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    Multi-level microchannel heat exchangers
    1.
    发明授权
    Multi-level microchannel heat exchangers 有权
    多级微通道换热器

    公开(公告)号:US07156159B2

    公开(公告)日:2007-01-02

    申请号:US10612241

    申请日:2003-07-01

    申请人: James Lovette Peng Zhou James Gill Shook

    发明人: James Lovette Peng Zhou James Gill Shook

    IPC分类号: F28D15/00 F28F3/00 H05K7/20

    CPC分类号: F28F3/12 F28F2260/02 F28F2270/00 H01L23/473 H01L2924/0002 H01L2924/00

    摘要: An apparatus and method of circulating a heat-absorbing material within a heat exchanger. The apparatus comprises a manifold layer coupled to an interface layer. The manifold layer comprises an inlet manifold and an outlet manifold. The interface layer comprises a plurality of channels that extend from the inlet manifold, toward a heat-exchanging plane, and turn away from the heat-exchanging plane, terminating at the outlet manifold. The plurality of channels are stacked in a plane non-parallel to the heat-exchanging plane. Each of the channels is adjacent to another, thus allowing heat radiated from a heat-generating device to be conducted to a cooling material circulating within the channels, away from the heat-generating device. Preferably, each of the channels has a U-shape or an elongated U-shape.

    摘要翻译: 一种在热交换器内循环吸热材料的装置和方法。 该装置包括耦合到界面层的歧管层。 歧管层包括入口歧管和出口歧管。 界面层包括从入口歧管延伸到热交换平面并且远离热交换平面转移的多个通道,终止于出口歧管。 多个通道堆叠在不平行于热交换平面的平面中。 每个通道与另一个通道相邻,从而允许从发热装置辐射的热量被传导到在通道内循环的冷却材料,远离发热装置。 优选地,每个通道具有U形或细长的U形。

    Interwoven manifolds for pressure drop reduction in microchannel heat exchangers
    3.
    发明授权
    Interwoven manifolds for pressure drop reduction in microchannel heat exchangers 有权
    用于微通道热交换器中压降降低的交错歧管

    公开(公告)号:US06986382B2

    公开(公告)日:2006-01-17

    申请号:US10439912

    申请日:2003-05-16

    申请人: Girish Upadhya Thomas W. Kenny Peng Zhou Mark Munch James Gill Shook Kenneth Goodson David Corbin

    发明人: Girish Upadhya Thomas W. Kenny Peng Zhou Mark Munch James Gill Shook Kenneth Goodson David Corbin

    IPC分类号: F28F7/00

    CPC分类号: F28D15/0266 F04B19/006 F28F3/12 F28F2260/02 H01L23/473 H01L2924/0002 Y10T29/4935 H01L2924/00

    摘要: A microchannel heat exchanger coupled to a heat source and configured for cooling the heat source comprising a first set of fingers for providing fluid at a first temperature to a heat exchange region, wherein fluid in the heat exchange region flows toward a second set of fingers and exits the heat exchanger at a second temperature, wherein each finger is spaced apart from an adjacent finger by an appropriate dimension to minimize pressure drop in the heat exchanger and arranged in parallel. The microchannel heat exchanger includes an interface layer having the heat exchange region. Preferably, a manifold layer includes the first set of fingers and the second set of fingers configured within to cool hot spots in the heat source. Alternatively, the interface layer includes the first set and second set of fingers configured along the heat exchange region.

    摘要翻译: 耦合到热源并被构造用于冷却热源的微通道热交换器,其包括用于将第一温度下的流体提供给热交换区域的第一组指状物,其中热交换区域中的流体朝向第二组手指流动, 在第二温度下离开热交换器,其中每个指状物与相邻手指分开适当的尺寸,以最小化热交换器中的压力降并平行布置。 微通道热交换器包括具有热交换区域的界面层。 优选地,歧管层包括第一组指状物,并且第二组指状物构造成用于冷却热源中的热点。 或者,界面层包括沿着热交换区域配置的第一组和第二组手指。

    Method of and apparatus for sealing an hermetic lid to a semiconductor die
    4.
    发明授权
    Method of and apparatus for sealing an hermetic lid to a semiconductor die 失效
    用于将密封盖密封到半导体管芯的方法和设备

    公开(公告)号:US06303986B1

    公开(公告)日:2001-10-16

    申请号:US09124710

    申请日:1998-07-29

    申请人: James Gill Shook

    发明人: James Gill Shook

    IPC分类号: H01L2144

    CPC分类号: B81B7/0077 H01L21/50 H01L21/67126 H01L2224/02335 H01L2224/48091 H01L2224/81191 H01L2924/01046 H01L2924/01078 H01L2924/01079 H01L2924/00014

    摘要: A method and apparatus of hermetically passivating a semiconductor device includes sealing a lid directly onto a semiconductor substrate. An active device is formed on the surface of the substrate and is surrounded by a substantially planar lid sealing region, which in turn is surrounded by bonding pads. A first layer of solderable material is formed on the lid scaling region. A lid is provided which has a second layer of solderable material in a configuration corresponding to the first layer. A solder is provided between the first layer and second layer of solderable materials. In the preferred embodiment, the solder is formed over the second layer. Heat is provided to hermetically join the lid to the semiconductor device without requiring a conventional package. Preferably the first and second layers are sandwiches of conventionally known solderable materials which can be processed using conventional semiconductor techniques. An angle between the lid and the semiconductor device can be controlled by adjusting relative widths of one or both the layers of solderable materials.

    摘要翻译: 将半导体器件气密钝化的方法和装置包括将盖子直接密封在半导体衬底上。 有源器件形成在衬底的表面上,并被基本上平面的盖密封区域包围,盖子密封区域又由焊盘包围。 第一层可焊材料形成在盖缩放区域上。 提供一种具有与第一层对应的构造的第二可焊接材料层的盖。 在第一层和第二层可焊接材料之间提供焊料。 在优选实施例中,焊料形成在第二层上。 提供热量以将盖子密封地连接到半导体器件,而不需要常规封装。 优选地,第一层和第二层是可以使用常规半导体技术处理的常规已知的可焊接材料的三明治。 可以通过调节一个或两个可焊接材料层的相对宽度来控制盖和半导体器件之间的角度。

    Assembly including vertical and horizontal joined circuit panels
    5.
    发明授权
    Assembly including vertical and horizontal joined circuit panels 有权
    组装包括垂直和水平连接电路板

    公开(公告)号:US07489524B2

    公开(公告)日:2009-02-10

    申请号:US11143201

    申请日:2005-06-02

    申请人: Ronald Green Sridhar Krishnan Stuart E. Wilson James Gill Shook Ming Tsai Andy Stavros

    发明人: Ronald Green Sridhar Krishnan Stuart E. Wilson James Gill Shook Ming Tsai Andy Stavros

    IPC分类号: H05K1/11

    CPC分类号: H05K3/368 H05K1/145 H05K3/0052 H05K3/3442 H05K3/366 H05K3/403 H05K3/4092 H05K2201/0397 H05K2201/048 H05K2201/0715 H05K2201/09036 H05K2201/09181 H05K2201/09845 H05K2201/0999 H05K2201/10484

    摘要: An assembly is provided which includes a first circuit panel having a top surface, a first dielectric element and first conductive traces disposed on the first dielectric element. In addition, a second circuit panel has a bottom surface, a second dielectric element and second conductive traces disposed on the second dielectric element, where at least a portion of the second circuit panel overlies at least a portion of the first circuit panel. The assembly further includes an interconnect circuit panel having a third dielectric element which has a front surface, a rear surface opposite the front surface, a top end extending between the front and rear surfaces, a bottom end extending between the front and rear surfaces, and a plurality of interconnect traces disposed on the dielectric element. The bottom end of the interconnect element abuts the top surface of the first circuit panel and the top end abuts the bottom surface of the second circuit panel, where at least some of the first conductive traces are in conductive communication with the second conductive traces through the interconnect traces.

    摘要翻译: 提供了一种组件,其包括具有顶表面的第一电路板,设置在第一介电元件上的第一介电元件和第一导电迹线。 此外,第二电路板具有底表面,第二介电元件和设置在第二电介质元件上的第二导电迹线,其中第二电路板的至少一部分覆盖在第一电路板的至少一部分上。 该组件还包括具有第三电介质元件的互连电路板,第三电介质元件具有前表面,与前表面相对的后表面,在前表面和后表面之间延伸的顶端,在前表面和后表面之间延伸的底端,以及 布置在电介质元件上的多个互连迹线。 互连元件的底端邻接第一电路板的顶表面,并且顶端邻接第二电路板的底表面,其中至少一些第一导电迹线通过第二导电迹线与第二导电迹线导通连通 互连线。

    Micro-fabricated electrokinetic pump with on-frit electrode
    9.
    发明授权
    Micro-fabricated electrokinetic pump with on-frit electrode 有权
    带微波电极的微电动泵

    公开(公告)号:US07086839B2

    公开(公告)日:2006-08-08

    申请号:US10669495

    申请日:2003-09-23

    申请人: Thomas W. Kenny James Gill Shook Shulin Zeng Daniel J. Lenehan Juan Santiago James Lovette

    发明人: Thomas W. Kenny James Gill Shook Shulin Zeng Daniel J. Lenehan Juan Santiago James Lovette

    IPC分类号: F04F11/00

    CPC分类号: F04B19/006 F04B17/00 F28D15/00 F28F2250/08

    摘要: An electroosmotic pump and method of manufacturing thereof. The pump having a porous structure adapted to pump fluid therethrough, the porous structure comprising a first side and a second side, the porous structure having a plurality of fluid channels therethrough, the first side having a first continuous layer of electrically conductive porous material deposited thereon and the second side having a second continuous layer of electrically conductive porous material deposited thereon, the first second layers coupled to a power source, wherein the power source supplies a voltage differential between the first layer and the second layer to drive fluid through the porous structure at a desired flow rate. The continuous layer of electrically conductive porous material is preferably a thin film electrode, although a multi-layered electrode, screen mesh electrode and beaded electrode are alternatively contemplated. The thickness of the continuous layer is in range between and including 200 Angstroms and 10,000 Angstroms.

    摘要翻译: 电渗泵及其制造方法。 所述泵具有适于泵送流体的多孔结构,所述多孔结构包括第一侧和第二侧,所述多孔结构具有穿过其中的多个流体通道,所述第一侧具有沉积在其上的第一连续导电多孔材料层 并且所述第二侧具有沉积在其上的第二连续导电多孔材料层,所述第一第二层耦合到电源,其中所述电源在所述第一层和所述第二层之间提供电压差以驱动流体穿过所述多孔结构 以期望的流速。 导电性多孔材料的连续层优选为薄膜电极,但也可以考虑多层电极,筛网电极和串珠电极。 连续层的厚度在200埃和10,000埃之间的范围内。