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    • 73. 发明申请
    • Downlink signal configurating method and device in mobile communication system, and synchronization and cell searching method and device using the same
    • 移动通信系统中的下行链路信号配置方法和装置,以及同步和小区搜索方法及其使用方法
    • US20070133386A1
    • 2007-06-14
    • US10577034
    • 2003-11-19
    • Kwang-Soon KimJae-Young AhnYong ChoDong-Han Kim
    • Kwang-Soon KimJae-Young AhnYong ChoDong-Han Kim
    • H04J11/00
    • H04J11/0069H04L5/0007H04L5/0048H04L27/2656H04L27/2659H04L27/266H04L27/2663H04L27/2665H04L27/2675H04L27/2678
    • Disclosed is a downlink signal configuring method and device, and synchronization and cell search method and device using the same in a mobile communication system. A downlink frame has plural symbols into which pilot subcarriers are distributively arranged with respect to time and frequency axes. Initial symbol synchronization and initial frequency synchronization are estimated by using a position at which autocorrelation of a cyclic prefix of a downlink signal and a valid symbol of the downlink is maximized, and cell search and integer-times frequency synchronization are estimated by using pilot subcarriers included in the estimated symbol. Fine symbol synchronization, fine frequency synchronization, and downlink frame synchronization is estimated by using an estimated cell search result. Downlink frequency and time tracking is performed, cell tracking is performed by using a position set of pilot subcarriers inserted into the downlink frame, fine symbol synchronization tracking and fine frequency synchronization tracking are repeated by using the pilot subcarriers to perform the frequency and time tracking of the downlink frame.
    • 公开了一种下行链路信号配置方法和装置,以及在移动通信系统中使用其的同步和小区搜索方法及装置。 下行链路帧具有多个符号,导频子载波相对于时间轴和频率轴分布布置在其中。 通过使用下行链路信号的循环前缀和下行链路的有效符号的自相关被最大化的位置来估计初始符号同步和初始频率同步,并且通过使用包括的导频子载波来估计小区搜索和整数倍的频率同步 在估计的符号。 通过使用估计的小区搜索结果来估计精细符号同步,精细频率同步和下行链路帧同步。 执行下行链路频率和时间跟踪,通过使用插入到下行链路帧中的导频子载波的位置集来执行小区跟踪,通过使用导频子载波来重复精细符号同步跟踪和精细频率同步跟踪,以执行频率和时间跟踪 下行帧。
    • 74. 发明授权
    • Address latch signal generation circuit and address decoding circuit
    • 地址锁存信号产生电路和地址解码电路
    • US07227811B2
    • 2007-06-05
    • US11164723
    • 2005-12-02
    • Yong Cho
    • Yong Cho
    • G11C8/18
    • G11C11/4087G11C8/18G11C11/4082
    • An address latch signal generation circuit and an address decoding circuit may generate an address latch signal capable of latching pre-decoded internal address signals. The circuits may include a plurality of address transition detectors, each of the address transition detectors receiving a plurality of internal address signals pre-decoded by a pre-decoder, detecting level transition states of the internal address signals, and generating a control signal which has a predetermined enable period; a first logic unit for performing a logic operation on the control signals received from the plurality of address transition detectors, and generating the result signal; and a latch signal output unit for performing synchronization with a disable time point of the result signal from the first logic unit, thereby generating the address latch signal.
    • 地址锁存信号产生电路和地址解码电路可产生能够锁存预解码的内部地址信号的地址锁存信号。 电路可以包括多个地址转换检测器,每个地址转换检测器接收由预解码器预解码的多个内部地址信号,检测内部地址信号的电平转换状态,并产生一个控制信号,该控制信号具有 预定使能期间; 第一逻辑单元,用于对从多个地址转换检测器接收的控制信号执行逻辑运算,并产生结果信号; 以及锁存信号输出单元,用于与来自第一逻辑单元的结果信号的禁用时间点执行同步,从而产生地址锁存信号。
    • 75. 发明申请
    • Methods for detecting and monitoring sleep disordered breathing using an implantable medical device
    • 使用可植入医疗装置检测和监测睡眠无序呼吸的方法
    • US20070073171A1
    • 2007-03-29
    • US11237354
    • 2005-09-28
    • Yong ChoTommy BennettBarbro Kjellstrom
    • Yong ChoTommy BennettBarbro Kjellstrom
    • A61B5/02
    • A61B5/042A61B5/0215A61B5/4818A61B5/7239
    • A method of identifying sleep disordered breathing (SDB) in a patient includes monitoring a hemodynamic pressure, deriving high, middle, and low values representative of the distribution of the hemodynamic pressure over a storage interval, measuring a ratio of a lower range to a full range of the hemodynamic pressure based on the derived high, middle, and low values, and using the ratio to determine whether the patient has experienced an SDB episode. Certain embodiments of the invention compare the ratio to a threshold value to identify the occurrence of an SDB episode, while other embodiments of the invention identify the occurrence of an SDB episode by monitoring for a simultaneous increase in both the ratio and the full range of the hemodynamic pressure. In certain other embodiments of the invention, activity level and/or duration criteria may be employed to confirm the occurrence of an SDB episode detected using the ratio.
    • 识别患者中睡眠呼吸障碍(SDB)的方法包括监测血液动力学压力,导出代表存储间隔内血流动力压力分布的高,中,低值,测量下限范围与满 基于导出的高,中,低值的血流动力压力范围,并使用该比例来确定患者是否经历SDB发作。 本发明的某些实施方案将比率与阈值进行比较以鉴定SDB发作的发生,而本发明的其它实施方案通过监测SDB发作的比例和全部范围的同时增加来识别SDB发作的发生 血流动力学压力。 在本发明的某些其他实施方案中,可以使用活动水平和/或持续时间标准来确认使用该比率检测到的SDB发作的发生。
    • 76. 发明申请
    • Hermetic compressor
    • 气密压缩机
    • US20070025864A1
    • 2007-02-01
    • US11486255
    • 2006-07-14
    • Yong Cho
    • Yong Cho
    • F04B35/04
    • F04B39/0246F04B39/0253
    • A hermetic compressor includes: a hermetic container having an oil sump defined in a bottom thereof; a frame arranged in the hermetic container and including a hollow portion; a rotating shaft rotatably inserted in the frame to penetrate through the hollow portion, the rotating shaft having an oil channel array to guide oil upward from the oil sump; and a thrust bearing inserted in a bearing installation groove, which is formed around an upper end of the hollow portion of the frame. The thrust bearing is configured to come into rolling contact with the rotating shaft to support an axial load of the rotating shaft, and the oil channel array is configured to supply at least a portion of the oil to the thrust bearing.
    • 封闭式压缩机包括:密封容器,其具有限定在其底部的油底壳; 布置在所述密封容器中并且包括中空部分的框架; 旋转轴,其可旋转地插入所述框架中以贯穿所述中空部,所述旋转轴具有用于将油从所述油底壳向上引导的油通道阵列; 以及插入在框架的中空部的上端周围的轴承安装槽内的推力轴承。 推力轴承构造成与旋转轴滚动接触以支撑旋转轴的轴向载荷,并且油通道阵列构造成将至少一部分油供给推力轴承。
    • 77. 发明申请
    • Cylindrical type secondary battery
    • 圆柱型二次电池
    • US20060216588A1
    • 2006-09-28
    • US11372484
    • 2006-03-08
    • Dae KimYong Cho
    • Dae KimYong Cho
    • H01M2/08H01M2/26H01M10/04
    • H01M2/0413H01M2/0426H01M2/0434H01M2/22H01M2200/106Y10T29/49108
    • A secondary battery having an upper battery assembly including an upper can housing a cap unit having an electrode terminal adapted to electrically connect to an external device and a gasket inserted between the cap unit and one end portion of the upper can for sealing and insulating the cap unit and the upper can. The secondary battery also has a lower battery assembly including a lower can housing an electrode assembly, the electrode assembly having a first electrode, a second electrode, and a separator interposed between the first electrode for preventing a short circuit between the two electrodes. A first electrode tap connects the first electrode to the cap unit and a second electrode tap connects the second electrode to the lower can.
    • 具有上部电池组件的二次电池包括上壳体,其容纳具有适于电连接到外部装置的电极端子的盖单元和插入在所述盖单元和所述上壳体的一个端部之间的垫圈,用于密封和绝缘所述盖 单位和上罐。 所述二次电池还具有下部电池组件,所述下部电池组件包括容纳电极组件的下部壳体,所述电极组件具有第一电极,第二电极和介于所述第一电极之间的隔板,用于防止所述两个电极之间的短路。 第一电极抽头将第一电极连接到盖单元,并且第二电极分接头将第二电极连接到下罐。
    • 80. 发明申请
    • Main amplifier and semiconductor device
    • US20060023536A1
    • 2006-02-02
    • US11032381
    • 2005-01-10
    • Yong Cho
    • Yong Cho
    • G11C7/02
    • G11C11/4097G11C11/4091
    • Disclosed are a main amplifier and a semiconductor device employing the main amplifier. The main amplifier is arranged between a plurality of pairs of local input/output lines and a global input/output line. The main amplifier comprises a main amplifier pre-charge unit for pre-charging the main amplifier in response to inputted pre-charge control signals; an input/output sense amplifier enabled by enable signals for sensing a first data signal transmitted from the plurality of pairs of input/output lines of a plurality of memory banks, amplifying the sensed first data signal, and outputting the amplified first data signal as a second data signal of a first potential level; and an input/output driver for pull-down or pull-up driving the global input/output line in response to the second data signal from the input/output sense amplifier. The main amplifier is connected in common to the plurality of pairs of local input/output lines for taking charge of the plurality of memory banks.