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    • 2. 发明授权
    • Chemical vapor deposition of ruthenium films for metal electrode applications
    • 用于金属电极应用的钌膜的化学气相沉积
    • US06440495B1
    • 2002-08-27
    • US09632497
    • 2000-08-03
    • Christopher P. WadeElaine PaoYaxin WangJun Zhao
    • Christopher P. WadeElaine PaoYaxin WangJun Zhao
    • C23C1606
    • C23C16/18
    • The present invention provides a method of depositing ruthenium films on a substrate via liquid source chemical vapor deposition wherein the source material is liquid at room temperature and utilizing process conditions such that deposition of the ruthenium films occurs at a temperature in the kinetic-limited temperature regime. Also provided is a method of depositing a thin ruthenium film on a substrate by liquid source chemical vapor deposition using bis-(ethylcyclopentadienyl) ruthenium by vaporizing the bis-(ethylcyclopentadienyl) ruthenium at a vaporization temperature of about 100-300° C. to form a CVD source material gas, providing an oxygen source reactant gas and forming a thin ruthenium film on a substrate in a reaction chamber using the CVD source material gas and the oxygen source reactant gas at a substrate temperature of about 100-500° C.
    • 本发明提供了一种通过液体源化学气相沉积在基片上沉积钌膜的方法,其中源材料在室温下为液体并且利用工艺条件使得钌膜的沉积在动态限制温度范围内的温度下发生 。 还提供了一种通过使用双 - (乙基环戊二烯基)钌的液体源化学气相沉积在基板上沉积薄钌膜的方法,其通过在约100-300℃的蒸发温度下汽化双 - (乙基环戊二烯基)钌来形成 CVD源材料气体,在基板温度为约100-500℃下,使用CVD源材料气体和氧源反应气体,在反应室中的基板上提供氧源反应气体并形成薄钌膜。
    • 5. 发明申请
    • Variable Reduction Method for Spectral Searching
    • 光谱搜索的可变缩减方法
    • US20170059475A1
    • 2017-03-02
    • US14834491
    • 2015-08-25
    • Jun ZhaoXin Jack Zhou
    • Jun ZhaoXin Jack Zhou
    • G01N21/25
    • G01N21/65G01J3/28G01N2201/129
    • A system and method for determining the composition of a sample is provided. The system and method according to the present invention comprises: obtaining one or more spectra of the sample; obtaining one or more spectra of one or more target materials; pre-process the sample and the target spectra; providing a variable reduction means that combines certain contiguous spectral variables into a single variable, wherein the intensities of the said single variable is the sum of the intensities of the said spectral variables to be combined; determining an average spectrum and the statistic distribution of the sample and/or each of the target material in the reduced dimension; determining the likelihood the sample had the same composition of each of the one or more target material; and displaying the list of the most likely target material to a user.
    • 提供了一种用于确定样品组成的系统和方法。 根据本发明的系统和方法包括:获得样品的一个或多个光谱; 获得一个或多个目标材料的一个或多个光谱; 预处理样品和目标光谱; 提供将某些连续频谱变量组合成单个变量的变量减少装置,其中所述单个变量的强度是要组合的所述频谱变量的强度的总和; 确定所述样本和/或所述目标材料中的每个所述目标材料的平均光谱和统计分布; 确定样品具有一种或多种目标材料中每种具有相同组成的可能性; 并向用户显示最可能的目标材料的列表。
    • 6. 发明授权
    • Locating a mobile device
    • 查找移动设备
    • US09279878B2
    • 2016-03-08
    • US13431497
    • 2012-03-27
    • Edward Ding-Bong UnJun ZhaoKai WangHailong MuZeyong Xu
    • Edward Ding-Bong UnJun ZhaoKai WangHailong MuZeyong Xu
    • H04W24/00G01S5/02H04W64/00
    • G01S5/0252G01S5/0278H04W64/00H04W64/003
    • Identifying a location of a mobile device is disclosed (e.g., presuming user consent to the same). One or more received signal strengths (RSSs), comprising a first RSS, may be received by a first access point (AP) from the mobile device. The RSSs may be used to identify a grid area, comprising a first grid space. A signal distance between the first grid space and the first AP may be identified using the first RSS, and combined with a first grid space distance, comprising a known distance between the first grid space and the first AP, to determine a first grid space likelihood score for the first grid space. A second grid space likelihood score may be determined for a second grid space (e.g., and a third, etc.), and the grid space comprising a desired grid space likelihood score (e.g., highest) may be selected as the mobile device location.
    • 公开了识别移动设备的位置(例如,假设用户同意该位置)。 包括第一RSS的一个或多个接收信号强度(RSS)可以由移动设备的第一接入点(AP)接收。 RSS可以用于识别包括第一网格空间的网格区域。 可以使用第一RSS识别第一网格空间和第一AP之间的信号距离,并且与包括第一网格空间和第一AP之间的已知距离的第一网格空间距离组合以确定第一网格空间可能性 第一个网格空间的得分。 可以针对第二网格空间(例如,第三等等)确定第二网格空间可能性分数,并且可以选择包括期望网格空间可能性分数(例如,最高)的网格空间作为移动设备位置。
    • 7. 发明授权
    • Method, apparatus and system for detecting connection status of optical fiber jumper
    • 检测光纤跳线连接状态的方法,装置和系统
    • US08965200B2
    • 2015-02-24
    • US13301469
    • 2011-11-21
    • Yunsheng WenJun ZhaoBo WangXiaolei Shan
    • Yunsheng WenJun ZhaoBo WangXiaolei Shan
    • H04B10/08G02B6/38
    • G02B6/3895
    • A method, an apparatus and a system for detecting a connection status of an optical fiber jumper are provided in the embodiments of the present invention. The method for detecting a connection status of an optical fiber jumper includes: judging a connection status of a second port and a first port according to whether an optical signal sent by the first port to the second port through a first optical fiber is received, wherein the first optical fiber is connected to two ends of an optical fiber jumper, and the two ends of the optical fiber jumper are connected to the first port and the second port respectively; and obtaining a port identification corresponding to the first port according to the optical signal if the optical signal is received.
    • 在本发明的实施例中提供了用于检测光纤跳线的连接状态的方法,装置和系统。 用于检测光纤跳线的连接状态的方法包括:根据第一端口通过第一光纤发送到第二端口的光信号是否接收到第二端口和第一端口的连接状态,其中 第一光纤连接到光纤跳线的两端,光纤跳线的两端分别连接到第一端口和第二端口; 并且如果接收到光信号,则根据光信号获得与第一端口对应的端口标识。
    • 9. 发明授权
    • Container data center
    • 集装箱数据中心
    • US08755184B2
    • 2014-06-17
    • US13337545
    • 2011-12-27
    • Yonghui PengJun ZhaoNa WeiMingliang Hao
    • Yonghui PengJun ZhaoNa WeiMingliang Hao
    • H05K7/20
    • H05K7/1497H05K7/2079
    • A container data center is disclosed in the present invention, relating to the field of data centers. The container data center includes: a container box, in which the inside of the box is divided into an equipment compartment, a power supply and distribution compartment and a water chilling set compartment; doors set in the box; a power supply equipment installed in the power supply and distribution compartment; an electronic equipment and a water chilling terminal installed in the equipment compartment; a water chilling set installed in the water chilling set compartment, in which the water chilling set is in communication with the water chilling terminal to provide cold water for the water chilling terminal.
    • 在本发明中公开了与数据中心领域有关的容器数据中心。 集装箱数据中心包括:集装箱箱,箱体内部分为设备箱,电源和分配室以及冷水组合箱; 门内装有门; 供电设备安装在电源和配电室内; 电子设备和安装在设备隔间的冷水终端; 水冷套装安装在水冷柜中,其中,冷水装置与水冷端子连通,为冷水终端提供冷水。
    • 10. 发明授权
    • Method and system for transferring time division multiplexing service data
    • 传输时分复用业务数据的方法和系统
    • US08717970B2
    • 2014-05-06
    • US13340159
    • 2011-12-29
    • Yan XiongJun ZhaoWanwan Wang
    • Yan XiongJun ZhaoWanwan Wang
    • H04B7/212
    • H04J3/1694H04J3/0682
    • The present invention discloses a method and system for transferring TDM services in GPON, the method includes the steps of: in the case of performing the GPON ranging process, buffering the uplink TDM service data received by an optical signal transceiver in an Input Buffer, reading out and transferring the uplink TDM service data buffered in an Output Buffer. The present invention eliminates the possible interruption of TDM services during the GPON ranging process by buffering the uplink services at the OLT and ONU/ONT side and relevant processes, and therefore realizes the TDM service transmission without any loss during the GPON system ranging process.
    • 本发明公开了一种在GPON中传输TDM业务的方法和系统,该方法包括以下步骤:在执行GPON测距过程的情况下,缓存由光信号收发器在输入缓冲器中接收的上行TDM业务数据, 输出并传送缓冲在输出缓冲器中的上行TDM业务数据。 本发明通过在OLT和ONU / ONT侧缓存上行链路业务和相关过程,消除了GPON测距过程中TDM业务可能的中断,从而在GPON系统测距过程中实现了TDM业务传输,没有任何损失。