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    • 52. 发明授权
    • Display and its driving method
    • 显示及其驱动方法
    • US06295043B1
    • 2001-09-25
    • US08457781
    • 1995-06-01
    • Seiji HashimotoDaisuke Yoshida
    • Seiji HashimotoDaisuke Yoshida
    • G09G336
    • G09G3/3688G09G3/3614G09G3/3648G09G2310/0205G09G2310/021G09G2310/0224G09G2310/0251G09G2310/0297G09G2320/0204G09G2320/0247
    • In a display having a case where an image signal is inputted to the same row of a display section at an odd field period and an even field period, even if an AC driving is performed, a problem of a deterioration of a device due to a burning of a liquid crystal of an image display section by inputting the image signal including a still image such as a character or the like. Therefore, the polarity of the image signal is inverted every field and the polarity is further inverted every arbitrary n frames. In the n-frame inversion, a 1-field inversion pulse like &phgr;FRP that is outputted from a control circuit is further converted to an arbitrary n-frame inversion pulse by using an inverter, a switch, a counter, and the like. Thus, a signal processing circuit converts the image signals (R, G, B) to image signals like FIG. 1B whose polarities are inverted every one field and n fields.
    • 在具有在奇数场周期和偶数场期间将图像信号输入到显示部分的同一行的情况下的显示器中,即使执行AC驱动,也会导致由于 通过输入包括诸如字符等的静止图像的图像信号来燃烧图像显示部分的液晶。 因此,图像信号的极性每场都反转,并且极性在任意n帧进一步反转。 在n帧反转中,通过使用逆变器,开关,计数器等将从控制电路输出的诸如phiFRP的1场反转脉冲进一步转换为任意的n帧反转脉冲。 因此,信号处理电路将图像信号(R,G,B)转换为图6所示的图像信号。 1B,其极性每一场和n场反转。
    • 53. 发明授权
    • Gas circuit breaker
    • 气体断路器
    • US09552942B2
    • 2017-01-24
    • US14361901
    • 2012-03-16
    • Toru YamashitaDaisuke YoshidaHirokazu Otani
    • Toru YamashitaDaisuke YoshidaHirokazu Otani
    • H01H33/04H01H33/70
    • H01H33/04H01H33/7084H01H33/7092
    • A gas circuit breaker includes contact rings formed of an elastically deformable material, a movable contact that moves reciprocally along an axis line direction between a current supply position where the movable contact bridges the contact rings and a current cutoff position where the movable contact is separated from both the contact rings, holding tools formed in an annular shape and respectively attached to the contact rings, a covering member having electrically insulating property, slidably attached to a distal end portion of the holding tool in the axis line direction, and configured to be brought into contact with the contact ring, and a covering member having electrically insulating property, slidably attached to a distal end portion of the holding tool in the axis line direction, and configured to be brought into contact with the contact ring.
    • 气体断路器包括由可弹性变形的材料形成的接触环,在可动接触桥接接触环的电流供应位置与可动接触件与电动切口分离的电流切断位置之间沿着轴线方向往复移动的可动接点 两个接触环,形成为环形并分别附接到接触环的保持工具,具有电绝缘性的覆盖部件,可滑动地附接到保持工具的沿轴线方向的远端部分,并且被构造成带 与所述接触环接触,以及具有电绝缘性的覆盖部件,其沿轴线方向可滑动地安装在所述保持工具的前端部,并且被构造成与所述接触环接触。
    • 54. 发明授权
    • Optical scanning device and image forming apparatus
    • 光学扫描装置和图像形成装置
    • US09436004B2
    • 2016-09-06
    • US14081131
    • 2013-11-15
    • Keiichi SerizawaHiroshi JohnoDaisuke YoshidaKazunori Watanabe
    • Keiichi SerizawaHiroshi JohnoDaisuke YoshidaKazunori Watanabe
    • G02B26/12
    • G02B26/125
    • An optical scanning device includes an optical housing; an elongated optical element arranged in the optical housing and having a shape extending in a main-scanning direction; a retaining member provided at a side opposite to a surface of the optical housing on which the optical element is arranged to maintain an attachment attitude of the optical element in the optical housing; a curvature adjusting unit configured to adjust a curvature of the elongated optical element in a scanning line via the retaining member; a tilt adjusting unit configured to adjust a tilt of the optical element in the scanning line by making the optical element rotate on an optical axis via the retaining member; and a positioning unit configured to position the optical element in the optical axis direction, and provided in the optical housing and having such a shape that the optical element fits the positioning unit.
    • 光学扫描装置包括光学壳体; 布置在所述光学壳体中并具有沿主扫描方向延伸的形状的细长光学元件; 保持构件,设置在与所述光学壳体的与所述光学元件布置成保持所述光学元件在所述光学壳体中的附接姿态的表面相对的一侧; 曲率调节单元,被配置为经由保持构件调节扫描线中的细长光学元件的曲率; 倾斜调节单元,其被配置为通过使所述光学元件经由所述保持构件在光轴上旋转来调整所述扫描线中的所述光学元件的倾斜度; 以及定位单元,其被构造成将光学元件定位在光轴方向上,并且设置在光学壳体中并且具有使得光学元件适配于定位单元的形状。
    • 58. 发明申请
    • LIGHT EMISSION CONTROL DEVICE AND LIGHT EMISSION CONTROL METHOD
    • 光发射控制装置和光发射控制方法
    • US20120288263A1
    • 2012-11-15
    • US13468741
    • 2012-05-10
    • Daisuke Yoshida
    • Daisuke Yoshida
    • G03B15/02H05B37/02
    • G03B15/05G03B7/08G03B7/16G03B2215/0514G03B2215/0525G03B2215/0592
    • A control device is provided for controlling a light emission device. The control device includes a light metering unit configured to acquire respective light metering values from a plurality of light metering regions. The control device further includes a correction unit configured to correct information about a light metering value of a target region based on a result of comparison between the light metering value of the target region and the light metering value of the light metering region at the periphery of the target region among the plurality of light metering regions, the result being acquired by the light metering unit allowing the light emission device to perform pre-flashing. Also, a calculation unit is provided which is configured to calculate a main light emission amount of the light emission device based on the information about the light metering value corrected by the correction unit.
    • 提供一种用于控制发光装置的控制装置。 所述控制装置包括:光计量单元,被配置为从多个测光区域获取各自的测光值。 控制装置还包括校正单元,其被配置为基于目标区域的测光值和周边的测光区域的测光值之间的比较结果来校正关于目标区域的测光值的信息 所述多个测光区域中的目标区域,所述结果由所述光计量单元获取,从而允许所述发光装置执行预闪光。 此外,提供了一种计算单元,其被配置为基于由校正单元校正的关于测光值的信息来计算发光装置的主发光量。
    • 60. 发明申请
    • CLOCK GENERATION CIRCUIT AND INTEGRATED CIRCUIT
    • 时钟发生电路和集成电路
    • US20110210778A1
    • 2011-09-01
    • US13104771
    • 2011-05-10
    • Daisuke Yoshida
    • Daisuke Yoshida
    • H03H11/16
    • H03K5/133H03K5/1515H03K2005/00039H03K2005/00202H03L7/0805H03L7/0812H03L7/0995
    • A clock generation circuit comprises: a first generation unit; a second generation unit; and a control unit that, using a plurality of third delay elements that respectively have a propagation delay time that correlates with the propagation delay time of a first delay element, and correlates with the propagation delay time of a second delay element, generates a control signal for controlling the third delay elements such that a total of propagation delay times of the plurality of third delay elements corresponds to a target value depending on a cycle of the external clock, and controls the propagation delay time of the first delay element, the propagation delay time of the second delay element, and the propagation delay times of the third delay elements using the control signal.
    • 时钟发生电路包括:第一代单元; 第二代单位; 以及控制单元,使用分别具有与第一延迟元件的传播延迟时间相关的传播延迟时间并与第二延迟元件的传播延迟时间相关联的多个第三延迟元件,生成控制信号 用于控制第三延迟元件,使得多个第三延迟元件的传播延迟时间的总和对应于取决于外部时钟的周期的目标值,并且控制第一延迟元件的传播延迟时间,传播延迟 第二延迟元件的时间,以及使用控制信号的第三延迟元件的传播延迟时间。