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    Transparent capacitor with multi-layer grid structure
    91.
    发明授权
    Transparent capacitor with multi-layer grid structure 有权
    具有多层网格结构的透明电容

    公开(公告)号:US09235298B2

    公开(公告)日:2016-01-12

    申请号:US13305815

    申请日:2011-11-29

    申请人: Mitchell Stewart Burberry Ronald Steven Cok

    发明人: Mitchell Stewart Burberry Ronald Steven Cok

    IPC分类号: G06F3/044 H01G4/008 H01G4/005 G02F1/1343 H05K3/02 H05K1/16 H05K3/46

    CPC分类号: G06F3/044 G02F1/13439 G06F2203/04102 G06F2203/04103 G06F2203/04111 H01G4/005 H01G4/008 H05K1/162 H05K3/027 H05K3/4626 H05K3/4673 H05K2203/107 H05K2203/1194

    摘要: A transparent capacitor apparatus includes a first transparent substrate including a first patterned conductive layer having a first conductive material located over the first transparent substrate; a dielectric layer located over the first patterned conductive layer; a second patterned conductive layer including a second conductive material located over the dielectric layer, wherein the second pattern is different from the first pattern; and a second transparent substrate located over the second patterned conductive layer. Portions of the first conductive material of the first patterned conductive layer overlap portions of the second conductive material of the second patterned conductive layer. The overlapping portions of the first and second conductive materials form matching patterned electrical conductor(s) having spatially matching conducting and non-conductive areas, the non-conductive areas of the first and second patterned conductive layers having encapsulated coalesced conductive material structures.

    摘要翻译: 透明电容器装置包括:第一透明基板,包括第一图案化导电层,其具有位于第一透明基板上方的第一导电材料; 位于所述第一图案化导电层上方的电介质层; 第二图案化导电层,包括位于所述介电层上的第二导电材料,其中所述第二图案不同于所述第一图案; 以及位于第二图案化导电层上方的第二透明衬底。 第一图案化导电层的第一导电材料的部分重叠第二图案化导电层的第二导电材料的部分。 第一和第二导电材料的重叠部分形成具有空间匹配导电和非导电区域的匹配图案化电导体,第一和第二图案化导电层的非导电区域具有封装的聚结的导电材料结构。

    Imprinted bi-layer micro-structure
    92.
    发明授权
    Imprinted bi-layer micro-structure 有权
    印刷双层微结构

    公开(公告)号:US09229260B2

    公开(公告)日:2016-01-05

    申请号:US14012269

    申请日:2013-08-28

    申请人: Ronald Steven Cok

    发明人: Ronald Steven Cok

    IPC分类号: H05K1/11 G02F1/1333 G06F3/041 H05K1/02 H05K3/46 H01L27/15 H01L27/32

    CPC分类号: G02F1/13338 G06F3/041 G06F3/044 H01L27/15 H01L27/32 H01L51/5212 H05K1/0289 H05K3/465 H05K2203/0108 Y10T428/24777 Y10T428/24802

    摘要: An imprinted micro-structure includes a substrate having an edge area and a central area separate from the edge area. A cured bottom-layer, connecting layer, and top layer are formed over the substrate, each with a corresponding imprinted micro-channel having a cured micro-wire. The bottom micro-wire is in the central area and the edge area. The connecting-layer micro-wire contacts at least a portion of the bottom-layer micro-wire in the edge area. A cured edge micro-wire in the top layer contacts at least a portion of the connecting-layer micro-wire in the edge area. A top-layer micro-wire is located in a top-layer micro-channel and is separate from the edge micro-wire and bottom micro-wire. The bottom-layer micro-wire in the central area is electrically connected to the edge micro-wire in the edge area and is electrically isolated from the top-layer micro-wire.

    摘要翻译: 印刷微结构包括具有边缘区域和与边缘区域分离的中心区域的基板。 固化的底层,连接层和顶层形成在基板上,每个具有相应的具有固化微线的印刷微通道。 底部微线在中心区域和边缘区域。 连接层微线接触边缘区域中底层微线的至少一部分。 顶层中的固化边缘微线与边缘区域中的连接层微线的至少一部分接触。 顶层微线位于顶层微通道中,与边缘微线和底部微线分离。 中心区域的底层微线电连接到边缘区域中的边缘微线,并与顶层微线电隔离。

    Imprinted multi-layer micro-structure method with multi-level stamp
    93.
    发明授权
    Imprinted multi-layer micro-structure method with multi-level stamp 有权
    多层印刷多层微结构方法

    公开(公告)号:US09215798B2

    公开(公告)日:2015-12-15

    申请号:US14012173

    申请日:2013-08-28

    申请人: Ronald Steven Cok

    发明人: Ronald Steven Cok

    IPC分类号: H01B13/00 H05K1/02 H05K3/46 H05K3/12 H05K3/00 H05K1/09

    CPC分类号: H05K1/0274 H05K1/0298 H05K1/097 H05K3/0041 H05K3/12 H05K3/1258 H05K3/1275 H05K3/1283 H05K3/1291 H05K3/465 H05K3/4685 H05K2201/09209 H05K2201/09281 H05K2201/0979 H05K2201/09845 H05K2203/0108

    摘要: A method of making an imprinted micro-wire structure includes providing a substrate, a first stamp, and a different multi-level second stamp. A curable bottom layer is provided over the substrate. One or more bottom-layer micro-channel(s) are imprinted in the curable bottom layer with the first stamp and a bottom-layer micro-wire formed in each bottom-layer micro-channel. A curable multi-layer is formed adjacent to and in contact with the cured bottom layer. First and second multi-layer micro-channels and a top-layer micro-channel are imprinted in the curable multi-layer with the multi-level second stamp. Either two bottom-layer micro-wires are electrically connected through the first and second multi-layer micro-wires and a top-layer micro-wire or two top-layer micro-wires are electrically connected through the first and second multi-layer micro-wires and a bottom-layer micro-wire.

    摘要翻译: 制造压印微线结构的方法包括提供衬底,第一印模和不同的多级第二印模。 在基板上设置可固化的底层。 一个或多个底层微通道被印刷在可固化底层中,第一印模和底层微线形成在每个底层微通道中。 在固化的底层附近形成可固化的多层,并且与固化的底层接触。 第一和第二多层微通道和顶层微通道用多级第二印记印在可固化多层中。 两个底层微电线通过第一和第二多层微线电连接,并且顶层微线或两个顶层微线通过第一和第二多层微电子电连接 电线和底层微线。

    MAKING THIN-FILM MULTI-LAYER MICRO-WIRE STRUCTURE
    95.
    发明申请
    MAKING THIN-FILM MULTI-LAYER MICRO-WIRE STRUCTURE 有权
    制造薄膜多层微结构

    公开(公告)号:US20150310963A1

    公开(公告)日:2015-10-29

    申请号:US14264545

    申请日:2014-04-29

    申请人: ROGER G. MARKHAM Ronald Steven Cok Yoncai Wang Mitchell Lawrence Wright

    发明人: ROGER G. MARKHAM Ronald Steven Cok Yoncai Wang Mitchell Lawrence Wright

    IPC分类号: H01B5/02 C23C18/48 H01B19/04 H01B1/02 H01B1/22 C23C18/38 C23C18/31

    CPC分类号: H01B19/04 H01B1/02 H01B1/22 H05K1/097 H05K3/1258 H05K3/246 H05K2203/072

    摘要: A method of making a thin-film multi-layer micro-wire structure includes providing a substrate and a layer on the substrate with one or more micro-channels having a width less than or equal to 20 microns. A conductive material including silver nano-particles and having a percent ratio of silver that is greater than or equal to 40% by weight is located in the micro-channels and cured to form an electrically conductive micro-wire. The electrically conductive micro-wire has a width less than or equal to 20 microns and a depth less than or equal to 20 microns. Each micro-wire is electrolessly plated to form a plated layer located at least partially within each micro-channel between the micro-wire and the layer surface in electrical contact with the micro-wire. The plated layer has a thickness less than a thickness of the micro-wire so that the micro-wire and plated layer form the thin-film multi-layer micro-wire.

    摘要翻译: 制造薄膜多层微线结构的方法包括在衬底上提供具有宽度小于或等于20微米的一个或多个微通道的衬底和层。 包含银纳米颗粒并且具有大于或等于40重量%的银百分比的导电材料位于微通道中并固化以形成导电微线。 导电微线的宽度小于或等于20微米,深度小于或等于20微米。 每个微线被无电镀以形成至少部分地位于微线和层表面之间的每个微通道中的电镀层,其与微线电接触。 电镀层的厚度小于微线的厚度,使得微线和镀层形成薄膜多层微线。

    Making imprinted micro-wire rib structure
    96.
    发明授权
    Making imprinted micro-wire rib structure 有权
    制作印刷微线肋结构

    公开(公告)号:US09161456B1

    公开(公告)日:2015-10-13

    申请号:US14476059

    申请日:2014-09-03

    申请人: Ronald Steven Cok Mitchell Stewart Burberry

    发明人: Ronald Steven Cok Mitchell Stewart Burberry

    IPC分类号: H01L21/4763 H05K3/12 H05K3/00

    CPC分类号: H05K3/1258 H05K3/0014 H05K3/1283 H05K2201/0108 H05K2203/0108 H05K2203/088

    摘要: A method of making a micro-wire rib structure includes providing a substrate and locating a curable layer on or over the substrate. The curable layer is imprinted and cured to form a cured layer including a cured-layer surface and a micro-channel having a micro-channel depth, a micro-channel bottom, first and second micro-channel sides, and one or more ribs having opposing rib sides and a rib top defining a rib height less than the micro-channel depth. Each rib is located between the first and second micro-channel sides and extends from the micro-channel bottom toward the cured-layer surface. A curable conductive material is located in the micro-channel and cured to provide a cured electrical conductor forming a micro-wire in the micro-channel. The micro-wire extends continuously from the first micro-channel side, over the micro-channel bottom, the rib side(s) and rib top(s), to the second micro-channel side forming a continuous electrical conductor from the first micro-channel side to the second micro-channel side.

    摘要翻译: 制造微线肋结构的方法包括提供衬底并将可固化层定位在衬底上或衬底上。 可固化层被印迹固化以形成固化层,该固化层包括固化层表面和具有微通道深度的微通道,微通道底部,第一和第二微通道侧,以及一个或多个肋,其具有 相对的肋侧面和肋顶部限定肋高度小于微通道深度。 每个肋条位于第一和第二微通道侧之间,并且从微通道底部向固化层表面延伸。 可固化导电材料位于微通道中并固化以提供在微通道中形成微线的固化电导体。 微线从第一微通道侧,微通道底部,肋侧和肋顶部连续延伸到第二微通道侧,从第一微通道侧形成来自第一微通道侧的连续电导体 通道侧到第二微通道侧。

    Making touch screens with diamond-patterned micro-wire electrode
    97.
    发明授权
    Making touch screens with diamond-patterned micro-wire electrode 有权
    用金刚石图案微线电极制作触摸屏

    公开(公告)号:US09128572B2

    公开(公告)日:2015-09-08

    申请号:US13591325

    申请日:2012-08-22

    申请人: Ronald Steven Cok

    发明人: Ronald Steven Cok

    IPC分类号: H05B33/10 G06F3/044 H01L51/52 H01L27/32

    CPC分类号: G06F3/044 G06F3/0412 G06F2203/04112 H01L27/323 H01L51/5209 H01L51/5225 H01L51/5234

    摘要: A method of making a display device includes providing a first substrate having an array of pixels located in correspondence thereto. The pixels are separated by inter-pixel gaps. A first electrode having a length direction is located over the first substrate and extends across at least a portion of the array of pixels, the first electrode including a plurality of electrically connected micro-wires formed in a micro-pattern. The micro-pattern has a first set of parallel micro-wires oriented at a first angle non-orthogonal to the length direction and a second set of parallel micro-wires oriented at a second angle non-orthogonal to the length direction different from the first angle. The micro-wires of the first and second sets intersect to form an array of electrically connected micro-wire intersections. At least every other micro-wire intersection on the micro-wires of the first set is located between the pixels in the inter-pixel gaps.

    摘要翻译: 制造显示装置的方法包括提供具有与其对应的位置的像素阵列的第一基板。 像素间隔由像素间隔分开。 具有长度方向的第一电极位于第一衬底之上并延伸穿过像素阵列的至少一部分,第一电极包括以微图案形成的多个电连接的微线。 微型图案具有以与长度方向不正交的第一角度定向的第一组平行微细线和第二组平行微细线,其以与第一个不同于第一个长度方向的长度方向非正交的第二角度定向 角度。 第一组和第二组的微线相交以形成电连接的微线交点的阵列。 至少在第一组的微线上的每个其他微线交叉点位于像素间间隙中的像素之间。

    MAKING MICRO-WIRE ELECTRODE STRUCTURE WITH SINGLE-LAYER DUMMY MICRO-WIRES
    98.
    发明申请
    MAKING MICRO-WIRE ELECTRODE STRUCTURE WITH SINGLE-LAYER DUMMY MICRO-WIRES 审中-公开
    用单层微型线制造微电线结构

    公开(公告)号:US20150242025A1

    公开(公告)日:2015-08-27

    申请号:US14191484

    申请日:2014-02-27

    申请人: Ronald Steven Cok

    发明人: Ronald Steven Cok

    IPC分类号: G06F3/047 G06F3/044

    CPC分类号: G06F3/044 G06F1/16 G06F3/0412 G06F3/0416 G06F3/042 G06F3/046 G06F3/047 G06F2203/04103 G06F2203/04107 G06F2203/04111 G06F2203/04112 H05K1/0216 H05K1/0296 H05K2201/10204 Y10T29/49105 Y10T29/49117

    摘要: A method of making a micro-wire electrode structure includes providing a substrate having a surface. A plurality of first micro-wire electrodes spatially separated by first electrode gaps is located in a first layer in relation to the surface, each first micro-wire electrode including a plurality of electrically connected first micro-wires. A plurality of electrically isolated second micro-wire electrodes in a second layer is located in relation to the surface, the second layer at least partially different from the first layer and each second micro-wire electrode including a plurality of electrically connected second micro-wires. A plurality of first gap micro-wires is located in each first electrode gap, at least some of the first gap micro-wires located in a gap layer different from the first layer, the first gap micro-wires electrically isolated from the first micro-wires.

    摘要翻译: 制造微线电极结构的方法包括提供具有表面的衬底。 通过第一电极间隙空间分隔的多个第一微线电极位于相对于表面的第一层中,每个第一微线电极包括多个电连接的第一微线。 第二层中的多个电隔离的第二微线电极相对于表面定位,第二层至少部分地不同于第一层,每个第二微线电极包括多个电连接的第二微线 。 多个第一间隙微细线位于每个第一电极间隙中,至少一些第一间隙微线位于不同于第一层的间隙层中,第一间隙微线与第一微缝隙电绝缘, 电线

    Hybrid single-side touch screen
    99.
    发明授权
    Hybrid single-side touch screen 有权
    混合单面触摸屏

    公开(公告)号:US09058084B2

    公开(公告)日:2015-06-16

    申请号:US13862586

    申请日:2013-04-15

    申请人: Mitchell Stewart Burberry Ronald Steven Cok

    发明人: Mitchell Stewart Burberry Ronald Steven Cok

    IPC分类号: G06F3/041 G06F3/044

    CPC分类号: G06F3/044 G06F2203/04103 G06F2203/04111 G06F2203/04112

    摘要: A single-side touch-screen device includes a substrate having a cured layer with a patterned arrangement of micro-channels embossed therein and a cured electrically conductive micro-wire formed in each micro-channel. A patterned dielectric insulator is located over one or more middle portions of at least some of the micro-wires forming insulated micro-wire portions and exposed micro-wire portions. A plurality of patterned transparent conductors are conformally coated in an array over at least a part of the patterned dielectric insulator, at least a part of the insulated micro-wire portions, and at least a part of the exposed micro-wire portions, the at least a part of the exposed micro-wire portions electrically connected to at least a portion of the patterned transparent conductors. The transparent conductors and the micro-wires form an array of electrically connected horizontal electrodes and an array of electrically connected vertical electrodes electrically isolated from the horizontal electrodes.

    摘要翻译: 单面触摸屏装置包括具有固化层的基板,其具有压印在其中的微通道的图案化布置,以及形成在每个微通道中的固化的导电微线。 图案化的电介质绝缘体位于形成绝缘微线部分和暴露的微线部分的至少一些微线的一个或多个中间部分上。 多个图案化的透明导体以阵列方式共形地涂覆在图案化电介质绝缘体的至少一部分上,绝缘的微线部分的至少一部分和暴露的微线部分的至少一部分, 暴露的微线部分的至少一部分电连接到图案化的透明导体的至少一部分。 透明导体和微线形成电连接的水平电极的阵列和与水平电极电隔离的电连接的垂直电极的阵列。