Abstract: In a non-volatile semiconductor memory device and a fabrication method thereof, a charge storage layer is formed on a substrate. A control gate layer is formed on the charge storage layer. A gate mask having a spacer-shape is formed on the control gate layer. The charge storage layer and the control gate layer are removed using the gate mask as protection to form a control gate and a charge storage region.

Abstract: Disclosed are a capacitor for semiconductor capable of increasing storage capacitance as well as preventing leakage current and a method of manufacturing the same. According to the present invention. A lower electrode is formed on a semiconductor substrate. The surface of the lower electrode is surface-treated so as to prevent a natural oxide layer from generating on the surface thereof. A (TaO)1−x(TiO)N layer as a dielectric is deposited on the upper part of the lower electrode. Afterwards, to crystallize the (TaO)1−x(TiO)N layer, a thermal-treatment is performed. Next, an upper electrode is formed on the upper part of the (TaO)1−x(TiO)N layer.

Abstract: Disclosed is a method for fabricating capacitors for semiconductor devices. This method includes the steps of forming a lower electrode on an understructure of a semiconductor substrate, depositing an amorphous TaON thin film over the lower electrode, annealing the deposited amorphous TaON thin film in an NH3 atmosphere, and repeating the deposition of the amorphous TaON thin film and the annealing of the deposited amorphous TaON thin film at least one time, thereby forming a TaON dielectric film having a multi-layer structure, and forming an upper electrode over the TaON dielectric film. The TaON dielectric film having a multi-layer structure exhibits a dielectric constant that is superior to those of conventional dielectric films. Accordingly, the TaON dielectric film of the invention can be used for capacitors in next generation semiconductor memory devices of grade 256 MB and higher.

Abstract: The present invention relates to a heavy equipment having an oil pollution degree diagnosing function, and an oil pollution degree measuring system on a network using the same, and an operation method, and in particular to a heavy equipment which is capable of measuring a pollution state of an engaging chain heavy equipment oil of a complicated hydraulic apparatus based on a phenomenon that an intensity of a transmitting light is different based on the amount of a pollution particle contained in an oil by transmitting a sensor light into an oil which circulates in a heavy equipment which is driven by a hydraulic system, and an oil pollution degree measuring system on a network, and an operation method of the same which are capable of diagnosing an oil measuring value of each heavy equipment in a remote server and informing an oil exchanging time and an abnormal state of a hydraulic system.

Abstract: Nonvolatile memory cells having a split gate structure and methods of fabricating the same are provided. The nonvolatile memory cells include active regions defined at a predetermined region of a semiconductor substrate. A portion of each of the active regions is etched to form a cell trench region. Insulated floating gates are disposed on a pair of sidewalls parallel with the direction that crosses the active region. A source region is disposed at a bottom surface of the cell trench region. A gap region between the floating gates is filled with a common source line electrically connected to the source region. The common source line is extended along the direction that crosses the active regions. The active regions, which are adjacent to the floating gates, are covered with word lines parallel with the common source line. Drain regions are disposed in the active regions adjacent to the word lines. The drain regions are electrically connected to bit lines that cross over the word lines.

Abstract: Disclosed are a capacitor for semiconductor devices capable of increasing storage capacitance and preventing leakage current, and method of manufacturing the same. The capacitor for semiconductor memory devices according to the present invention includes: a lower electrode; a dielectric layer formed on the lower electrode; and an upper electrode formed on the upper portion of the dielectric layer, wherein the dielectric layer is a crystalline TaxOyNz layer, and the total of x, y, and z in the crystalline TaxOyNz layer is 1, and y is 0.3 to 0.5, and z is 0.1 to 0.3.

Abstract: A method and structure to form shallow trench isolation regions without trench oxide grooving is provided. In particular, a method includes a two-step oxide process in which an oxide liner lines the inside surface of a trench and the trench is filled with a bulk oxide layer, preferably using a high density plasma chemical vapor deposition (HDP-CVD) process. The oxide liner and the bulk oxide layer are formed to have similar etch rates. Thus, when etching the oxide liner and the bulk oxide layer between stack structures, a common dielectric top surface is formed that is substantially planar and without grooves.

Abstract: The present invention provides a method of forming a split gate type flash memory. After exposure of a floating gate layer between silicon nitride layers, a conductive layer spacer is formed on a sidewall of the silicon nitride layer pattern. The conductive layer spacer is formed in a floating gate of a later-completed flash memory to form a tip on which tunneling is centralized in an erase operation. That is, the spacer is formed on a sidewall of the silicon nitride layer pattern over the floating gate layer to form the tunneling tip.

Abstract: A method for performing an erase operation in a memory cell. A first voltage and a second voltage are applied to the source and drain regions, respectively, for a predetermined erase time; and the first and second voltages are switched with each other between the source and drain regions at least one time for the erase time. Thereby, hole is easily injected to the source and drain regions and a channel lateral surface, and a uniform and high-speed erase operation is archived.

Abstract: The present invention relates to mammalian expression vectors including nuclear matrix attachment region of human interferon &bgr;, and more particularly to pPGM-1, pPGM-2 and pPGM-3 including nuclear matrix attachment region of interferon &bgr; gene. Those expression vectors confer position independent expression of the introduced foreign gene, thus increasing the frequency of colonies which efficiently express the recombinant protein.

Abstract: Disclosed herein is a method for the fabrication of a capacitor of semiconductor device, which is capable of increasing a charge storage capacitance of the capacitor while preventing generation of leakage current in the capacitor. The disclosed method comprises comprising the steps of: forming a ruthenium film as a lower electrode on a semiconductor substrate; depositing an amorphous TaON film having an excellent dielectric constant on the ruthenium film; subjecting the resulting substrate to a first thermal treatment to prevent oxidation of the lower electrode and to remove carbons present in the amorphous TaON thin film; subjecting the resulting substrate to a second thermal treatment to crystallize the amorphous TaON thin film; and forming a metal film as a metal film on the crystalline TaON film.

Abstract: A split-gate flash memory includes a first gate insulating layer formed on a semiconductor substrate; a floating gate formed on the first gate insulating layer; a first spacer surrounding the floating gate and a side wall; a first junction region formed on a predetermined portion of the semiconductor substrate between two adjacent floating gates and having an opposite conductivity to that of the semiconductor substrate; a first conductive line formed on the first junction region between two adjacent first spacers; a second gate insulating layer formed on both a predetermined portion of the semiconductor substrate and the side wall of the first spacer; a word line formed on the second gate insulating layer, and having a vertical side wall and a uniform width; a second spacer formed on the vertical side wall of the word line; a second junction region formed on a portion of the semiconductor substrate adjacent the second spacer and having the same conductivity as the first junction region; an interlayer insulato

Abstract: In a non-volatile semiconductor memory device and a fabrication method thereof, a charge storage layer is formed on a substrate. A control gate layer is formed on the charge storage layer. A gate mask having a spacer-shape is formed on the control gate layer. The charge storage layer and the control gate layer are removed using the gate mask as protection to form a control gate and a charge storage region.

Abstract: Disclosed is a method of planarizing a non-volatile memory device. After forming a floating gate structure on a cell area of a semiconductor substrate, a conductive layer, a hard mask layer and a first insulating layer are sequentially formed on the entire surface of the resultant structure. After removing the first insulating layer of the cell area to leave a first insulating layer pattern only on the peripheral circuit area, the hard mask layer of the cell area is removed. A second insulating layer is formed on the conductive layer and the insulating layer pattern to increase the height of the insulating layer on the peripheral circuit area. The second insulating layer and the first insulating layer pattern are removed until the floating gate structure is exposed, thereby planarizing the cell area and the peripheral circuit area.

Abstract: Disclosed are a capacitor for semiconductor devices capable of increasing storage capacitance and preventing leakage current, and method of manufacturing the same. The capacitor for semiconductor memory devices according to the present invention includes: a lower electrode; a dielectric layer formed on the lower electrode; and an upper electrode formed on the upper portion of the dielectric layer, wherein the dielectric layer is a crystalline TaxOyNz layer, and the total of x, y, and z in the crystalline TaxOyNz layer is 1, and y is 0.3 to 0.5, and z is 0.1 to 0.3.

Abstract: Nonvolatile memory cells having a split gate structure and methods of fabricating the same are provided. The nonvolatile memory cells include active regions defined at a predetermined region of a semiconductor substrate. A portion of each of the active regions is etched to form a cell trench region. Insulated floating gates are disposed on a pair of sidewalls parallel with the direction that crosses the active region. A source region is disposed at a bottom surface of the cell trench region. A gap region between the floating gates is filled with a common source line electrically connected to the source region. The common source line is extended along the direction that crosses the active regions. The active regions, which are adjacent to the floating gates, are covered with word lines parallel with the common source line. Drain regions are disposed in the active regions adjacent to the word lines. The drain regions are electrically connected to bit lines that cross over the word lines.

Abstract: The present invention provides a method of forming a split gate type flash memory. After exposure of a floating gate layer between silicon nitride layers, a conductive layer spacer is formed on a sidewall of the silicon nitride layer pattern. The conductive layer spacer is formed in a floating gate of a later-completed flash memory to form a tip on which tunneling is centralized in an erase operation. That is, the spacer is formed on a sidewall of the silicon nitride layer pattern over the floating gate layer to form the tunneling tip.

Abstract: Disclosed are a capacitor for semiconductor devices capable of increasing storage capacitance and preventing leakage current, and method of manufacturing the same. The capacitor for semiconductor memory devices according to the present invention includes: a lower electrode; a dielectric layer formed on the lower electrode; and an upper electrode formed on the upper portion of the dielectric layer, wherein the dielectric layer is a crystalline TaxOyNz layer, and the total of x, y, and z in the crystalline TaxOyNz layer is 1, and y is 0.3 to 0.5, and z is 0.1 to 0.3.

Abstract: A split-gate flash memory includes a first gate insulating layer formed on a semiconductor substrate; a floating gate formed on the first gate insulating layer; a first spacer surrounding the floating gate and a side wall; a first junction region formed on a predetermined portion of the semiconductor substrate between two adjacent floating gates and having an opposite conductivity to that of the semiconductor substrate; a first conductive line formed on the first junction region between two adjacent first spacers; a second gate insulating layer formed on both a predetermined portion of the semiconductor substrate and the side wall of the first spacer; a word line formed on the second gate insulating layer, and having a vertical side wall and a uniform width; a second spacer formed on the vertical side wall of the word line; a second junction region formed on a portion of the semiconductor substrate adjacent the second spacer and having the same conductivity as the first junction region; an interlayer insulato

Abstract: A split-gate flash memory includes a first gate insulating layer formed on a semiconductor substrate; a floating gate formed on the first gate insulating layer; a first spacer surrounding the floating gate and a side wall; a first junction region formed on a predetermined portion of the semiconductor substrate between two adjacent floating gates and having an opposite conductivity to that of the semiconductor substrate; a first conductive line formed on the first junction region between two adjacent first spacers; a second gate insulating layer formed on both a predetermined portion of the semiconductor substrate and the side wall of the first spacer; a word line formed on the second gate insulating layer, and having a vertical side wall and a uniform width; a second spacer formed on the vertical side wall of the word line; a second junction region formed on a portion of the semiconductor substrate adjacent the second spacer and having the same conductivity as the first junction region; an interlayer insulato