Simultaneous Fabrication Of Periphery And Memory Cells (epo) Patents (Class 257/E21.66)
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Patent number: 11910616Abstract: In an embodiment, a device includes: a word line extending in a first direction; a data storage layer on a sidewall of the word line; a channel layer on a sidewall of the data storage layer; a back gate isolator on a sidewall of the channel layer; and a bit line having a first main region and a first extension region, the first main region contacting the channel layer, the first extension region separated from the channel layer by the back gate isolator, the bit line extending in a second direction, the second direction perpendicular to the first direction.Type: GrantFiled: August 9, 2022Date of Patent: February 20, 2024Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.Inventors: Meng-Han Lin, Han-Jong Chia, Sheng-Chen Wang, Feng-Cheng Yang, Yu-Ming Lin, Chung-Te Lin
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Patent number: 11527553Abstract: In an embodiment, a device includes: a word line extending in a first direction; a data storage layer on a sidewall of the word line; a channel layer on a sidewall of the data storage layer; a back gate isolator on a sidewall of the channel layer; and a bit line having a first main region and a first extension region, the first main region contacting the channel layer, the first extension region separated from the channel layer by the back gate isolator, the bit line extending in a second direction, the second direction perpendicular to the first direction.Type: GrantFiled: January 4, 2021Date of Patent: December 13, 2022Assignee: Taiwan Semiconductor Manufacturing Co., Ltd.Inventors: Meng-Han Lin, Han-Jong Chia, Sheng-Chen Wang, Feng-Cheng Yang, Yu-Ming Lin, Chung-Te Lin
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Patent number: 11302630Abstract: A via structure and methods for forming a via structure generally includes a via opening in a dielectric layer. A conformal barrier layer is in the via opening; and a conductive metal on the barrier layer in the via opening. The conductive metal includes a recessed top surface. A conductive planarization stop layer is on the recessed top surface and extends about a shoulder portion formed in the dielectric layer, wherein the shoulder portion extends about a perimeter of the via opening. A fill material including an insulator material or a conductor material is on the conductive planarization stop layer within the recessed top surface, wherein the conductive planarization stop layer on the shoulder portion is coplanar to the insulator material or the conductor material. Also described are methods of fabricating the via structure.Type: GrantFiled: April 8, 2020Date of Patent: April 12, 2022Assignee: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Theodorus E. Standaert, Chih-Chao Yang, Daniel Charles Edelstein
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Patent number: 9653607Abstract: A thin film transistor (TFT) includes a semiconductive layer, a first inter-layer drain (ILD) layer, a second ILD layer, and at least one contact hole passing through the first ILD layer and the second ILD layer. The semiconductive layer includes a channel region, a first lightly doped drain (LDD) region, a second LDD region, a first heavily doped drain (HDD) region, and a second HDD region. The at least one contact hole includes a first portion passing through the second ILD layer and a second portion passing through the first ILD layer. The second portion gradually narrows along a direction from a top to a bottom of the first ILD layer.Type: GrantFiled: May 21, 2015Date of Patent: May 16, 2017Assignee: Century Technology (Shenzhen) Corporation LimitedInventor: Yu-Ching Peng
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Patent number: 8962466Abstract: A metal oxide formed by in situ oxidation assisted by radiation induced photo-acid is described. The method includes depositing a photosensitive material over a metal surface of an electrode. Upon exposure to radiation (for example ultraviolet light), a component, such as a photo-acid generator, of the photosensitive material forms an oxidizing reactant, such as a photo acid, which causes oxidation of the metal at the metal surface. As a result of the oxidation, a layer of metal oxide is formed. The photosensitive material can then be removed, and subsequent elements of the component can be formed in contact with the metal oxide layer. The metal oxide can be a transition metal oxide by oxidation of a transition metal. The metal oxide layer can be applied as a memory element in a programmable resistance memory cell. The metal oxide can be an element of a programmable metallization cell.Type: GrantFiled: May 15, 2013Date of Patent: February 24, 2015Assignee: Macronix International Co., Ltd.Inventors: Feng-Min Lee, Erh-Kun Lai, Wei-Chih Chien, Ming-Hsiu Lee, Chih-Chieh Yu
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Patent number: 8952436Abstract: A DRAM memory device includes at least one memory cell including a transistor having a first electrode, a second electrode and a control electrode. A capacitor is coupled to the first electrode. At least one electrically conductive line is coupled to the second electrode and at least one second electrically conductive line is coupled to the control electrode. The electrically conductive lines are located between the transistor and the capacitor. The capacitor can be provided above a fifth metal level.Type: GrantFiled: January 20, 2011Date of Patent: February 10, 2015Assignee: STMicroelectronics (Crolles 2) SASInventors: Sébastien Cremer, Frédérìc Lalanne, Marc Vernet
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Patent number: 8895386Abstract: A method of forming a semiconductor structure is provided. A substrate having a cell area and a periphery area is provided. An oxide material layer and a first conductive material layer are sequentially formed on the substrate in the cell and periphery areas. A patterning step is performed to form first and second stacked structures on the substrate respectively in the cell and periphery areas. First and second spacers are formed respectively on sidewalls of the first and second stacked structures. At least two first doped regions are formed in the substrate beside the first stacked structure, and two second doped regions are formed in the substrate beside the second stacked structure. A dielectric layer and a second conductive layer are formed at least on the first stacked structure. The first stacked structure, the dielectric layer, and the second conductive layer in the cell area constitute a charge storage structure.Type: GrantFiled: October 1, 2012Date of Patent: November 25, 2014Assignee: Maxchip Electronics Corp.Inventors: Chen-Chiu Hsu, Tung-Ming Lai, Kai-An Hsueh, Ming-De Huang
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Patent number: 8895400Abstract: A semiconductor device includes a semiconductor substrate having a cell region and a peripheral circuit region defined therein. A buried word line is disposed in the substrate in the cell region and has a top surface lower than top surfaces of cell active regions in the cell region. A gate line is disposed on the substrate in the peripheral circuit region. A word line interconnect is disposed in the substrate in the peripheral circuit region, the word line interconnect including a first portion contacting the buried word line and having a top surface lower than a top surfaces of the cell active regions and a second portion that is overlapped by and in contact with the gate line.Type: GrantFiled: May 17, 2012Date of Patent: November 25, 2014Assignee: Samsung Electronics Co., Ltd.Inventors: Hyeoung-Won Seo, Yun-Gi Kim, Young-Woong Son, Bong-Soo Kim
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Patent number: 8809929Abstract: Memory devices comprise a lower layer that extends across a cell array region and across a peripheral region and that includes a flat outer surface from the cell array region to the peripheral region. A signal transfer conductor layer extends in the cell array region beneath the flat outer surface of the lower layer and extends in the peripheral region above the flat outer surface of the lower layer. An insulating layer is provided on the lower layer, including a flat outer surface from the cell array region to the peripheral region. A flat stopper layer is provided on the flat outer surface of the insulating layer and extending across the cell array region and the peripheral region. Related methods are also provided.Type: GrantFiled: September 3, 2013Date of Patent: August 19, 2014Assignee: Samsung Electronics Co., Ltd.Inventors: Wonmo Park, Hyunchul Kim, Hyodong Ban, Hyunju Lee
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Patent number: 8716809Abstract: Hardened programmable logic devices are provided with programmable circuitry. The programmable circuitry may be hardwired to implement a custom logic circuit. Generic fabrication masks may be used to form the programmable circuitry and may be used in manufacturing a product family of hardened programmable logic devices, each of which may implement a different custom logic circuit. Custom fabrication masks may be used to hardwire the programmable circuitry to implement a specific custom logic circuit. The programmable circuitry may be hardwired in such a way that signal timing characteristics of a hardened programmable logic device that implements a custom logic circuit may match the signal timing characteristics of a programmable logic device that implements the same custom logic circuit using configuration data.Type: GrantFiled: December 28, 2011Date of Patent: May 6, 2014Assignee: Altera CorporationInventors: Andy L. Lee, Jeffrey T. Watt
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Patent number: 8698233Abstract: A method for fabricating a semiconductor memory apparatus is provided to minimize failure of the semiconductor memory apparatus and to secure a processing margin. The method also provides for minimizing the deterioration of an operating speed and the operational stability, and minimizing the increase of resistance occurring as a result of a reduced processing margin when forming a gate pattern in a peripheral region of the semiconductor memory apparatus. The method includes forming a connection pad in a peripheral region while forming a buried word line in a cell region, and forming a gate pattern in the peripheral region while forming a bit line in the cell region.Type: GrantFiled: December 5, 2012Date of Patent: April 15, 2014Assignee: SK Hynix Inc.Inventors: Hyoung Soon Yune, Joo Hong Jeong
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Patent number: 8674410Abstract: A method of manufacturing a metal silicide is disclosed below. A substrate having a first region and a second region is proviced. A silicon layer is formed on the substrate. A planarization process is performed to make the silicon layer having a planar surface. A part of the silicon layer is removed to form a plurality of first gates on the first region and to form a plurality of second gates on the second region. The height of the first gates is greater than the height of the second gates, and top surfaces of the first gates and the second gates have the same height level. A dielectric layer covering the first gates and the second gates is formed and exposes the top surfaces of the first gates and the second gates. A metal silicide is formed on the top surfaces of the first gates and the second gates.Type: GrantFiled: March 7, 2012Date of Patent: March 18, 2014Assignee: Macronix International Co., Ltd.Inventors: Yen-Hao Shih, Ying-Tso Chen, Shih-Chang Tsai, Chun-Fu Chen
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Patent number: 8653596Abstract: An integrated circuit includes an SOI substrate with a unitary N+ layer below the BOX, a P region in the N+ layer, an eDRAM with an N+ plate, and logic/SRAM devices above the P region. The P region functions as a back gate of the logic/SRAM devices. An optional intrinsic (undoped) layer can be formed between the P back gate layer and the N+ layer to reduce the junction field and lower the junction leakage between the P back gate and the N+ layer. In another embodiment an N or N+ back gate can be formed in the P region. The N+ back gate functions as a second back gate of the logic/SRAM devices. The N+ plate of the SOI eDRAM, the P back gate, and the N+ back gate can be electrically biased at the same or different voltage potentials. Methods to fabricate the integrated circuits are also disclosed.Type: GrantFiled: January 6, 2012Date of Patent: February 18, 2014Assignee: International Business Machines CorporationInventors: Kangguo Cheng, Bruce B. Doris, Terence B. Hook, Ali Khakifirooz, Pranita Kulkarni
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Patent number: 8629489Abstract: A nonvolatile memory device includes a string selection transistor, a plurality of memory cell transistors, and a ground selection transistor electrically connected in series to the string selection transistor and to the pluralities of memory cell transistors. First impurity layers are formed at boundaries of the channels and the source/drain regions of the memory cell transistors. The first impurity layers are doped with opposite conductivity type impurities relative to the source/drain regions of the memory cell transistors. Second impurity layers are formed at boundaries between a channel and a drain region of the string selection transistor and between a channel and a source region of the ground selection transistor. The second impurity layers are doped with the same conductivity type impurities as the first impurity layers and have a higher impurity concentration than the first impurity layers.Type: GrantFiled: January 24, 2012Date of Patent: January 14, 2014Assignee: Samsung Electronics Co., Ltd.Inventors: Chang-Hyun Lee, Jung-Dal Choi
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Patent number: 8580633Abstract: A semiconductor device capable of ensuring a sufficient area of a peripheral region by forming a gate spacer to have a uniform thickness in the peripheral region and reducing a fabrication cost by simplifying a mask process and a method of manufacturing the semiconductor device are provided. The semiconductor device includes a gate disposed over a semiconductor substrate; a first spacer disposed over sidewalls of the gate; an insulating layer pattern disposed over sidewalls of the first spacer; and a second spacer disposed over the first spacer and the insulating pattern.Type: GrantFiled: February 1, 2011Date of Patent: November 12, 2013Assignee: Hynix Semiconductor Inc.Inventor: Young Man Cho
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Patent number: 8530324Abstract: Memory devices comprise a microelectronic substrate including a cell array region and a peripheral region adjacent the cell array region, the cell array region including therein an array of memory cells and the peripheral region including therein peripheral circuits for the array of memory cells, the microelectronic substrate including a lower layer that extends across the cell array region and across the peripheral region and that includes a flat outer surface from the cell array region to the peripheral region. A signal transfer conductor layer extends in the cell array region beneath the flat outer surface of the lower layer and extends in the peripheral region above the flat outer surface of the lower layer. An insulating layer is provided on the lower layer, the insulating layer extending across the cell array region and the peripheral region and also including a flat outer surface from the cell array region to the peripheral region.Type: GrantFiled: May 27, 2011Date of Patent: September 10, 2013Assignee: Samsung Electronics Co., Ltd.Inventors: Wonmo Park, Hyunchul Kim, Hyodong Ban, Hyunju Lee
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Patent number: 8518788Abstract: A method of forming a plurality of capacitors includes providing a plurality of capacitor electrodes, an elevationally inner insulative retaining material received laterally about the capacitor electrodes, an elevationally outer insulative retaining material received laterally about the capacitor electrodes, a first material received laterally about the capacitor electrodes elevationally inward of the inner insulative retaining material, and a second material received laterally about the capacitor electrodes elevationally between the inner and outer insulative retaining materials. Openings are anisotropically etched to extend through the outer insulative retaining material and the second material. After the anisotropic etching, remaining of the second material is isotropically etched through the openings from being received laterally about the capacitor electrodes between the inner and outer insulative retaining materials.Type: GrantFiled: August 11, 2010Date of Patent: August 27, 2013Assignee: Micron Technology, Inc.Inventor: Che-Chi Lee
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Patent number: 8507373Abstract: A semiconductor device having a DRAM region and a logic region embedded together therein, including a first transistor formed in a DRAM region, and having a first source/drain region containing at least a first impurity, and a second transistor formed in a logic region, and having a second source/drain region containing at least a second impurity, wherein each of the first source/drain region and the second source/drain region has a silicide layer respectively formed in the surficial portion thereof, and the first source/drain region has a junction depth which is determined by an impurity and is deeper than the junction depth of the second source/drain region.Type: GrantFiled: February 11, 2011Date of Patent: August 13, 2013Assignee: Renesas Electronics CorporationInventor: Hiroki Shirai
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Patent number: 8373234Abstract: A semiconductor device includes a structure in which a difference in height between a cell region and a peripheral region are formed so that a buried gate structure of the cell region is substantially equal in height to the gate of the peripheral region, whereby a bit line and a storage node contact can be more easily formed in the cell region and parasitic capacitance can be decreased. The semiconductor device includes a cell region including a gate buried in a substrate, and a peripheral region adjacent to the cell region, where a step height between a surface of the cell and a surface of the peripheral region is generated.Type: GrantFiled: December 30, 2009Date of Patent: February 12, 2013Assignee: Hynix Semiconductor Inc.Inventors: Jeong Hoon Park, Dong Sauk Kim
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Patent number: 8338253Abstract: A method for fabricating a semiconductor memory apparatus is provided to minimize failure of the semiconductor memory apparatus and to secure a processing margin. The method also provides for minimizing the deterioration of an operating speed and the operational stability, and minimizing the increase of resistance occurring as a result of a reduced processing margin when forming a gate pattern in a peripheral region of the semiconductor memory apparatus. The method includes forming a connection pad in a peripheral region while forming a buried word line in a cell region, and forming a gate pattern in the peripheral region while forming a bit line in the cell region.Type: GrantFiled: December 28, 2009Date of Patent: December 25, 2012Assignee: Hynix Semiconductor Inc.Inventors: Hyoung Soon Yune, Joo Hong Jeong
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Patent number: 8329545Abstract: Subject matter disclosed herein relates to a method of manufacturing a semiconductor integrated circuit device, and more particularly to a method of fabricating a charge trap NAND flash memory device.Type: GrantFiled: December 30, 2008Date of Patent: December 11, 2012Assignee: Micron Technology, Inc.Inventors: Umberto M. Meotto, Giulio Albini, Paolo Tessariol, Paola Bacciaglia, Marcello Mariani
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Patent number: 8324052Abstract: A nonvolatile memory device includes a string selection gate and a ground selection gate on a semiconductor substrate, and a plurality of memory cell gates on the substrate between the string selection gate and the ground selection gate. First impurity regions extend into the substrate to a first depth between ones of the plurality of memory cell gates. Second impurity regions extend into the substrate to a second depth that is greater than the first depth between the string selection gate and a first one of the plurality of memory cell gates immediately adjacent thereto, and between the ground selection gate and a last one of the plurality of memory cell gates immediately adjacent thereto. Related fabrication methods are also discussed.Type: GrantFiled: January 20, 2011Date of Patent: December 4, 2012Assignee: Samsung Electronics Co., Ltd.Inventors: Dong-Yean Oh, Jai-Hyuk Song, Chang-Sub Lee, Chang-Hyun Lee, Hyun-Jae Kim
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Patent number: 8258574Abstract: A semiconductor device including a plurality of decoupling capacitors formed on a semiconductor substrate, and a plurality of decoupling capacitor contact plugs disposed between the semiconductor substrate and the plurality of decoupling capacitors, the plurality of decoupling capacitor contact plugs being electrically connected to the plurality of decoupling capacitors and including an array of first decoupling capacitor contact plugs and second decoupling capacitor contact plugs.Type: GrantFiled: February 18, 2010Date of Patent: September 4, 2012Assignee: Samsung Electronics Co., Ltd.Inventor: Dong-hyun Han
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Patent number: 8253188Abstract: A semiconductor storage device includes a semiconductor substrate, a first insulator, a laminated insulator including a second insulator having fixed charges more than those of the first insulator, a single-layer insulator, memory cells between the semiconductor substrate and the first insulator, each memory cells separated from an adjacent memory cell by a cavity portion and including a tunnel insulator, a charge accumulation layer, an insulator, and a control gate electrode, a first selection gate transistor between the semiconductor substrate and the first insulator, a second selection gate transistor between the semiconductor substrate and the first insulator, between one memory cell and the first selection gate transistor, and in contact with the laminated insulator on a first side face on a memory cell side thereof, and a high-voltage peripheral circuit transistor between the semiconductor substrate and the first insulator, and in contact with the single-layer insulator on a side face thereof.Type: GrantFiled: March 22, 2010Date of Patent: August 28, 2012Assignee: Kabushiki Kaisha ToshibaInventors: Takeshi Kamigaichi, Satoshi Nagashima, Kenji Aoyama
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Patent number: 8198156Abstract: A non-volatile memory device includes a peripheral circuit region and a cell region. A method for fabricating the non-volatile memory device includes forming gate patterns over a substrate, the gate pattern including a tunnel insulation layer, a floating gate electrode, a charge blocking layer and a control gate electrode, and removing the control gate electrode and the charge blocking layer of the gate pattern formed in the peripheral circuit region.Type: GrantFiled: January 24, 2011Date of Patent: June 12, 2012Assignee: Hynix Semiconductor Inc.Inventor: Nam-Jae Lee
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Patent number: 8188530Abstract: A semiconductor memory device provided with a cell array section and a peripheral circuit section, the device includes: a back gate electrode; a stacked body provided on the back gate electrode; a plurality of semiconductor pillars extending in a stacking direction; connection members, each of the connection members connecting one of the semiconductor pillars to another one of the semiconductor pillars; a back-gate electrode contact applying a potential to the back gate electrode; a gate electrode provided in the peripheral circuit section; and a gate electrode contact applying a potential to the gate electrode, the back gate electrode and the gate electrode respectively including: a lower semiconductor layer; a conductive layer provided on the lower semiconductor layer; and an upper semiconductor layer provided on the conductive layer, the connection members being provided in or on the upper semiconductor layer, the back-gate electrode contact and the gate electrode contact being in contact with the conductiType: GrantFiled: March 22, 2010Date of Patent: May 29, 2012Assignee: Kabushiki Kaisha ToshibaInventors: Hiroyasu Tanaka, Ryota Katsumata, Hideaki Aochi, Masaru Kito, Yoshiaki Fukuzumi, Masaru Kidoh, Yosuke Komori, Megumi Ishiduki, Junya Matsunami, Tomoko Fujiwara, Ryouhei Kirisawa, Yoshimasa Mikajiri, Shigeto Oota
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Patent number: 8178915Abstract: An analog floating-gate electrode in an integrated circuit, and method of fabricating the same, in which trapped charge can be stored for long durations. The analog floating-gate electrode is formed in a polycrystalline silicon gate level, and includes n-type and p-type doped portions serving as gate electrodes of n-channel and p-channel MOS transistors, respectively; a plate of a metal-to-poly storage capacitor; and a plate of poly-to-active tunneling capacitors. Silicide-block silicon dioxide blocks the formation of silicide cladding on the electrode, while other polysilicon structures in the integrated circuit are silicide-clad. An opening at the surface of the analog floating-gate electrode, at the location at which n-type and p-type doped portions of the floating gate electrode abut, allow formation of silicide at that location, shorting the p-n junction.Type: GrantFiled: March 23, 2011Date of Patent: May 15, 2012Assignee: Texas Instruments IncorporatedInventors: Allan T. Mitchell, Imran Mahmood Khan, Michael A. Wu
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Patent number: 8125015Abstract: Nonvolatile memory devices and methods of making the same are described. A nonvolatile memory device includes a string selection transistor, a plurality of memory cell transistors, and a ground selection transistor electrically connected in series to the string selection transistor and to the pluralities of memory cell transistors. Each of the transistors includes a channel region and source/drain regions. First impurity layers are formed at boundaries of the channels and the source/drain regions of the memory cell transistors. The first impurity layers are doped with opposite conductivity type impurities relative to the source/drain regions of the memory cell transistors. Second impurity layers are formed at boundaries between a channel and a drain region of the string selection transistor and between a channel and a source region of the ground selection transistor.Type: GrantFiled: January 5, 2011Date of Patent: February 28, 2012Assignee: Samsung Electronics Co., Ltd.Inventors: Chang-Hyun Lee, Jung-Dal Choi
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Patent number: 8012810Abstract: A method of manufacturing low parasitic capacitance bit line for stack DRAM, comprising the following steps: offering a semi-conductor base, which semi-conductor having already included an oxide, plural word line stacks, plural bit line stacks and plural polysilicons; applying a multi layer resist coat; removing the multi layer resist coat and further removing parts of the oxide located on the polysilicon to form contact holes exposing the plural polysilicons; depositing an oxide layer; etching the oxide layer to form the oxide layer spacer; depositing a polysilicon layer; performing lithography and etching on the polysilicon layer thereby allowing the rest of the polysilicon layer that is column-shaped to form capacitor contacts; and using another oxide to fill into the space among the word line stacks and the capacitor contacts.Type: GrantFiled: February 11, 2010Date of Patent: September 6, 2011Assignee: Inotera Memories, Inc.Inventors: Hsiao-Lei Wang, Chih-Hung Liao
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Patent number: 8012836Abstract: Semiconductor devices and methods for fabricating the same are provided. An exemplary embodiment of a semiconductor device comprises a substrate with a plurality of isolation structures formed therein, defining first and second areas over the substrate. A transistor is formed on a portion of the substrate in the first and second areas, respectively, wherein the transistor in the second area is formed with merely a pocket doping region in the substrate adjacent to a drain region thereof. A first dielectric layer is formed over the substrate, covering the transistor formed in the first and second areas. A plurality of first contact plugs is formed through the first dielectric layer, electrically connecting a source region and a drain region of the transistor in the second area, respectively. A second dielectric layer is formed over the first dielectric layer with a capacitor formed therein, wherein the capacitor electrically connects one of the first contact plugs.Type: GrantFiled: September 28, 2006Date of Patent: September 6, 2011Assignee: Taiwan Semiconductor Manufacuturing Co., Ltd.Inventors: Kuo-Chyuan Tzeng, Jian-Yu Shen, Kuo-Chi Tu, Kuo-Ching Huang, Chin-Yang Chang
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Patent number: 7977218Abstract: Novel fabrication methods implement the use of dummy tiles to avoid the effects of in-line charging, ESD events, and such charge effects in the formation of a memory device region region. One method involves forming at least a portion of a memory core array upon a semiconductor substrate that involves forming STI structures in the substrate substantially surrounding a memory device region region within the array. An oxide layer is formed over the substrate in the memory device region region and over the STI's, wherein an inner section of the oxide layer formed over the memory device region region is thicker than an outer section of the oxide layer formed over the STI's. A first polysilicon layer is then formed over the inner and outer sections comprising one or more dummy tiles formed over one or more outer sections and electrically connected to at least one inner section.Type: GrantFiled: December 26, 2006Date of Patent: July 12, 2011Assignee: Spansion LLCInventors: Cinti Chen, Yi He, Wenmei Li, Zhizheng Liu, Ming-Sang Kwan, Yu Sun, Jean Yee-Mei Yang
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Patent number: 7972929Abstract: A method for manufacturing a semiconductor device includes forming an ONO layer in a memory region and forming several gate oxide layer patterns in a logic region, a nitride layer in the logic region can be used as a hard mask, enabling a reduction in the number of masks used. This results in improved manufacturing efficiency and reduced manufacturing costs of a SONOS semiconductor device.Type: GrantFiled: October 16, 2008Date of Patent: July 5, 2011Assignee: Dongbu HiTek Co., Ltd.Inventor: In-Kun Lee
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Patent number: 7956399Abstract: The invention relates to a semiconductor device (10) with a substrate (11) and a semiconductor body (12) of silicon which comprises an active region (A) with a transistor (T) and a passive region (P) surrounding the active region (A) and which is provided with a buried conducting region (1) of a metallic material that is connected to a conductive region (2) of a metallic material sunken from the surface of the semiconductor body (12), by which the buried conductive region (1) is made electrically connectable at the surface of the semiconductor body (12). According to the invention, the buried conducting region (1) is made at the location of the active region (A) of the semiconductor body (12). In this way, a very low buried resistance can be locally created in the active region (A) in the semiconductor body (12), using a metallic material that has completely different crystallographic properties from the surrounding silicon. This is made possible by using a method according to the invention.Type: GrantFiled: June 22, 2006Date of Patent: June 7, 2011Assignee: NXP B.V.Inventors: Wibo Daniel Van Noort, Jan Sonsky, Philippe Meunier-Beillard, Erwin Hijzen
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Patent number: 7955960Abstract: A nonvolatile memory device and a method of fabricating the same is provided to prevent charges stored in a charge trap layer from moving to neighboring memory cells. The method of fabricating a nonvolatile memory device, includes forming a first dielectric layer on a semiconductor substrate in which active regions are defined by isolation layers, forming a charge trap layer on the first dielectric layer, removing the first dielectric layer and the charge trap layer over the isolation layers, forming a second dielectric layer on the isolation layers including the charge trap layer, and forming a conductive layer on the second dielectric layer.Type: GrantFiled: March 21, 2008Date of Patent: June 7, 2011Assignee: Hynix Semiconductor Inc.Inventors: Se Jun Kim, Eun Seok Choi, Kyoung Hwan Park, Hyun Seung Yoo, Myung Shik Lee, Young Ok Hong, Jung Ryul Ahn, Yong Top Kim, Kyung Pil Hwang, Won Sic Woo, Jae Young Park, Ki Hong Lee, Ki Seon Park, Moon Sig Joo
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Patent number: 7943459Abstract: A semiconductor device is provided with a conductor wire and a fuse wire formed in an insulating film over a semiconductor substrate, a first under-pad-wire insulating film formed above the insulating film, a second under-pad-wire insulating film formed on the first under-pad-wire insulating film, a pad wire formed in an area above the conductive wire, in the first and second under-pad-wire insulating films and an opening formed by leaving a part of the first under-pad-wire insulating film in an area above the fuse wire, in the first and second under-pad-wire insulating films, wherein the second under-pad-wire insulating film comprises an element different from that of the first under-pad-wire insulating film.Type: GrantFiled: August 24, 2007Date of Patent: May 17, 2011Assignee: Kabushiki Kaisha ToshibaInventors: Kazutaka Akiyama, Takaya Matsushita
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Patent number: 7911005Abstract: A semiconductor device having a DRAM region and a logic region embedded together therein, including a first transistor formed in a DRAM region, and having a first source/drain region containing arsenic and phosphorus as impurities; and a second transistor formed in a logic region, and having a second source/drain region containing at least arsenic as an impurity, wherein each of the first source/drain region and the second source/drain region has a silicide layer respectively formed in the surficial portion thereof, and the first source/drain region has a junction depth which is determined by phosphorus and is deeper than the junction depth of the second source/drain region.Type: GrantFiled: July 17, 2009Date of Patent: March 22, 2011Assignee: RENESAS Electronics CorporationInventor: Hiroki Shirai
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Patent number: 7855085Abstract: An MRAM device includes an array of magnetic memory cells having an upper conductive layer and a lower conductive layer separated by a barrier layer. To reduce the likelihood of electrical shorting across the barrier layers of the memory cells, spacers can be formed around the upper conductive layer and, after the layers of the magnetic memory cells have been etched, the memory cells can be oxidized to transform any conductive particles that are deposited along the sidewalls of the memory cells as byproducts of the etching process into nonconductive particles. Alternatively, the lower conductive layer can be repeatedly subjected to partial oxidation and partial etching steps such that only nonconductive particles can be thrown up along the sidewalls of the memory cells as byproducts of the etching process.Type: GrantFiled: September 26, 2006Date of Patent: December 21, 2010Assignee: Micron Technology, Inc.Inventors: Joel A. Drewes, James G. Deak
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Patent number: 7846809Abstract: A method for forming a capacitor of a semiconductor device includes the steps of forming first and second sacrificial insulation layers over a semiconductor substrate divided into first and second regions. The second and first sacrificial insulation layers in the first region are etched to define in the first region of the semiconductor substrate. Storage nodes on surfaces of the holes are formed. A partial thickness of the second sacrificial insulation layer is etched to partially expose upper portions of the storage nodes. A mask pattern is formed to cover the first region while exposing the second sacrificial insulation layer remaining in the second region. The exposed second sacrificial insulation layer in the second region is removed to expose the first sacrificial insulation layer in the second region. The exposed first sacrificial insulation layer in the second region and the first sacrificial insulation layer in the first region is removed. The mask pattern is removed.Type: GrantFiled: December 28, 2007Date of Patent: December 7, 2010Assignee: Hynix Semiconductor Inc.Inventor: Gyu Hyun Kim
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Patent number: 7807513Abstract: Methods for manufacturing a semiconductor device are provided that reduces the thickness of an oxide layer formed on a polysilicon layer for bit line contacts. A reduced thickness oxide layer can prevent short circuits between adjoining bit lines. A reduced thickness oxide layer can also eliminate the need for overetching in a subsequent etching process, thereby preventing loss of an isolation layer in a peripheral region.Type: GrantFiled: December 28, 2009Date of Patent: October 5, 2010Assignee: Hynix Semiconductor Inc.Inventors: Hyung Kyun Kim, Yong Soo Joung
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Patent number: 7795648Abstract: A semiconductor device, having a memory cell region and a peripheral circuit region, includes an insulating film, having an upper surface, formed on a major surface of a semiconductor substrate to extend from the memory cell region to the peripheral circuit region. A capacitor lower electrode assembly is formed in the memory cell region to upwardly extend to substantially the same height as the upper surface of the insulating film on the major surface of the semiconductor substrate. Additionally, the lower electrode assembly includes first and second lower electrodes that are adjacent through the insulating film. A capacitor upper electrode is formed on the capacitor lower electrode through a dielectric film, to extend onto the upper surface of the insulating film. The capacitor lower electrode includes a capacitor lower electrode part having a top surface and a bottom surface.Type: GrantFiled: February 10, 2009Date of Patent: September 14, 2010Assignee: Renesas Technology CorporationInventors: Yoshinori Tanaka, Masahiro Shimizu, Hideaki Arima
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Patent number: 7785962Abstract: A method of forming a plurality of capacitors includes an insulative material received over a capacitor array area and a circuitry area. The array area comprises a plurality of capacitor electrode openings within the insulative material received over individual capacitor storage node locations. The intervening area comprises a trench. Conductive metal nitride-comprising material is formed within the openings and against a sidewall portion of the trench to less than completely fill the trench. Inner sidewalls of the conductive material within the trench are annealed in a nitrogen-comprising atmosphere. The insulative material within the array area is etched with a liquid etching solution effective to expose outer sidewall portions of the conductive material within the array area. The conductive material within the array area is incorporated into a plurality of capacitors.Type: GrantFiled: February 26, 2007Date of Patent: August 31, 2010Assignee: Micron Technology, Inc.Inventors: Vishwanath Bhat, Kevin R. Shea
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Patent number: 7772099Abstract: A method for manufacturing a semiconductor device includes the step of depositing a doped silicon layer doped with a first-conductivity-type dopant and a non-doped silicon layer to form a layered silicon film, implanting a first-conductivity-type dopant into a portion of the layered silicon film disposed in a first region, implanting a second-conductivity-type dopant into a portion of the layered silicon film disposed in a second region, and heat treating the layered silicon film to form a first-conductivity-type silicon film in the first region and a second-conductivity-type silicon film in the second region.Type: GrantFiled: June 19, 2007Date of Patent: August 10, 2010Assignee: Elpida Memory, Inc.Inventor: Kanta Saino
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Patent number: 7736959Abstract: There are many inventions described and illustrated herein. In a first aspect, the present invention is directed to integrated circuit device including SOI logic transistors and SOI memory transistors, and method for fabricating such a device. In one embodiment, integrated circuit device includes memory portion having, for example, PD or FD SOI memory cells, and logic portion having, for example, high performance transistors, such as Fin-FET, multiple gate transistors, and/or non-high performance transistors (such as single gate transistors that do not possess the performance characteristics of the high performance transistors). In another aspect, the present invention is directed to a method of manufacture of such integrated circuit device.Type: GrantFiled: February 12, 2008Date of Patent: June 15, 2010Assignee: Innovative Silicon ISi SAInventor: Pierre Fazan
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Publication number: 20100120213Abstract: A method of forming an embedded DRAM cell having multiple-thickness gate dielectrics. An oxidation-enhancing dopant is selectively implanted into a well region in an area that is exposed by a first mask. A thermal oxidation step simultaneously produces the field dielectric for two distinct devices each having a different oxide thickness. The method is applicable to quad-density DRAM cells using fewer oxidation steps. The method is also applicable to planar DRAM cells, and does not require increasing the number of masks during the fabrication of planar DRAM cells.Type: ApplicationFiled: November 13, 2008Publication date: May 13, 2010Applicant: Mosys, Inc.Inventor: Jeong Y. Choi
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Patent number: 7709319Abstract: Provided is a semiconductor device including a vertically oriented capacitor extending above the substrate surface and a method of manufacturing such devices in which cell, peripheral and boundary areas between the cell and peripheral areas are defined on a semiconductor substrate. Capacitors are formed in the cell area, a mold pattern is provided in the peripheral areas and an elongated dummy pattern is provided in the boundary areas. The dummy pattern includes a boundary opening in which a thin layer is formed on the elongated inner sidewalls and on the exposed portion of the substrate during formation of the lower electrode. A mold pattern and lower electrode structures having substantially the same height are then formed area so that subsequent insulation interlayer(s) exhibit a generally planar surface, i.e., have no significant step difference between the cell areas and the peripheral areas.Type: GrantFiled: June 12, 2006Date of Patent: May 4, 2010Assignee: Samsung Electronics Co., Ltd.Inventors: Yeol Jon, Chung-Ki Min, Yong-Sun Ko, Kyung-Hyun Kim
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Patent number: 7687847Abstract: A method of fabricating a semiconductor device is described. A substrate having a memory cell region and a high voltage circuit region are provided. First and second source/drain regions are formed in the substrate within these two regions. A silicon oxide layer, a first conductive layer and a top layer are sequentially formed over the substrate. A floating gate is defined in the memory cell region and the top layer and the first conductive layer of the high voltage circuit region are removed. The exposed silicon oxide layer is thickened. Thereafter, the top layer is removed and then a barrier layer is formed on the exposed surface of the floating gate. A second conductor layer is formed over the substrate, and then a gate is defined in the high voltage circuit region and a control gate is defined in the memory cell region.Type: GrantFiled: April 19, 2007Date of Patent: March 30, 2010Assignee: United Microelectronics Corp.Inventors: Wen-Fang Lee, Dave Hsu, Asam Lin
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Patent number: 7682890Abstract: A method of fabricating a semiconductor device is provided. A substrate is first provided, and then several IO devices and several core devices are formed on the substrate, wherein those IO devices include IO PMOS and IO NMOS, and those core devices include core PMOS and core NMOS. Thereafter, a buffer layer is formed on the substrate, and then the buffer layer except a surface of the IO PMOS is removed in order to reduce the negative bias temperature instability (NBTI) of the IO PMOS. Afterwards, a tensile contact etching stop layer (CESL) is formed on the IO NMOS and the core NMOS, and a compressive CESL is formed the core PMOS.Type: GrantFiled: August 18, 2006Date of Patent: March 23, 2010Assignee: United Microelectronics Corp.Inventors: Wen-Han Hung, Cheng-Tung Huang, Li-Shian Jeng, Kun-Hsien Lee, Shyh-Fann Ting, Tzyy-Ming Cheng, Chia-Wen Liang
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Patent number: 7678714Abstract: The present invention has an object to provide a method for manufacturing a dynamic random access memory capable of reducing a defect rate even if the memory has a large packing density. The method of the present invention is a method for manufacturing a dynamic random access memory having memory array areas and a peripheral circuit area arranged in a semiconductor substrate and a silicon nitride film provided over the memory array areas and the peripheral circuit area, the method having at least a step (1) of eliminating the silicon nitride film provided in the peripheral circuit area; and a step (2) of processing in an atmosphere of a hydrogen gas a substrate-to-be-processed obtained by the step (1).Type: GrantFiled: January 19, 2007Date of Patent: March 16, 2010Assignee: Elpida Memory, Inc.Inventor: Yoshinori Ikebuchi
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Patent number: 7663172Abstract: Method and apparatus are described for a memory cell includes a substrate, a body extending vertically from the substrate, a first gate having a vertical member and a horizontal member and a second gate comprising a vertical member and a horizontal member. The first gate is disposed laterally from the body and the second gate is disposed laterally from the first gate.Type: GrantFiled: November 14, 2007Date of Patent: February 16, 2010Assignee: Intel CorporationInventors: Jun-Fei Zheng, Pranav Kalavade
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Patent number: 7651936Abstract: A method for patterning a semiconductor device can include forming a conductive layer over a semiconductor substrate; alternatively forming positive photoresists and negative photoresists over the conductive layer; forming a plurality of first conductive lines by selectively removing a portion of the conductive layer using the positive photoresist and the negative photoresist as masks; forming an oxide film over the semiconductor substrate including the first conductive lines and the conductive layer; performing a planarization process over the oxide film using the uppermost surface of the first conductive line as a target; removing the plurality of first conductive lines using the oxide film as a mask; forming a plurality if trenches in the semiconductor substrate and removing a portion of the oxide film to expose the uppermost surface of the conductive layer; and then forming a plurality of second conductive lines by removing the exposed conductive layer using the oxide film as a mask.Type: GrantFiled: November 26, 2007Date of Patent: January 26, 2010Assignee: Dongbu HiTek Co., Ltd.Inventor: Eun-Soo Jeong