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    • 4. 发明授权
    • Servo-parameter adjusting apparatus
    • 伺服参数调整装置
    • US09223300B2
    • 2015-12-29
    • US14394311
    • 2012-05-17
    • Shinji Tanaka
    • Shinji Tanaka
    • G05B11/01G05B11/36G05B11/42G05B19/19
    • G05B11/36G05B11/42G05B19/19
    • A servo-parameter adjusting apparatus includes an acquiring unit that acquires an adjustment result measured by a servo control apparatus concerning position adjustment for a control target performed according to the servo parameters set in the servo control apparatus; a display control unit that simultaneously displays, on a display screen, a waveform corresponding to the acquired adjustment result, waveform values that are attributes concerning a part of the waveform, and servo parameters corresponding to the waveform; and a waveform-value changing unit that changes the displayed waveform values. When a waveform value is changed, the display control unit displays the changed waveform value on the display screen and displays, on the display screen, a waveform corresponding to the changed waveform value and a servo parameter corresponding to the changed waveform value.
    • 伺服参数调整装置包括:获取单元,其获取由伺服控制装置测量的关于根据在伺服控制装置中设定的伺服参数执行的控制目标的位置调整所测量的调整结果; 显示控制单元,其在显示屏幕上同时显示与所获取的调整结果对应的波形,作为与波形的一部分有关的属性的波形值以及与该波形对应的伺服参数; 以及改变显示的波形值的波形值改变单元。 当波形值改变时,显示控制单元在显示屏幕上显示改变的波形值,并且在显示屏幕上显示对应于改变的波形值的波形和对应于改变的波形值的伺服参数。
    • 7. 发明授权
    • Semiconductor device
    • 半导体器件
    • US08483000B2
    • 2013-07-09
    • US13587047
    • 2012-08-16
    • Kiyotada FunaneYuta YanagitaniShinji Tanaka
    • Kiyotada FunaneYuta YanagitaniShinji Tanaka
    • G11C7/02G11C7/10G11C8/00
    • G11C8/16
    • The present invention is directed to provide a semiconductor device having a dual-port memory circuit in which influence of placement of replica cells exerted on enlargement of chip area is reduced. A memory cell array of a dual-port memory circuit has: a first replica cell array used to respond to an instruction of reading operation from one of dual ports; and a second replica cell array used to respond to an instruction of reading operation from the other dual port. Each of the replica cell arrays has: replica bit lines obtained by mutually short-circuiting parallel lines having a length obtained by cutting, in half, an inversion bit line and a non-inversion bit line of complementary bit lines to which data input/output terminals of a memory cell are coupled; and replica cells coupled to the replica bit lines and having transistor placement equivalent to that of the memory cells.
    • 本发明旨在提供一种具有双端口存储电路的半导体器件,其中复制单元的放置对芯片面积增大的影响减小。 双端口存储器电路的存储单元阵列具有:第一复制单元阵列,用于响应来自双端口之一的读操作指令; 以及用于响应来自另一个双端口的读取操作的指令的第二复制单元阵列。 每个复制单元阵列具有:通过相互短路的并行线获得的复制位线,所述并行线具有通过将数据输入/输出的互补位线的反转位线和非反相位线切割一半而获得的长度 存储器单元的端子耦合; 以及耦合到复制位线并且具有与存储器单元相当的晶体管放置的复制单元。
    • 8. 发明授权
    • Liquid chromatograph system
    • 液相色谱系统
    • US08382979B2
    • 2013-02-26
    • US13541193
    • 2012-07-03
    • Yoshiki MaedaKenichi YasunagaShinji Tanaka
    • Yoshiki MaedaKenichi YasunagaShinji Tanaka
    • B01D15/08
    • F16K11/0743F16K39/045G01N30/20G01N30/36G01N2030/201G01N2030/202
    • A channel-switching valve into which a high-pressure liquid and a low-pressure liquid flow is provided. The channel-switching valve includes a stator and a rotor which has a surface in contact with one surface of the stator and rotates while sliding on the contact surface. The stator has a plurality of liquid flow ports open to the contact surface, and the rotor has a plurality of channel grooves for connecting the liquid flow ports. One of the channel grooves is a straight groove passing through the rotational center of the rotor, and the other channel grooves are line-symmetrically arranged with respect to the straight channel groove. Alternatively, among the channel grooves, the channel grooves into which the high-pressure liquid flows are configured to be located on both sides of the rotational center of the rotor. Thus, a local load acting on the rotor during a high-pressure liquid-feeding process is reduced.
    • 一个通道切换阀,其中设有高压液体和低压液体流。 通道切换阀包括定子和转子,其具有与定子的一个表面接触的表面,并且在接触表面上滑动时旋转。 定子具有向接触表面开口的多个液体流动端口,并且转子具有用于连接液体流动端口的多个通道槽。 通道槽中的一个是通过转子的旋转中心的直槽,而另一个槽相对于直槽形成线对称布置。 或者,在沟槽中,高压液体流过的沟槽形成为位于转子的旋转中心的两侧。 因此,降低了在高压给液过程中作用在转子上的局部负荷。
    • 9. 发明申请
    • Liquid Chromatograph System
    • 液相色谱系统
    • US20120103887A1
    • 2012-05-03
    • US13379603
    • 2010-06-28
    • Yoshiki MaedaKenichi YasunagaShinji Tanaka
    • Yoshiki MaedaKenichi YasunagaShinji Tanaka
    • B01D15/08
    • F16K11/0743F16K39/045G01N30/20G01N30/36G01N2030/201G01N2030/202
    • A channel-switching valve into which a high-pressure liquid and a low-pressure liquid flow is provided. The channel-switching valve includes a stator and a rotor which has a surface in contact with one surface of the stator and rotates while sliding on the contact surface. The stator has a plurality of liquid flow ports open to the contact surface, and the rotor has a plurality of channel grooves for connecting the liquid flow ports. One of the channel grooves is a straight groove passing through the rotational center of the rotor, and the other channel grooves are line-symmetrically arranged with respect to the straight channel groove. Alternatively, among the channel grooves, the channel grooves into which the high-pressure liquid flows are configured to be located on both sides of the rotational center of the rotor. As a result, a local load acting on the rotor during a high-pressure liquid-feeding process is reduced, so that the contact surface is prevented from being scraped off by the edge of the opening of a port during the rotation of the rotor.
    • 一个通道切换阀,其中设有高压液体和低压液体流。 通道切换阀包括定子和转子,其具有与定子的一个表面接触的表面,并且在接触表面上滑动时旋转。 定子具有向接触表面开口的多个液体流动端口,并且转子具有用于连接液体流动端口的多个通道槽。 通道槽中的一个是通过转子的旋转中心的直槽,而另一个通道槽相对于直槽形成线对称布置。 或者,在沟槽中,高压液体流过的沟槽形成为位于转子的旋转中心的两侧。 结果,降低了在高压液体供给过程中作用在转子上的局部负荷,使得在转子旋转期间防止接触表面被端口开口的边缘刮掉。