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    • 2. 发明申请
    • Method for producing an organic thin film transistor and an organic thin film transistor produced by the method
    • 通过该方法制造有机薄膜晶体管和有机薄膜晶体管的方法
    • US20070212807A1
    • 2007-09-13
    • US11714059
    • 2007-03-05
    • Jun YamadaYuya HiraoNaoki Masazumi
    • Jun YamadaYuya HiraoNaoki Masazumi
    • H01L51/40
    • H01L51/0545H01L51/0023H01L51/0055H01L51/0525H01L51/102
    • A method for producing an organic thin film transistor having, on a substrate, a source electrode, a gate electrode, a drain electrode, an insulating layer and an organic semiconductor layer. The method has a step of forming the source electrode and the drain electrode such that one of the source electrode and the drain electrode which is an inner-located electrode has an outer circumference which is circular or polygonal and that the other electrode which is an outer-located electrode has an inner circumference facing the outer circumference of the inner-located electrode, the inner circumference being of a shape which is substantially concentric with the outer circumference of the inner-located electrode. The method also has a step of forming the organic semiconductor layer for connecting the source electrode and the drain electrode to each other by a process of dropping an organic semiconductor material.
    • 一种有机薄膜晶体管的制造方法,其在基板上具有源电极,栅电极,漏电极,绝缘层和有机半导体层。 该方法具有形成源电极和漏极的步骤,使得作为内部定位电极的源电极和漏电极中的一个具有圆形或多边形的外周,并且作为外部的另一个电极 定位电极具有面向内部定位电极的外周的内周,内周的形状与内定位电极的外周基本同心。 该方法还具有通过滴加有机半导体材料的工艺形成用于将源极和漏电极彼此连接的有机半导体层的步骤。
    • 6. 发明授权
    • Liquid crystal display device and method of driving a liquid crystal display element
    • 液晶显示装置及驱动液晶显示元件的方法
    • US06414666B1
    • 2002-07-02
    • US09291765
    • 1999-04-14
    • Eiji YamakawaHideaki UedaNaoki Masazumi
    • Eiji YamakawaHideaki UedaNaoki Masazumi
    • G09G336
    • G09G3/3629G09G3/2014G09G3/3685G09G2300/0486G09G2310/027G09G2310/06
    • A method of driving a liquid crystal display element having a first substrate provided with a scanning electrode, a second substrate provided with a signal electrode and a liquid crystal display layer held between the first and second substrates, the method comprising the steps of: (a) applying a first pulse voltage to the scanning electrode corresponding to a drive target pixel in the liquid crystal display layer for changing the liquid crystal material of the target pixel to a predetermined changed state; (b) applying, subsequent to the step (a), a second pulse voltage to the scanning electrode corresponding to the target pixel; and (c) controlling a pulse width of a third pulse voltage in accordance with a required display tone of the target pixel, and applying the third pulse voltage to the signal electrode corresponding to the target pixel in synchronization with the second pulse voltage for stabilizing the state of the liquid crystal material of the target pixel in a predetermined stabilized state.
    • 一种驱动具有设置有扫描电极的第一基板和设置有信号电极的第二基板和保持在第一和第二基板之间的液晶显示层的液晶显示元件的方法,所述方法包括以下步骤:(a 对与液晶显示层中的驱动目标像素对应的扫描电极施加第一脉冲电压,将目标像素的液晶材料改变到预定的改变状态;(b)在步骤(a)之后, 对应于目标像素的扫描电极的第二脉冲电压; 以及(c)根据目标像素的所需显示色调控制第三脉冲电压的脉冲宽度,并且与第二脉冲电压同步地将第三脉冲电压施加到与目标像素对应的信号电极,以稳定 目标像素的液晶材料的状态处于预定的稳定状态。
    • 7. 发明申请
    • LIGHTING APPARATUS
    • 照明设备
    • US20140347857A1
    • 2014-11-27
    • US14344520
    • 2012-09-04
    • Junya WakaharaNobuya MikiNaoki MasazumiYasuhiro Honda
    • Junya WakaharaNobuya MikiNaoki MasazumiYasuhiro Honda
    • F21V21/14F21V21/02
    • F21V21/14F21S2/00F21V19/004F21V19/02F21V21/02F21V21/088F21V21/30F21Y2105/00F21Y2115/15
    • A lighting apparatus may include a holding member, a lighting panel, and an attachment bracket for removably attaching the lighting panel to the holding member. The lighting panel may form a first position in which a light-emitting surface of the lighting panel and a light-emitting surface of a lighting panel are located substantially on the same plane with each other and a second position in which the lighting panel is pressed from its light-emitting surface side so that the attachment bracket pivots around a portion where the attachment bracket is attached to the holding member and the lighting panel is inclined with respect to the lighting panel. As the lighting panel forming the second position is moved in a direction away from the holding member, the attachment bracket is released from the holding member, and the lighting panel forming the second position is readily removed from the holding member.
    • 照明装置可以包括保持构件,照明面板和用于将照明面板可拆卸地附接到保持构件的附接支架。 照明面板可以形成第一位置,其中照明面板的发光面和照明面板的发光面基本上位于相同的平面上,以及第二位置,其中照明面板被按压 从其发光面侧使安装托架围绕安装托架附接到保持构件的部分枢转,并且照明面板相对于照明面板倾斜。 当形成第二位置的照明板沿远离保持构件的方向移动时,附接支架从保持构件释放,并且形成第二位置的照明面板容易地从保持构件移除。
    • 9. 发明授权
    • Liquid crystal display driving method and liquid crystal display device
    • 液晶显示驱动方法和液晶显示装置
    • US06812913B2
    • 2004-11-02
    • US09783061
    • 2001-02-14
    • Naoki MasazumiMakiko MandaiTsukasa YagiMikihiro Komatsu
    • Naoki MasazumiMakiko MandaiTsukasa YagiMikihiro Komatsu
    • G09G336
    • G09G3/3629G02F1/13718G09G3/3681G09G3/3692G09G2300/023G09G2300/0486G09G2310/06G09G2310/061G09G2320/041
    • A matrix driving method for liquid crystal display having liquid crystal which exhibits cholesteric phase and capability of keeping image displayed after turn-off of electric field applied by using scan electrodes and data electrodes arranged to face and cross each other with the liquid crystal in between, includes applying reset pulse to reset liquid crystal to homeotropic state, selecting final state of liquid crystal, and stabilizing liquid crystal to selected state. The selection step includes, in order named, a first time of applying substantially 0 volt to liquid crystal, a second time of applying selection pulse to select final state of liquid crystal, and a third time of applying substantially 0 volt to liquid crystal. In first or second time, a compensation pulse may be applied to liquid crystal in form determined depending on temperature or so that a plurality of liquid crystal layers will have same scanning speed.
    • 一种具有液晶的液晶显示器的矩阵驱动方法,具有显示胆甾醇相的能力,以及通过使用扫描电极和数据电极之间的液晶布置成彼此面对并交叉的电场施加的电场关闭后保持图像的显示能力, 包括施加复位脉冲以将液晶复位为垂直状态,选择液晶的最终状态,以及将液晶稳定到选定状态。 选择步骤按顺序包括对液晶施加大致0伏的第一次,施加选择脉冲以选择液晶的最终状态的第二次,以及向液晶施加大致0伏的第三次。 在第一次或第二次中,可以根据温度确定的形式对液晶施加补偿脉冲,或者使得多个液晶层具有相同的扫描速度。
    • 10. 发明授权
    • Liquid crystal display apparatus and a temperature compensation method therefor
    • 液晶显示装置及其温度补偿方法
    • US06803899B1
    • 2004-10-12
    • US09621409
    • 2000-07-21
    • Naoki MasazumiMakiko MandaiKatsuhiko Asai
    • Naoki MasazumiMakiko MandaiKatsuhiko Asai
    • G09G336
    • G09G3/3629G09G2300/023G09G2300/0486G09G2320/041
    • Disclosed is a liquid crystal display apparatus including a plurality of chiral nematic liquid crystal display layers stacked on each other. To compensate temperature dependency, a control unit, in accordance with a temperature detected by a temperature detection unit, adjusts at least one of a voltage level and a pulse width of a pulse signal be applied to at least one of the liquid crystal display. In one embodiment, the control unit retrieves the detected temperature before driving the liquid crystal display successively, and commonly uses the detected temperature for the successive drives. In another embodiment, the control unit does not adjust a voltage level nor a pulse width of a first reset pulse signal that is for setting the liquid crystal material to a homeotropic phase regardless of the detected temperature.
    • 公开了一种液晶显示装置,其包括彼此堆叠的多个手征向列型液晶显示层。 为了补偿温度依赖性,控制单元根据由温度检测单元检测的温度调节施加到至少一个液晶显示器的脉冲信号的电压电平和脉冲宽度中的至少一个。 在一个实施例中,控制单元在驱动液晶显示器之前连续检索检测到的温度,并且通常使用检测到的连续驱动器的温度。 在另一个实施例中,无论检测到的温度如何,控制单元都不调整用于将液晶材料设置为垂直相的第一复位脉冲信号的电压电平和脉冲宽度。