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    • 1. 发明申请
    • Conducting metal oxide with additive as p-MOS device electrode
    • 用添加剂将金属氧化物导电为p-MOS器件电极
    • US20060216934A1
    • 2006-09-28
    • US11092469
    • 2005-03-28
    • Yong LiangClarence Tracy
    • Yong LiangClarence Tracy
    • H01L21/20
    • H01L21/32051H01L21/28194H01L29/513H01L29/517
    • Methods for fabricating high work function p-MOS device metal electrodes are provided. In one embodiment, a method is provided for producing a metal electrode including the steps of: providing a high k dielectric stack with an exposed surface; contacting the exposed surface of the high k dielectric stack with a vapor of a metal oxide wherein the metal oxide is selected from the group consisting of RuOx, IrOx, ReOx, MoOx, WOx, VOx, and PdOx; and contacting the exposed surface of the dielectric stack with a vapor of an additive selected from the group consisting of SiO2, Al2O3, HfO2, ZrO2, MgO, SrO, BaO, Y2O3, La2O3, and TiO2, whereby contacting the exposed surface of the dielectric stack with the vapor of the metal oxide and the vapor of the additive forms an electrode and wherein the additive is present at an amount between about 1% to about 50% by atomic weight percent in the electrode.
    • 提供制造高功函数p-MOS器件金属电极的方法。 在一个实施例中,提供了一种用于制造金属电极的方法,包括以下步骤:提供具有暴露表面的高k电介质叠层; 使高k电介质堆叠的暴露表面与金属氧化物的蒸气接触,其中金属氧化物选自RuO x,IrO x,ReO, x,x,x,x,x,x 2,x 2,x 2,x 2,x 2,x 2, 以及使所述电介质堆叠的所述暴露表面与选自由SiO 2,Al 2 O 3 3,N 2 O 3, HfO 2,ZrO 2,MgO,SrO,BaO,Y 2 O 3,La 2 由此使电介质堆叠的暴露表面与金属氧化物的蒸气和添加剂的蒸气接触形成电极 并且其中所述添加剂以所述电极中原子量的约1%至约50%之间的量存在。
    • 7. 发明授权
    • BST on low-loss substrates for frequency agile applications
    • BST用于频率敏捷应用的低损耗衬底
    • US06764864B1
    • 2004-07-20
    • US10418372
    • 2003-04-17
    • Hao LiJeffrey M. FinderYong LiangCorey Overgaard
    • Hao LiJeffrey M. FinderYong LiangCorey Overgaard
    • H01L2100
    • H01L21/32105C30B25/18C30B29/32H01L21/31691H01L21/7624
    • An exemplary system and method for providing a microwave regime, frequency-agile device is disclosed as comprising inter alia: a low-loss, insulating substrate (200); a layer of SiO2 (210) over the surface of said substrate; and a layer of BST (220) deposited over the SiO2 layer (210). Disclosed features and specifications may be variously controlled, configured, adapted or otherwise optionally modified to further improve or otherwise optimize frequency response or other material characteristics. Exemplary embodiments of the present invention representatively provide for integrated high-efficiency, low-loss microwave components that may be readily incorporated with existing technologies for the improvement of frequency response, device package form factors, weights and/or other manufacturing, device or material performance metrics.
    • 公开了一种用于提供微波状态的频率敏捷装置的示例性系统和方法,其特别包括:低损耗绝缘基板(200); 在所述衬底的表面上的SiO 2层(210); 以及沉积在SiO 2层(210)上的BST(220)层。 公开的特征和规范可以被不同地控制,配置,适配或以其他方式任意地修改,以进一步改进或以其它方式优化频率响应或其他材料特性。 本发明的示例性实施例代表性地提供了集成的高效率低损耗微波部件,其可以容易地与用于改进频率响应,装置包装形状因子,重量和/或其他制造,装置或材料性能的现有技术结合 指标
    • 9. 发明授权
    • System for testing subscriber lines and method thereof
    • 用户线测试系统及其方法
    • US07542550B2
    • 2009-06-02
    • US10582710
    • 2004-10-25
    • Yong Liang
    • Yong Liang
    • H04M1/24H04M3/08H04M3/22
    • H04M3/304H04L12/2878H04L43/50
    • The present invention discloses a system for testing subscriber lines and method thereof. The system includes a broadband line testing control module and a remote terminal subscriber access control module located at a subscriber line that is located between the broadband line testing control module and a remote terminal unit. The broadband line testing control module sends a signal of disconnecting the subscriber line to the remote terminal subscriber access control module, and tests the subscriber line. The remote terminal subscriber access control module receives said signal from the broadband line testing control module, and controls the remote terminal unit to disconnect from or connect to the subscriber line based on said signal. With the system and method according to the present invention, not only the precision of subscriber line testing is guaranteed, but also the subscriber lines can be periodically tested without manual operation.
    • 本发明公开了一种用户线测试系统及其方法。 该系统包括位于宽带线路测试控制模块和远程终端单元之间的用户线路上的宽带线路测试控制模块和远程终端用户接入控制模块。 宽带线路测试控制模块将用户线路断开的信号发送给远程终端用户接入控制模块,并对用户线路进行测试。 远程终端用户接入控制模块从宽带线路测试控制模块接收所述信号,并根据所述信号控制远程终端单元与用户线路的连接或连接。 利用根据本发明的系统和方法,不仅保证用户线路测试的精度,而且可以在不进行手动操作的情况下定期测试用户线路。
    • 10. 发明申请
    • APPARATUS FOR CHARGING A BATTERY OF A PORTABLE ELECTRONIC DEVICE
    • 用于为便携式电子设备充电的装置
    • US20090085512A1
    • 2009-04-02
    • US11862343
    • 2007-09-27
    • Yong LiangBernard CollJerry Hallmark
    • Yong LiangBernard CollJerry Hallmark
    • H02J7/35H01L31/055H01M10/44
    • H02J7/355H02J7/0044Y02E10/52
    • A power source (212) is disclosed for charging a battery (330) within a portable electronic device (310). An apparatus (422), such as a photovoltaic or thermoelectric cell, for charging the battery (330) is disposed contiguous to and within a transparent housing (412) of the portable electronic device (310). A fluorescent species (416), such as quantum dots or a fluorescent dye, is disposed on a side of the housing (412) opposed to the apparatus (422). Light (430) striking the fluorescent species (416) is converted into photons (432, 434) having a narrower spectrum that passes through the housing (412) to the apparatus (422). An optional layer (418) may be disposed on the fluorescent species (416) that reflects light from the fluorescent species (416) to the apparatus (422). Photonic crystals (415) may be combined with the fluorescent species (416) to increase reflectivity.
    • 公开了一种用于为便携式电子设备(310)内的电池(330)充电的电源(212)。 用于对电池(330)充电的装置(422),例如光电或热电电池被设置成与便携式电子设备(310)的透明壳体(412)相邻并位于便携式电子设备(310)的透明壳体(412)内。 诸如量子点或荧光染料的荧光物质(416)设置在与设备(422)相对的壳体(412)的一侧上。 撞击荧光物质(416)的光(430)被转换成具有通过壳体(412)到装置(422)的较窄光谱的光子(432,434)。 可选的层(418)可以设置在将来自荧光物质(416)的光反射到设备(422)的荧光物质(416)上。 光子晶体(415)可以与荧光物质(416)组合以增加反射率。