会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Conducting paste for device level interconnects
    • 用于器件级互连的导电膏
    • US08685284B2
    • 2014-04-01
    • US12884657
    • 2010-09-17
    • Rabindra N. DasRoy H. MagnusonMark D. PoliksVoya R. Markovich
    • Rabindra N. DasRoy H. MagnusonMark D. PoliksVoya R. Markovich
    • H01B1/00H01B1/22H01B1/02
    • H01B1/22H01L2224/81Y10T29/49117
    • A conducting paste and method of forming the paste for device level interconnection. The conducting paste contains metal loading in the range 80-95% that is useful for making five micron device level interconnects. The conducting paste is made by mixing two different conducting pastes, each paste maintaining its micro level individual rich region in the mixed paste even after final curing. One paste contains at least one low melting point alloy and the other paste contains noble metal fillers such as gold or silver flakes. In general, average flake size below five micron is suitable for five micron interconnects. However, 1 micron or smaller silver flakes and an LMP mixture is preferred for five micron interconnects. The amount of LMP based paste in the final mixture is preferably 20-50% by weight. The nano micro paste embodiment shows good electrical yield (81%) and low contact resistance.
    • 导电糊和形成用于器件级互连的糊的方法。 导电浆料含有80-95%范围内的金属负载,可用于制造五微米器件级互连。 通过混合两种不同的导电浆料制成导电糊料,即使在最终固化后,每个糊料仍将其微量级独立富含区域保持在混合糊料中。 一种糊状物含有至少一种低熔点合金,另一种糊状物含有贵金属填料如金或银薄片。 通常,小于5微米的平均片尺寸适用于五微米互连。 然而,对于5微米互连,优选1微米或更小的银薄片和LMP混合物。 最终混合物中基于LMP的糊剂的量优选为20-50重量%。 纳米微膏实施例显示良好的电收率(81%)和低接触电阻。
    • 9. 发明授权
    • Method of applying force to electrical contacts on a printed circuit board
    • 对印刷电路板上的电触点施加力的方法
    • US08196281B2
    • 2012-06-12
    • US13090676
    • 2011-04-20
    • Benson ChanMatthew J. Lauffer
    • Benson ChanMatthew J. Lauffer
    • H01S4/00
    • H05K7/1061H05K7/1007Y10T29/49002Y10T29/49204Y10T29/49222Y10T29/53174Y10T29/53209Y10T29/53213Y10T29/53283Y10T29/53678
    • A spring actuated clamping mechanism has a backer plate with an upper surface and a lower surface. A set of apertures is formed along the periphery of the backer plate. The upper surface of the backer plate has at least one backer plate recess, and preferably four recesses, formed therein. A threaded aperture is also formed in the backer plate. A compression plate is also provided. A second set of apertures is formed along the periphery of the compression plate. The lower surface of the compression plate has at least one compression plate recess, and at least one compression plate aperture. At least one compression spring is disposed between the backer plate and the compression plate. A screw tension release mechanism is screwed into the backer plate threaded aperture and inserted through the compression plate aperture. When the release mechanism is loosened, backer plate is forced downwardly, applying a uniform force to all electrical contacts on the printed circuit board or card to which the clamping mechanism is attached.
    • 弹簧致动夹紧机构具有带有上表面和下表面的支承板。 沿着支撑板的周边形成一组孔。 背板的上表面具有至少一个支承板凹部,最好在其中形成四个凹部。 螺纹孔也形成在后板中。 还提供压缩板。 沿着压缩板的周边形成第二组孔。 压缩板的下表面具有至少一个压缩板凹部和至少一个压缩板孔。 至少一个压缩弹簧设置在支承板和压缩板之间。 螺钉张力释放机构拧入支承板螺纹孔并插入通过压板孔。 当释放机构松动时,支撑板向下受力,对夹紧机构所附着的印刷电路板或卡上的所有电触头施加均匀的力。