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    • 1. 发明授权
    • Method of manufacturing a connector chip
    • 制造连接器芯片的方法
    • US08607443B2
    • 2013-12-17
    • US12827755
    • 2010-06-30
    • Shinji OkamotoKatsumi TakeuchiYutaka Nomura
    • Shinji OkamotoKatsumi TakeuchiYutaka Nomura
    • H05K3/36
    • H05K3/368H01R12/52H05K3/3442H05K2201/10378Y10T29/49126
    • A method of manufacturing a connector chip includes preparing a plate-like insulating substrate material with a plurality of through hole rows arranged therein; forming a plurality of first and second base layers on opposite surfaces of the insulating substrate material; forming insulating layers between each two adjoining first base layers and between each two adjoining second base layers; forming third base layers on the one side over edge portions of the first base layers, internal surfaces of the through holes, and edge portions of the second base layers; forming fourth base layers on the other side over edge portions of the first base layers, the internal surfaces of the through holes, and edge portions of the second base layers; cutting the insulating substrate material along a middle of each of the through hole rows; and forming one or more plated layers over the first to fourth base layers.
    • 一种制造连接器芯片的方法包括制备其中布置有多个通孔列的板状绝缘基板材料; 在所述绝缘基板材料的相对表面上形成多个第一和第二基底层; 在每个两个邻接的第一基底层之间和每个两个相邻的第二基底层之间形成绝缘层; 在所述第一基底层的边缘部分,所述通孔的内表面和所述第二基底层的边缘部分的一侧上形成第三基底层; 在所述第一基底层的边缘部分的另一侧上形成第四基底层,所述通孔的内表面和所述第二基底层的边缘部分; 沿着每个通孔列的中间切割绝缘基板材料; 以及在所述第一至第四基底层上形成一个或多个镀层。
    • 3. 发明申请
    • CONNECTOR CHIP AND MANUFACTURING METHOD THEREOF
    • 连接器芯片及其制造方法
    • US20070072454A1
    • 2007-03-29
    • US10595809
    • 2004-11-12
    • Shinji OkamotoKatsumi TakeuchiYutaka Nomura
    • Shinji OkamotoKatsumi TakeuchiYutaka Nomura
    • H01R4/58
    • H05K3/368H01R12/52H05K3/3442H05K2201/10378Y10T29/49126
    • The present invention provides a connector chip capable of preventing electrical shorting between adjoining electrodes and also capable of readily connecting a plurality of electrodes on a first circuit substrate and a plurality of electrodes on a second circuit substrate without using a dedicated mounting device or the like. A plurality of conductive paths 5 are formed on an outer periphery surface constituted by continuous four surfaces 9A to 9D of an insulating substrate 3 including six surfaces of the surfaces 9A to 9D and surfaces 9E and 9F. Each of the conductive paths 5 goes round on the outer periphery surface. The conductive paths 5 are formed on the outer periphery surface at a predetermined interval in an opposing direction in which the remaining two surfaces 9E and 9F are opposing to each other. Each of insulating layers 7 having a property of repelling molten solder is formed between portions of each two adjoining conductive paths located on a pair of the surfaces 9A and 9B. The width of a conductive-path-formed portion 3A with a conductive path 5 formed thereon, orthogonal to a center line C is formed to be smaller than the width of a conductive-path-unformed portion 3B with no conductive path 5 formed thereon, orthogonal to the center line C.
    • 本发明提供一种连接器芯片,其能够防止相邻电极之间的电短路,并且还能够容易地连接第一电路基板上的多个电极和第二电路基板上的多个电极,而不使用专用的安装装置等。 在由包括表面9A至9D的六个表面和表面9E和9F的绝缘基板3的连续的四个表面9A至9D构成的外周面上形成多个导电路径5。 导电路径5在外周表面上圆周。 导电路径5以与剩下的两个表面9E和9F相对的相反方向以预定的间隔形成在外周表面上。 具有排斥熔融焊料性质的绝缘层7中的每一个形成在位于一对表面9A和9B上的每个两个邻接导电路径的部分之间。具有导电性的导电路径形成部分3A的宽度 形成在其上的与中心线C正交的路径5形成为小于没有形成在其上的导电路径5的与中心线C正交的导电路径未成形部分3B的宽度。
    • 4. 发明授权
    • Terminal structure of chiplike electric component
    • chiplike电气元件的端子结构
    • US07825769B2
    • 2010-11-02
    • US12088268
    • 2006-09-27
    • Yutaka NomuraKatsumi Takeuchi
    • Yutaka NomuraKatsumi Takeuchi
    • H01C1/012
    • H01C1/142H01C1/012H01C1/148H01C7/003H01C17/006
    • A terminal structure of a chip-like electric component capable of blocking entry of electromigration-causing factors through an insulating resin layer in the vicinity of the peak of a raised portion of an electrical element forming layer is obtained. A metal-glaze-based front electrode 103 containing silver is provided on a surface of an insulating ceramic substrate 101. A resistor layer 107 electrically connected to the front electrode 103 is provided on the substrate surface. A glass layer 109a is provided to completely cover a surface of the resistor layer 107 as well as a surface of an end portion of the resistor layer 107 and also to partially cover the front electrode 103. An insulating resin layer 109b is provided to cover a surface of the glass layer 109a as well as a surface of at least an end portion of the glass layer 109a and to partially cover the front electrode 103. A conductive layer 117 made of a resin-based conductive paint is provided to extend over the surface of the front electrode 103 and an portion of the insulating resin layer 109b in the vicinity of the peak of raised end portion of the insulating resin layer 109b. The resin-based conductive paint is made by kneading particulate conductive silver powder and scale-like conductive silver powder into an epoxy-based insulating resin paint.
    • 可以获得能够通过电气元件形成层的凸起部分的峰附近的绝缘树脂层阻挡电迁移因子的芯片状电气部件的端子结构。 在绝缘陶瓷基板101的表面上设置有含有银的金属釉基前电极103.电连接到前电极103的电阻层107设置在基板表面上。 提供玻璃层109a以完全覆盖电阻层107的表面以及电阻层107的端部的表面,并且还部分覆盖前电极103.设置绝缘树脂层109b以覆盖 玻璃层109a的表面以及玻璃层109a的至少一个端部的表面,并且部分地覆盖前电极103.设置由树脂基导电涂料制成的导电层117以在表面上延伸 的绝缘树脂层109b的顶端附近的绝缘树脂层109b的一部分。 树脂系导电性涂料通过将颗粒状导电性银粉末和鳞状导电性银粉末混合成环氧系绝缘树脂涂料而制成。
    • 5. 发明申请
    • CONNECTOR CHIP AND MANUFACTURING METHOD THEREOF
    • 连接器芯片及其制造方法
    • US20100266753A1
    • 2010-10-21
    • US12827755
    • 2010-06-30
    • Shinji OkamotoKatsumi TakeuchiYutaka Nomura
    • Shinji OkamotoKatsumi TakeuchiYutaka Nomura
    • H01R43/00
    • H05K3/368H01R12/52H05K3/3442H05K2201/10378Y10T29/49126
    • The present invention provides a connector chip capable of preventing electrical shorting between adjoining electrodes and also capable of readily connecting a plurality of electrodes on a first circuit substrate and a plurality of electrodes on a second circuit substrate without using a dedicated mounting device or the like. A plurality of conductive paths 5 are formed on an outer periphery surface constituted by continuous four surfaces 9A to 9D of an insulating substrate 3 including six surfaces of the surfaces 9A to 9D and surfaces 9E and 9F. Each of the conductive paths 5 goes round on the outer periphery surface. The conductive paths 5 are formed on the outer periphery surface at a predetermined interval in an opposing direction in which the remaining two surfaces 9E and 9F are opposing to each other. Each of insulating layers 7 having a property of repelling molten solder is formed between portions of each two adjoining conductive paths located on a pair of the surfaces 9A and 9B. The width of a conductive-path-formed portion 3A with a conductive path 5 formed thereon, orthogonal to a center line C is formed to be smaller than the width of a conductive-path-unformed portion 3B with no conductive path 5 formed thereon, orthogonal to the center line C.
    • 本发明提供一种连接器芯片,其能够防止相邻电极之间的电短路,并且还能够容易地连接第一电路基板上的多个电极和第二电路基板上的多个电极,而不使用专用的安装装置等。 在由包括表面9A至9D的六个表面和表面9E和9F的绝缘基板3的连续四个表面9A至9D构成的外周表面上形成多个导电通路5。 导电路径5中的每一个在外周表面上圆周。 导电路径5在剩余的两个表面9E和9F彼此相对的相反方向上以预定的间隔形成在外周表面上。 在位于一对表面9A和9B上的每个两个邻接的导电路径的部分之间形成具有排斥熔融焊料性质的绝缘层7。 形成有与中心线C正交的导电路径5的导电路径形成部3A的宽度形成为比形成有导电路径5的导电路径未成形部3B的宽度小, 与中心线C正交
    • 6. 发明申请
    • TERMINAL STRUCTURE OF CHIPLIKE ELECTRIC COMPONENT
    • CHIPLIKE电气部件的终端结构
    • US20090231086A1
    • 2009-09-17
    • US12088268
    • 2006-09-27
    • Yutaka NomuraKatsumi Takeuchi
    • Yutaka NomuraKatsumi Takeuchi
    • H01C1/012
    • H01C1/142H01C1/012H01C1/148H01C7/003H01C17/006
    • A terminal structure of a chip-like electric component capable of blocking entry of electromigration-causing factors through an insulating resin layer in the vicinity of the peak of a raised portion of an electrical element forming layer is obtained. A metal-glaze-based front electrode 103 containing silver is provided on a surface of an insulating ceramic substrate 101. A resistor layer 107 electrically connected to the front electrode 103 is provided on the substrate surface. A glass layer 109a is provided to completely cover a surface of the resistor layer 107 as well as a surface of an end portion of the resistor layer 107 and also to partially cover the front electrode 103. An insulating resin layer 109b is provided to cover a surface of the glass layer 109a as well as a surface of at least an end portion of the glass layer 109a and to partially cover the front electrode 103. A conductive layer 117 made of a resin-based conductive paint is provided to extend over the surface of the front electrode 103 and an portion of the insulating resin layer 109b in the vicinity of the peak of raised end portion of the insulating resin layer 109b. The resin-based conductive paint is made by kneading particulate conductive silver powder and scale-like conductive silver powder into an epoxy-based insulating resin paint.
    • 可以获得能够通过电气元件形成层的凸起部分的峰附近的绝缘树脂层阻挡电迁移因子的芯片状电气部件的端子结构。 在绝缘陶瓷基板101的表面上设置有含有银的金属釉基前电极103.电连接到前电极103的电阻层107设置在基板表面上。 提供玻璃层109a以完全覆盖电阻层107的表面以及电阻层107的端部的表面,并且还部分覆盖前电极103.设置绝缘树脂层109b以覆盖 玻璃层109a的表面以及玻璃层109a的至少一个端部的表面,并且部分地覆盖前电极103.设置由树脂基导电涂料制成的导电层117在表面上延伸 的绝缘树脂层109b的顶端附近的绝缘树脂层109b的一部分。 树脂系导电性涂料通过将颗粒状导电性银粉末和鳞状导电性银粉末混合成环氧系绝缘树脂涂料而制成。
    • 7. 发明授权
    • Chip-like electric component and method for manufacturing the same
    • 片状电气元件及其制造方法
    • US08193899B2
    • 2012-06-05
    • US12995867
    • 2009-06-01
    • Katsumi TakeuchiYutaka NomuraHiroyuki Kurokawa
    • Katsumi TakeuchiYutaka NomuraHiroyuki Kurokawa
    • H01C1/034
    • H01C7/003H01C1/06H01C17/006H01C17/06506Y10T29/49155
    • A chip-like electric component such as a chip resistor is provided, which is easy to manufacture and in which cracks or fractures of an insulating substrate are unlikely to occur. A pair of surface electrodes 21, 23 are formed so that thicknesses of the pair of surface electrodes increase from a resistor layer 13 toward end portions 30 of an insulating substrate 29 in a direction in which the pair of surface electrodes 21, 23 are arranged. A plating reservoir S is formed between one of the surface electrodes 21, 23 and an insulating protective layer 15. When forming at least one plated layer 33, a plated metal pools in the plating reservoir S. The at least one plated layer 33 may work to reduce to some extent a height difference between a soldering electrode portion 21, 23, 27, 33 and the insulating protective layer 15.
    • 提供了诸如片状电阻器的芯片状电气部件,其易于制造,并且其中不可能发生绝缘基板的裂纹或断裂。 形成一对表面电极21,23,使得一对表面电极的厚度从电阻层13朝向绝缘基板29的端部配置在一对表面电极21,23的方向上增加。 在一个表面电极21,23和绝缘保护层15之间形成电镀槽S.当形成至少一个镀层33时,电镀金属池在电镀槽S中。至少一个镀层33可以工作 以在一定程度上减少焊接电极部分21,23,27,33与绝缘保护层15之间的高度差。
    • 8. 发明授权
    • Coordinate computation device and sewing machine
    • 坐标计算装置和缝纫机
    • US09045848B2
    • 2015-06-02
    • US14223031
    • 2014-03-24
    • Masaru JimboYutaka NomuraKentaro ToriiKazuki KojimaDaisuke Honda
    • Masaru JimboYutaka NomuraKentaro ToriiKazuki KojimaDaisuke Honda
    • D05B19/16G06F3/00D05B19/02
    • D05B19/16D05B19/02G06F3/00
    • A coordinate computation device includes a position indication portion, a detection portion, a processor, and a memory. The position indication portion includes an indicating portion, a switch, and a transmitter. The detection portion is configured to detect ultrasonic waves transmitted by the transmitter. The memory is configured to store computer-readable instructions. The computer-readable instructions cause the processor to perform processes that include computing sets of first coordinates, based on times when the detection portion detects the ultrasonic waves, computing a movement direction of the position indication portion on a plane, computing an angle formed between the plane and a direction in which the position indication portion is long, and computing a set of second coordinates, based on the computed movement direction, the computed angle, and a set of third coordinates among the sets of the computed first coordinates.
    • 坐标计算装置包括位置指示部分,检测部分,处理器和存储器。 位置指示部分包括指示部分,开关和发射器。 检测部被配置为检测由发送器发送的超声波。 存储器被配置为存储计算机可读指令。 计算机可读指令使得处理器基于检测部分检测超声波的时间,执行包括第一坐标的计算集的处理,计算平面上的位置指示部分的移动方向,计算在 平面以及位置指示部分长的方向,并且基于所计算的运动方向,所计算的角度和所计算的第一坐标的组中的一组第三坐标来计算一组第二坐标。
    • 10. 发明授权
    • Quinazoline derivatives
    • 喹唑啉衍生物
    • US06706705B1
    • 2004-03-16
    • US08809770
    • 1997-03-28
    • Koichiro NishiokaToshihiro TakahashiYutaka Nomura
    • Koichiro NishiokaToshihiro TakahashiYutaka Nomura
    • C07D23995
    • C07D239/95
    • The present invention provides a new compound which shows slow and continuous blood pressure reducing action and is useful as an antihypertensive agent. The invention resides in a quinazoline derivative of the following formula (I) and its pharmaceutically acceptable salt: in which, each of R1 and R2 is H or an alkyl group of 1 to 6 carbon atoms, or R1 and R2 are combined to form an ethylene group; each of R3 and R4 is an alkyl group of 1 to 6 carbon atoms; R5 is a hydrogen atom, a hydroxyl group, an alkyl group of 1 to 6 carbon atoms, or an alkoxy group of 1 to 6 carbon atoms; each of R6 and R7 is a hydrogen atom or an alkyl group of 1 to 6 carbon atoms; and n is 2 or 3. The invention further resides in an antihypertensive agent containing the above compound.
    • 本发明提供了一种新的化合物,其显示缓慢且持续的减压作用,并且可用作抗高血压药。本发明涉及下式(I)的喹唑啉衍生物及其药学上可接受的盐:其中R 1和R 2是H或1至6个碳原子的烷基,或R 1和R 2结合形成亚乙基; R 3和R 4各自为1至6个碳原子的烷基; R 5为氢原子,羟基,碳原子数为1〜6的烷基或碳原子数1〜6的烷氧基, R 6和R 7各自为氢原子或1〜6个碳原子的烷基; 并且n为2或3.本发明还涉及含有上述化合物的抗高血压药。