Tunable Impedance Matching Circuit
    1.
    发明申请
    Tunable Impedance Matching Circuit 审中-公开
    可调阻抗匹配电路

    公开(公告)号:US20100164645A1

    公开(公告)日:2010-07-01

    申请号:US12676335

    申请日:2007-09-14

    IPC分类号: H03H7/38

    摘要: The tunable impedance circuit comprises capacitors C1 and C2, an inductor L1, and an inductor L2 magnetically coupled with the inductor L1. The control current Icontrol with variable phase and amplitude from the control circuit 13 flows in the inductor L2. The impedance of the inductor L1 is changed by changing the phase and amplitude of the control current Icontrol. The output impedance is set to an optimum level by setting an effective inductance and an effective quality factor of the tunable impedance circuit 12a to be optimum by means of the phase and amplitude of the control current Icontrol relative to output current IRF of RF PA 11.

    摘要翻译: 可调谐阻抗电路包括电容器C1和C2,电感器L1和与电感器L1磁耦合的电感器L2。 来自控制电路13的具有可变相位和振幅的控制电流Icontrol在电感器L2中流动。 通过改变控制电流Icontrol的相位和幅度来改变电感L1的阻抗。 通过将控制电流Icontrol的相位和幅度相对于RF PA11的输出电流IRF设置为可调谐阻抗电路12a的有效电感和有效质量因子来将输出阻抗设置为最佳电平。

    Imprinting method and nano-imprinting apparatus
    2.
    发明申请
    Imprinting method and nano-imprinting apparatus 审中-公开
    压印方法和纳米压印装置

    公开(公告)号:US20070262049A1

    公开(公告)日:2007-11-15

    申请号:US11798447

    申请日:2007-05-14

    IPC分类号: B44C1/22 B29C33/40

    摘要: An imprinting method carries out imprinting on a workpiece by clamping UV-curable resin between a nano-imprinting mold and a workpiece and curing the UV-curable resin using UV light. In this method, the workpiece is supported on a setting table provided with through-holes that are disposed in a planar region of the setting table on which the workpiece is set and are connected to a gas pumping/evacuating mechanism. The UV-curable resin is supplied onto the workpiece and the setting table is raised to and stopped at a filling operation position where the mold surface of the nano-imprinting mold and the surface of the workpiece are apart. After this, gas is pumped toward the lower surface of the workpiece from the through-holes and the workpiece is pressed onto the nano-imprinting mold from a center of the workpiece toward a periphery of the workpiece while gradually filling the UV-curable resin between the nano-imprinting mold and the workpiece. The UV-curable resin is cured by irradiating the UV-curable resin with UV light in a state where the workpiece is pressed onto the nano-imprinting mold by the pumping pressure of the gas.

    摘要翻译: 压印方法通过将UV固化树脂夹在纳米压印模和工件之间并通过UV光固化UV固化树脂,在工件上进行压印。 在该方法中,工件被支撑在设置有设置在设置工作台的平面区域中并且与气体抽吸/排气机构连接的通孔的设置台上。 将紫外线固化树脂供给到工件上,并且将安装台升高并停止在填充操作位置,其中纳米压印模具的模具表面和工件表面分开。 此后,气体从通孔向工件的下表面泵送,并且工件从工件的中心朝向工件的周边压到纳米压印模具上,同时逐渐地将UV可固化树脂填充在 纳米压印模具和工件。 在通过气体的泵送压力将工件压在纳米压印模上的状态下,通过用UV光照射UV固化树脂来固化紫外线固化树脂。

    Mobile electronic device with luminance control according to surrounding brightness and contact
    4.
    发明授权
    Mobile electronic device with luminance control according to surrounding brightness and contact 有权
    移动电子设备根据周围的亮度和接触亮度进行控制

    公开(公告)号:US08872755B2

    公开(公告)日:2014-10-28

    申请号:US13335386

    申请日:2011-12-22

    IPC分类号: G09G3/36 G06F1/16 G09G3/34

    摘要: A luminance control device and method are disclosed. A surrounding brightness of a touch panel is measured to obtain a measured surrounding brightness. A luminance of the touch panel is controlled during a first time period starting from when the measured surrounding brightness changes from a first condition to a second condition, during which the measured surrounding brightness decreases by an amount equal to or greater than a threshold value. The luminance of the touch panel is maintained at a first luminance corresponding to the first condition when the measured surrounding brightness changes from the second condition to the first condition. The luminance of the touch panel is controlled to change to a second luminance corresponding to the second condition, when the measured surrounding brightness has not changed from the second condition to the first condition.

    摘要翻译: 公开了一种亮度控制装置和方法。 测量触摸面板的周围亮度以获得测量的周围亮度。 在从测量的周围亮度从第一状态变化到第二状态的第一时间段期间控制触摸面板的亮度,在此期间测量的周围亮度降低等于或大于阈值的量。 当测量的周围亮度从第二状态变为第一状态时,触摸面板的亮度保持在与第一状态相对应的第一亮度。 当所测量的周围亮度从第二状态变为第一状态时,控制触摸面板的亮度变为对应于第二状态的第二亮度。

    Position and orientation measurement apparatus, position and orientation measurement method, and storage medium
    5.
    发明授权
    Position and orientation measurement apparatus, position and orientation measurement method, and storage medium 有权
    位置和方向测量装置,位置和方向测量方法以及存储介质

    公开(公告)号:US08786700B2

    公开(公告)日:2014-07-22

    申请号:US13195478

    申请日:2011-08-01

    IPC分类号: G01S17/89

    摘要: A position and orientation measurement apparatus comprises: a distance information obtaining unit adapted to obtain distance information of a target object captured by a capturing unit; a grayscale image obtaining unit adapted to obtain a grayscale image of the target object; a first position and orientation estimation unit adapted to estimate a position and orientation of the target object based on the information of a three-dimensional shape model and the distance information; a second position and orientation estimation unit adapted to estimate a position and orientation of the target object based on a geometric feature of the grayscale image and projection information obtained by projecting, on the grayscale image, the information of the three-dimensional shape model; and a determination unit adapted to determine whether a parameter of the capturing unit is needed to be calibrated or not, based on both a first and second estimated values.

    摘要翻译: 位置和姿势测量装置包括:距离信息获取单元,用于获取由拍摄单元拍摄的目标对象的距离信息; 灰度图像获取单元,其适于获得所述目标对象的灰度图像; 第一位置和姿态估计单元,其适于基于三维形状模型和距离信息的信息来估计目标对象的位置和姿态; 第二位置和姿势估计单元,其适于基于灰度图像的几何特征和通过在灰度图像上投影三维形状模型的信息获得的投影信息来估计目标对象的位置和取向; 以及确定单元,其适于基于第一和第二估计值来确定捕获单元的参数是否需要被校准。

    GEOMETRIC FEATURE EXTRACTING DEVICE, GEOMETRIC FEATURE EXTRACTING METHOD, STORAGE MEDIUM, THREE-DIMENSIONAL MEASUREMENT APPARATUS, AND OBJECT RECOGNITION APPARATUS
    9.
    发明申请
    GEOMETRIC FEATURE EXTRACTING DEVICE, GEOMETRIC FEATURE EXTRACTING METHOD, STORAGE MEDIUM, THREE-DIMENSIONAL MEASUREMENT APPARATUS, AND OBJECT RECOGNITION APPARATUS 有权
    几何特征提取装置,几何特征提取方法,存储介质,三维测量装置和对象识别装置

    公开(公告)号:US20120294534A1

    公开(公告)日:2012-11-22

    申请号:US13575994

    申请日:2011-03-09

    IPC分类号: G06K9/46

    CPC分类号: G06F17/5086 G06K9/00214

    摘要: A geometric feature extracting device comprising: first input means for inputting a three-dimensional shape model of a measurement object; generation means for generating two-dimensional parameter planes corresponding to curved surface patches that configure the three-dimensional shape model; first calculation means for calculating normal directions to points on the curved surface patches; holding means for holding the parameter planes and the normal directions in association with each other; second input means for inputting an observation direction used to observe the measurement object from an observation position; selection means for selecting regions in each of which the normal direction and the observation direction satisfy a predetermined angle condition from the parameter planes; and second calculation means for calculating geometric features on three-dimensional shape model corresponding to regions selected by the selection means as geometric features that configure geometric feature regions on the three-dimensional shape model, which are observable from the observation position.

    摘要翻译: 一种几何特征提取装置,包括:第一输入装置,用于输入测量对象的三维形状模型; 用于生成对应于配置三维形状模型的曲面贴片的二维参数平面的生成装置; 用于计算弯曲表面贴片上的点的法线方向的第一计算装置; 用于保持参数平面和法线方向相关联的保持装置; 第二输入装置,用于从观察位置输入用于观察测量对象的观察方向; 选择装置,用于选择其中法线方向和观察方向各自的参数平面满足预定角度条件的区域; 以及第二计算装置,用于计算对应于由选择装置选择的区域的三维形状模型的几何特征,作为在观察位置可观察到的三维形状模型上构成几何特征区域的几何特征。

    Driving-force transmission device and image forming apparatus
    10.
    发明授权
    Driving-force transmission device and image forming apparatus 有权
    驱动力传递装置和图像形成装置

    公开(公告)号:US08064802B2

    公开(公告)日:2011-11-22

    申请号:US12318360

    申请日:2008-12-29

    IPC分类号: G03G15/00

    摘要: A driving-force transmitting member is formed of a material having a linear expansion coefficient larger than that of a sleeve bearing, and Δx1>r1×Δt×a−R1×Δt×b is satisfied, where R1 is inner radius of the sleeve bearing, r1 is outer radius of a rotary shaft unit, Δx1 is difference between the inner radius R1 and the outer radius r1 at a reference temperature, Δt is maximum amount of temperature change of the driving-force transmitting member relative to the reference temperature, a is linear expansion coefficient of the sleeve bearing, and b is linear expansion coefficient of the driving-force transmitting member.

    摘要翻译: 驱动力传递部件由线性膨胀系数大于套筒轴承的线性膨胀系数的材料形成,并且满足&Dgr; x1> r1×&Dgr; t×a-R1×&Dgr; t×b,其中R1为 套筒轴承的内半径r1是旋转轴单元的外半径,Dgr; x1是参考温度下的内径R1与外半径r1之间的差,Dgr是驱动轴的最大温度变化量, 力传递部件相对于基准温度,a为套筒轴承的线膨胀系数,b为驱动力传递部件的线膨胀系数。