Patent application number | Description | Published |
20080197393 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICES INCLUDING GATE PATTERNS HAVING STEP DIFFERENCE THEREBETWEEN AND A CONNECTION LINE DISPOSED BETWEEN THE GATE PATTERNS AND METHODS OF FABRICATING THE SAME - Provided are semiconductor integrated circuit (IC) devices including gate patterns having a step difference therebetween and a connection line interposed between the gate patterns. The semiconductor IC device includes a semiconductor substrate including a peripheral active region, a cell active region, and a device isolation layer. Cell gate patterns are disposed on the cell active region and the device isolation layer. A peripheral gate pattern is disposed on the peripheral active region. A cell electrical node is disposed on the cell active region adjacent to the cell gate patterns. Peripheral electrical nodes are disposed on the peripheral active region adjacent to the peripheral gate pattern. Connection lines are disposed on the cell gate patterns disposed on the device isolation layer. The connection lines are connected between the cell gate patterns and the peripheral gate pattern. | 08-21-2008 |
20080254608 | METHOD OF FORMING CONTACT STRUCTURE AND METHOD OF FABRICATING SEMICONDUCTOR DEVICE USING THE SAME - A method of forming a contact structure includes forming an isolation region defining active regions in a semiconductor substrate. Gate patterns extending to the isolation region while crossing the active regions are formed. A sacrificial layer is formed on the semiconductor substrate having the gate patterns. Sacrificial patterns remaining on the active regions are formed by patterning the sacrificial layer. Molding patterns are formed on the isolation region. Contact holes exposing the active regions at both sides of the gate patterns are formed by etching the sacrificial patterns using the molding patterns and the gate patterns as an etching mask. Contact patterns respectively filling the contact holes are formed. The disclosed method of forming a contact structure may be used in fabricating a semiconductor device. | 10-16-2008 |
20080277795 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICES HAVING UPPER PATTERN ALIGNED WITH LOWER PATTERN MOLDED BY SEMICONDUCTOR SUBSTRATE AND METHODS OF FORMING THE SAME - Provided are semiconductor integrated circuit (IC) devices having an upper pattern aligned with a lower pattern molded by a semiconductor substrate and methods of forming the same. In the semiconductor IC devices, the lower pattern contacts the upper pattern using an active region and/or an isolation layer. The methods include preparing a semiconductor substrate having an active region. A lower pattern is formed on the active region. The lower pattern is surrounded by the active region and protrudes from a top surface of the active region. An upper pattern is disposed on the lower pattern. The upper pattern contacts the lower pattern. | 11-13-2008 |
20090191683 | METHOD OF FORMING TRANSISTOR HAVING CHANNEL REGION AT SIDEWALL OF CHANNEL PORTION HOLE - According to some embodiments of the invention, a method of forming a transistor includes forming a device isolation layer in a semiconductor substrate. The device isolation layer is formed to define at least one active region. A channel region is formed in a predetermined portion of the active region of the semiconductor substrate. Two channel portion holes are formed to extend downward from a main surface of the semiconductor substrate to be in contact with the channel region. Gate patterns fill the channel portion holes and cross the active region. The resulting transistor is capable of ensuring a constant threshold voltage without being affected by an alignment state of the channel portion hole and the gate pattern. | 07-30-2009 |
20090317967 | SEMICONDUCTOR DEVICE HAVING VERTICAL CHANNELS AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a semiconductor device which can prevent leakage current caused by gate electrodes intersecting element isolation layers in a major axis of an active region, and which further has vertical channels to provide a sufficient overlap margin, and a semiconductor device manufactured using the above method. The device includes gate electrodes formed on element isolation layers that are disposed between active regions and have top surfaces that are higher than the top surfaces of the active regions. Since the gate electrodes are formed on the element isolation layers, leakage current in a semiconductor substrate is prevented. In addition, the gate electrodes are formed using a striped shape mask pattern, thereby obtaining a sufficient overlap margin compared to a contact shape or bar shape pattern. | 12-24-2009 |
20100248437 | Methods of forming recessed gate structures including blocking members, and methods of forming semiconductor devices having the recessed gate structures - A recessed gate structure in a semiconductor device includes a gate electrode partially buried in a substrate, a blocking member formed in the buried portion of the gate electrode, and a gate insulation layer formed between the gate electrode and the substrate. The blocking member may effectively prevent a void or a seam in the buried portion of the gate electrode from contacting the gate insulation layer adjacent to a channel region in subsequent manufacturing processes. Thus, the semiconductor device may have a regular threshold voltage and a leakage current passing through the void or the seam may efficiently decrease. | 09-30-2010 |
Patent application number | Description | Published |
20080296637 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor device includes first gate structures, second gate structures, a first capping layer pattern, a second capping layer pattern, first spacers, second spacers, third spacers, and a substrate having first impurity regions and second impurity regions. The first gate structures are arranged on the substrate at a first pitch. The second gate structures are arranged on the substrate at a second pitch greater than the first pitch. The first capping layer pattern has segments extending along side faces of the first gate structures and segments extending along the substrate. The second capping layer pattern has segments extending along the second gate structures and segments extending along the substrate. The first spacers and the second spacers are stacked on the second capping layer pattern. The third spacers are formed on the first capping layer pattern. | 12-04-2008 |
20100080044 | SEMICONDUCTOR MEMORY DEVICE HAVING BALANCING CAPACITORS - According to some of the inventive concepts, a semiconductor memory device may include a plurality of memory cell blocks including a first memory cell block having bit lines, an edge sense amplifier block including edge sense amplifiers coupled to a portion of the bit lines of the first memory cell block, and a balancing capacitor unit coupled to the edge sense amplifiers. | 04-01-2010 |
20100221875 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICES INCLUDING GATE PATTERNS HAVING STEP DIFFERENCE THEREBETWEEN AND A CONNECTION LINE DISPOSED BETWEEN THE GATE PATTERNS AND METHODS OF FABRICATING THE SAME - Provided are semiconductor integrated circuit (IC) devices including gate patterns having a step difference therebetween and a connection line interposed between the gate patterns. The semiconductor IC device includes a semiconductor substrate including a peripheral active region, a cell active region, and a device isolation layer. Cell gate patterns are disposed on the cell active region and the device isolation layer. A peripheral gate pattern is disposed on the peripheral active region. A cell electrical node is disposed on the cell active region adjacent to the cell gate patterns. Peripheral electrical nodes are disposed on the peripheral active region adjacent to the peripheral gate pattern. Connection lines are disposed on the cell gate patterns disposed on the device isolation layer. The connection lines are connected between the cell gate patterns and the peripheral gate pattern. | 09-02-2010 |
20130033926 | SEMICONDUCTOR MEMORY DEVICE HAVING BALANCING CAPACITORS - A semiconductor memory device includes a plurality of memory cell blocks including a first memory cell block having bit lines, an edge sense amplifier block including edge sense amplifiers coupled to a portion of the bit lines of the first memory cell block, and a balancing capacitor unit coupled to the edge sense amplifiers. | 02-07-2013 |
Patent application number | Description | Published |
20120091532 | Semiconductor Devices Including Buried-Channel-Arrray Transistors - Provided is a semiconductor device in which a short margin between a storage contact plug and a bit line contact plug may be increased. The device includes a substrate including isolation regions and active regions defined by the isolation regions, gates disposed in the substrate and configured to intersect the active regions and define source regions and drain regions in the active regions, an interlayer insulating layer disposed on the substrate, bit line contact plugs configured to penetrate the interlayer insulating layer and contact the drain regions, and first bit line structures and second bit line structures disposed on the interlayer insulating layer. The first bit line structures include first bit line conductive patterns and first bit line spacers covering sidewalls of the first bit line conductive patterns. The second bit line structures include second bit line conductive patterns configured to contact the bit line contact plugs to be substantially parallel to the first bit line conductive patterns and first bit line spacers covering sidewalls of the second bit line conductive patterns and sidewalls of the bit line contact plugs. | 04-19-2012 |
20130248984 | SEMICONDUCTOR DEVICE HAVING VERTICAL CHANNELS AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a semiconductor device which can prevent leakage current caused by gate electrodes intersecting element isolation layers in a major axis of an active region, and which further has vertical channels to provide a sufficient overlap margin, and a semiconductor device manufactured using the above method. The device includes gate electrodes formed on element isolation layers that are disposed between active regions and have top surfaces that are higher than the top surfaces of the active regions. Since the gate electrodes are formed on the element isolation layers, leakage current in a semiconductor substrate is prevented. In addition, the gate electrodes are formed using a striped shape mask pattern, thereby obtaining a sufficient overlap margin compared to a contact shape or bar shape pattern. | 09-26-2013 |
20140103482 | SEMICONDUCTOR DEVICE HAVING VERTICAL CHANNELS AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a semiconductor device which can prevent leakage current caused by gate electrodes intersecting element isolation layers in a major axis of an active region, and which further has vertical channels to provide a sufficient overlap margin, and a semiconductor device manufactured using the above method. The device includes gate electrodes formed on element isolation layers that are disposed between active regions and have top surfaces that are higher than the top surfaces of the active regions. Since the gate electrodes are formed on the element isolation layers, leakage current in a semiconductor substrate is prevented. In addition, the gate electrodes are formed using a striped shape mask pattern, thereby obtaining a sufficient overlap margin compared to a contact shape or bar shape pattern. | 04-17-2014 |
20140110851 | Semiconductor Device - A semiconductor device includes a plurality of bit lines that intersect an active region on a substrate and extend in a first direction, a contact pad formed on the active region between adjacent bit lines, and a plurality of spacers disposed on sidewalls of the plurality of bit lines. An upper portion of the contact pad is interposed between adjacent spacers, and a lower portion of the contact pad has a width greater than a distance between adjacent spacers. | 04-24-2014 |
20150035025 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICES INCLUDING GATES HAVING CONNECTION LINES THEREON - Provided are semiconductor integrated circuit (IC) devices including gate patterns having a step difference therebetween and a connection line interposed between the gate patterns. The semiconductor IC device includes a semiconductor substrate including a peripheral active region, a cell active region, and a device isolation layer. Cell gate patterns are disposed on the cell active region and the device isolation layer. A peripheral gate pattern is disposed on the peripheral active region. A cell electrical node is disposed on the cell active region adjacent to the cell gate patterns. Peripheral electrical nodes are disposed on the peripheral active region adjacent to the peripheral gate pattern. Connection lines are disposed on the cell gate patterns disposed on the device isolation layer. The connection lines are connected between the cell gate patterns and the peripheral gate pattern. | 02-05-2015 |