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    • 1. 发明授权
    • Multi-carrier communication device, and multi-carrier communication method
    • 多载波通信设备,多载波通信方式
    • US07778350B2
    • 2010-08-17
    • US12067801
    • 2006-08-31
    • Sadaki FutagiTakashi Kitahara
    • Sadaki FutagiTakashi Kitahara
    • H04L27/00H04L23/00H04J11/00
    • H04L27/2624H04L1/0003H04L1/0013H04L1/0015H04L1/0033H04L5/0007H04L5/0044
    • Provided is a multi-carrier communication device capable of reducing the deterioration of a reception quality while suppressing the peak power of a multi-carrier signal. In this device, a clipping strain measurement unit (108) calculates the individual average powers (or the clipping strain powers) of peak suppression signals contained in a center area and in end areas. Moreover, the clipping strain measurement unit (108) uses the calculated clipping strain, to calculates the ratios of the signal powers to the clipping strain powers (or the ratios of the signals to the clipping strains) individually for the center area and the end areas, and outputs the calculated ratios of the signals to the clipping strains to a puncture-modulation mode selection unit (109). On the basis of the ratios of the signals to the clipping strains for the individual areas, the puncture-modulation mode selection unit (109) selects the encoding percentage, the modulation mode or the power of the transmission data to be superposed on the individual areas.
    • 提供一种能够抑制多载波信号的峰值功率的同时降低接收质量的劣化的多载波通信装置。 在该装置中,剪切应变测量单元(108)计算包含在中心区域和端部区域中的峰值抑制信号的各个平均功率(或削波应变功率)。 此外,剪切应变测量单元(108)使用所计算的剪切应变来计算针对中心区域和结束区域的信号功率与剪切应变功率(或信号与剪切应变的比率)的比率 ,并将所计算出的信号与剪切应变的比率输出到穿刺调制模式选择单元(109)。 基于各个区域的信号与限幅应变的比例,穿刺调制模式选择单元(109)选择要叠加在各个区域上的传输数据的编码百分比,调制模式或功率 。
    • 3. 发明申请
    • MULTI-CARRIER COMMUNICATION DEVICE, AND MULTI-CARRIER COMMUNICATION METHOD
    • 多载波通信装置和多载波通信方法
    • US20090180574A1
    • 2009-07-16
    • US12067801
    • 2005-09-28
    • Sadaki FutagiTakashi Kitahara
    • Sadaki FutagiTakashi Kitahara
    • H04L25/49
    • H04L27/2624H04L1/0003H04L1/0013H04L1/0015H04L1/0033H04L5/0007H04L5/0044
    • Provided is a multi-carrier communication device capable of reducing the deterioration of a reception quality while suppressing the peak power of a multi-carrier signal. In this device, a clipping strain measurement unit (108) calculates the individual average powers (or the clipping strain powers) of peak suppression signals contained in a center area and in end areas. Moreover, the clipping strain measurement unit (108) uses the calculated clipping strain, to calculates the ratios of the signal powers to the clipping strain powers (or the ratios of the signals to the clipping strains) individually for the center area and the end areas, and outputs the calculated ratios of the signals to the clipping strains to a puncture-modulation mode selection unit (109). On the basis of the ratios of the signals to the clipping strains for the individual areas, the puncture-modulation mode selection unit (109) selects the encoding percentage, the modulation mode or the power of the transmission data to be superposed on the individual areas.
    • 提供一种能够抑制多载波信号的峰值功率的同时降低接收质量的劣化的多载波通信装置。 在该装置中,剪切应变测量单元(108)计算包含在中心区域和末端区域中的峰值抑制信号的各个平均功率(或削波应变功率)。 此外,剪切应变测量单元(108)使用所计算的剪切应变来计算针对中心区域和结束区域的信号功率与剪切应变功率(或信号与剪切应变的比率)的比率 ,并将所计算出的信号与剪切应变的比率输出到穿刺调制模式选择单元(109)。 基于各个区域的信号与限幅应变的比例,穿刺调制模式选择单元(109)选择要叠加在各个区域上的传输数据的编码百分比,调制模式或功率 。
    • 4. 发明授权
    • Sponge blasting apparatus and sponge blasting method
    • 海绵喷砂器和海绵喷砂法
    • US07465215B2
    • 2008-12-16
    • US11687700
    • 2007-03-19
    • Tokuo ShimizuAtsushi MaedaTakashi KitaharaTetsunori Yano
    • Tokuo ShimizuAtsushi MaedaTakashi KitaharaTetsunori Yano
    • B24B49/00B24B51/00B24B1/00B24C3/00B24B7/00
    • B24C11/00B24C9/003B24C9/006Y02P70/179
    • The present invention provides a sponge blasting apparatus comprising: a recovering unit which sucks and recovers a blasting medium jetted out of a nozzle; a sorting unit which sorts the blasting medium sucked and recovered by the recovering unit into a reusable blasting medium and an unreusable blasting medium; a blower which gives a sucking force to the recovering unit via the sorting unit; a dust collector which removes dust from an exhaust air discharged from the sorting unit with a sucking force of the blower; a picking-apart unit which picks apart the reusable blasting medium sorted by the sorting unit; a continuous feeder which, having at least two reservoir tanks into which the reusable blasting medium picked apart by the picking-apart unit is inputted, changes over the two tanks between each other to continuously feed the nozzle with the blasting medium deposited in the tanks; and a carrier which carries to the continuous feeder the reusable blasting medium sorted by the sorting unit.
    • 本发明提供一种海绵喷砂装置,包括:回收单元,其吸收并回收从喷嘴喷出的喷射介质; 分选单元,其将由所述回收单元吸入和回收的喷射介质分类成可再利用的喷射介质和不可使用的喷砂介质; 鼓风机,其通过分拣单元向回收单元提供吸力; 除尘器,其利用鼓风机的吸力除去从分拣单元排出的废气中的灰尘; 拾取单元,其分离由分选单元分选的可重复使用的爆破介质; 连续进料器,其具有至少两个储存罐,其中输入由分选单元拾取的可重复使用的喷砂介质,两个罐之间相互改变,以使沉积在罐中的喷砂介质连续地供给喷嘴; 以及承载器,其携带由分选单元分选的可重复使用的爆破介质的连续进料器。
    • 5. 发明授权
    • Clock monitoring apparatus
    • 时钟监控装置
    • US06670839B2
    • 2003-12-30
    • US10242415
    • 2002-09-13
    • Takashi Kitahara
    • Takashi Kitahara
    • H03K522
    • G06F1/04H03K5/19
    • A clock monitoring apparatus according to the invention including a main clock monitoring portion including a first counter for counting a main clock, issuing a normal operation confirming flag indicating that a normal operation is being carried out when the first counter is overflowed or reaches a previously determined set value, monitoring the normal operation confirming flag by a sub clock, issuing a first main clock stop flag having an output in correspondence with H (high level)/L (low level) of the normal operation confirming flag and a main clock initializing signal for initializing the main clock when the main clock is determined to stop and resetting the first main clock stop flag when the main clock is recovered by receiving the main clock initializing signal, and a sub clock switching control portion including a second counter for counting a signal output produced by calculating a logical sum of the sub clock and the first main clock stop flag at fall of the sub clock at a time point of generating the first main clock stop flag, switching to a sub clock operation by issuing a sub clock switching signal when the second counter output is overflowed or reaches a previously determined set value and resetting the second counter output when the main clock is recovered and a second main clock stop flag produced by inverting the first main clock stop flag and delaying the sub clock by a predetermined period by a main clock monitoring portion, is reset.
    • 根据本发明的时钟监视装置包括主时钟监视部分,其包括用于对主时钟进行计数的第一计数器,当第一计数器溢出时发出指示正在执行正常操作的正常操作确认标志,或达到预先确定的 设定值,通过子时钟监视正常运行确认标志,发出具有与正常运行确认标志的H(高电平)/ L(低电平)对应的输出的第一主时钟停止标志和主时钟初始化信号 当通过接收主时钟初始化信号恢复主时钟时,当主时钟被确定为停止并复位第一主时钟停止标志时,初始化主时钟,以及子时钟切换控制部分,其包括用于对信号进行计数的第二计数器 通过在子时钟的at at处计算子时钟和第一主时钟停止标志的逻辑和来产生的输出 产生第一主时钟停止标志的第一点,当第二计数器输出溢出时发出子时钟切换信号或达到预先确定的设定值并在主时钟被恢复时复位第二计数器输出,切换到子时钟操作 并且通过将第一主时钟停止标志反相并通过主时钟监视部分将子时钟延迟预定周期而产生的第二主时钟停止标志被复位。
    • 7. 发明授权
    • Heat radiation device for a thin electronic apparatus
    • 用于薄型电子设备的散热装置
    • US06243263B1
    • 2001-06-05
    • US09341305
    • 1999-12-22
    • Takashi Kitahara
    • Takashi Kitahara
    • H05K720
    • H01L23/467H01L2924/0002H01L2924/00
    • A heat radiation device for a thin electronic apparatus includes a rectangular plate-shaped base, a rectangular intermediate plate stacked on the base, a rectangular box-shaped cover stacked on the intermediate plate, and a fan. A depression is formed at a center portion of the base. A plurality of parallel fins are provided to form a discharge port for cooling air. The depression and the discharge port are connected via an arcuate communication portion. A circular opening is formed in the intermediate plate at a position corresponding to that of the depression, and the fan is attached to the circular opening. The intermediate plate and the base are connected together such that heat can be conduced therebetween. When the end surface of a side plate provided at each longer side of the cover is caused to abut the intermediate plate and/or the base, an intake port for cooling air is formed at a shorter side of the cover. When the fan is operated, cooling air is caused to flow between the intake port and the discharge port, so that heat accumulated within the base is radiated to the outside.
    • 一种薄型电子设备的散热装置,包括矩形板状基座,堆叠在基座上的矩形中间板,堆叠在中间板上的矩形盒状盖和风扇。 凹陷形成在基部的中心部分。 提供多个平行翅片以形成用于冷却空气的排出口。 凹陷和排出口通过弧形连通部连接。 在中间板中形成有与凹部相对应的位置的圆形开口,风扇安装在圆形开口部。 中间板和基座连接在一起,使得它们之间可以导热。 当设置在盖的每个较长侧的侧板的端面与中间板和/或基座相接触时,在盖的较短侧形成用于冷却空气的进气口。 当风扇被操作时,使冷却空气在进气口和排出口之间流动,使得在基座内积聚的热量被辐射到外部。