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    • 1. 发明授权
    • Electrostatic discharge protection device and its method of fabrication
    • 静电放电保护装置及其制造方法
    • US5777368A
    • 1998-07-07
    • US648225
    • 1996-05-13
    • Chau-Neng WuTa-Lee YuAlex Wang
    • Chau-Neng WuTa-Lee YuAlex Wang
    • H01L27/02H01L27/092H01L23/62H01L29/41
    • H01L27/0928H01L27/0248H01L27/0266
    • An electrostatic discharge (ESD) protection device includes a drain region and a source region, each having a heavily-doped region and a lightly-doped region, wherein the junction depth of the lightly-doped region is deeper than that of the heavily doped region. Accordingly, the ESD current density will be decreased owing to the enlarged junction area during the ESD event. In addition, the heat dissipation can be spread over the enlarged junction area instead of being focused on the drain cylindrical edge. Moreover, low parasitic capacitance in the bond pad is achieved because the junction capacitance of the lightly-doped region is smaller than that of the heavily-doped region. Furthermore, conducting blocks are arranged between the lightly-doped regions and the source/drain electrodes, respectively, to prevent the metal melt filament from spiking the junction.
    • 静电放电(ESD)保护器件包括漏极区域和源极区域,每个区域具有重掺杂区域和轻掺杂区域,其中轻掺杂区域的结深度比重掺杂区域的深度深 。 因此,由于ESD事件期间扩大的接合面积,ESD电流密度将降低。 此外,散热可以扩展在扩大的接合面积上,而不是聚焦在排水圆柱形边缘上。 此外,由于轻掺杂区域的结电容小于重掺杂区域的结电容,因此实现了接合焊盘中的低寄生电容。 此外,导电块分别布置在轻掺杂区域和源/漏电极之间,以防止金属熔体丝线尖端接合。
    • 4. 发明授权
    • Selective user notification based on IP flow information
    • 基于IP流量信息的选择性用户通知
    • US08112516B2
    • 2012-02-07
    • US11844317
    • 2007-08-23
    • Alex WangDavid BainbridgeXiaohui ZhouBeecher Adams
    • Alex WangDavid BainbridgeXiaohui ZhouBeecher Adams
    • G06F15/173
    • H04L41/507H04L41/0213H04L67/24H04L69/40
    • An example embodiment of the present invention provides a process that uses IP flow information to selectively notify users of an application server of the server's unavailability. In the example embodiment, the process, which might run on a system comprising a router, monitors IP flow records as to dropped packets and learns that an application server has become unavailable. The process then uses the IP flow records to identify active users of the application server, for example, by passing a source IP address to a presence service. Once the process has identified an active user, the process determines a means of notification for the user, which might be through the presence service, and transmits a notification to the user as to the unavailability of the application server. In the example embodiment, the process transmits a later notification as to the availability of the application server, using reverse camp-on functionality.
    • 本发明的示例性实施例提供了一种使用IP流信息选择性地通知应用服务器的用户服务器不可用性的过程。 在示例实施例中,可能在包括路由器的系统上运行的进程监视关于丢弃分组的IP流记录,并且学习应用服务器变得不可用。 然后,该过程使用IP流记录来识别应用服务器的活动用户,例如,通过将源IP地址传递到在场服务。 一旦该过程已经识别出活动用户,则该过程确定可能通过在场服务的用户的通知手段,并且向用户发送关于应用服务器的不可用性的通知。 在示例实施例中,该过程使用反向驻留功能来发送关于应用服务器的可用性的稍后通知。
    • 5. 发明授权
    • Monitoring of leakage in wastewater force mains and other pipes carrying fluid under pressure
    • 监测废水压力管道和其他承受流体压力的管道的泄漏
    • US07810378B2
    • 2010-10-12
    • US11766288
    • 2007-06-21
    • Osama HunaidiAlex Wang
    • Osama HunaidiAlex Wang
    • G01M3/24
    • G01M3/243
    • A method of detecting leakage in a force main involves placing at least two spaced sensors on the force main. Liquid is pumped through the pipe by means of a pump. The pump is shut down for an interval of time, and during the period following pump shutdown while negative pressure is present in the pipe, signals are generated at the sensors due to noise or vibration resulting from fluid being drawn into the pipe. The position of a leak in the pipe is determined by correlating the leak noise signals generated while the pipe is under negative pressure. Alternatively, the invention can be applied to a pressurized pipe, in which case conditions of negative pressure can be deliberatively created for a period to draw in fluid from the outside.
    • 检测力主体中泄漏的方法涉及在力主体上放置至少两个间隔开的传感器。 液体通过泵泵送通过管道。 泵关闭一段时间,在泵关闭期间,管道中存在负压时,由于流体被吸入管道的噪音或振动,传感器产生信号。 通过将管道处于负压下产生的泄漏噪声信号相关联来确定管道中的泄漏位置。 或者,本发明可以应用于加压管,在这种情况下,可以有意识地产生负压条件一段时间以从外部吸入流体。
    • 7. 发明申请
    • Refilling device of an ink cartridge for an inkjet printer
    • 用于喷墨打印机的墨盒的再填充装置
    • US20070139489A1
    • 2007-06-21
    • US11312045
    • 2005-12-19
    • Alex Wang
    • Alex Wang
    • B41J2/17
    • B41J2/17509
    • An ink refilling device of an ink cartridge for an inkjet printer is composed of at least one injection tube and at least one ink refiller, wherein a tube connector at one end of the injection tube can be inserted into an injection hole of an ordinary ink cartridge, and a tube connector at the other end of the injection tube can be connected to a needle tube which can be fixed at an ink outlet of a cap of the ink refiller. A siphon tube is connected at a bottom end of the ink outlet, and an air hole is located on the cap for connecting with ambient atmosphere. When refilling the ink, the ink inside the ink refiner can be filled into the ink cartridge through the injection tube and can be continuously supplied to a printer by a siphonage effect until it is used up, without having to switch off the printer and taking out the ink cartridge.
    • 用于喷墨打印机的墨盒的墨水补充装置由至少一个注射管和至少一个墨水补充器组成,其中注射管一端的管连接器可插入普通墨盒的注入孔中 并且在注射管的另一端的管连接器可以连接到可以固定在墨水补充器的帽的墨水出口上的针管。 虹吸管连接在墨水出口的底端,空气孔位于盖上,与环境大气连接。 当墨水补充时,墨水精炼机内的墨水可以通过注射管填充到墨盒中,并且可以通过虹吸效果连续地供应到打印机,直到它被用尽,而不必关闭打印机并取出 墨盒。
    • 8. 发明授权
    • Selective user notification based on IP flow information
    • 基于IP流量信息的选择性用户通知
    • US08433795B2
    • 2013-04-30
    • US13367021
    • 2012-02-06
    • Alex WangDavid BainbridgeXiaohui ZhouBeecher Adams
    • Alex WangDavid BainbridgeXiaohui ZhouBeecher Adams
    • G06F15/173G06F15/16
    • H04L41/507H04L41/0213H04L67/24H04L69/40
    • An example embodiment of the present invention provides a process that uses IP flow information to selectively notify users of an application server of the server's unavailability. In the example embodiment, the process, which might run on a system comprising a router, monitors IP flow records as to dropped packets and learns that an application server has become unavailable. The process then uses the IP flow records to identify active users of the application server, for example, by passing a source IP address to a presence service. Once the process has identified an active user, the process determines a means of notification for the user, which might be through the presence service, and transmits a notification to the user as to the unavailability of the application server. In the example embodiment, the process transmits a later notification as to the availability of the application server, using reverse camp-on functionality.
    • 本发明的示例性实施例提供了一种使用IP流信息选择性地通知应用服务器的用户服务器不可用性的过程。 在示例实施例中,可能在包括路由器的系统上运行的进程监视关于丢弃分组的IP流记录,并且学习应用服务器变得不可用。 然后,该过程使用IP流记录来识别应用服务器的活动用户,例如,通过将源IP地址传递到在场服务。 一旦该过程已经识别出活动用户,则该过程确定可能通过在场服务的用户的通知手段,并且向用户发送关于应用服务器的不可用性的通知。 在示例实施例中,该过程使用反向驻留功能来发送关于应用服务器的可用性的稍后通知。
    • 10. 发明申请
    • MONITORING OF LEAKAGE IN WASTEWATER FORCE MAINS AND OTHER PIPES CARRYING FLUID UNDER PRESSURE
    • 监测废水中主要的压力和其他承受流体压力的管道的泄漏
    • US20080314122A1
    • 2008-12-25
    • US11766288
    • 2007-06-21
    • Osama HunaidiAlex Wang
    • Osama HunaidiAlex Wang
    • G01M3/24
    • G01M3/243
    • A method of detecting leakage in a force main involves placing at least two spaced sensors on the force main. Liquid is pumped through the pipe by means of a pump. The pump is shut down for an interval of time, and during the period following pump shutdown while negative pressure is present in the pipe, signals are generated at the sensors due to noise or vibration resulting from fluid being drawn into the pipe. The position of a leak in the pipe is determined by correlating the leak noise signals generated while the pipe is under negative pressure. Alternatively, the invention can be applied to a pressurized pipe, in which case conditions of negative pressure can be deliberatively created for a period to draw in fluid from the outside.
    • 检测力主体中泄漏的方法涉及在力主体上放置至少两个间隔开的传感器。 液体通过泵泵送通过管道。 泵关闭一段时间,在泵关闭期间,管道中存在负压时,由于流体被吸入管道的噪音或振动,传感器产生信号。 通过将管道处于负压下产生的泄漏噪声信号相关联来确定管道中的泄漏位置。 或者,本发明可以应用于加压管,在这种情况下,可以有意识地产生负压条件一段时间以从外部吸入流体。