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公开(公告)号:US08386558B2
公开(公告)日:2013-02-26
申请号:US11113688
申请日:2005-04-25
申请人: Jason E. Schleifer , Gary W. Hall , Garry K. Tan , James P. Chen
发明人: Jason E. Schleifer , Gary W. Hall , Garry K. Tan , James P. Chen
CPC分类号: G06F17/30575 , G06F17/30581 , Y10S707/99952 , Y10S707/99953
摘要: A technique and mechanism to effect cross-pollination synchronization of PIM (personal information manager) data to multiple sources. Additionally, a novel feature of the subject invention is the ability to effect cross-pollination synchronization with any number of devices and sources in a network. The invention provides for a user to employ a mobile device or set of devices as a central repository for PIM data (e.g., calendar, contacts and tasks) synchronized from multiple sources (e.g., multiple PC's (personal computers), an exchange server). The invention provides for synchronization of PIM data from multiple types of server sources to multiple devices regardless of the synchronization protocol versions and different schemas.
摘要翻译: 实现PIM(个人信息管理)数据到多个来源的异花授粉同步的技术和机制。 此外,本发明的新颖特征是能够与网络中的任何数量的设备和源实现异花授粉同步。 本发明提供一种用户将移动设备或一组设备用作用于从多个源(例如,多个PC(个人计算机),交换服务器))同步的PIM数据(例如,日历,联系人和任务)的中央存储库。 本发明提供了将PIM数据从多种类型的服务器源同步到多个设备,而不管同步协议版本和不同模式如何。
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2.发明授权Heat transfer device with a self adjusting wick and method of manufacturing same 失效带有自调整芯片的传热装置及其制造方法公开(公告)号:US06460612B1
公开(公告)日:2002-10-08
申请号:US10074284
申请日:2002-02-12
申请人: Maninder S. Sehmbey , James P. Chen
发明人: Maninder S. Sehmbey , James P. Chen
IPC分类号: F28F2700
CPC分类号: F28D15/046
摘要: A heat pipe and method that utilizes a multi-layered shape memory alloy (SMA) as the wick structure. Each layer has a different transformation temperature. The inner layer of the SMA begins contracting first when heat is applied along the surface of the heat pipe. The contraction reduces the effective capillary radius rc of the wick, thereby maintaining or increasing the capillary pumping pressure and thus the ability to remove heat. As the temperature of the heat pipe continues to rise, the outer layer begins contracting to reduce the capillary radius further. As a result, the local pumping pressure is maintained or even increased to accommodate higher local heat flux and remove the heat to prevent “dry-out.”
摘要翻译: 一种利用多层形状记忆合金(SMA)作为芯结构的热管和方法。 每层具有不同的转化温度。 当沿着热管的表面施加热量时,SMA的内层首先开始收缩。 收缩降低了芯的有效毛细管半径rc,从而保持或增加毛细管抽吸压力,从而保持除去热量的能力。 随着热管的温度继续上升,外层开始收缩以进一步降低毛细管半径。 结果,局部泵送压力被维持或甚至增加以适应较高的局部热通量并去除热量以防止“干燥”。
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