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    • 1. 发明授权
    • Apparatus and method for thermal management using vapor chamber
    • 使用蒸气室进行热管理的设备和方法
    • US08335083B2
    • 2012-12-18
    • US12909669
    • 2010-10-21
    • Wei YangSteven J. EickhoffChunbo ZhangAlex GuJ. David Zook
    • Wei YangSteven J. EickhoffChunbo ZhangAlex GuJ. David Zook
    • H05K7/20H01L23/34H01L23/367F28D15/00
    • F28D15/046F28D15/0233H01L23/427H01L2924/0002H01L2924/00
    • An apparatus includes a plurality of islands each carrying multiple cantilevers. The apparatus also includes a fluidic network having a plurality of channels separating the islands. The channels are configured to provide fluid to the islands, and the fluid at least partially fills spaces between the cantilevers and the islands. Heat from the islands vaporizes the fluid filling the spaces between the cantilevers and the islands to transfer the heat away from the islands while driving the cantilevers into oscillation. The apparatus may also include a casing configured to surround the islands and the fluidic network to create a vapor chamber, where the vapor chamber is configured to retain the vaporized fluid. The islands and the fluidic network could be formed in a single substrate, or the islands could be separate and attached together by a binder located within the channels of the fluidic network.
    • 一种装置包括多个岛,每个岛承载多个悬臂。 该装置还包括具有分离岛的多个通道的流体网络。 通道被配置成向岛提供流体,并且流体至少部分地填充悬臂和岛之间的空间。 来自岛屿的热量使填充悬臂和岛屿之间的空间的流体蒸发,以将散热物从岛屿转移,同时驱动悬臂进入振荡。 该装置还可以包括被配置成围绕岛和流体网络以形成蒸汽室的壳体,其中蒸气室被配置为保持蒸发的流体。 岛和流体网络可以形成在单个基底中,或者岛可以分开并通过位于流体网络的通道内的粘合剂附着在一起。
    • 2. 发明申请
    • APPARATUS AND METHOD FOR THERMAL MANAGEMENT USING VAPOR CHAMBER
    • 用于使用蒸气室进行热管理的装置和方法
    • US20090020271A1
    • 2009-01-22
    • US12169793
    • 2008-07-09
    • Wei YangSteven J. EickhoffChunbo ZhangAlex GuJ. David Zook
    • Wei YangSteven J. EickhoffChunbo ZhangAlex GuJ. David Zook
    • F28D15/00
    • F28D15/046F28D15/0233H01L23/427H01L2924/0002H01L2924/00
    • An apparatus includes a plurality of islands each carrying multiple cantilevers. The apparatus also includes a fluidic network having a plurality of channels separating the islands. The channels are configured to provide fluid to the islands, and the fluid at least partially fills spaces between the cantilevers and the islands. Heat from the islands vaporizes the fluid filling the spaces between the cantilevers and the islands to transfer the heat away from the islands while driving the cantilevers into oscillation. The apparatus may also include a casing configured to surround the islands and the fluidic network to create a vapor chamber, where the vapor chamber is configured to retain the vaporized fluid. The islands and the fluidic network could be formed in a single substrate, or the islands could be separate and attached together by a binder located within the channels of the fluidic network.
    • 一种装置包括多个岛,每个岛承载多个悬臂。 该装置还包括具有分离岛的多个通道的流体网络。 通道被配置成向岛提供流体,并且流体至少部分地填充悬臂和岛之间的空间。 来自岛屿的热量使填充悬臂和岛屿之间的空间的流体蒸发,以将散热物从岛屿转移,同时驱动悬臂进入振荡。 该装置还可以包括被配置成围绕岛和流体网络以形成蒸汽室的壳体,其中蒸气室被配置为保持蒸发的流体。 岛和流体网络可以形成在单个基底中,或者岛可以分开并通过位于流体网络的通道内的粘合剂附着在一起。
    • 3. 发明申请
    • APPARATUS AND METHOD FOR THERMAL MANAGEMENT USING VAPOR CHAMBER
    • 用于使用蒸气室进行热管理的装置和方法
    • US20110030925A1
    • 2011-02-10
    • US12909669
    • 2010-10-21
    • Wei YangSteven J. EickhoffChunbo ZhangAlex GuJ. David Zook
    • Wei YangSteven J. EickhoffChunbo ZhangAlex GuJ. David Zook
    • F28D15/04
    • F28D15/046F28D15/0233H01L23/427H01L2924/0002H01L2924/00
    • An apparatus includes a plurality of islands each carrying multiple cantilevers. The apparatus also includes a fluidic network having a plurality of channels separating the islands. The channels are configured to provide fluid to the islands, and the fluid at least partially fills spaces between the cantilevers and the islands. Heat from the islands vaporizes the fluid filling the spaces between the cantilevers and the islands to transfer the heat away from the islands while driving the cantilevers into oscillation. The apparatus may also include a casing configured to surround the islands and the fluidic network to create a vapor chamber, where the vapor chamber is configured to retain the vaporized fluid. The islands and the fluidic network could be formed in a single substrate, or the islands could be separate and attached together by a binder located within the channels of the fluidic network.
    • 一种装置包括多个岛,每个岛承载多个悬臂。 该装置还包括具有分离岛的多个通道的流体网络。 通道被配置成向岛提供流体,并且流体至少部分地填充悬臂和岛之间的空间。 来自岛屿的热量使填充悬臂和岛屿之间的空间的流体蒸发,以将散热物从岛屿转移,同时驱动悬臂进入振荡。 该装置还可以包括被配置成围绕岛和流体网络以形成蒸汽室的壳体,其中蒸气室被配置为保持蒸发的流体。 岛和流体网络可以形成在单个基底中,或者岛可以分开并通过位于流体网络的通道内的粘合剂附着在一起。
    • 4. 发明授权
    • Apparatus and method for thermal management using vapor chamber
    • 使用蒸气室进行热管理的设备和方法
    • US07843695B2
    • 2010-11-30
    • US12169793
    • 2008-07-09
    • Wei YangSteven J. EickhoffChunbo ZhangAlex GuJ. David Zook
    • Wei YangSteven J. EickhoffChunbo ZhangAlex GuJ. David Zook
    • H05K7/20H01L23/34H01L23/367F28D15/00
    • F28D15/046F28D15/0233H01L23/427H01L2924/0002H01L2924/00
    • An apparatus includes a plurality of islands each carrying multiple cantilevers. The apparatus also includes a fluidic network having a plurality of channels separating the islands. The channels are configured to provide fluid to the islands, and the fluid at least partially fills spaces between the cantilevers and the islands. Heat from the islands vaporizes the fluid filling the spaces between the cantilevers and the islands to transfer the heat away from the islands while driving the cantilevers into oscillation. The apparatus may also include a casing configured to surround the islands and the fluidic network to create a vapor chamber, where the vapor chamber is configured to retain the vaporized fluid. The islands and the fluidic network could be formed in a single substrate, or the islands could be separate and attached together by a binder located within the channels of the fluidic network.
    • 一种装置包括多个岛,每个岛承载多个悬臂。 该装置还包括具有分离岛的多个通道的流体网络。 通道被配置成向岛提供流体,并且流体至少部分地填充悬臂和岛之间的空间。 来自岛屿的热量使填充悬臂和岛屿之间的空间的流体蒸发,以将散热物从岛屿转移,同时驱动悬臂进入振荡。 该装置还可以包括被配置成围绕岛和流体网络以形成蒸汽室的壳体,其中蒸气室被配置为保持蒸发的流体。 岛和流体网络可以形成在单个基底中,或者岛可以分开并通过位于流体网络的通道内的粘合剂附着在一起。
    • 5. 发明申请
    • BLOWERLESS HEAT EXCHANGER BASED ON MICRO-JET ENTRAINMENT
    • 基于微喷嘴的无刷热交换器
    • US20090288807A1
    • 2009-11-26
    • US12181480
    • 2008-07-29
    • Wei YangChunbo ZhangSteven J. EickhoffAlex Gu
    • Wei YangChunbo ZhangSteven J. EickhoffAlex Gu
    • F28F7/00
    • F28F3/02F28F13/12F28F2215/06F28F2215/10F28F2250/08H01L23/3672H01L23/467H01L2924/0002Y10T29/4935H01L2924/00
    • A blowerless heat exchanger apparatus based on micro-jet entrainment is disclosed. The heat exchanger apparatus incorporates a number of fins regularly spaced apart from each other and parallel to each other, thus letting air currents flow in the space defined between them. A dense array of micro-jet nozzles can be fabricated on the fins surface pointing to the flow direction of the air movement in order to induce increase airflow. The air from an air compressor delivers sufficient airflow on the fins surface utilizing micro-jets entrainment. The micro-jet entrainment confirms strong turbulent around the micro-jets and suggests significant heat transfer enhancement. The turbulence from the micro-jets enhance the heat transfer coefficient, potentially by an order of magnitude, therefore allowing much larger fin spacing and leads to huge reduction of flow resistance and overall power consumption.
    • 公开了一种基于微射流夹带的无风机热交换器装置。 热交换器装置包括彼此规则地间隔开并且彼此平行的多个翅片,从而使空气流在它们之间限定的空间中流动。 可以在指向空气运动的流动方向的翅片表面上制造密集的微喷嘴阵列,以便引起增加的气流。 来自空气压缩机的空气利用微型射流夹带在散热片表面上提供足够的气流。 微射流夹带证实了微型射流周围的强烈动荡,并表明显着的传热增强。 来自微型射流的湍流增强了传热系数,潜在地增加一个数量级,因此允许更大的翅片间距,并导致流阻和总体功率消耗的巨大降低。
    • 6. 发明授权
    • Blowerless heat exchanger based on micro-jet entrainment
    • 基于微射流夹带的无风机换热器
    • US08376031B2
    • 2013-02-19
    • US12181480
    • 2008-07-29
    • Wei YangChunbo ZhangSteven J EickhoffAlex Gu
    • Wei YangChunbo ZhangSteven J EickhoffAlex Gu
    • F28F7/00H05K7/20
    • F28F3/02F28F13/12F28F2215/06F28F2215/10F28F2250/08H01L23/3672H01L23/467H01L2924/0002Y10T29/4935H01L2924/00
    • A blowerless heat exchanger apparatus based on micro-jet entrainment is disclosed. The heat exchanger apparatus incorporates a number of fins regularly spaced apart from each other and parallel to each other, thus letting air currents flow in the space defined between them. A dense array of micro-jet nozzles can be fabricated on the fins surface pointing to the flow direction of the air movement in order to induce increase airflow. The air from an air compressor delivers sufficient airflow on the fins surface utilizing micro-jets entrainment. The micro-jet entrainment confirms strong turbulent around the micro-jets and suggests significant heat transfer enhancement. The turbulence from the micro-jets enhance the heat transfer coefficient, potentially by an order of magnitude, therefore allowing much larger fin spacing and leads to huge reduction of flow resistance and overall power consumption.
    • 公开了一种基于微射流夹带的无风机热交换器装置。 热交换器装置包括彼此规则地间隔开并且彼此平行的多个翅片,从而使空气流在它们之间限定的空间中流动。 可以在指向空气运动的流动方向的翅片表面上制造密集的微喷嘴阵列,以便引起增加的气流。 来自空气压缩机的空气利用微型射流夹带在散热片表面上提供足够的气流。 微射流夹带证实了微型射流周围的强烈动荡,并表明显着的传热增强。 来自微型射流的湍流增强了传热系数,潜在地增加一个数量级,因此允许更大的翅片间距,并导致流阻和总体功率消耗的巨大降低。
    • 8. 发明授权
    • Ion-trap mass spectrometer driven by a monolithic photodiode array
    • 离子阱质谱仪由单片光电二极管阵列驱动
    • US08203118B2
    • 2012-06-19
    • US12816875
    • 2010-06-16
    • Wei YangAlex Gu
    • Wei YangAlex Gu
    • G01N33/00G01N33/48G08B5/00G01B9/00
    • H01J49/0018H01J49/022H01J49/424H01L27/1446
    • A chip-scale ion-trap mass spectrometer driven by a monolithic photodiode array and a method of fabricating the same. A high-voltage photovoltaic source is located in proximity to the ion-trap mass spectrometer structure. The high-voltage photovoltaic source includes monolithically fabricated and serially connected photodiodes. An external light source illuminates the photodiodes to generate a high voltage across the photodiode array. An RF voltage modulation is attained by modulating the light source at a desired RF frequency. The high-voltage photodiode array may be monolithically fabricated in association with the ion-trap mass spectrometer. The photodiode array requires a small area compared to the ion-trap mass spectrometer size as the spectrometer typically possess a very small capacitance and a low power consumption.
    • 由单片光电二极管阵列驱动的芯片级离子阱质谱仪及其制造方法。 高压光伏源位于离子阱质谱仪结构附近。 高压光伏源包括单片制造和串联连接的光电二极管。 外部光源照亮光电二极管以在光电二极管阵列上产生高电压。 通过以期望的RF频率调制光源来获得RF电压调制。 高压光电二极管阵列可以与离子阱质谱仪联合地整体制造。 与离子阱质谱仪尺寸相比,光电二极管阵列需要小的面积,因为光谱仪通常具有非常小的电容和低功耗。
    • 9. 发明申请
    • ION-TRAP MASS SPECTROMETER DRIVEN BY A MONOLITHIC PHOTODIODE ARRAY
    • 离子光谱仪由单色光电子阵列驱动
    • US20110139974A1
    • 2011-06-16
    • US12816875
    • 2010-06-16
    • Wei YangAlex Gu
    • Wei YangAlex Gu
    • H01J49/26H01J49/02
    • H01J49/0018H01J49/022H01J49/424H01L27/1446
    • A chip-scale ion-trap mass spectrometer driven by a monolithic photodiode array and a method of fabricating the same. A high-voltage photovoltaic source is located in proximity to the ion-trap mass spectrometer structure. The high-voltage photovoltaic source includes monolithically fabricated and serially connected photodiodes. An external light source illuminates the photodiodes to generate a high voltage across the photodiode array. An RF voltage modulation is attained by modulating the light source at a desired RF frequency. The high-voltage photodiode array may be monolithically fabricated in association with the ion-trap mass spectrometer. The photodiode array requires a small area compared to the ion-trap mass spectrometer size as the spectrometer typically possess a very small capacitance and a low power consumption.
    • 由单片光电二极管阵列驱动的芯片级离子阱质谱仪及其制造方法。 高压光伏源位于离子阱质谱仪结构附近。 高压光伏源包括单片制造和串联连接的光电二极管。 外部光源照亮光电二极管以在光电二极管阵列上产生高电压。 通过以期望的RF频率调制光源来获得RF电压调制。 高压光电二极管阵列可以与离子阱质谱仪联合地整体制造。 与离子阱质谱仪尺寸相比,光电二极管阵列需要小的面积,因为光谱仪通常具有非常小的电容和低功耗。