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    • 1. 发明申请
    • MULTILAYER CAPACITOR
    • 多层电容器
    • US20110096463A1
    • 2011-04-28
    • US12904640
    • 2010-10-14
    • Masaaki TOGASHIKazuyuki HASEBE
    • Masaaki TOGASHIKazuyuki HASEBE
    • H01G4/228
    • H01G4/228
    • Disclosed is a multilayer capacitor capable of improving reliability and further reducing ESL. In a width direction, a second principal-surface electrode portion is greater than a first principal-surface electrode portion, and a fifth principal-surface electrode portion is greater than a fourth principal-surface electrode portion. When viewed from a lamination direction, an outer edge of the second principal-surface electrode portion at the other end side is arranged near the other end side more than outer edge of the fifth principal-surface electrode portion at one end side. First lead portions are connected to the second principal-surface electrode portion, and second lead portions are connected to the fifth principal-surface electrode portion. Thus, portions of the second principal-surface electrode portion greater than the first principal-surface electrode portion and portions of the fifth principal-surface electrode portion greater than the fourth principal-surface electrode portion function as current paths between the first lead portions and the second lead portions. Therefore, the current paths are shortened.
    • 公开了能够提高可靠性并进一步降低ESL的层叠电容器。 在宽度方向上,第二主面电极部分大于第一主表面电极部分,第五主表面电极部分大于第四主表面电极部分。 当从层叠方向观察时,另一端侧的第二主面电极部的外缘在另一端侧比第一主面电极部的一端侧的外缘更靠近另一端侧。 第一引线部分连接到第二主表面电极部分,第二引线部分连接到第五主表面电极部分。 因此,第二主面电极部分比第一主表面电极部分大的部分和大于第四主表面电极部分的第五主表面电极部分的部分用作第一引线部分和第二主表面电极部分之间的电流路径 第二引线部分。 因此,电流路径缩短。
    • 2. 发明申请
    • MULTILAYER CAPACITOR
    • 多层电容器
    • US20110096464A1
    • 2011-04-28
    • US12904694
    • 2010-10-14
    • Masaaki TOGASHIKazuyuki HASEBE
    • Masaaki TOGASHIKazuyuki HASEBE
    • H01G4/228
    • H01G4/228
    • Disclosed is a multilayer capacitor capable of improving adhesiveness of layers of an element body and improving reliability. Outer edge 12a, 12c, and 12d of a second principal-surface electrode portion 12 are respectively separated from an end surface 1a and lateral surfaces 1e and 1f, and are respectively arranged so as to surround the forefront portion of a third principal-surface electrode portion 21 at one end 1A side when viewed from a lamination direction. Outer edges 22a, 22c, and 22d of a fourth principal-surface electrode portion 22 are respectively separated from an end surface 1b and lateral surfaces 1e and 1f, and are arranged so as to surround the forefront portion of a first principal-surface electrode portion 11 in the width direction at the other end 1B side when viewed from the lamination direction. First lead portions 14 and 16 are respectively connected to the outer edges 12c and 12d of the second principal-surface electrode portion 12 in a width direction at the other end 1B side, and second lead portions 24 and 26 are respectively connected to the outer edges 22c and 22d of the fourth principal-surface electrode portion 22 in the width direction at the one end 1A side.
    • 公开了能够提高元件体的层的粘附性并提高可靠性的层叠电容器。 第二主表面电极部分12的外边缘12a,12c和12d分别与端面1a和侧表面1e和1f分开,并且分别布置成围绕第三主表面电极的前端部分 在从层叠方向观察时的一端1A侧的部分21。 第四主表面电极部分22的外边缘22a,22c和22d分别与端面1b和侧表面1e和1f分离,并且被布置成围绕第一主表面电极部分的第一主表面电极部分 11在从层叠方向观察时在另一端1B侧的宽度方向上。 第一引线部14和16分别在第二主表面电极部分12的外边缘12c和12d沿另一端1B侧的宽度方向连接,第二引线部分24和26分别连接到外边缘 22c和22d在第一主体1A侧的宽度方向上。
    • 3. 发明申请
    • FEEDTHROUGH MULTILAYER CAPACITOR
    • 生产多层电容器
    • US20120250218A1
    • 2012-10-04
    • US13415431
    • 2012-03-08
    • Masaaki TOGASHITakashi AOKIHiroshi OKUYAMAYutaro KOTANI
    • Masaaki TOGASHITakashi AOKIHiroshi OKUYAMAYutaro KOTANI
    • H01G4/35
    • H01G4/30H01G4/232H01G4/35
    • A conducting portion includes a plurality of conducting inner electrodes. Each of a pair of capacitance portions includes a plurality of signal inner electrodes while adjacently opposing each other in the laminating direction, a plurality of first grounding inner electrodes while adjacently opposing each other in the laminating direction, and a plurality of second grounding inner electrodes while adjacently opposing each other in the laminating direction. The plurality of first grounding inner electrodes are located between the conducting portion and the plurality of signal inner electrodes, while one of the first grounding inner electrodes adjacently opposes one of the first signal inner electrodes in the laminating direction. The plurality of second grounding inner electrodes are located between principal faces opposing each other in the laminating direction in the outer surface and the plurality of signal inner electrodes.
    • 导电部分包括多个导电内部电极。 一对电容部分中的每一个包括多个信号内部电极,同时在层叠方向上相互相对,多个第一接地内部电极在层叠方向上彼此相邻;多个第二接地内部电极,同时 在层叠方向上彼此相邻地相对。 所述多个第一接地内部电极位于所述导通部和所述多个信号内部电极之间,所述第一接地内部电极中的一个在所述层叠方向上与所述第一信号内部电极之一相邻地相对。 多个第二接地内电极位于外表面和多个信号内电极的层叠方向上彼此相对的主面之间。
    • 4. 发明申请
    • MULTILAYER CAPACITOR
    • 多层电容器
    • US20120162853A1
    • 2012-06-28
    • US13314708
    • 2011-12-08
    • Masaaki TOGASHI
    • Masaaki TOGASHI
    • H01G4/30
    • H01G4/005H01G4/228H01G4/30
    • A multilayer capacitor which can control ESR in a wide frequency band is provided. In a multilayer capacitor 1, inner electrodes 8a, 8b oppose each other as different polarities through a dielectric layer 7 in a capacitance unit 10, inner electrodes 8c to 8f oppose each other as different polarities through dielectric layers 7 in ESR control units 11A, 11B, and the inner electrodes 8a, 8b of the capacitance unit 10 connected to the outer electrodes 3, 4 and the inner electrodes 8c, 8f of the ESR control units 11A, 11B connected to the outer electrodes 3, 4 are kept from opposing each other as different polarities through the dielectric layer 7 at boundaries between the capacitance unit 10 and the ESR control units 11A, 11B.
    • 提供了可以在宽频带中控制ESR的多层电容器。 在层叠电容器1中,内部电极8a,8b通过电容单元10中的电介质层7以不同的极性相互对置,内部电极8c〜8f通过ESR控制单元11A,11B中的电介质层7以不同的极性相互对置 与连接到外部电极3,4的ESR控制单元11A,11B的与外部电极3,4和内部电极8c,8f连接的电容单元10的内部电极8a,8b保持彼此不相对 作为在电容单元10和ESR控制单元11A,11B之间的边界处的电介质层7的不同极性。
    • 5. 发明申请
    • MULTILAYER CAPACITOR
    • 多层电容器
    • US20100039750A1
    • 2010-02-18
    • US12501027
    • 2009-07-10
    • Masaaki TOGASHITakeru YOSHIDA
    • Masaaki TOGASHITakeru YOSHIDA
    • H01G4/005H01G4/228
    • H01G4/228H01G4/005H01G4/232
    • A multilayer capacitor comprises a capacitor element body constituted by a plurality of laminated dielectric layers; first and second signal terminal electrodes and a ground terminal electrode which are arranged on an outer surface of the capacitor element body; and a ground electrode, first and second signal electrodes, and an intermediate internal electrode which are arranged within the capacitor element body. The first signal electrode is connected to the first signal terminal electrode, while the second signal electrode is connected to the second signal terminal electrode. The ground electrode is connected to the ground terminal electrode and has a first region overlapping the first signal electrode in a first direction in which the plurality of dielectric layers are laminated and a second region overlapping the second signal electrode in the first direction. The intermediate internal electrode is arranged such as to be separated from the first and second signal terminal electrodes and the ground terminal electrode and positioned between the first signal electrode and the ground electrode and between the second signal electrode and the ground electrode. The intermediate internal electrode has a region overlapping the first region in the first direction and a region overlapping the second region in the first direction.
    • 一种层叠电容器包括由多个叠层电介质层构成的电容器元件主体; 第一和第二信号端子电极和接地端子电极,其布置在电容器元件主体的外表面上; 以及布置在电容器元件主体内的接地电极,第一和第二信号电极和中间内部电极。 第一信号电极连接到第一信号端子电极,而第二信号电极连接到第二信号端子电极。 接地电极连接到接地端子电极,并且具有与第一信号电极重叠的第一区域,其中多个电介质层被层压的第一方向和与第二信号电极沿第一方向重叠的第二区域。 中间内部电极被布置成与第一和第二信号端子电极和接地端子电极分离,并且位于第一信号电极和接地电极之间以及第二信号电极和接地电极之间。 中间内部电极具有与第一方向上的第一区域重叠的区域和在第一方向上与第二区域重叠的区域。
    • 6. 发明申请
    • MULTILAYER CAPACITOR ARRAY
    • 多层电容阵列
    • US20090147439A1
    • 2009-06-11
    • US12274790
    • 2008-11-20
    • Masaaki TOGASHITakashi AOKI
    • Masaaki TOGASHITakashi AOKI
    • H01G4/232
    • H01G4/232H01G4/005H01G4/30
    • At least one of a plurality of first internal electrodes and a second internal electrode are arranged as opposed with at least one of the dielectric layers in between. Third and fourth internal electrodes are arranged as opposed with at least one of the dielectric layers in between. The first internal electrodes are electrically connected to a first external connecting conductor through lead conductors. The second, third, and fourth internal electrodes are electrically connected to second, third, and fourth terminal conductors, respectively, through lead conductors. At last one but not all of the first internal electrodes are electrically connected to the first terminal conductor through a lead conductor.
    • 多个第一内部电极和第二内部电极中的至少一个布置成与其间的至少一个电介质层相对。 第三和第四内部电极被布置成与其间的至少一个电介质层相对。 第一内部电极通过引线导体电连接到第一外部连接导体。 第二,第三和第四内部电极分别通过引线导体电连接到第二,第三和第四端子导体。 最后一个但不是全部的第一内部电极通过引线导体与第一端子导体电连接。
    • 7. 发明申请
    • MULTILAYER CAPACITOR
    • 多层电容器
    • US20090109596A1
    • 2009-04-30
    • US12210671
    • 2008-09-15
    • Masaaki TOGASHI
    • Masaaki TOGASHI
    • H01G4/005H01G4/228
    • H01G4/232H01G4/30
    • An element body has first and second inner electrodes which are alternately laminated. The first inner electrode has a first main electrode, a first coupling conductor extending to a first side face of the element body while being connected to an edge part of the first main electrode, and a first lead conductor extending to a third side face while being connected to the first coupling conductor. The second inner electrode has a second main electrode, a second coupling conductor extending to the first side face of the element body while being connected to an edge part of the second main electrode, and a second lead conductor extending to a fourth side face while being connected to the second coupling conductor. The first and second lead conductors are separated from the first and second main electrodes by gaps, respectively.
    • 元件体具有交替层压的第一和第二内部电极。 第一内部电极具有第一主电极,第一耦合导体,其延伸到元件主体的第一侧面,同时连接到第一主电极的边缘部分;以及第一引线导体,其延伸到第三侧面,同时 连接到第一耦合导体。 第二内部电极具有第二主电极,第二耦合导体,其在与第二主电极的边缘部分连接的同时延伸到元件主体的第一侧面;以及第二引线导体,其延伸到第四侧面,同时 连接到第二耦合导体。 第一和第二引线导体分别通过间隙与第一和第二主电极分开。
    • 8. 发明申请
    • MULTILAYER CAPACITOR
    • 多层电容器
    • US20080297976A1
    • 2008-12-04
    • US12127332
    • 2008-05-27
    • Masaaki TOGASHITakeshi WADA
    • Masaaki TOGASHITakeshi WADA
    • H01G4/228
    • H01G4/232
    • A first terminal electrode has a first electrode portion disposed on a first face and connected to a first internal electrode, and a second electrode portion disposed on a third face and connected to the first electrode portion. A second terminal electrode has a first electrode portion disposed on a second face and connected to a second internal electrode, and a second electrode portion disposed on the third face and connected to the first electrode portion. Each of the second electrode portions of the first and second terminal electrodes, when viewed along a third direction perpendicular to the third face, is arranged with a gap in the second direction so as to sandwich at least a portion of an end in the first direction of an element body region sandwiched between the first internal electrode and the second internal electrode, at an end in the first direction of the second electrode portion.
    • 第一端子电极具有设置在第一面上并连接到第一内部电极的第一电极部分和设置在第三面上并连接到第一电极部分的第二电极部分。 第二端子电极具有设置在第二面上并连接到第二内部电极的第一电极部分和设置在第三面上并连接到第一电极部分的第二电极部分。 当沿垂直于第三面的第三方向观察时,第一和第二端子电极的每个第二电极部分在第二方向上以间隙的方式布置,以便将第一方向上的端部的至少一部分 在第二电极部分的第一方向上的端部处夹在第一内部电极和第二内部电极之间的元件体区域。
    • 9. 发明申请
    • LC COMPOSITE COMPONENT AND STRUCTURE FOR MOUNTING LC COMPOSITE COMPONENT
    • LC复合组分和用于安装LC复合组分的结构
    • US20120313729A1
    • 2012-12-13
    • US13479929
    • 2012-05-24
    • Masaaki TOGASHI
    • Masaaki TOGASHI
    • H05K1/16H03H5/00
    • H03H7/0115H01P1/20345H03H7/425H03H2001/0085
    • An LC composite component is provided in which a capacitor section and an inductor section are alternately stacked in layers in the layering direction; either the capacitor section or the inductor section is disposed on both a first element body principal face side and a second element body principal face side; a first coil wire path portion and a second coil wire path portion are connected to an external conductor interposed between an external conductor near a first element body end face and an external conductor near a second element body end face in a first external conductor group; and the first coil wire path portion and the second coil wire path portion form a coil which is wound in a helical fashion along the layering direction.
    • 提供一种LC复合​​元件,其中电容器部分和电感器部分在层叠方向上交替层叠; 电容器部分或电感器部分都设置在第一元件主体主面侧和第二元件主体主面侧上; 第一线圈导线路径部分和第二线圈线路径部分连接到位于第一外部导体组中的第一元件本体端面附近的外部导体和靠近第二元件本体端面的外部导体之间的外部导体; 并且第一线圈线路径部分和第二线圈线路径部分形成沿着分层方向以螺旋方式缠绕的线圈。
    • 10. 发明申请
    • MULTILAYER CAPACITOR AND METHOD FOR MANUFACTURING THE SAME
    • 多层电容器及其制造方法
    • US20120300361A1
    • 2012-11-29
    • US13476485
    • 2012-05-21
    • Masaaki TOGASHI
    • Masaaki TOGASHI
    • H01G4/30B32B37/14
    • H01G4/12H01G4/232H01G4/30
    • In a multilayer capacitor, a first dielectric layered product including a first body principal face is formed to be thicker than a second dielectric layered product including a second body principal face in a stacking direction thereof. A first external electrode and a second external electrode extend only to the first body principal face from a first body end face and a second body end face. Alternatively, the first external electrode and the second external electrode extend at least to the first body principal face from the first body end face and the second body end face and extend also to at least one of the second body principal face, a first body lateral face, and a second body lateral face.
    • 在层叠电容器中,包括第一主体主面的第一介电层叠体形成为比在其堆叠方向上包括第二主体主面的第二介电层叠体更厚。 第一外部电极和第二外部电极仅从第一主体端面和第二主体端面仅延伸到第一主体主面。 或者,第一外部电极和第二外部电极至少从第一主体端面和第二主体端面延伸到第一主体主面,并且还延伸到第二主体主面中的至少一个,第一主体侧面 面部和第二身体侧面。