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    • 1. 发明授权
    • Method of sorting monolithic ceramic capacitors by measuring the insulation resistance thereof
    • 通过测量其绝缘电阻来分选叠层陶瓷电容器的方法
    • US06476617B1
    • 2002-11-05
    • US09425079
    • 1999-10-21
    • Yoshio KawaguchiYoshikazu TakagiYasunobu Yoneda
    • Yoshio KawaguchiYoshikazu TakagiYasunobu Yoneda
    • G01R3112
    • G01R31/022
    • A sorting method of monolithic ceramic capacitors in which high reliable sorting can be efficiently achieved based on measuring an insulating resistance involves first performing a burn-in process, which applies not less than double of the rated voltage at the maximum working temperature to a monolithic ceramic capacitor. Thereafter, a high temperature insulation resistance measuring process, which involves measuring an insulation resistance while applying not less than the rated voltage at a temperature of not less than 70° C. to the monolithic ceramic capacitor, is performed so that monolithic ceramic capacitors having abnormal insulation resistances are eliminated. Preferably, the direction of applied voltage in the burn-in process agrees with the direction of applied voltage in the high temperature insulation resistance measuring process.
    • 可以通过测量绝缘电阻有效地实现高可靠性分选的叠层陶瓷电容器的分选方法包括首先进行老化过程,其将不低于最大工作温度下的额定电压的两倍应用于单块陶瓷 电容器。 此后,进行耐温绝缘电阻测定工序,其包括在不低于70℃的温度下施加不低于额定电压的单元陶瓷电容器时测量绝缘电阻,使得具有异常的单片陶瓷电容器 绝缘电阻被消除。 优选地,老化过程中施加电压的方向与高温绝缘电阻测量过程中施加电压的方向一致。
    • 4. 发明授权
    • Ceramic electronic component
    • 陶瓷电子元件
    • US06381117B1
    • 2002-04-30
    • US09656724
    • 2000-09-07
    • Takuji NakagawaYoshikazu TakagiYasunobu YonedaToru Watanabe
    • Takuji NakagawaYoshikazu TakagiYasunobu YonedaToru Watanabe
    • H01G4228
    • H01G4/232H01G2/065H01G2/14H01G4/005H05K3/3442H05K2201/10636H05K2201/10909Y02P70/611Y02P70/613
    • A ceramic electronic component includes at least one component body having two end faces opposing each other and side faces connecting the two end faces, and terminal electrodes formed on the component body. Each of the terminal electrodes extends from each end face to edge portions of each side face of the component body. Each of the terminal electrodes includes a metal layer formed on at least each end face of the component body, a conductive resin layer for covering at least portions of the side faces of the component body, and a metal plating film covering the outer surface of the terminal electrode. The conductive resin layer extends from the metal layer including the edge of the metal layer to the portions of the side faces, and includes a conductive resin containing metal powder and resin. The thickness of the conductive resin layer above the side faces is at least about 10 &mgr;m.
    • 陶瓷电子部件包括具有彼此相对的两个端面和连接两个端面的侧面和形成在部件主体上的端子电极的至少一个部件主体。 每个端子电极从每个端面延伸到组件主体的每个侧面的边缘部分。 每个端子电极包括形成在组件主体的至少每个端面上的金属层,用于覆盖组件主体的至少一部分侧面的导电树脂层和覆盖组件主体的外表面的金属镀膜 端子电极。 导电树脂层从包括金属层的边缘的金属层延伸到侧面的部分,并且包括含有金属粉末和树脂的导电树脂。 侧面上方的导电树脂层的厚度为至少约10μm。
    • 5. 发明授权
    • Electronic multilayer ceramic component
    • 电子多层陶瓷组件
    • US06377439B1
    • 2002-04-23
    • US09615651
    • 2000-07-13
    • Hiroshi SekidouYoshikazu TakagiYasunobu Yoneda
    • Hiroshi SekidouYoshikazu TakagiYasunobu Yoneda
    • H01G4005
    • H01G4/005H01G4/30Y10T428/24926
    • An electronic multilayer ceramic component is disclosed which is less susceptible to having a crack or delamination in a sintered ceramic block and has high thermal shock resistance, high humidity resistance, and high reliability. Dimensional parameters EW, WG, T, and G of the electronic multilayer ceramic component are determined such that the following conditions are satisfied: WG/EW≧0.3; and T/G≦7.0, where EW is the width of inner electrodes, WG is the width of a side gap region between the ends of the inner electrodes and one of side faces of a sintered ceramic block, T is the thickness of a region in which the plurality of inner electrodes are laminated, and G is the thickness of one of the outermost ceramic layers parallel to the plurality of inner electrodes and located outside the region in which the plurality of inner electrodes are laminated.
    • 公开了一种电子多层陶瓷组件,其不太可能在烧结陶瓷块中具有裂纹或分层,并且具有高耐热冲击性,高耐湿性和高可靠性。 确定电子多层陶瓷部件的尺寸参数EW,WG,T和G,使得满足以下条件:WG / EW> = 0.3; 和T / G <= 7.0,其中EW是内部电极的宽度,WG是内部电极的端部与烧结陶瓷块的一个侧面之间的侧面间隙区域的宽度,T是 多个内部电极层叠的区域,G是与多个内部电极平行且位于多个内部电极层叠的区域外的最外层陶瓷层之一的厚度。
    • 6. 发明授权
    • Laminated ceramic electronic component
    • 层压陶瓷电子元件
    • US06292353B1
    • 2001-09-18
    • US09593570
    • 2000-06-14
    • Tatsuo HarataniYasunobu YonedaYoshikazu Takagi
    • Tatsuo HarataniYasunobu YonedaYoshikazu Takagi
    • H01G406
    • H01G4/232H01G4/30H05K3/3442Y10T428/24777Y10T428/24917
    • The present invention provides a reliable ceramic electronic component in which cracks are hardly generated in the ceramic sintered body when a heat impact is applied or even when a stress caused by bending of a printed circuit board after packaging is applied, wherein inner electrodes are disposed in the ceramic sintered body, and wherein a first and second outer electrodes are formed so as to cover the first and second end faces, the first and second outer electrodes comprising electrode cover members extending to the upper face and lower face, up to both side faces of the ceramic sintered body, and the distance e and the distance Lg satisfying the relation of 1.5×Lg≦e≦3.5×Lg, where e denotes a distance between the outermost side edge of the outer electrode and the inner side edge of the electrode cover member of the outer electrode, and Lg denotes the distance between the outermost side edge of the outer electrode and the tip of the inner electrode electrically connected to the outer electrode.
    • 本发明提供了一种可靠的陶瓷电子部件,其中当施加热冲击时或陶瓷烧结体中几乎不产生裂纹,或者当施加包装后印刷电路板的弯曲引起的应力时,内部电极设置在 陶瓷烧结体,并且其中形成第一和第二外部电极以覆盖第一和第二端面,第一和第二外部电极包括延伸到上表面和下表面的电极盖构件,直到两个侧面 ,距离e和距离Lg满足1.5×Lg <= e <= 3.5×Lg的关系,其中e表示外电极的最外侧边缘与电极的内侧边缘之间的距离 外部电极的盖构件,Lg表示外部电极的最外侧边缘与内部电极的与前述电极连接的内部电极的前端之间的距离 电极。