment has: a semiconductor substrate; a photodiode formed on the semiconductor substrate; a capacitor formed on the semiconductor substrate and including a first electrode layer, an insulating layer, and a second electrode layer which are stacked in sequence; a transistor formed on the semiconductor substrate and including a floating gate and a control gate; and a first electrode portion electrically connecting the second electrode layer and an n-type diffusion layer or a p-type diffusion layer constituting the photodiode. Further, the first electrode layer of the capacitor is constituted by the floating gate of the transistor, and the second electrode layer of the capacitor and the control gate of the transistor are discontinuous.Type: GrantFiled: September 12, 2012Date of Patent: February 25, 2014Assignee: Kabushiki Kaisha ToshibaInventor: Keisuke Nakatsuka
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Patent number: 8652864Abstract: A solid-state image pickup device includes an element isolation insulating film electrically isolating pixels on the surface of a well region; a first isolation diffusion layer electrically isolating the pixels under the element isolation insulating film; and a second isolation diffusion layer electrically isolating the pixels under the first isolation diffusion layer, wherein a charge accumulation region is disposed in the well region surrounded by the first and second isolation diffusion layers, the inner peripheral part of the first isolation diffusion layer forms a projecting region, an impurity having a conductivity type of the first isolation diffusion layer and an impurity having a conductivity type of the charge accumulation region are mixed in the projecting region, and a part of the charge accumulation region between the charge accumulation region and the second isolation diffusion layer is abutted or close to the second isolation diffusion layer under the projecting region.Type: GrantFiled: October 13, 2010Date of Patent: February 18, 2014Assignee: Sony CorporationInventors: Keiji Tatani, Hideshi Abe, Masanori Ohashi, Atsushi Masagaki, Atsuhiko Yamamoto, Masakazu Furukawa
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Patent number: 8653526Abstract: A display panel having a display area and a gate driving area includes a gate line and plural pixel units in the display area, and a gate driver circuit in the gate driving area. The gate line connects to the pixel units. The gate driver circuit connects to the gate line. The gate driver includes a driving transistor and a driving storage capacitor stacked to each other to form a stack structure, which includes a first electrode, a first dielectric layer, a second electrode, a second dielectric layer, a first semiconductor layer, a drain electrode, and a source electrode, which is connected to the gate line. The driving storage capacitor is formed by the first electrode, the first dielectric layer, and the second electrode. The driving transistor is formed by the second electrode, the second dielectric layer, the first semiconductor layer, the source electrode, and the drain electrode.Type: GrantFiled: March 15, 2013Date of Patent: February 18, 2014Assignee: AU Optronics CorporationInventors: Chen-Yuan Lei, Meng-Chieh Tsai
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Publication number: 20140035082Abstract: A device includes a plurality of isolation spacers, and a plurality of bottom electrodes, wherein adjacent ones of the plurality of bottom electrodes are insulated from each other by respective ones of the plurality of isolation spacers. A plurality of photoelectrical conversion regions overlaps the plurality of bottom electrodes, wherein adjacent ones of the plurality of photoelectrical conversion regions are insulated from each other by respective ones of the plurality of isolation spacers. A top electrode overlies the plurality of photoelectrical conversion regions and the plurality of isolation spacers.Type: ApplicationFiled: October 17, 2012Publication date: February 6, 2014Applicant: TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY, LTD.Inventors: Yi-Shin Chu, Cheng-Tao Lin, Meng-Hsun Wan, Szu-Ying Chen, Jen-Cheng Liu, Dun-Nian Yaung
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Patent number: 8642374Abstract: An image sensor is described in which the imaging pixels have reduced noise by blocking nitridation in selected areas. In one example, a method includes forming a first and second gate oxide layer over a substrate, forming a layer of photoresist over the first gate oxide layer, applying nitridation to the photoresist and the second gate oxide layer such that the first gate oxide layer is protected from the nitridation by the photoresist, and forming a polysilicon gate over the first and second gate oxide layers.Type: GrantFiled: September 7, 2011Date of Patent: February 4, 2014Assignee: OmniVision Technologies, Inc.Inventors: Jeong-Ho Lyu, Sohei Manabe, Howard Rhodes
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Publication number: 20140027827Abstract: Pixel array structures to provide a ground contact for a CMOS pixel cell. In an embodiment, an active area of a pixel cell includes a photodiode disposed in a first portion of an active area, where a second portion of the active area extends from a side of the first portion. The second portion includes a doped region to provide a ground contact for the active area. In another embodiment, the pixel cell includes a transistor to transfer the charge from the photodiode, where a gate of the transistor is adjacent to the second portion and overlaps the side of the first portion.Type: ApplicationFiled: July 25, 2012Publication date: January 30, 2014Applicant: OMNIVISION TECHNOLOGIES, INC.Inventors: Sohei Manabe, Jeong-Ho Lyu
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Patent number: 8629486Abstract: A complementary metal-oxide-semiconductor (CMOS) image sensor, including a wiring layer, a photodiode stacked with the wiring layer, a micro-lens stacked on the photodiode, an anti-reflection layer stacked on the photodiode. An anti-absorption layer may be provided between the photodiode and the anti-reflection layer. The photodiode may include a first portion and a second portion. Light may be focused on the first portion by the micro-lens and the second portion may at least partially surround the first portion. A material of the first portion may have a refractive index higher than a refractive index of a material of the second portion. The anti-absorption layer may include a compound semiconductor having an energy band gap greater than an energy band gap of a semiconductor included in the photodiode.Type: GrantFiled: June 29, 2011Date of Patent: January 14, 2014Assignee: Samsung Electronics Co., Ltd.Inventors: Jung-chak Ahn, Eun-sub Shim, Bum-suk Kim, Kyung-ho Lee
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Patent number: 8629485Abstract: A semiconductor photodetection element SP has a silicon substrate 21 comprised of a semiconductor of a first conductivity type, having a first principal surface 21a and a second principal surface 21b opposed to each other, and having a semiconductor layer 23 of a second conductivity type formed on the first principal surface 21a side; and charge transfer electrodes 25 provided on the first principal surface 21a and adapted to transfer generated charge. In the silicon substrate 21, an accumulation layer 31 of the first conductivity type having a higher impurity concentration than the silicon substrate 21 is formed on the second principal surface 21b side and an irregular asperity 10 is formed in a region opposed to at least the semiconductor region 23, in the second principal surface 21b. The region where the irregular asperity 10 is formed in the second principal surface 21b of the silicon substrate 21 is optically exposed.Type: GrantFiled: February 9, 2010Date of Patent: January 14, 2014Assignee: Hamamatsu Photonics K.K.Inventors: Kazuhisa Yamamura, Akira Sakamoto, Terumasa Nagano, Yasuhito Miyazaki, Yasuhito Yoneta, Hisanori Suzuki, Masaharu Muramatsu
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Patent number: 8624307Abstract: An image pickup device includes pixels, each including a photoelectric conversion unit and a transfer unit. The photoelectric conversion unit includes a first-conductivity-type first semiconductor region and a second-conductivity-type second semiconductor region. A second-conductivity-type third semiconductor region is formed on at least a part of a gap between a photoelectric conversion unit of a first pixel and a photoelectric conversion unit of a second pixel adjacent to the first pixel. A first-conductivity-type fourth semiconductor region having an impurity concentration higher than an impurity concentration of the first semiconductor region is formed between the photoelectric conversion unit and the third semiconductor region. A first-conductivity-type fifth semiconductor region having an impurity concentration higher than the first semiconductor region is arranged between the photoelectric conversion unit and the third semiconductor region and is arranged deeper than fourth semiconductor region.Type: GrantFiled: May 23, 2012Date of Patent: January 7, 2014Assignee: Canon Kabushiki KaishaInventors: Toru Koizumi, Seiichiro Sakai, Masanori Ogura
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Patent number: 8624310Abstract: A method of fabricating an image sensor may include providing a substrate including light-receiving and non-light-receiving regions; forming a plurality of gates on the non-light-receiving region; ion-implanting a first-conductivity-type dopant into the light-receiving region to form a first dopant region of a pinned photodiode; primarily ion-implanting a second-conductivity-type dopant, different from the first-conductivity-type dopant, into an entire surface of the substrate, using the gates as a first mask; forming spacers on both side walls of the gates; and secondarily ion-implanting the second-conductivity-type dopant into the entire surface of the substrate, using the plurality of gates including the spacers as a second mask, to complete a second dopant region of the pinned photodiode.Type: GrantFiled: March 9, 2011Date of Patent: January 7, 2014Assignee: Samsung Electronics Co., Ltd.Inventors: Won-je Park, Chan Park, Young-hoon Park, Jae-ho Song, Jong-wook Hong, Keo-sung Park
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Patent number: 8610177Abstract: A CMOS imaging device formed of plural CMOS photosensors arranged in a row and column formation, wherein a first CMOS photosensor and a second CMOS photosensor adjacent with each other in a column direction are formed in a single, continuous device region defined on a semiconductor substrate by a device isolation region.Type: GrantFiled: January 16, 2007Date of Patent: December 17, 2013Assignee: Fujitsu Semiconductor LimitedInventor: Narumi Ohkawa
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Patent number: 8610230Abstract: A semiconductor device including a substrate and an anti-reflective coating disposed upon the substrate, the anti-reflective coating and the substrate forming an interface, a carbon concentration and a chlorine concentration less than an oxygen concentration at the interface.Type: GrantFiled: November 1, 2012Date of Patent: December 17, 2013Assignee: Taiwan Semiconductor Manufacturing Company, Ltd.Inventors: Jun-Nan Nian, Shih-Chieh Chang, Chi-Cherng Jeng, Shiu-Ko JangJian, Yu-Te Hung