Internal clock signal generating circuit having function of generating internal clock signals which are multiplication of an external clock signal
    1.
    发明授权
    Internal clock signal generating circuit having function of generating internal clock signals which are multiplication of an external clock signal 失效
    内部时钟信号发生电路具有产生与外部时钟信号相乘的内部时钟信号的功能

    公开(公告)号:US06292040B1

    公开(公告)日:2001-09-18

    申请号:US09047375

    申请日:1998-03-25

    IPC分类号: H03L706

    摘要: An internal clock signal generating circuit includes a selector, a delay line, a 2-frequency divider, a phase comparator and a shift register. The selector alternately selects an external clock signal and an internal clock signal output from the delay line and outputs the selected signal to the delay line. The delay line receiving the signal delays the external clock signal, and delays the internal clock signal output from itself. The 2-frequency divider divides frequency of the internal clock signal by 2. Phase comparator compares phases of the external clock signal and the output signal from the 2-frequency divider. Delay time of the delay line is adjusted by the phase comparator and the shift register so that the phase difference is made 0.

    摘要翻译: 内部时钟信号发生电路包括选择器,延迟线,2分频器,相位比较器和移位寄存器。 选择器交替地选择从延迟线输出的外部时钟信号和内部时钟信号,并将选择的信号输出到延迟线。 接收信号的延迟线延迟外部时钟信号,并延迟其自身输出的内部时钟信号。 2分频器将内部时钟信号的频率除以2.相位比较器比较外部时钟信号和2分频器的输出信号的相位。 延迟线的延迟时间由相位比较器和移位寄存器调整,使得相位差为0。

    Synchronous type semiconductor memory device operating in
synchronization with an external clock signal
    2.
    发明授权
    Synchronous type semiconductor memory device operating in synchronization with an external clock signal 失效
    与外部时钟信号同步工作的同步型半导体存储器件

    公开(公告)号:US5404338A

    公开(公告)日:1995-04-04

    申请号:US189247

    申请日:1994-01-31

    摘要: In a synchronous semiconductor memory device, memory arrays (MA) forming activation units each are divided into a plurality of small memory arrays (MK). There are provided local I/O line pairs (LIO) each for two small memory arrays. The global I/O line pairs (GIO) crossing word lines are arranged in word line shunt regions (WS). The connection switches (BS) are arranged in the crossing between the local I/O line pairs and global I/O line pairs. Each small memory array in the activated memory array is connected to the corresponding global I/O line pair through the local I/O line pair. Thereby, a plurality of bits can be simultaneously read without increasing an area occupied by interconnections. The control of connection switch is made using a sense amplifier activation signal. Global I/O lines are precharged/equalized after data are transferred to read data registers provided for data output terminal for sequential data output or into selected memory cells. External clock signal is frequency-divided to produce phase-shifted internal clock signals which are used for producing internal voltage through charge operation.

    摘要翻译: 在同步半导体存储器件中,形成激活单元的存储器阵列(MA)被分成多个小存储器阵列(MK)。 提供了两个小型存储器阵列的本地I / O线对(LIO)。 跨字线的全局I / O线对(GIO)排列在字线分流区(WS)中。 连接开关(BS)布置在本地I / O线对与全局I / O线对之间的交叉中。 激活的存储器阵列中的每个小存储器阵列通过本地I / O线对连接到相应的全局I / O线对。 从而,可以同时读取多个比特,而不增加互连占用的面积。 使用读出放大器激活信号进行连接开关的控制。 数据传输到为数据输出端子提供的读数据寄存器用于顺序数据输出或选择存储单元时,全局I / O线被预充电/均衡。 外部时钟信号被分频以产生用于通过充电操作产生内部电压的相移内部时钟信号。

    Spray gun
    4.
    发明授权
    Spray gun 有权
    喷枪

    公开(公告)号:US09073077B2

    公开(公告)日:2015-07-07

    申请号:US13502556

    申请日:2010-10-19

    摘要: A spray gun (1) forms a desired spray pattern by atomizing by means of atomizing air (A) a spray liquid which is sprayed from a liquid ejection port (44) opened/closed by a needle valve (4), and jetting pattern air (P) to the flow of spray mist of the atomized spray liquid. A nozzle taper angle (θ1) is set in a range of 5° to 15°, and a cap taper angle (θ2) is set in a range of 20° to 40°. Atomizing air (A) is jetted from a nozzle insertion hole (58) toward the center of a nozzle (3). Pattern air (P) is jetted in a spreading suppressed region (R) wherein the flow of the spray mist does not spread over an area greater than or equal to a predetermined cross-sectional area, to the flow of spray mist, and as a result, the spray mist is more uniformly sprayed over a wide range.

    摘要翻译: 喷枪(1)通过雾化空气(A)通过雾化空气形成所需的喷雾图案(A)从由针阀(4)打开/关闭的液体喷射口(44)喷射的喷射液体,并且喷射图案空气 (P)对雾化喷雾液体的喷雾流动。 喷嘴锥角(& thetas; 1)设定在5°至15°的范围内,并且锥形锥角(& thetas; 2)设定在20°至40°的范围内。 雾化空气(A)从喷嘴插入孔(58)向喷嘴(3)的中心喷射。 图案空气(P)喷射在喷雾的流动不扩散到扩散抑制区域(R)上,喷雾雾度不超过或等于预定横截面积的区域,喷射雾流 结果,喷雾在更宽的范围内更均匀地喷雾。

    Self displacement sensing cantilever and scanning probe microscope
    8.
    发明授权
    Self displacement sensing cantilever and scanning probe microscope 有权
    自动位移检测悬臂和扫描探针显微镜

    公开(公告)号:US08161568B2

    公开(公告)日:2012-04-17

    申请号:US12592428

    申请日:2009-11-24

    IPC分类号: G01B11/00 G01B11/14 G01B11/02

    摘要: A cantilever has a probe portion and a cantilever portion having a free end portion from which the probe portion extends. A displacement detecting portion detects a displacement of the cantilever portion according to an interaction between a sample and the probe portion. An electrode portion is connected to the displacement detecting portion. An insulation film is formed over at least one of the electrode portion and the displacement detecting portion. A functional coating in the form one of a conductive film, a magnetic film, and a film having a light intensity amplifying effect is disposed on the insulation film.

    摘要翻译: 悬臂具有探针部分和具有探针部分延伸的自由端部的悬臂部分。 位移检测部根据样品与探针部之间的相互作用来检测悬臂部的位移。 电极部分连接到位移检测部分。 在电极部分和位移检测部分中的至少一个上形成绝缘膜。 导电膜,磁性膜和具有光强度放大效果的膜形式的功能性涂层设置在绝缘膜上。

    Self displacement sensing cantilever and scanning probe microscope
    9.
    发明申请
    Self displacement sensing cantilever and scanning probe microscope 有权
    自动位移检测悬臂和扫描探针显微镜

    公开(公告)号:US20100132075A1

    公开(公告)日:2010-05-27

    申请号:US12592428

    申请日:2009-11-24

    IPC分类号: G01Q20/02 G01Q20/00

    摘要: Provided is a self displacement sensing cantilever, including: a cantilever (4) that has a probe (2) at its tip and has a distal end portion (3) at its distal end; a displacement detecting portion (5) that is provided to the cantilever (4), for detecting a displacement of the cantilever (4); an electrode portion (6) that is connected to the displacement detecting portion (5) and is communicated with the distal end portion (3); and an insulation film (7) that is formed over at least one of the electrode portion (6) and the displacement detecting portion (5) of the cantilever (4), in which the insulation film (7) is applied a coating of an arbitrary functional material (8). As a result, measurement with a scanning probe microscope may be performed at the same time as projecting light.

    摘要翻译: 本发明提供一种自移位检测悬臂,包括:悬臂(4),其顶端具有探针(2),并在其远端具有远端部分(3); 位移检测部(5),其设置在所述悬臂(4)上,用于检测所述悬臂(4)的位移; 与所述位移检测部(5)连接并与所述前端部(3)连通的电极部(6)。 以及形成在所述悬臂(4)的所述电极部(6)和所述位移检测部(5)中的至少一个上的绝缘膜(7),其中所述绝缘膜(7)被涂覆在所述悬臂 任意功能材料(8)。 结果,可以在与投射光同时进行扫描探针显微镜的测量。

    Scanning probe microscope and scanning method
    10.
    发明授权
    Scanning probe microscope and scanning method 有权
    扫描探针显微镜和扫描方法

    公开(公告)号:US07456400B2

    公开(公告)日:2008-11-25

    申请号:US11235458

    申请日:2005-09-26

    IPC分类号: G12B21/00

    摘要: A scanning probe microscope has a probe needle and a control section that controls relative scanning movement between the probe needle and a surface of a sample in at least one direction parallel to the sample surface and controls relative movement between the probe needle and the sample surface in a direction perpendicular to the sample surface. A vibration source vibrates the probe needle at a vibrating frequency relative to the sample surface. An approach/separation drive section causes the probe needle to relatively approach to and separate from the sample surface at a predetermined distance while the probe needle is vibrated at the vibrating frequency relative to the sample surface by the vibration source. A detection section detects a rate of change in a vibration state of the probe needle in accordance with a distance between the probe needle and the sample surface. An observation section gathers observation data from the sample surface when the rate of change in the vibration state of the probe needle detected by the detection section has exceeded a preselected threshold value.

    摘要翻译: 扫描探针显微镜具有探针和控制部,其控制探针和样品表面之间的平行于样品表面的至少一个方向上的相对扫描运动,并且控制探针与样品表面之间的相对运动 垂直于样品表面的方向。 振动源以相对于样品表面的振动频率振动探针。 接近/分离驱动部分使得探针相对于样品表面以预定距离相对接近和分离,同时探针以振动源相对于样品表面的振动频率振动。 检测部根据探针与样本面的距离来检测探针的振动状态的变化率。 当由检测部检测到的探针的振动状态的变化率超过预选阈值时,观察部分从样本表面收集观察数据。