Abstract: For enhancing the high performance of a non-volatile semiconductor memory device having an MONOS type transistor, a non-volatile semiconductor memory device is provided with MONOS type transistors having improved performance in which the memory cell of an MONOS non-volatile memory comprises a control transistor and a memory transistor. A control gate of the control transistor comprises an n-type polycrystal silicon film and is formed over a gate insulative film comprising a silicon oxide film. A memory gate of the memory transistor comprises an n-type polycrystal silicon film and is disposed on one of the side walls of the control gate. The memory gate comprises a doped polycrystal silicon film with a sheet resistance lower than that of the control gate comprising a polycrystal silicon film formed by ion implantation of impurities to the undoped silicon film.

Abstract: For enhancing the high performance of a non-volatile semiconductor memory device having an MONOS type transistor, a non-volatile semiconductor memory device is provided with MONOS type transistors having improved performance in which the memory cell of an MONOS non-volatile memory comprises a control transistor and a memory transistor. A control gate of the control transistor comprises an n-type polycrystal silicon film and is formed over a gate insulative film comprising a silicon oxide film. A memory gate of the memory transistor comprises an n-type polycrystal silicon film and is disposed on one of the side walls of the control gate. The memory gate comprises a doped polycrystal silicon film with a sheet resistance lower than that of the control gate comprising a polycrystal silicon film formed by ion implantation of impurities to the undoped silicon film.

Abstract: A semiconductor memory array includes a first nonvolatile memory cell having a first charge storage layer and a first gate electrode and a second nonvolatile memory cell, adjacent to the first memory cell in a first direction, having a second charge storage layer and a second gate electrode. The first and second electrodes extend in a second direction perpendicular to the first direction, the first electrode has a first contact section extending toward the second electrode in the first direction, and the second electrode has a second contact section extending toward the first electrode in the first direction. The first and second contact positions are shifted in the second direction, respectively, and the first electrode and the first contact section are electrically separated from the second electrode and the second contact section.

Abstract: A polysilicon film forming a memory gate interconnection and the like includes a part extending from a part positioned on one side surface of a control gate interconnection to a side opposite to a side where the control gate interconnection is positioned, and that part serves as a pad portion. A contact hole is formed to expose the pad portion. The height of a part of the polysilicon film that is positioned on one side surface of the control gate interconnection is set equal to or lower than the height of the control gate interconnection so that the polysilicon film forming a memory gate interconnection and the like does not two-dimensionally overlap the control gate interconnection. Therefore, a semiconductor memory device with increased process margin can be obtained.

Abstract: Memory cells are disposed in plural array form. Select gate electrodes of the memory cells arranged in an X direction are connected to one another by select gate lines respectively. Memory gate electrodes are connected by memory gate lines respectively. The memory gate lines respectively connected to the memory gate electrodes of the memory cells adjacent to one another through source regions interposed therebetween are not electrically connected to one another. Each of the select gate lines has a first portion that extends in the X direction, and a second portion 9b of which one end is connected to the first portion and extends in a Y direction. The memory gate line is formed on its corresponding sidewall of the select gate line with an insulating film interposed therebetween.

Abstract: A manufacturing method of a semiconductor device includes a first electrode formation step of forming a control gate electrode above a surface of a semiconductor substrate with a control gate insulating film interposed between the control gate electrode and the semiconductor substrate, a step of forming a storage node insulating film on the surface of the semiconductor substrate, and a second electrode formation step of forming a memory gate electrode on a surface of the storage node insulating film. The second electrode formation step includes a step of forming a memory gate electrode layer on the surface of the storage node insulating film, a step of forming an auxiliary film, having an etching rate slower than that of the memory gate electrode layer, on a surface of the memory gate electrode layer, and a step of performing anisotropic etching on the memory gate electrode layer and the auxiliary film.

Abstract: A hairdressing tool is provided which allows easy adjustment of the amount of hair to be cut and which allows efficient use of the blade. The hairdressing tool includes a grip 6, and razor portions 1 to 4 including the blade 3 and coupled to the grip 6. The razor portions 1 to 4 include a razor holder portion 1 coupled to the grip 6, and a blade holder 4 replaceably mounted in the razor holder portion 1 and including first protrusions formed along one side thereof and formed with cutouts 4b. The blade 3 is held by the blade holder 4 between its one and other sides. The razor portions further include a blade protector 2 having second protrusions 2a formed with cutouts 2b. The blade 3 is exposed between the adjacent first protrusions and between the adjacent second protrusions.

Abstract: Defects in element forming regions on which memory cells of a non-volatile memory are formed are to be diminished to reduce leakage current. End portions of element forming regions with non-volatile memory cells formed thereon are extended a length D by utilizing the region which underlies a dummy conductive film, whereby a stress induced from an insulating film which surrounds the element forming regions is concentrated on the extended region. As a result, defects do not extend up to the regions where memory cells are formed and therefore it is possible to reduce leakage current in the memory cells.

Abstract: At least not less than one capacitor formation trench providing an uneven surface is formed on the surface of a capacitor formation region. Thus, the surface area of a capacitor is increased, which enables improvement of the capacitance of the capacitor per unit area. Further, by forming the capacitor formation trench and an element formation trench that are formed in the surface of the semiconductor substrate by the same step, it is possible to simplify the manufacturing process. Whereas, a dielectric film of the capacitor in the capacitor formation region and a high-voltage gate insulating film in a MISFET formation region are formed by the same step; alternatively, the dielectric film of the capacitor in the capacitor formation region and a memory gate interlayer film between a polysilicon layer and a polysilicon layer in the memory cell formation region are formed by the same step.

Abstract: Defects in element forming regions on which memory cells of a non-volatile memory are formed are to be diminished to reduce leakage current. End portions of element forming regions with non-volatile memory cells formed thereon are extended a length D by utilizing the region which underlies a dummy conductive film, whereby a stress induced from an insulating film which surrounds the element forming regions is concentrated on the extended region. As a result, defects do not extend up to the regions where memory cells are formed and therefore it is possible to reduce leakage current in the memory cells.

Abstract: At least not less than one capacitor formation trench providing an uneven surface is formed on the surface of a capacitor formation region. Thus, the surface area of a capacitor is increased, which enables improvement of the capacitance of the capacitor is increased, which enables improvement of the capacitance of the capacitor per unit area. Further, by forming the capacitor formation trench and an element formation trench that are formed in the surface of the semiconductor substrate by the same step, it is possible to simplify the manufacturing process. Whereas, a dielectric film of the capacitor in the capacitor formation region and a high-voltage insulating film in a MISFET formation region are formed by the same step; alternatively, the dielectric of the capacitor in the capacitor formation region and a memory gate interlayer film between a polysilicon layer and a polysilicon layer in the memory cell formation region are formed by the same step.

Abstract: Memory cells are disposed in plural array form. Select gate electrodes of the memory cells arranged in an X direction are connected to one another by select gate lines respectively. Memory gate electrodes are connected by memory gate lines respectively. The memory gate lines respectively connected to the memory gate electrodes of the memory cells adjacent to one another through source regions interposed therebetween are not electrically connected to one another. Each of the select gate lines has a first portion that extends in the X direction, and a second portion 9b of which one end is connected to the first portion and extends in a Y direction. The memory gate line is formed on its corresponding sidewall of the select gate line with an insulating film interposed therebetween.

Abstract: For enhancing the high performance of a non-volatile semiconductor memory device having an MONOS type transistor, a non-volatile semiconductor memory device is provided with MONOS type transistors having improved performance in which the memory cell of an MONOS non-volatile memory comprises a control transistor and a memory transistor. A control gate of the control transistor comprises an n-type polycrystal silicon film and is formed over a gate insulative film comprising a silicon oxide film. A memory gate of the memory transistor comprises an n-type polycrystal silicon film and is on one of the side walls of the control gate. The memory gate comprises a doped polycrystal silicon film with a sheet resistance lower than that of the control gate comprising a polycrystal silicon film formed by ion implantation of impurities to the undoped silicon film.

Abstract: A technique capable of improving the reliability, more particularly, the data retention characteristics in a semiconductor integrated circuit device having a non-volatile memory using a nitride film as a charge storage layer is provided. A control gate electrode of selecting nMIS is formed on a first region of a substrate via a gate insulator, and a charge storage layer of the memory nMIS is formed on a second region via an insulator so that the hydrogen concentration of the charge storage layer is 1020 cm−3 or less. After forming an insulator, a memory gate electrode of the memory nMIS is formed on the second region via the insulators and the charge storage layer, and an impurity is implanted into the region adjacent to the selecting nMIS and the memory nMIS to form a semiconductor region constituting a drain region and a source region of the memory cell.

Abstract: An insulating film for protecting an upper portion of a control gate electrode is constituted by a silicon oxide film, and thereby stress affecting a gate oxide film and a substrate that is located below a bottom portion thereof is reduced. Further, an etching prevention film consisting of a silicon nitride film is formed on a sidewall of the silicon oxide film, and thereby it is possible to prevent the sidewall of the silicon oxide film from being etched in a hydrofluoric acid cleaning step after processing of a gate electrode.

Abstract: Defects in element forming regions on which memory cells of a non-volatile memory are formed are to be diminished to reduce leakage current. End portions of element forming regions with non-volatile memory cells formed thereon are extended a length D by utilizing the region which underlies a dummy conductive film, whereby a stress induced from an insulating film which surrounds the element forming regions is concentrated on the extended region. As a result, defects do not extend up to the regions where memory cells are formed and therefore it is possible to reduce leakage current in the memory cells.

Abstract: The present invention provides a technology which allows the improvement of the capacitor capacitance per unit area, and a technology which allows the simplification of a manufacturing process associated therewith. At least not less than one capacitor formation trench causing the uneven surface is formed on the surface of a capacitor formation region. As a result, the surface area of a capacitor is increased, which enables the improvement of the capacitance of the capacitor per unit area. Further, by forming the capacitor formation trench and an element formation trench formed in the surface of the semiconductor substrate are formed by the same step. As a result, it is possible to simplify the manufacturing process. Whereas, a dielectric film of the capacitor in the capacitor formation region and a high-voltage gate insulating film in a MISFET formation region are formed by the same step.

Abstract: A variable geometry turbocharger in which a bill-like projection portion is arranged in a part of an outer periphery of a flow passage spacer, and the projection portion is protruded to a turbine rotor side at a predetermined angle or the projection portion is movably provided. Alternatively, a rod-like member is arranged in a part of an outer periphery of a flow passage spacer and the rod-like member is arranged so as to be adjacent to the turbine rotor side at a predetermined angle. Alternatively, a guide vane in which a leading edge side of a rotational shaft is eliminated is arranged in a part of an outer periphery of a flow passage spacer and the rotational shaft is arranged so as to be adjacent to the turbine rotor side at a predetermined angle.

Abstract: Defects in element forming regions on which memory cells of a non-volatile memory are formed are to be diminished to reduce leakage current. End portions of element forming regions with non-volatile memory cells formed thereon are extended a length D by utilizing the region which underlies a dummy conductive film, whereby a stress induced from an insulating film which surrounds the element forming regions is concentrated on the extended region. As a result, defects do not extend up to the regions where memory cells are formed and therefore it is possible to reduce leakage current in the memory cells.

Abstract: Promoting mass storage and a fine structure of each flash memory.