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    • 4. 发明授权
    • Zero force heat sink
    • 零力散热器
    • US06212070B1
    • 2001-04-03
    • US09071897
    • 1998-05-05
    • Eugene R. AtwoodJoseph A. BenenatiJames J. DankelmanHoratio QuinonesKarl J. PuttlitzEric J. Kastberg
    • Eugene R. AtwoodJoseph A. BenenatiJames J. DankelmanHoratio QuinonesKarl J. PuttlitzEric J. Kastberg
    • H05K720
    • H01L23/4006H01L2224/16225H01L2924/09701
    • A heat sink in a heat transfer relationship with a substrate such as an integrated chip, chip carrier, or other electronic package. The heat sink is connected to a frame which is connected to a printed circuit board or other suitable support on which the substrate is positioned. The heat sink, which extends through an aperture in the frame is coupled to a surface of the substrate. The heat sink is mechanically decoupled from the substrate. Large heat sinks may be thermally connected to surface mount substrates mounted using technologies such as ceramic ball or column grid arrays, plastic ball or column grid arrays, or solder balls or columns. The heat sink is attached coaxially through the aperture to the substrate. After assembly and lead/tin or other metallic surface mount interconnects are relaxed such that the substrate and is completely supported by the frame and the heat sink imparts zero or nearly zero downward force. Because the heat sink moves freely within the aperture during assembly, the heat sink package is useful for a variety of different substrates. Preferably, the frame is a plate and a plurality of studs. The plate material are selected to match the thermal expansion of the underlying support, and the stud material matched the thermal expansion of the substrate. Thus, the frame construction allows matching expansion and contraction of the assembly to the underlying substrate and support.
    • 与诸如集成芯片,芯片载体或其它电子封装的衬底的热传递关系的散热器。 散热器连接到框架,该框架连接到印刷电路板或其上放置基板的其它合适的支撑件。 延伸穿过框架中的孔的散热器耦合到衬底的表面。 散热器与基板机械分离。 大型散热器可以热连接到使用诸如陶瓷球或列网格阵列,塑料球或列网格阵列或焊球或列的技术安装的表面安装基板。 散热器同轴地穿过孔径连接到基板。 组装之后,铅/锡或其他金属表面贴装互连件松弛,使得基板并被框架和散热器完全支撑,使零或接近零的向下的力。 因为散热器在组装期间在孔内自由移动,所以散热器封装对于各种不同的衬底是有用的。 优选地,框架是板和多个螺柱。 选择板材以匹配下面的支撑件的热膨胀,并且螺柱材料与基板的热膨胀相匹配。 因此,框架结构允许将组件的膨胀和收缩与下面的衬底和支撑件相匹配。
    • 10. 发明授权
    • Zero force heat sink
    • US5805430A
    • 1998-09-08
    • US687103
    • 1996-07-22
    • Eugene R. AtwoodJoseph A. BenenatiJames J. DankelmanHoratio QuinonesKarl J. PuttlitzEric J. Kastberg
    • Eugene R. AtwoodJoseph A. BenenatiJames J. DankelmanHoratio QuinonesKarl J. PuttlitzEric J. Kastberg
    • H01L23/40H02B1/01H02B7/20
    • H01L23/4006H01L2224/16225H01L2924/09701
    • A heat sink is placed in a heat transfer relationship with a substrate such as an integrated chip, chip carrier, or other electronic package, without imparting stressful forces to the substrate by connecting the heat sink to a frame which is connected to a support such as a printed circuit board or other suitable carrier on which the substrate is positioned. The heat sink extends through an aperture in the frame and is in heat transfer relationship with a surface of the substrate; however, it is mechanically decoupled from the substrate. The invention has particular application in thermally connecting large heat sinks to substrates that are surface mounted on the support using technologies such as ceramic ball or column grid arrays, plastic ball or column grid arrays, or solder balls or columns. In order to provide intimate contact between the substrate and the heat sink, the heat sink must be depressed coaxially through the aperture of the frame against a surface of the substrate and then secured by, for example, gluing while in contact with the surface. However, this downward force imparted by the heat sink is quickly reduced via relaxation of the lead/tin or other metallic elements of the surface mount. A heat sink in a heat transfer relationship with a substrate such as an integrated chip, chip carrier, or other electronic package. The heat sink is connected to a frame which is connected to a printed circuit board or other suitable support on which the substrate is positioned. The heat sink, which extends through an aperture in the frame is coupled to a surface of the substrate. The heat sink is mechanically decoupled from the substrate. Large heat sinks may be thermally connected to surface mount substrates mounted using technologies such as ceramic ball or column grid arrays, plastic ball or column grid arrays, or solder balls or columns. The heat sink is attached coaxially through the aperture to the substrate. After assembly and lead/tin or other metallic surface mount interconnects are relaxed such that the substrate and is completely supported by the frame and the heat sink imparts zero or nearly zero downward force. Because the heat sink moves freely within the aperture during assembly, the heat sink package is useful for a variety of different substrates. Preferably, the frame is a plate and a plurality of studs. The plate material are selected to match the thermal expansion of the underlying support, and the stud material matches the thermal expansion of the substrate. Thus the frame construction allows matching expansion and contraction of the assembly to the underlying substrate and support.