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    • 1. 发明授权
    • Wafer bonding device
    • 晶圆接合装置
    • US6032715A
    • 2000-03-07
    • US883570
    • 1997-06-26
    • Yasunori OhkuboHiroshi SatohYoshihiro Miyazawa
    • Yasunori OhkuboHiroshi SatohYoshihiro Miyazawa
    • H01L21/683B25B11/00H01L21/02
    • B25B11/005Y10T156/17
    • A wafer bonding device which prevents the substrate from being deformed due to the presence of any particles on the chuck surface is provided to thereby prevent a deterioration in yield in the wafer bonding process. The wafer bonding device is equipped with a substrate holding section 3 having a chuck surface 9 for holding a substrate 1, which is one of two substrates 1 and 2 to be bonded together, and the other substrate 2 is bonded to the substrate 1, which is held by the chuck surface 9, wherein a suction member 8 engaged with a support member 4, forming the substrate holding section 3, is formed of a porous material, whereby minute recesses of a predetermined size are formed in high density on the chuck surface 9 of the substrate holding section 3, and any particles are captured in these minute recesses.
    • 提供了防止基板由于卡盘表面上的任何颗粒的存在而变形的晶片接合装置,从而防止了晶片接合工艺中的成品率的劣化。 晶片接合装置具有基板保持部3,基板保持部3具有用于保持基板1的卡盘面9,基板1是要接合在一起的两个基板1和2中的一个,另一个基板2接合到基板1, 由卡盘面9保持,其中与形成基板保持部3的支撑部件4接合的吸引部件8由多孔材料形成,由此在卡盘表面上以高密度形成预定尺寸的微小凹部 9,并且任何颗粒被捕获在这些微小的凹部中。
    • 4. 发明授权
    • Antenna device and communication device
    • 天线设备和通信设备
    • US08212736B2
    • 2012-07-03
    • US12746491
    • 2007-12-04
    • Hiroshi SatohYoshio Koyanagi
    • Hiroshi SatohYoshio Koyanagi
    • H01Q3/24
    • H01Q1/242H01Q21/24H04B7/0691H04B7/10
    • An antenna device and a communication device capable of changing over polarization characteristics of an antenna to improve transmission capacity in various kinds of polarization environments and used configuration by preventing reduction of the communication capacity for a reception signal degrading or varying depending on momentarily changing polarization conditions between a base station and a terminal. The antenna device (110) includes a plurality of first antenna elements (111,112) for a first polarizing direction, a second antenna element (121) provided in the direction orthogonal to the first polarizing direction, a plurality of switches (131,132) for switching connection between the plurality of first antenna elements (111,112) and the second antenna element (121), and power supply parts (141,142) respectively provided on the plurality of first antenna elements (111,112).
    • 一种天线装置和通信装置,其能够改变天线的极化特性,以改善各种极化环境中的传输容量,并且通过防止降低根据瞬时变化的极化条件而导致的接收信号的通信容量的降低, 基站和终端。 天线装置(110)包括多个用于第一偏振方向的第一天线元件(111,112),与第一偏振方向正交的方向设置的第二天线元件(121),用于切换连接的多个开关(131,132) 在多个第一天线元件(111,112)和第二天线元件(121)之间,以及分别设置在多个第一天线元件(111,112)上的电源部件(141,142)。
    • 6. 发明申请
    • Hoisting device with vertical motion compensation function
    • 起重机具有垂直运动补偿功能
    • US20090166309A1
    • 2009-07-02
    • US12318490
    • 2008-12-30
    • Shuji UekiHirohumi DoiShogo MiyajimaKenzo HasegawaHiroshi Satoh
    • Shuji UekiHirohumi DoiShogo MiyajimaKenzo HasegawaHiroshi Satoh
    • B66C23/53
    • B66D1/52Y10S254/90
    • A hoisting device can be small-sized and energy can be saved. A hoisting device 10 according to the present invention has a hoist 30 and a control unit 32. The hoist 30 rotates a drum 12 having a wire 14 wound thereon by an oil pressure motor 42 rotatable in normal and reverse directions. To the oil pressure motor 42, operating oil is supplied from an oil pressure pump 44. The oil pressure pump 44 is a two-way discharge fixed capacity type, and rotated by a servomotor 46. An acceleration/displacement transducer 34 in the control unit 32 finds a moving direction and a moving speed of a wire hanging point in the vertical direction from an output signal of an acceleration sensor 24. The control unit 32 outputs a drive control signal of the servomotor 46 according to a paying-out speed or a rolling-up speed of the wire 14 offsetting the vertical motion of the wire hanging point caused by the heaving of a hull based on a speed instruction Vi of the paying-out or rolling-up speed of the wire, a detected signal of the acceleration sensor 24 and a detected signal of a wire speed sensor 26.
    • 提升装置可以小型化,节约能源。 根据本发明的提升装置10具有提升机构30和控制单元32.起重机30使具有可在正反方向旋转的油压马达42卷绕在其上的导线14的滚筒12旋转。 对于油压马达42,从油压泵44供给工作油。油压泵44是双向排出固定容积型,由伺服马达46旋转。控制单元中的加速度/位移传感器34 32根据加速度传感器24的输出信号求出垂直方向上的线吊点的移动方向和移动速度。控制单元32根据支付速度或者输出速度输出伺服电动机46的驱动控制信号 基于线的放出速度或卷绕速度的速度指令Vi,抵抗由吊船引起的线悬挂点的垂直运动的线14的卷起速度,加速度的检测信号 传感器24和线速度传感器26的检测信号。
    • 8. 发明申请
    • Electronic parts installation device and cassette control device
    • 电子零件安装装置和盒式控制装置
    • US20060106478A1
    • 2006-05-18
    • US11285101
    • 2005-11-23
    • Hiroshi SatohHiroshi UchiyamaHirofumi Obara
    • Hiroshi SatohHiroshi UchiyamaHirofumi Obara
    • G06F19/00
    • H05K13/0417H05K13/08Y10T29/53178
    • A cassette control device by which high-speed processing can be expected even by using an arithmetical unit with current processing capability, even when the number of cassettes increases simultaneously with an increase in the number of nozzles which can suck electronic parts. There is provided storage unit (18) having storage regions in which programs for respective operation patterns of the cassettes (3-1 to 3-M) are set for each of the nozzles. An arithmetic unit (19) extracts a specific program required for driving in a specific operation pattern based on a command (17) inputted according to the content of packaging, from a specific region which is provided in the storage unit (18) to correspond to a specific nozzle to be used, and the arithmetic unit (19) operates the specific cassette using the specific program.
    • 即使通过使用具有当前处理能力的算术单元也能够预期高速处理的盒式控制装置,即使随着可吸收电子部件的喷嘴数量的增加,盒的数量也同时增加。 存储单元(18)具有存储区域,其中针对每个喷嘴设置用于各个操作模式的程序(3-1至3-M)。 算术单元(19)从设置在存储单元(18)中的特定区域中,基于根据包装内容输入的命令(17)提取特定操作模式所需的特定程序,对应于 要使用的特定喷嘴,并且运算单元(19)使用特定程序操作特定盒。
    • 10. 发明申请
    • Hoisting device with vertical motion compensation function
    • 起重机具有垂直运动补偿功能
    • US20050242332A1
    • 2005-11-03
    • US11107932
    • 2005-04-18
    • Shuji UekiHirohumi DoiShogo MiyajimaKenzo HasegawaHiroshi Satoh
    • Shuji UekiHirohumi DoiShogo MiyajimaKenzo HasegawaHiroshi Satoh
    • B63B27/08B63B27/36B66C23/52B66D1/00B66D1/52F15B11/00
    • B66D1/52Y10S254/90
    • A hoisting device can be small-sized and energy can be saved. A hoisting device 10 according to the present invention has a hoist 30 and a control unit 32. The hoist 30 rotates a drum 12 having a wire 14 wound thereon by an oil pressure motor 42 rotatable in normal and reverse directions. To the oil pressure motor 42, operating oil is supplied from an oil pressure pump 44. The oil pressure pump 44 is a two-way discharge fixed capacity type, and rotated by a servomotor 46. An acceleration/displacement transducer 34 in the control unit 32 finds a moving direction and a moving speed of a wire hanging point in the vertical direction from an output signal of an acceleration sensor 24. The control unit 32 outputs a drive control signal of the servomotor 46 according to a paying-out speed or a rolling-up speed of the wire 14 offsetting the vertical motion of the wire hanging point caused by the heaving of a hull based on a speed instruction Vi of the paying-out or rolling-up speed of the wire, a detected signal of the acceleration sensor 24 and a detected signal of a wire speed sensor 26.
    • 提升装置可以小型化,节约能源。 根据本发明的提升装置10具有起重机30和控制单元32。 起重机30通过在正常和反向方向上可旋转的油压马达42来旋转具有缠绕在其上的线14的滚筒12。 对于油压马达42,从油压泵44供给工作油。 油压泵44是双向排出固定容积型,由伺服电动机46旋转。 控制单元32中的加速度/位移传感器34从加速度传感器24的输出信号中求出线垂直方向上的线悬挂点的移动方向和移动速度。 控制单元32根据线14的支付速度或卷绕速度输出伺服电动机46的驱动控制信号,其抵消由船体的起伏引起的线悬挂点的垂直运动,基于速度 线的放出或卷起速度的指令Vi,加速度传感器24的检测信号和线速度传感器26的检测信号。