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    • 4. 发明授权
    • Multipair differential signal transmission cable
    • 多路差分信号传输电缆
    • US09583235B2
    • 2017-02-28
    • US13785831
    • 2013-03-05
    • Hitachi Cable, Ltd.
    • Hideki NonenTakahiro Sugiyama
    • H01B11/08H01B11/18H01B11/20
    • H01B11/085H01B11/1826H01B11/20
    • A multipair differential signal transmission cable includes a plurality of differential signal transmission cables being bundled and each including two signal conductors as a differential pair covered with an insulation and a first shielding tape conductor provided therearound. The first shielding tape conductor is longitudinally lapped so as to have an overlapping portion in a cable longitudinal direction. The plurality of differential signal transmission cables include at least one or more pairs of two adjacent differential signal transmission cables. The two adjacent differential signal transmission cables are arranged such that the overlapping portion of one of the two adjacent differential signal transmission cables does not face the other of the two adjacent differential signal transmission cables.
    • 多路差分信号传输电缆包括多个差分信号传输电缆,每个差分信号传输电缆被捆绑并且每个差分信号传输电缆包括两个信号导体作为被绝缘体覆盖的差分对,以及设置在其周围的第一屏蔽带导体 第一屏蔽带导体纵向地重叠,以便在电缆纵向具有重叠部分。 多个差分信号传输电缆包括至少一对或多对两个相邻的差分信号传输电缆。 两个相邻的差分信号传输电缆布置成使得两个相邻的差分信号传输电缆中的一个的重叠部分不面向两个相邻的差分信号传输电缆中的另一个。
    • 5. 发明申请
    • DATA LINE AS WELL AS METHODS FOR PRODUCING THE DATA LINE
    • 数据线也是生产数据线的方法
    • US20160268021A1
    • 2016-09-15
    • US15163887
    • 2016-05-25
    • LEONI Kabel Holding GmbH
    • Erwin KOEPPENDOERFER
    • H01B11/18H01B13/22H01B13/14
    • H01B11/1895H01B11/1826H01B13/14H01B13/22H01B13/2693
    • A data line that is designed as a coaxial cable and has a line core that extends in a line longitudinal direction. The line core has at least one conductor surrounded at least by insulation and is surrounded by a multi-layer shielding foil, which has a non-conductive layer and a conductive layer. In an overlap region, a free end edge overlaps a further partial region, wherein additionally a conductive connection of the conductive layer at the end edge to the further partial region is formed such that a transverse current flow perpendicular to the longitudinal direction within the conductive layer is enabled. The conductive connection is formed optionally as a conductive strip and/or by a beveled end edge. In particular, the data line is a data line shielded exclusively via the shielding foil. The data line is used in particular in a motor-vehicle electrical system.
    • 数据线设计为同轴电缆,并具有沿着纵向方向延伸的线芯。 线芯具有至少一个绝缘体包围的至少一个导体,并被具有非导电层和导电层的多层屏蔽箔包围。 在重叠区域中,自由端边缘与另一部分区域重叠,其中另外在端部边缘处与另一部分区域之间的导电层的导电连接形成为使得垂直于导电层内的纵向方向的横向电流流动 启用。 导电连接可选地形成为导电条和/或通过斜面端边缘形成。 特别地,数据线是通过屏蔽箔专门屏蔽的数据线。 数据线特别用于机动车辆电气系统中。
    • 7. 发明授权
    • Method of making a coaxial cable including tubular bimetallic inner layer with folded over edge portions
    • 制造具有折叠边缘部分的管状双金属内层的同轴电缆的方法
    • US08621747B2
    • 2014-01-07
    • US13596610
    • 2012-08-28
    • Alan N. Moe
    • Alan N. Moe
    • H01B13/20H01B13/016
    • B23K13/025B23K2101/04H01B11/1826H01B13/2686Y10T29/49117Y10T29/49121Y10T29/49123Y10T29/49155Y10T29/49156Y10T29/49162
    • A method for making a coaxial cable including an inner conductor, an outer conductor, and a dielectric material layer therebetween may include forming the inner conductor by at least forming a bimetallic strip into a tubular bimetallic layer having a pair of longitudinal edge portions at a longitudinal seam. The bimetallic strip may include an inner metal layer and an outer metal layer bonded thereto and coextensive therewith. Each of the longitudinal edge portions may be folded over. The method may also include forming a welded joint between adjacent portions of the folded over longitudinal edge portions and defining surplus material at the welded joint. The method may further include removing the surplus material at the welded joint and forming the dielectric material layer surrounding the inner conductor. The method may also include forming the outer conductor surrounding the dielectric material layer.
    • 制造包括内部导体,外部导体和介电材料层的同轴电缆的方法可以包括通过至少将双金属条形成为具有纵向边缘部分的一对纵向边缘部分的管状双金属层来形成内部导体 接缝。 双金属条可以包括内金属层和与其共同延伸的外金属层。 每个纵向边缘部分可以被折叠。 该方法还可以包括在折叠的纵向边缘部分的相邻部分之间形成焊接接头并且在焊接接头处限定多余的材料。 该方法还可以包括去除焊接接头处的剩余材料并形成围绕内部导体的电介质材料层。 该方法还可以包括形成围绕介电材料层的外部导体。
    • 8. 发明申请
    • SHIELDING TAPE WITH MULTIPLE FOIL LAYERS
    • 带多层薄膜的屏蔽胶带
    • US20110011639A1
    • 2011-01-20
    • US12605908
    • 2009-10-26
    • Leonard Visser
    • Leonard Visser
    • H05K9/00H01B9/02
    • H01B11/1813H01B11/1008H01B11/1016H01B11/1826H05K9/0098
    • A coaxial cable of the present invention comprises a center conductor, a dielectric surrounding the center conductor, a shielding tape surrounding the dielectric, a braided metal surrounding the shielding tape, and an outer jacket surrounding the braided metal. The shielding tape comprises: (i) a first shielding layer bonded to a first separating layer; (ii) a second shielding layer bonded to the first separating layer and a second separating layer; and (iii) a third shielding layer bonded to the second separating layer. The present invention eliminates the potential problem of the outer shielding structures separating and interfering with connector attachment. Furthermore, the use of three or more shielding layers in the shielding tape of the present invention improves the flex life of the shield tape by covering micro-cracks in the metal layers with additional shielding layers, thus reducing signal egress or ingress. Accordingly, the present invention provides cost savings and/or an improvement in shielding performance.
    • 本发明的同轴电缆包括中心导体,围绕中心导体的电介质,围绕电介质的屏蔽带,围绕屏蔽带的编织金属和围绕编织金属的外护套。 屏蔽带包括:(i)结合到第一分离层的第一屏蔽层; (ii)结合到第一分离层的第二屏蔽层和第二分离层; 和(iii)结合到第二分离层的第三屏蔽层。 本发明消除了外部屏蔽结构分离和干扰连接器附件的潜在问题。 此外,在本发明的屏蔽带中使用三个或更多个屏蔽层通过用额外的屏蔽层覆盖金属层中的微裂纹来改善屏蔽带的弯曲寿命,从而减少了信号的出口或进入。 因此,本发明提供了成本节省和/或提高了屏蔽性能。