Patent application number | Description | Published |
20080246886 | METHOD AND APPARATUS FOR RECEIVING DIGITAL CONTENTS THROUGH DATA BROADCASTING CHANNEL - A method and apparatus for receiving digital contents through a data broadcasting channel are provided. The method includes analyzing information related to contents which is requested by a user while receiving broadcasting; and selectively receiving the contents through an idle tuner from among a plurality of tuners, according to the analysis result. | 10-09-2008 |
20090019477 | DATA SEARCH METHOD AND DATA BROADCAST TRANSMITTING AND RECEIVING APPARATUSES - Provided are a data search method and data broadcast transmitting and receiving apparatuses. The data search method includes receiving a data search request; tuning a channel and receiving data to conduct a data search; obtaining a data search descriptor from the received data and conducting the data search; and outputting search results. | 01-15-2009 |
20100177356 | METHOD AND APPARATUS FOR PROCESSING IMAGE IN DIGITAL PRINTER - Provided are a method and apparatus for processing image data in a printer, in which page description language (PDL) data is analyzed and generated as standard color data, the generated standard color data is converted to a plurality of printer outputting colors, image conversion processes are parallely performed on the printer outputting colors, and printing data is generated on a page-by-page basis based on the printer outputting colors to which the image conversion processes are performed. | 07-15-2010 |
20120331495 | APPARATUS AND METHOD FOR PROVIDING SERVICE USING A PORTABLE TERMINAL IN TELEVISION - According to one embodiment, a method for providing a service using a portable terminal in communication with a television (TV) includes analyzing an image inputted from a camera to determine the number of users, collect user information from a terminal, and determine a type of a service to be provided based on the number of users and the collected user information. | 12-27-2012 |
20130097693 | APPARATUS AND METHOD FOR AUTOMATIC UNLOCKING OF PORTABLE TERMINAL - A method automatically unlocks a portable terminal. The method includes collecting specific information by the portable terminal at a current location, and if the specific information satisfies a pre-set condition, automatically unlocking the terminal. | 04-18-2013 |
20140089796 | ELECTRONIC APPARATUS, METHOD FOR AUTHORING MULTIMEDIA CONTENT AND COMPUTER READABLE RECORDING MEDIUM STORING A PROGRAM FOR PERFORMING THE METHOD - An electronic apparatus, a method for authorizing multimedia content thereof, and a non-transitory computer-readable recording medium storing therein a program to execute the method are provided. The method for generating multimedia content of the electronic apparatus includes displaying a page screen of electronic book content comprising text and video, receiving a user command to generate a multimedia object in synchronization with the video, and displaying a multimedia object generating window which is movable and size-adjustable within the page screen, and generating the multimedia object in synchronization with the video in response to the user command through the multimedia object generating window and storing the multimedia object in synchronization with the video. As a result, the user is able to author electronic book content comprising interactive multimedia therein. | 03-27-2014 |
Patent application number | Description | Published |
20100072556 | Semiconductor device and associated methods - A semiconductor device and associated methods, the semiconductor device including a semiconductor substrate with a first well region, a first gate electrode disposed on the first well region, and a first N-type capping pattern, a first P-type capping pattern, and a first gate dielectric pattern disposed between the first well region and the first gate electrode. | 03-25-2010 |
20110237062 | Semiconductor Device And Method Of Fabricating The Same - A method of fabricating a semiconductor device includes forming an interlayer dielectric on a substrate, the interlayer dielectric including first and second openings respectively disposed in first and second regions formed separately in the substrate; fondling a first conductive layer filling the first and second openings; etching the first conductive layer such that a bottom surface of the first opening is exposed and a portion of the first conductive layer in the second opening remains; and forming a second conductive layer filling the first opening and a portion of the second opening. | 09-29-2011 |
20120009746 | METHODS OF FORMING A SEMICONDUCTOR DEVICE - A semiconductor device and associated methods, the semiconductor device including a semiconductor substrate with a first well region, a first gate electrode disposed on the first well region, and a first N-type capping pattern, a first P-type capping pattern, and a first gate dielectric pattern disposed between the first well region and the first gate electrode. | 01-12-2012 |
20120280329 | SEMICONDUCTOR DEVICE - A semiconductor device and associated methods, the semiconductor device including a semiconductor substrate with a first well region, a first gate electrode disposed on the first well region, and a first N-type capping pattern, a first P-type capping pattern, and a first gate dielectric pattern disposed between the first well region and the first gate electrode. | 11-08-2012 |
20130043518 | Semiconductor Device And Method Of Fabricating The Same - A method of fabricating a semiconductor device includes forming an interlayer dielectric on a substrate, the interlayer dielectric including first and second openings respectively disposed in first and second regions formed separately in the substrate; forming a first conductive layer filling the first and second openings; etching the first conductive layer such that a bottom surface of the first opening is exposed and a portion of the first conductive layer in the second opening remains; and forming a second conductive layer filling the first opening and a portion of the second opening. | 02-21-2013 |
20130316525 | SEMICONDUCTOR DEVICE HAVING SELECTIVELY NITRIDED GATE INSULATING LAYER AND METHOD OF FABRICATING THE SAME - A semiconductor device including a selectively nitrided gate insulating layer may be fabricated by a method that includes forming a first gate insulating layer on a substrate having a first region and a second region, performing a nitridation process on the first gate insulating layer, removing the first gate insulating layer from at least a portion of the first region to expose at least a portion of the substrate, forming a second gate insulating layer on at least the exposed portion of the first region of the substrate, thermally treating the first and second gate insulating layers in an oxygen atmosphere, forming a high-k dielectric on the first and second gate insulating layers, and forming a metal gate electrode on the high-k dielectric. | 11-28-2013 |
20150028430 | Semiconductor Devices and Methods of Manufacturing the Same - Semiconductor devices and methods of manufacturing the same are disclosed. The semiconductor device a gate dielectric pattern on a substrate and a gate electrode on the gate dielectric pattern opposite the substrate. The gate electrode includes a first conductive pattern disposed on the gate dielectric pattern and including aluminum, and a second conductive pattern disposed between the first conductive pattern and the gate dielectric pattern. The second conductive pattern has an aluminum concentration that is higher than an aluminum concentration of the first conductive pattern. The second conductive pattern may be thicker than the first conductive pattern. | 01-29-2015 |
20150035077 | MOS TRANSISTORS INCLUDING A RECESSED METAL PATTERN IN A TRENCH - Methods of manufacturing a MOS transistor are provided. The methods may include forming first and second trenches. The methods may further include forming first metal patterns within portions of the first and second trenches. The methods may additionally include removing the first metal patterns from the second trench while at least portions of the first metal patterns remain within the first trench. The methods may also include forming a second metal layer within the first and second trenches, the second metal layer formed on the first metal patterns within the first trench. | 02-05-2015 |
20150294873 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - Provided is a method of fabricating a semiconductor device, including forming an interlayered insulating layer having an opening, on a substrate; sequentially forming a first conductive pattern, a barrier pattern, and a second conductive pattern on bottom and side surfaces of the opening; and nitrifying an upper portion of the second conductive pattern to form a metal nitride layer that is spaced apart from the first conductive pattern. | 10-15-2015 |
20160020294 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - Provided are a semiconductor device and a method of fabricating the same. The semiconductor device may include a substrate with an active pattern, a gate electrode provided at the active pattern, and a gate capping structure disposed above the gate electrode. The gate capping structure may include two or more gate capping patterns with different properties from each other, and the use of the gate capping structure makes it possible to form contact plugs in a self-aligned manner and improve operational speed and characteristics of the semiconductor device. | 01-21-2016 |
Patent application number | Description | Published |
20080308876 | Semiconductor device and method of manufacturing the same - A semiconductor device includes a first gate structure on a first region of a substrate, the first gate structure including sequentially formed a first insulating layer pattern, a first conductive layer pattern, and a first polysilicon layer pattern doped with first impurities of a first conductivity type, a first source/drain in the first region of the substrate doped with second impurities of a second conductivity type, a second gate structure on a second region of the substrate, the second gate structure including sequentially formed a second insulating layer pattern, a second conductive layer pattern, and a second polysilicon layer pattern doped with third impurities with the first conductivity type, and a second source/drain in the second region of the substrate doped with fourth impurities having a conductivity type opposite the second conductivity. | 12-18-2008 |
20090014781 | Nonvolatile memory devices and methods for fabricating nonvolatile memory devices - A nonvolatile memory device may include: a tunnel insulating layer on a semiconductor substrate; a charge storage layer on the tunnel insulating layer; a blocking insulating layer on the charge storage layer; and a control gate electrode on the blocking insulating layer. The tunnel insulating layer may include a first tunnel insulating layer and a second tunnel insulating layer. The first tunnel insulating layer and the second tunnel insulating layer may be sequentially stacked on the semiconductor substrate. The second tunnel insulating layer may have a larger band gap than the first tunnel insulating layer. A method for fabricating a nonvolatile memory device may include: forming a tunnel insulating layer on a semiconductor substrate; forming a charge storage layer on the tunnel insulating layer; forming a blocking insulating layer on the charge storage layer; and forming a control gate electrode on the blocking insulating layer. | 01-15-2009 |
20100164009 | Method of manufacturing dual gate semiconductor device - The method involves providing a semiconductor substrate comprising first and second regions in which different conductive metal-oxide semiconductor (MOS) transistors are to be formed. A gate dielectric layer above the semiconductor substrate sequentially forming a first metallic conductive layer and a second metallic conductive layer on and above the gate dielectric layer; covering the second region with a mask, and performing ion plantation of a first material into the first metallic conductive layer of the first region. Removing the second metallic conductive layer of the first region and forming a first gate electrode of the first region and a second gate electrode of the second region by patterning the gate dielectric layer and the first metallic conductive layer of the first region, and the gate dielectric layer, the first metallic conductive layer, and the second metallic conductive layer of the second region. The first and second regions of the semiconductor substrate having different work functions because the gate electrodes of the first and second regions have different thicknesses and at least one of the first and second gate electrodes include impurities. | 07-01-2010 |
20100203716 | METHOD OF FABRICATING SEMICONDUCTOR DEVICE HAVING DUAL GATE - A method of fabricating a semiconductor device having a dual gate allows for the gates to have a wide variety of threshold voltages. The method includes forming a gate insulation layer, a first capping layer, and a barrier layer in the foregoing sequence across a first region and a second region on a substrate, exposing the gate insulation layer on the first region by removing the first capping layer and the barrier layer from the first region, forming a second capping layer on the gate insulation layer in the first region and on the barrier layer in the second region, and thermally processing the substrate on which the second capping layer is formed. The thermal processing causes material of the second capping layer to spread into the gate insulation layer in the first region and material of the first capping layer to spread into the gate insulation layer in the second region. Thus, devices having different threshold voltages can be formed in the first and second regions. | 08-12-2010 |
20110121399 | COMPLEMENTARY METAL OXIDE SEMICONDUCTOR DEVICE HAVING METAL GATE STACK STRUCTURE AND METHOD OF MANUFACTURING THE SAME - A complementary metal oxide semiconductor (CMOS) device including: a semiconductor substrate including a NMOS region and a PMOS region; a NMOS metal gate stack structure on the NMOS region and including a first high dielectric layer, a first barrier metal gate on the first high dielectric layer and including a metal oxide nitride layer, and a first metal gate on the first barrier metal gate; and a PMOS metal gate stack structure on the PMOS region and including a second high dielectric layer, a second barrier metal gate on the second high dielectric layer and including a metal oxide nitride layer, and a second metal gate on the second barrier metal gate. | 05-26-2011 |
20110180879 | CMOS TRANSISTOR, SEMICONDUCTOR DEVICE INCLUDING THE TRANSISTOR, AND SEMICONDUCTOR MODULE INCLUDING THE DEVICE - Provided are a CMOS transistor, a semiconductor device having the transistor, and a semiconductor module having the device. The CMOS transistor may include first and second interconnection structures respectively disposed in first and second regions of a semiconductor substrate. The first and second regions of the semiconductor substrate may have different conductivity types. The first and second interconnection structures may be disposed on the semiconductor substrate. The first interconnection structure may have a different stacked structure from the second interconnection structure. The CMOS transistor may be disposed in the semiconductor device. The semiconductor device may be disposed in the semiconductor module. | 07-28-2011 |
20110217833 | METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE USING AN ETCHANT - In an etchant for etching a capping layer having etching selectivity with respect to a dielectric layer, the capping layer changes compositions of the dielectric layer, to thereby control a threshold voltage of a gate electrode including the dielectric layer. The etchant includes about 0.01 to 3 percent by weight of an acid, about 10 to 40 percent by weight of a fluoride salt and a solvent. Accordingly, the dielectric layer is prevented from being damaged by the etching process for removing the capping layer and the electric characteristics of the gate electrode are improved. | 09-08-2011 |
20110223758 | METHOD OF FABRICATING SEMICONDUCTOR DEVICE HAVING DUAL GATE - A method of fabricating a semiconductor device having a dual gate allows for the gates to have a wide variety of threshold voltages. The method includes forming a gate insulation layer, a first capping layer, and a barrier layer in the foregoing sequence across a first region and a second region on a substrate, exposing the gate insulation layer on the first region by removing the first capping layer and the barrier layer from the first region, forming a second capping layer on the gate insulation layer in the first region and on the barrier layer in the second region, and thermally processing the substrate on which the second capping layer is formed. The thermal processing causes material of the second capping layer to spread into the gate insulation layer in the first region and material of the first capping layer to spread into the gate insulation layer in the second region. Thus, devices having different threshold voltages can be formed in the first and second regions. | 09-15-2011 |
20110237059 | Non-volatile memory devices with multiple layers having band gap relationships among the layers - A nonvolatile memory device may include: a tunnel insulating layer on a semiconductor substrate; a charge storage layer on the tunnel insulating layer; a blocking insulating layer on the charge storage layer; and a control gate electrode on the blocking insulating layer. The tunnel insulating layer may include a first tunnel insulating layer and a second tunnel insulating layer. The first tunnel insulating layer and the second tunnel insulating layer may be sequentially stacked on the semiconductor substrate. The second tunnel insulating layer may have a larger band gap than the first tunnel insulating layer. A method for fabricating a nonvolatile memory device may include: forming a tunnel insulating layer on a semiconductor substrate; forming a charge storage layer on the tunnel insulating layer; forming a blocking insulating layer on the charge storage layer; and forming a control gate electrode on the blocking insulating layer. | 09-29-2011 |
20120122309 | METHOD OF FABRICATING SEMICONDUCTOR DEVICE USING A WORK FUNCTION CONTROL FILM - A method of fabricating a semiconductor device may include: preparing a substrate in which first and second regions are defined; forming an interlayer insulating film, which includes first and second trenches, on the substrate; forming a work function control film, which contains Al and N, along a top surface of the interlayer insulating film, side and bottom surfaces of the first trench, and side and bottom surfaces of the second trench; forming a mask pattern on the work function control film formed in the second region; injecting a work function control material into the work function control film formed in the first region to control a work function of the work function control film formed in the first region; removing the mask pattern; and forming a first metal gate electrode to fill the first trench and forming a second metal gate electrode to fill the second trench. | 05-17-2012 |
20120196433 | METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE - Provided is a manufacturing method for a semiconductor device having reduced leakage current and increased capacitance while improving interface characteristics. The manufacturing method includes forming a silicon oxide layer on a base layer including silicon, forming a silicon oxynitride layer by implanting nitrogen into the silicon oxide layer, and forming hydroxy groups on a surface of the silicon oxynitride layer while etching the silicon oxynitride layer. | 08-02-2012 |
20120280330 | SEMICONDUCTOR DEVICES AND METHODS FOR FABRICATING THE SAME - Semiconductor devices including first and second fin active regions protruding vertically from a substrate and integrally formed with the substrate, a gate insulation layer formed on the first and second fin active regions, a first gate metal contacting the gate insulation layer on the first fin active region, and a second gate metal contacting the first gate metal on the first fin active region and contacting the gate insulation layer on the second fin active region. | 11-08-2012 |
20120292715 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - A method of manufacturing a semiconductor device, a semiconductor device and systems incorporating the same include transistors having a gate metal doped with impurities. An altered work function of the transistor may alter a threshold voltage of the transistor. In certain embodiments, a gate metal of a first MOSFET is doped with impurities. A gate metal of a second MOSFET may be left undoped, doped with the same impurities with a different concentration, and/or doped with different impurities. In some embodiments, the MOSFETs are FinFETs, and the doping may be a conformal doping | 11-22-2012 |
20120319216 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD - A semiconductor device having reduced leakage current and increased capacitance without increasing an equivalent oxide thickness (EOT) can be manufactured by a method that includes providing a substrate having a dummy gate pattern; forming a gate forming trench by removing the dummy gate pattern; forming a stacked insulation layer within the gate forming trench, wherein the forming of the stacked insulation layer includes forming a first high-k dielectric layer, forming a second high-k dielectric layer by performing heat treatment on the first high-k dielectric layer, and, after the heat treatment, forming a third high-k dielectric layer on the second high-k dielectric layer, the third high-k dielectric layer having a higher relative permittivity than the second high-k dielectric layer and having a dielectric constant of 40 or higher; and forming a gate electrode within the gate forming trench. | 12-20-2012 |
20120329262 | METHODS FOR MANUFACTURING SEMICONDUCTOR DEVICES USING ETCH STOP DIELECTRIC LAYERS AND RELATED DEVICES - A method for manufacturing a semiconductor may include providing a substrate having first and second regions defined therein, forming an interlayer dielectric layer including first and second trenches formed in the first and second regions, respectively, and conformally forming a gate dielectric layer along a top surface of the interlayer dielectric layer, side and bottom surfaces of the first trench and side, and bottom surfaces of the second trench. An etch stop dielectric layer may be formed on the gate dielectric layer, a first metal layer may be formed to fill the first and second trenches, and the first metal layer in the first region may be removed using the etch stop dielectric layer as an etch stopper. | 12-27-2012 |
20130277748 | FIN-TYPE FIELD EFFECT TRANSISTORS INCLUDING ALUMINUM DOPED METAL-CONTAINING LAYER - A semiconductor device includes a fin-type active region; a gate dielectric layer covering an upper surface and opposite lateral surfaces of the fin-type active region; and a gate line extending on the gate dielectric layer to cover the upper surface and opposite lateral surfaces of the fin-type active region and to cross the fin-type active region. The gate line includes an aluminum (Al) doped metal-containing layer extending to cover the upper surface and opposite lateral surfaces of the fin-type active region to a uniform thickness, and a gap-fill metal layer extending on the Al doped metal-containing layer over the fin-type active region. Related fabrication methods are also described. | 10-24-2013 |
20140203335 | Semiconductor Devices and Methods for Fabricating the Same - A semiconductor device includes an insulating film on a substrate and including a trench, a gate insulating film in the trench, a DIT (Density of Interface Trap) improvement film on the gate insulating film to improve a DIT of the substrate, and a first conductivity type work function adjustment film on the DIT improvement film. Related methods of forming semiconductor devices are also disclosed. | 07-24-2014 |
20140246726 | METHODS FOR MANUFACTURING SEMICONDUCTOR DEVICES USING ETCH STOP DIELECTRIC LAYERS AND RELATED DEVICES - A method for manufacturing a semiconductor may include providing a substrate having first and second regions defined therein, forming an interlayer dielectric layer including first and second trenches formed in the first and second regions, respectively, and conformally forming a gate dielectric layer along a top surface of the interlayer dielectric layer, side and bottom surfaces of the first trench and side, and bottom surfaces of the second trench. An etch stop dielectric layer may be formed on the gate dielectric layer, a first metal layer may be formed to fill the first and second trenches, and the first metal layer in the first region may be removed using the etch stop dielectric layer as an etch stopper. | 09-04-2014 |
20140302652 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - A method of manufacturing a semiconductor device, a semiconductor device and systems incorporating the same include transistors having a gate metal doped with impurities. An altered work function of the transistor may alter a threshold voltage of the transistor. In certain embodiments, a gate metal of a first MOSFET is doped with impurities. A gate metal of a second MOSFET may be left undoped, doped with the same impurities with a different concentration, and/or doped with different impurities. In some embodiments, the MOSFETs are FinFETs, and the doping may be a conformal doping | 10-09-2014 |
20140374840 | SEMICONDUCTOR DEVICES USING MOS TRANSISTORS WITH NONUNIFORM GATE ELECTRODE STRUCTURES AND METHODS OF FABRICATING THE SAME - A semiconductor device includes a substrate and first and second gate electrodes on the substrate. The first gate electrode includes a first gate insulation film having a bottom portion on the substrate and sidewall portions extending from the bottom portion and away from the substrate defining a first trench having a first width and a first functional film filling the first trench. The second gate electrode includes a second gate insulation film having a bottom portion on the substrate and sidewall portions extending from the bottom portion defining a second trench having a second width different from the first width, a second functional film conforming to the second gate insulation film in the second trench and defining a third trench, and a metal region in the third trench. The first width may be less than the second width. | 12-25-2014 |
20150093888 | METHOD OF FABRICATING SEMICONDUCTOR DEVICE HAVING DUAL GATE - A method of fabricating a semiconductor device having a dual gate allows for the gates to have a wide variety of threshold voltages. The method includes forming a gate insulation layer, a first capping layer, and a barrier layer in the foregoing sequence across a first region and a second region on a substrate, exposing the gate insulation layer on the first region by removing the first capping layer and the barrier layer from the first region, forming a second capping layer on the gate insulation layer in the first region and on the barrier layer in the second region, and thermally processing the substrate on which the second capping layer is formed. The thermal processing causes material of the second capping layer to spread into the gate insulation layer in the first region and material of the first capping layer to spread into the gate insulation layer in the second region. Thus, devices having different threshold voltages can be formed in the first and second regions. | 04-02-2015 |
20160020118 | SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - Provided are methods for fabricating semiconductor devices. The methods for fabricating the semiconductor devices may include forming a first interlayer insulation film including a trench on a substrate, forming a high-k layer along an inner sidewall and a bottom surface of the trench, forming a first work function control film including impurities along the high-k layer, removing the impurities from the first work function control film to reduce surface resistance of the first work function control film by about 30% to about 60% and forming a gate metal in the trench. | 01-21-2016 |
20160093617 | SEMICONDUCTOR DEVICE HAVING WORK FUNCTION CONTROL LAYER AND METHOD OF MANUFACTURING THE SAME - A semiconductor device, including a substrate; an interlayer insulating layer having a trench on the substrate, the trench having a bottom and sidewalls; a dielectric layer on the bottom and sidewalls of the trench; a work function control layer on the dielectric layer; a wetting layer on the work function control layer; a gap fill layer on the wetting layer; and a reactive layer between the wetting layer and the gap fill layer, the reactive layer being thicker than the gap fill layer. | 03-31-2016 |