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    • 5. 发明申请
    • Flexible Heat Exchanger
    • 柔性换热器
    • US20110303403A1
    • 2011-12-15
    • US12814175
    • 2010-06-11
    • Maurice F. HolahanEric V. KlinePaul N. KrystekMichael R. RasmussenArvind K. SinhaStephen M. Zins
    • Maurice F. HolahanEric V. KlinePaul N. KrystekMichael R. RasmussenArvind K. SinhaStephen M. Zins
    • F28F21/00B21D53/02
    • H01L23/4332F28F3/12F28F2255/02H01L23/473H01L2924/0002Y10T29/4935H01L2924/00
    • An embodiment of the invention comprises a method for constructing a heat exchanger for cooling one or more semiconductor components. The method comprises the step of providing first and second planar sheets of specified thermally conductive metal foil, wherein each of the sheets has and exterior side and an interior side. The method further comprises forming one or more thermal contact nodes (TCNs) in the first sheet, wherein each TCN extends outward from the exterior side of the first sheet, and comprises a planar contact member and one or more side sections, the side sections respectively including resilient components that enable the contact member of the TCN to move toward and away from the exterior side of the first sheet, and the side sections and contact member of a TCN collectively forming a coolant chamber. Channel segments are configured along the interior side of the first sheet, wherein each channel extends between the coolant chambers and two TCNs, or between the coolant chamber of a TCN and an input port or output port, selectively. The method further comprises joining the interior side of the second sheet to the interior side of the first sheet, in order to form a sealed flow path that includes each channel segment, and enables liquid coolant to flow into and out of the coolant chamber of each TCN.
    • 本发明的实施例包括一种用于构造用于冷却一个或多个半导体部件的热交换器的方法。 该方法包括提供特定导热金属箔的第一和第二平面片的步骤,其中每个片具有外侧和内侧。 该方法还包括在第一片材中形成一个或多个热接触节点(TCN),其中每个TCN从第一片材的外侧向外延伸,并且包括平面接触构件和一个或多个侧面部分,侧面部分 包括能够使TCN的接触构件朝向和远离第一板的外侧移动的弹性部件,以及TCN的侧部和接触部件共同形成冷却剂室。 通道段沿着第一片材的内侧配置,其中每个通道选择性地在冷却剂室和两个TCN之间或TCN的冷却剂室与输入端口或输出端口之间延伸。 该方法还包括将第二片材的内侧连接到第一片材的内侧,以便形成包括每个通道段的密封流动路径,并且使液体冷却剂能够流入和流出每个通道段的冷却剂室 TCN。
    • 7. 发明授权
    • Dual-fluid heat exchanger
    • 双流体换热器
    • US08636052B2
    • 2014-01-28
    • US12555588
    • 2009-09-08
    • Eric KlinePaul N. KrystekPaul R. MichelsSusan J. SwensonStephen M. Zins
    • Eric KlinePaul N. KrystekPaul R. MichelsSusan J. SwensonStephen M. Zins
    • F28F7/00H05K7/20
    • F28D15/00F28F23/00H01L23/427H01L2924/0002H01L2924/00
    • An integrated circuit dual-fluid heat exchanger has a housing containing first and second immiscible fluids. A heat-introducing base element contacts the first fluid. A heat-receiving surface on the base element is configured for interfacial contact with a heat-radiating surface of an integrated circuit device. A heat-removing condenser element contacts the second fluid, or is separated therefrom by a gap. The first and second fluids are selected to controllably remove heat from the integrated circuit device by forming heated mass units of the first fluid that migrate through the second fluid and come into contact with the condenser element, where they are cooled and allowed to return to the base element. A heat-expulsion portion on the condenser element is configured to dissipate heat removed by the condenser element to an exterior environment outside the heat exchanger.
    • 集成电路双流体热交换器具有容纳第一和第二不混溶流体的壳体。 导热基体元件接触第一流体。 基座元件上的受热表面构造成与集成电路器件的散热表面的界面接触。 除热电容器元件接触第二流体,或者通过间隙与其分离。 选择第一和第二流体以通过形成迁移穿过第二流体并与冷凝器元件接触的第一流体的加热质量单元来控制地从集成电路装置移除热量,在那里它们被冷却并允许其返回到 基本元素 冷凝器元件上的散热部分构造成将由冷凝器元件移除的热量散发到热交换器外部的外部环境。
    • 8. 发明申请
    • Dual-Fluid Heat Exhanger
    • 双流体热交换器
    • US20110056655A1
    • 2011-03-10
    • US12555588
    • 2009-09-08
    • Eric KlinePaul N. KrystekPaul R. MichelsSusan J. SwensonStephen M. Zins
    • Eric KlinePaul N. KrystekPaul R. MichelsSusan J. SwensonStephen M. Zins
    • F28D15/00
    • F28D15/00F28F23/00H01L23/427H01L2924/0002H01L2924/00
    • An integrated circuit dual-fluid heat exchanger has a housing containing first and second immiscible fluids. A heat-introducing base element contacts the first fluid. A heat-receiving surface on the base element is configured for interfacial contact with a heat-radiating surface of an integrated circuit device. A heat-removing condenser element contacts the second fluid, or is separated therefrom by a gap. The first and second fluids are selected to controllably remove heat from the integrated circuit device by forming heated mass units of the first fluid that migrate through the second fluid and come into contact with the condenser element, where they are cooled and allowed to return to the base element. A heat-expulsion portion on the condenser element is configured to dissipate heat removed by the condenser element to an exterior environment outside the heat exchanger.
    • 集成电路双流体热交换器具有容纳第一和第二不混溶流体的壳体。 导热基体元件接触第一流体。 基座元件上的受热表面构造成与集成电路器件的散热表面的界面接触。 除热电容器元件接触第二流体,或者通过间隙与其分离。 选择第一和第二流体以通过形成迁移穿过第二流体并与冷凝器元件接触的第一流体的加热质量单元来控制地从集成电路器件移除热量,在那里它们被冷却并允许其返回到 基本元素 冷凝器元件上的散热部分构造成将由冷凝器元件移除的热量散发到热交换器外部的外部环境。