Patent application number | Description | Published |
20080203387 | Thin film transistor and method of manufacturing the same - Provided are a thin film transistor and a method of manufacturing the same. The thin film transistor may include a gate; a channel layer; a source and a drain, the source and the drain being formed of metal; and a metal oxide layer, the metal oxide layer being formed between the channel layer and the source and the drain. The metal oxide layer may have a gradually changing metal content between the channel layer and the source and the drain. | 08-28-2008 |
20080212376 | METHODS OF OPERATING AND MANUFACTURING LOGIC DEVICE AND SEMICONDUCTOR DEVICE INCLUDING COMPLEMENTARY NONVOLATILE MEMORY DEVICE, AND READING CIRCUIT FOR THE SAME - Provided are a complementary nonvolatile memory device, methods of operating and manufacturing the same, a logic device and semiconductor device having the same, and a reading circuit for the same. The complementary nonvolatile memory device includes a first nonvolatile memory and a second nonvolatile memory which are sequentially stacked and have a complementary relationship. The first and second nonvolatile memories are arranged so that upper surfaces thereof are contiguous. | 09-04-2008 |
20080258141 | Thin film transistor, method of manufacturing the same, and flat panel display having the same - A thin film transistor (TFT), a method of manufacturing the TFT, and a flat panel display comprising the TFT are provided. The TFT includes a gate, a gate insulating layer that contacts the gate, a channel layer that contacts the gate insulating layer and faces the gate with the gate insulating layer therebetween, a source that contacts an end of the channel layer; and a drain that contacts an other end of the channel layer, wherein the channel layer is an amorphous oxide semiconductor layer, and each of the source and the drain is a conductive oxide layer comprising an oxide semiconductor layer having a conductive impurity in the oxide semiconductor layer. A low resistance metal layer can further be included on the source and drain. A driving circuit of a unit pixel of a flat panel display includes the TFT. | 10-23-2008 |
20080277663 | Thin film transistor and method of manufacturing the same - Provided is a thin film transistor that includes a substrate on which an insulating layer is formed, a gate formed on a region of the insulating layer, a gate insulating layer formed on the insulating layer and the gate, a channel region formed on the gate insulating layer on a region corresponding to the location of the gate, a source and a drain respectively formed by contacting either side of the channel region; and a passivation layer formed of a compound made of a group II element and a halogen element on the channel region. | 11-13-2008 |
20090001432 | Channel layer for a thin film transistor, thin film transistor including the same, and methods of manufacturing the same - Provided is a channel layer for a thin film transistor, a thin film transistor and methods of forming the same. A channel layer for a thin film transistor may include IZO (indium zinc oxide) doped with a transition metal. A thin film transistor may include a gate electrode and the channel layer formed on a substrate, a gate insulating layer formed between the gate electrode and channel layer, and a source electrode and a drain electrode which contact ends of the channel layer. | 01-01-2009 |
20090057663 | Oxide thin film transistor and method of manufacturing the same - An oxide thin film transistor and a method of manufacturing the oxide TFT are provided. The oxide thin film transistor (TFT) including: a gate; a channel formed to correspond to the gate, and a capping layer having a higher work function than the channel; a gate insulator disposed between the gate and the channel; and a source and drain respectively contacting either side of the capping layer and the channel and partially on a top surface of the capping layer. | 03-05-2009 |
20090096060 | Antifuse structures, antifuse array structures, methods of manufacturing the same - Antifuse structures, antifuse arrays, methods of manufacturing, and methods of operating the same are provided. An antifuse structure includes bitlines formed as first diffusing regions within a semiconductor substrate, an insulation layer formed on the bitlines, and wordlines formed on the insulation layer. An antifuse array includes a plurality of antifuse structures arranged in an array. | 04-16-2009 |
20090206978 | Electrical fuse device including a fuse link - Example embodiments relate to an electrical device, for example, to an electrical fuse device that includes a fuse link for linking a cathode and anode. An electrical device may include a cathode, an anode, and a fuse link. The fuse link may link the cathode and the anode. The fuse link may include a multi-metal layer structure. The fuse link may include a first metal layer including a first resistance, and a second metal layer stacked on the first metal layer and including a second resistance. The first resistance may be different from the second resistance. The fuse link may include a weak point as a region at which electrical blowing is performed easier than other regions of the fuse link. | 08-20-2009 |
20100006834 | Channel layers and semiconductor devices including the same - Channel layers and semiconductor devices including the channel layers are disclosed. A channel layer may include a multi-layered structure. Layers forming the channel layer may have different carrier mobilities and/or carrier densities. The channel layer may have a double layered structure including a first layer and a second layer which may be formed of different oxides. Characteristics of the transistor may vary according to materials used to form the channel layers and/or thicknesses thereof. | 01-14-2010 |
20100091541 | Stacked memory device and method thereof - A stacked memory device includes a plurality of memory layers, where at least one of the plurality of memory layers is stacked on another of the plurality of memory layers and each of the memory layers includes an array of memory cells, a first active circuit unit configured to classify and process address information for at least one of the memory cells as vertical address information and horizontal address information, and at least one second active circuit unit configured to generate a memory selection signal for at least one of the memory cells based on signals processed by the first active circuit unit. | 04-15-2010 |
20100096628 | Multi-layered memory apparatus including oxide thin film transistor - Provided is a multi-layered memory apparatus including an oxide thin film transistor. The multi-layered memory apparatus includes an active circuit unit and a memory unit formed on the active circuit unit. A row line and a column line are formed on memory layers. A selection transistor is formed at a side end of the row line and the column line. | 04-22-2010 |
20100140608 | Transistor and method of manufacturing the same - Example embodiments provide a transistor and a method of manufacturing the same. The transistor may include a channel layer formed of an oxide semiconductor and a gate having a three-dimensional structure. A plurality of the transistors may be stacked in a perpendicular direction to a substrate. At least some of the plurality of transistors may be connected to each other. | 06-10-2010 |
20100148825 | Semiconductor devices and methods of fabricating the same - Provided are a semiconductor device and a method of fabricating the semiconductor device. The semiconductor device may be a complementary device including a p-type oxide TFT and an n-type oxide TFT. The semiconductor device may be a logic device such as an inverter, a NAND device, or a NOR device. | 06-17-2010 |
20100264956 | Inverter, method of manufacturing the same, and logic circuit including the inverter - Provided are an inverter, a method of manufacturing the inverter, and a logic circuit including the inverter. The inverter may include a first transistor and a second transistor having different channel layer structures. A channel layer of the first transistor may include a lower layer and an upper layer, and a channel layer of the second transistor may be the same as one of the lower layer and the upper layer. At least one of the lower layer and the upper layer may be an oxide layer. The inverter may be an enhancement/depletion (E/D) mode inverter or a complementary inverter. | 10-21-2010 |
20100283048 | CMOS image sensor and method of manufacturing the same - Provided is a complementary metal oxide semiconductor (CMOS) image sensor having a structure capable of increasing areas of photodiodes in unit pixels and expanding light receiving areas of the photodiodes. In the CMOS image sensor, transfer transistors may be formed on the photodiode, and reset transistors, source follower transistors, and selection transistors may be formed on a layer on which the transfer transistors are not formed. In such a CMOS image sensor, the areas of the photodiodes may be increased in unit pixels so that a size of the unit pixels may be reduced and sensitivity of the pixel may be improved. | 11-11-2010 |
20100296347 | Method of erasing device including complementary nonvolatile memory devices - Provided are a complementary nonvolatile memory device, methods of operating and manufacturing the same, a logic device and semiconductor device having the same, and a reading circuit for the same. The complementary nonvolatile memory device includes a first nonvolatile memory and a second nonvolatile memory which are sequentially stacked and have a complementary relationship. The first and second nonvolatile memories are arranged so that upper surfaces thereof are contiguous. | 11-25-2010 |
20110108704 | Image sensors and methods of operating the same - Image sensors and methods of operating the same. An image sensor includes a pixel array including a plurality of pixels. Each of the plurality of pixels includes a photo sensor, the voltage-current characteristics of which vary according to energy of incident light, and that generates a sense current determined by the energy of the incident light; a reset unit that is activated to generate a reference current, according to a reset signal for resetting at least one of the plurality of pixels; and a conversion unit that converts the sense current and the reference current into a sense voltage and a reference voltage, respectively. | 05-12-2011 |
20110141060 | Optical touch panels and methods of driving the same - An optical touch panel may include a plurality of light-sensing areas. The plurality of light-sensing areas may be integrally formed with pixels in a display panel or may be formed on the display panel, in order to sense incident light from outside the optical touch panel. A method of driving an optical touch panel may include sensing a change in an output from a plurality of light-sensing areas between two time points and determining that there is an optical input when the change in the output is greater than or equal to a first reference value that is defined in advance. The light-sensing areas may be integrally formed with pixels in a display panel or formed on a surface of the display panel, for sensing incident light from outside the optical touch panel. | 06-16-2011 |
20110156020 | Transistor - Provided is a transistor including a semiconductor insertion layer between a channel layer and a source electrode. A potential barrier between the channel layer and the source electrode may be increased by the semiconductor insertion layer. The channel layer may be an oxide semiconductor layer. The transistor may be an enhancement mode transistor. | 06-30-2011 |
20110156114 | Image sensor using light-sensitive transparent oxide semiconductor material - An image sensor according to example embodiments may include a plurality of light-sensitive transparent oxide semiconductor layers as light-sensing layers. The light-sensing layers may be stacked in one unit pixel region. | 06-30-2011 |
20110168993 | Transistors and methods of manufacturing the same - Transistors and methods of manufacturing the same. A transistor may be an oxide thin film transistor (TFT) with a self-aligned top gate structure. The transistor may include a gate insulating layer between a channel region and a gate electrode that extends from two sides of the gate electrode. The gate insulating layer may cover at least a portion of source and drain regions. | 07-14-2011 |
20110230021 | Inverter, method of manufacturing the same, and logic circuit including the inverter - Provided are an inverter, a method of manufacturing the inverter, and a logic circuit including the inverter. The inverter may include a first transistor and a second transistor having different channel layer structures. A channel layer of the first transistor may include a lower layer and an upper layer, and a channel layer of the second transistor may be the same as one of the lower layer and the upper layer. At least one of the lower layer and the upper layer may be an oxide layer. The inverter may be an enhancement/depletion (E/D) mode inverter or a complementary inverter. | 09-22-2011 |
20110241989 | Remote touch panel using light sensor and remote touch screen apparatus having the same - A remote touch panel includes a plurality of light sensor cells arranged in two dimensions. Each light sensor cell may include a light-sensitive semiconductor layer and first and second electrodes electrically connected to the light-sensitive semiconductor layer. The remote touch panel may be controlled at a remote distance. For example, a large display apparatus can be easily controlled by using a simple light source device, for example, a laser pointer. | 10-06-2011 |
20110242384 | Image sensor using light-sensitive device and method of operating the image sensor - Provided are an image sensor using a light-sensitive oxide semiconductor material as a light-sensitive device and a method of operating the image sensor for acquiring RGB values of incident light in the image sensor, the image sensor includes an array of a plurality of light-sensing cells wherein each of the light-sensing cells includes a light-sensitive oxide semiconductor layer that forms a channel region of an oxide semiconductor transistor. Electronic characteristics of the light-sensitive oxide semiconductor layer vary according to an amount of light irradiated onto the light-sensitive oxide semiconductor layer. Each of the light-sensing cells constitutes a single unit color pixel. | 10-06-2011 |
20110261017 | Light sensing circuit, and remote optical touch panel and image acquisition apparatus including the light sensing circuit - Example embodiments are directed to light sensing circuits having a relatively simpler structure by using light-sensitive oxide semiconductor transistors as light sensing devices, and remote optical touch panels and image acquisition apparatuses, each including the light sensing circuits. The light sensing circuit includes a light-sensitive oxide semiconductor transistor in each pixel, wherein the light-sensitive oxide semiconductor transistor is configured as a light sensing device, and a driving circuit that outputs data. The light sensing circuit may have a relatively simple circuit structure including a plurality of transistors in one pixel. As a result, the structure and operation of the light sensing circuit may be simplified. | 10-27-2011 |
20110272689 | Optical touch panel and method of fabricating the same - An optical touch panel may be used remotely to control a large-sized display device. According to a method of fabricating the optical touch panel, an optical sensor transistor for sensing light and a switch transistor for drawing data can be formed together on the same substrate by using a relatively simple process. The optical touch panel may include an optical sensor transistor and a switch transistor. The optical sensor transistor may be configured to sense light and the switch transistor may be configured to draw data from the optical sensor transistor. The optical sensor transistor may include a light sensitive oxide semiconductor material as a channel layer. The switch transistor may include a non-light sensitive oxide semiconductor material as a channel layer. | 11-10-2011 |
20110284722 | Light-sensing circuit, method of operating the light-sensing circuit, and light-sensing apparatus employing the light-sensing circuit - Example embodiments are directed to a light-sensing circuit, a method of operating the light-sensing circuit, and a light-sensing apparatus including the light-sensing circuit. The light-sensing circuit includes a light-sensitive oxide semiconductor transistor that senses light; and a switching transistor connected to the light-sensing transistor in series and configured to output data. During a standby time, a low voltage is applied to the switching transistor and a high voltage is applied to the light-sensitive oxide semiconductor transistor, and when data is output, the high voltage is applied to the switching transistor and the low voltage is applied to the light-sensitive oxide semiconductor transistor. | 11-24-2011 |
20120085999 | Transistors, Methods Of Manufacturing The Same, And Electronic Devices Including Transistors - Example embodiments disclose transistors, methods of manufacturing the same, and electronic devices including transistors. An active layer of a transistor may include a plurality of material layers (oxide layers) with different energy band gaps. The active layer may include a channel layer and a photo sensing layer. The photo sensing layer may have a single-layered or multi-layered structure. When the photo sensing layer has a multi-layered structure, the photo sensing layer may include a first material layer and a second material layer that are sequentially stacked on a surface of the channel layer. The first layer and the second layer may be alternately stacked one or more times. | 04-12-2012 |
20120139876 | Light Sensing Circuit, Method Of Manufacturing The Same, And Optical Touch Panel Including The Light Sensing Circuit - A light sensing circuit using an oxide semiconductor transistor, a method of manufacturing the light sensing circuit, and an optical touch panel including the light sensing circuit. Because the light sensing circuit includes only one light sensor transistor and one switch transistor formed on the same substrate, a structure of the light sensing circuit is simplified. Furthermore, because the light sensor transistor and the switch transistor have the same structure, a method of manufacturing the light sensing circuit is also simplified. Also, since an optical touch panel or an image acquisition apparatus using the light sensing circuit uses the light sensing circuit having a simple structure and does not use a capacitor, the optical touch panel or the image acquisition apparatus may be made thinner and larger. | 06-07-2012 |
20120267513 | Light-Sensing Apparatus And Method Of Driving The Same - According to an example embodiment, a light-sensing apparatus may include an array of light-sensing pixels, a first gate driver, and a signal output unit. Each of the light-sensing pixels may include a light sensor transistor configured to sense light, a switch transistor configured to output a light-sensing signal from the light sensor transistor, and a conductive light-shielding film on a light-incident surface of the switch transistor. The light sensor transistor and the switch transistor may have the same oxide semiconductor transistor structure. The first gate driver may be configured to provide a gate voltage and a negative bias voltage to each of the light-sensing pixels. The signal output unit may be configured to receive the light-sensing signal from each of the light-sensing pixels and output a data signal. | 10-25-2012 |
20120274608 | SIMPLIFIED LIGHT SENSING CIRCUIT, LIGHT SENSING APPARATUS INCLUDING THE LIGHT SENSING CIRCUIT, METHOD OF DRIVING THE LIGHT SENSING APPARATUS, AND IMAGE ACQUISITION APPARATUS AND OPTICAL TOUCH SCREEN APPARATUS INCLUDING THE LIGHT SENSING APPARATUS - In a simplified light sensing circuit, a light sensing apparatus including the light sensing circuit, a method of driving the light sensing apparatus, and an image acquisition apparatus and optical touch screen apparatus including the light sensing apparatus, the light sensing circuit includes an oxide semiconductor transistor including a channel layer including an oxide semiconductor material, for each pixel. The oxide semiconductor transistor is configured to operate as a light sensing device that senses light and a switch that outputs light sensing data. | 11-01-2012 |
20120280939 | Optical Touch Screen Apparatuses And Methods Of Driving The Optical Touch Screen Apparatuses - An optical touch screen apparatus in which an oxide semiconductor transistor is used as a light sensing device, and a method of driving the optical touch screen apparatus. The optical touch screen apparatus includes an array including a plurality of light sensing pixels for sensing incident light, a gate driver for providing each of the light sensing pixels with a gate voltage and a reset signal and a signal output unit for receiving a light sensing signal from each of the plurality of light sensing pixels to output a data signal. The gate driver includes a plurality of gate lines that provide a gate voltage to each of the light sensing pixels and at least one reset line that provides a reset signal to each of the light sensing pixels and is electrically connected to the plurality of light sensing pixels. | 11-08-2012 |
20120282734 | OXIDE THIN FILM TRANSISTOR AND METHOD OF MANUFACTURING THE SAME - An oxide thin film transistor and a method of manufacturing the oxide TFT are provided. The oxide thin film transistor (TFT) including: a gate; a channel formed to correspond to the gate, and a capping layer having a higher work function than the channel; a gate insulator disposed between the gate and the channel; and a source and drain respectively contacting either side of the capping layer and the channel and partially on a top surface of the capping layer. | 11-08-2012 |
20130009145 | Transistor, Electronic Device Including Transistor, And Manufacturing Methods Thereof - A transistor may include an active layer having a plurality of oxide semiconductor layers and an insulating layer disposed therebetween. The insulating layer may include a material that has higher etch selectivity with respect to at least one of the plurality of oxide semiconductor layers. The electronic device may include a first transistor and a second transistor connected to the first transistor. The second transistor may include an active layer having a different structure from that of the active layer included in the first transistor. The active layer of the second transistor may have the same structure as one of the plurality of oxide semiconductor layers constituting the active layer of the first transistor. | 01-10-2013 |
20130027326 | LIGHT-SENSING APPARATUSES, METHODS OF DRIVING THE LIGHT-SENSING APPARATUSES, AND OPTICAL TOUCH SCREEN APPARATUSES INCLUDING THE LIGHT-SENSING APPARATUSES - A light-sensing apparatus in which a light sensor transistor in a light-sensing pixel is formed of an oxide semiconductor transistor for sensing light, a method of driving the light-sensing apparatus, and an optical touch screen apparatus including the light-sensing apparatus. The light-sensing apparatus includes a light-sensing pixel array having a plurality of light-sensing pixels arranged in rows and columns, and a plurality of gate lines which are arranged in a row direction and respectively provide a gate voltage to the light-sensing pixel. Each of the light-sensing pixels includes a light sensor transistor for sensing light and a switch transistor for outputting a light-sensing signal from the light sensor transistor, and gates of the light sensor transistors of the light-sensing pixels arranged in an arbitrary row are connected to a gate line arranged in a row previous or next to the arbitrary row. | 01-31-2013 |
20150054793 | OPTICAL TOUCH SCREEN APPARATUSES AND METHODS OF DRIVING THE OPTICAL TOUCH SCREEN APPARATUSES - An optical touch screen apparatus in which an oxide semiconductor transistor is used as a light sensing device, and a method of driving the optical touch screen apparatus. The optical touch screen apparatus includes an array including a plurality of light sensing pixels for sensing incident light, a gate driver for providing each of the light sensing pixels with a gate voltage and a reset signal and a signal output unit for receiving a light sensing signal from each of the plurality of light sensing pixels to output a data signal. The gate driver includes a plurality of gate lines that provide a gate voltage to each of the light sensing pixels and at least one reset line that provides a reset signal to each of the light sensing pixels and is electrically connected to the plurality of light sensing pixels. | 02-26-2015 |