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    • 1. 发明授权
    • Method and apparatus for inspecting printed circuit boards
    • 检查印刷电路板的方法和装置
    • US07250785B2
    • 2007-07-31
    • US11184888
    • 2005-07-20
    • Noboru KawaikeKenji UedaKenji Matsui
    • Noboru KawaikeKenji UedaKenji Matsui
    • G01R31/26
    • G01R31/315
    • A detection unit 1 for detecting an electric field or a magnetic field is placed above a circuit board 4 to be detected. A control device 3 allows the detection unit 4 to carry out detection processes while moving the detection unit 1 in a predetermined direction with an electric current being applied to the circuit board 4 so that an electric field distribution or a magnetic field distribution on the circuit board 4 is detected. Moreover, the control device 3 compares the results of the detection with reference data that has been preliminarily registered, and if there is any portion between the two pieces of data that is not coincident with each other, it is determined that the corresponding circuit board 4 is a defective circuit board. Thus, it is possible to detect any defective portion on the printed circuit board with high precision in a non-contact state to the circuit board.
    • 用于检测电场或磁场的检测单元1放置在要检测的电路板4的上方。 控制装置3允许检测单元4在将电流施加到电路板4的同时沿检测单元1沿预定方向移动的同时执行检测处理,使得电路板上的电场分布或磁场分布 检测到4。 此外,控制装置3将检测结果与预先登录的参考数据进行比较,并且如果两条数据之间存在不一致的部分,则确定相应的电路板4 是电路板有缺陷。 因此,可以以非接触状态高精度地检测印刷电路板上的任何缺陷部分到电路板。
    • 2. 发明申请
    • Method and apparatus for inspecting printed circuit boards
    • 检查印刷电路板的方法和装置
    • US20050255744A1
    • 2005-11-17
    • US11184888
    • 2005-07-20
    • Noboru KawaikeKenji UedaKenji Matsui
    • Noboru KawaikeKenji UedaKenji Matsui
    • G01R31/02G01R31/315H05K3/34H05K13/08H01R13/52
    • G01R31/315
    • A detection unit 1 for detecting an electric field or a magnetic field is placed above a circuit board 4 to be detected. A control device 3 allows the detection unit 4 to carry out detection processes while moving the detection unit 1 in a predetermined direction with an electric current being applied to the circuit board 4 so that an electric field distribution or a magnetic field distribution on the circuit board 4 is detected. Moreover, the control device 3 compares the results of the detection with reference data that has been preliminarily registered, and if there is any portion between the two pieces of data that is not coincident with each other, it is determined that the corresponding circuit board 4 is a defective circuit board. Thus, it is possible to detect any defective portion on the printed circuit board with high precision in a non-contact state to the circuit board.
    • 用于检测电场或磁场的检测单元1放置在要检测的电路板4的上方。 控制装置3允许检测单元4在将电流施加到电路板4的同时沿检测单元1沿预定方向移动的同时执行检测处理,使得电路板上的电场分布或磁场分布 检测到4。 此外,控制装置3将检测结果与预先登录的参考数据进行比较,并且如果两条数据之间存在不一致的部分,则确定相应的电路板4 是电路板有缺陷。 因此,可以以非接触状态高精度地检测印刷电路板上的任何缺陷部分到电路板。
    • 3. 发明授权
    • Method and apparatus for inspecting printed circuit boards
    • 检查印刷电路板的方法和装置
    • US06937035B2
    • 2005-08-30
    • US10198739
    • 2002-07-19
    • Noboru KawaikeKenji UedaKenji Matsui
    • Noboru KawaikeKenji UedaKenji Matsui
    • G01R31/02G01R31/315H05K3/34H05K13/08G01R31/26
    • G01R31/315
    • A detection unit for detecting an electric field or a magnetic field is placed above a circuit to be detected. A control device allows the detection unit 4 to carry out detection processes while moving the detection unit in a predetermined direction with an electric current being applied to the circuit board so that an electric field distribution or a magnetic field distribution on the circuit board is detected. Moreover, the control device compares the results of the diction with reference data that has been preliminarily registered, and if there is any portion between the two pieces of data that is not coincident with each other, it is determined that the corresponding circuit board is a defective circuit board. Thus, it is possible to detect any defective portion on the printed circuit with high precision in a non-contact state to the circuit board.
    • 用于检测电场或磁场的检测单元被放置在要检测的电路上。 控制装置允许检测单元4在将电流施加到电路板的同时沿检测单元沿预定方向移动的同时进行检测处理,从而检测电路板上的电场分布或磁场分布。 此外,控制装置将预测结果与预先登记的参考数据进行比较,并且如果在两条数据之间存在彼此不一致的任何部分,则确定相应的电路板为 有缺陷的电路板。 因此,可以以非接触状态高精度地检测印刷电路上的任何缺陷部分到电路板。
    • 5. 发明授权
    • Speed profile creation device and automatic train operation apparatus
    • 速度轮廓创建装置和自动列车运行装置
    • US09205851B2
    • 2015-12-08
    • US14350431
    • 2012-02-29
    • Koki YoshimotoSatoru TakahashiKenji Ueda
    • Koki YoshimotoSatoru TakahashiKenji Ueda
    • G05D1/00B61L27/00
    • B61L27/0027
    • A speed profile creation device includes: a traveling simulator that creates, from a traveling instruction, a speed profile of allowing the train to travel through a traveling section together with a traveling time and energy consumption amount thereof by using a route condition, train performance, and a traveling condition; a traveling instruction draft creator that creates a plurality of traveling instruction drafts in which a reference speed profile is changed so that the energy consumption amount can decrease though the traveling time is lengthened a little; an optimum speed profile selector that selects an optimum speed profile in which an energy consumption amount reduction effect is maximum among the plurality of traveling instruction drafts; and a reference speed profile updating unit that updates the reference speed profile until the traveling time of the optimum speed profile becomes equivalent to the target traveling time.
    • 速度轮廓创建装置包括:行驶模拟器,其通过使用路线条件,列车性能,从行驶指示,创建允许列车行驶通过行驶部分的行驶时间和能量消耗量的速度轮廓, 和旅行状况; 创建多个行驶指令草案的旅行指令草案创建者,其中改变参考速度分布,使得能量消耗量可以随着行进时间的延长而减少; 选择最佳速度曲线选择器,其选择在所述多个行驶指示牵引中能量消耗量减小效应最大的最佳速度曲线; 以及参考速度轮廓更新单元,其更新基准速度轮廓,直到最佳速度轮廓的行驶时间变得等于目标行驶时间。
    • 6. 发明授权
    • DC feeder voltage control apparatus and DC feeder voltage control system
    • 直流馈电电压控制装置和直流馈电电压控制系统
    • US09180790B2
    • 2015-11-10
    • US14373781
    • 2012-12-06
    • Kenji UedaToshihiro WadaYasushi MatsumuraSatoru TakahashiToshiyuki Katsurayama
    • Kenji UedaToshihiro WadaYasushi MatsumuraSatoru TakahashiToshiyuki Katsurayama
    • G05D1/00B60M3/02H02J1/00
    • B60M3/02H02J1/00
    • A DC feeder voltage control apparatus includes a model-information storing unit storing train model information on each train running in a control section, substation model information on each substation, and feeding network model information in the control section, a fixed-voltage-value storing unit storing a fixed voltage value of a substation voltage set for each substation, a train-operation-state-information acquiring unit acquiring positions and operation state information on the trains running in the control section, a first-substation-voltage fixing unit outputting the fixed voltage value to two first substations located at both ends of the control section, and a second-substation-voltage calculating unit calculating a setting voltage value of the substation voltage in at least one second substation located between the two first substations based on the information, and substation voltages and substation currents of the first substations to output to the second substation.
    • 直流馈电电压控制装置包括:模型信息存储单元,存储在控制部中运行的各列的列车模型信息,各变电站的变电站模型信息,以及控制部中的馈送网络模型信息,固定电压值存储 单元,存储为每个变电站设定的变电站电压的固定电压值,列车运行状态信息获取单元获取关于在控制部分中运行的列车的位置和操作状态信息;第一变电站电压定影单元, 固定电压值分配给位于控制部分两端的两个第一变电站,以及第二变电压计算单元,基于信息计算位于两个第一变电站之间的至少一个第二变电站中的变电站电压的设定电压值 以及第一变电站的变电站电压和变电站电流以输出到第二变电站。
    • 8. 发明授权
    • Pharmaceutical composition for improving intestinal absorption
    • 用于改善肠道吸收的药物组合物
    • US08686006B2
    • 2014-04-01
    • US13124797
    • 2009-10-22
    • Masayuki UmedaAkio KimuraKenji UedaKoji Sakanaka
    • Masayuki UmedaAkio KimuraKenji UedaKoji Sakanaka
    • A61K31/44
    • A61K31/4409
    • An object of the present invention is to provide a pharmaceutical composition that improves intestinal absorption of a compound having a structure represented by the general formula [1]. The composition containing a compound represented by the general formula [1] or a salt thereof and (b) a lipophilic substance improves intestinal absorption of the compound. In the formula, A represents —(NR4)—, —(CR5R6)— or the like; B represents an alkylene group or an alkenylene group; R1 represents an alkyl group, an alkenyl group or the like; R2 represents an adamantylalkyl group or the like; R3 represents an unsaturated heterocyclic ring; R4, R5 and R6 each represent a hydrogen atom or the like; and X represents an oxygen atom or the like.
    • 本发明的目的是提供一种改善具有由通式[1]表示的结构的化合物的肠吸收的药物组合物。 包含由通式[1]表示的化合物或其盐和(b)亲脂性物质的组合物改善了化合物的肠吸收。 在该式中,A表示 - (NR 4) - , - (CR 5 R 6) - 等; B表示亚烷基或亚烯基; R1表示烷基,烯基等; R2表示金刚烷基烷基等; R3表示不饱和杂环; R4,R5和R6各自表示氢原子等; X表示氧原子等。
    • 9. 发明授权
    • Image reading device and image forming apparatus
    • 图像读取装置和图像形成装置
    • US08634116B2
    • 2014-01-21
    • US13236242
    • 2011-09-19
    • Sei AmagaiNoriko AraiKenji UedaShinji HanaokaChihiro MatsugumaAtsushi Sato
    • Sei AmagaiNoriko AraiKenji UedaShinji HanaokaChihiro MatsugumaAtsushi Sato
    • G03F3/08H04N1/04G06K9/32G03G15/01B41J2/47B41J2/45H04N9/093
    • H04N1/401H04N1/40056
    • An image reading device includes a reading unit, a first correcting unit, and a second correcting unit. The reading unit includes multiple read pixel-arrays and converts a signal charge obtained from pixels in each read pixel-array to an electric signal and outputs the electric signal as a read signal of each read pixel-array. The first correcting unit individually delays the read signals of the respective read pixel-arrays output from the reading unit so as to correct misregistration of the read signals. The second correcting unit corrects the misregistration of the read signals of the respective read pixel-arrays corrected by the first correcting unit by performing a two-point interpolation process so that a correction amount for the read signal of one specific read pixel-array among the multiple read pixel-arrays is not smaller than a correction amount for the read signal or signals of the remaining read pixel-array or pixel-arrays.
    • 图像读取装置包括读取单元,第一校正单元和第二校正单元。 读取单元包括多个读取像素阵列,并将从每个读取像素阵列中的像素获得的信号电荷转换为电信号,并将该电信号作为每个读取的像素阵列的读取信号输出。 第一校正单元单独地延迟从读取单元输出的各个读取像素阵列的读取信号,以校正读取信号的不对准。 第二校正单元通过执行两点插值处理来校正由第一校正单元校正的各个读取像素阵列的读取信号的对准,使得对于第一校正单元中的一个特定读取像素阵列的读取信号的校正量 多个读取像素阵列不小于读取信号的校正量或剩余的读取像素阵列或像素阵列的信号。