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    • 3. 发明申请
    • Driver for a Liquid Crystal Device
    • 液晶驱动器
    • US20080191991A1
    • 2008-08-14
    • US12041521
    • 2008-03-03
    • Shigeru Matsuyama
    • Shigeru Matsuyama
    • G09G3/36
    • G09G3/20G09G3/3622G09G3/3674G09G2300/06G09G2310/0224G09G2310/0267G09G2310/0278G09G2310/08G09G2330/021
    • A driver for a liquid crystal device includes a plurality of common drivers having a first common driver and a last common driver for comb-like driving that is coupled in cascade connection and a frequency divider that produces a second clock for interlaced driving by halving a period of a first clock that is provided from outside for serving as a basis of driving the drivers regarding each of the common drivers for comb-like driving aside from the first common driver and the last common driver. A converter circuit converts two periods of output data that are output in response to input data corresponding to one period of the first clock into one period of output data by using the second clock regarding input and output data of each of the common drivers for comb-like driving.
    • 用于液晶装置的驱动器包括多个共同驱动器,其具有第一公共驱动器和用于串级连接的梳状驱动的最后一个公共驱动器,以及分频器,其产生用于隔行扫描的第二时钟, 第一时钟是从外部提供的,用作驱动与驱动器相关的每个公共驱动器的基础,用于除了第一公共驱动器和最后的公共驱动器之外的梳状驱动。 A转换器电路通过使用关于用于梳状信号的每个公共驱动器的输入和输出数据的第二时钟将响应于与第一时钟的一个周期相对应的输入数据输出的两个周期的输出数据转换为输出数据的一个周期, 喜欢开车。
    • 6. 发明授权
    • Display driver IC
    • 显示驱动IC
    • US06636207B2
    • 2003-10-21
    • US09944206
    • 2001-09-04
    • Shigeru Matsuyama
    • Shigeru Matsuyama
    • G09G500
    • G11C8/16G09G3/3685
    • The invention provides a first pair of bit lines BM and {overscore (BM)} that read data from a specified one of memory cells in a memory cell column, and a second pair of bit lines BS and {overscore (BS)} that write data in another specified one of the memory cells in the memory cell column include a display read line that successively reads out display data from the memory cell column. As viewed in a plan view, the display read line is disposed between the pair of bit lines BS and {overscore (BS)}. Potentials of signals that are transmitted through the pair of bit lines BS and {overscore (BS)} are in a mutually opposite relationship. Therefore, even when coupling capacitors are formed between the pair of bit lines BS and {overscore (BS)} and the display read line, the charges that are charged and discharged between the capacitances and the display read line are offset, and therefore the signal potential on the display read line does not deteriorate.
    • 本发明提供了第一对位线BM和超额(BM,其从存储器单元列中的存储器单元中的指定的一个中读取数据,以及第二对位线BS和{过滤(在另一个指定的位置中写入数据的BS 存储单元列中的一个存储单元包括从存储单元列连续地读取显示数据的显示读取行,从俯视图中可以看出,显示读取线位于一对位线BS之间, (BS)通过一对位线BS发送的信号的电位和(超调(BS)是相互相反的关系,因此,即使当在一对位线BS之间形成耦合电容器时, 显示读取线时,在电容和显示读取线之间充电和放电的电荷偏移,因此显示读取线上的信号电位不会劣化。
    • 7. 发明授权
    • Liquid crystal display device having a spacer
    • 具有间隔物的液晶显示装置
    • US06433852B1
    • 2002-08-13
    • US09453575
    • 1999-12-03
    • Hidehiro SonodaMasahito OheHiroaki AsumaShigeru Matsuyama
    • Hidehiro SonodaMasahito OheHiroaki AsumaShigeru Matsuyama
    • G02F11343
    • G02F1/134363G02F1/133512G02F1/13394
    • To provide a transverse electric field liquid crystal display device which eliminates the leakage of light and suppresses the disturbance of the electric field between the electrodes, thus enabling an image display of high quality, a liquid crystal display device has a liquid crystal panel which provides at least two kinds of color filters FIL(R), FIL(G) . . . of different colors and a black matrix BM interposed between said respective color filters on one substrate SUB2, a group of electrodes PX, CT, CT1, CT2, SD2 . . . for selecting pixels formed on the other substrate SUB1, a liquid crystal layer LC made of a liquid crystal composition sandwiched between the substrates and having a dielectric anisotropy, a polarizing plate POL1, POL2 laminated on an outer surface of at least one of the substrates, and drive means which applies drive voltages for display to a group of the electrodes. The liquid crystal display device further includes spacers SP which bridge a gap defined between opposing inner surfaces of the pair of substrates. The spacers SP are formed by bringing top portions of a protrusion SP1 having a specific resistance of less than 108 &OHgr;·cm which is formed on one substrate SUB2 side and a protrusion SP2 having a specific resistance of not less than 108 &OHgr;·cm which is formed on the other substrate SUB1 side into contact with each other.
    • 为了提供消除光的泄漏并抑制电极之间的电场干扰的横向电场液晶显示装置,因此能够进行高品质的图像显示,液晶显示装置具有液晶面板,其提供在 最少两种滤色片FIL(R),FIL(G)。 。 。 并且在一个基板SUB2,一组电极PX,CT,CT1,CT2,SD2上插入在所述各个滤色器之间的黑矩阵BM。 。 。 用于选择形成在另一基板SUB1上的像素,由夹在基板之间并具有介电各向异性的液晶组合物制成的液晶层LC,层压在至少一个基板的外表面上的偏振片POL1,POL2, 以及驱动装置,其向一组电极施加用于显示的驱动电压。 液晶显示装置还包括间隔物SP,其间隔开限定在一对基板的相对的内表面之间的间隙。 间隔件SP通过使形成在一个基板SUB2侧上的电阻小于108欧姆·厘米的突起SP1的顶部和电阻率不小于108欧姆·厘米的突起SP2形成, 形成在另一基板SUB1侧彼此接触。
    • 8. 发明授权
    • Liquid crystal display device with spacer material covered by an orientation film
    • 具有被取向膜覆盖的间隔物的液晶显示装置
    • US06337728B1
    • 2002-01-08
    • US09168287
    • 1998-10-08
    • Keiko InoueShigeru MatsuyamaSetsuo KobayashiHiroaki Asuma
    • Keiko InoueShigeru MatsuyamaSetsuo KobayashiHiroaki Asuma
    • G02F11339
    • G02F1/13392G02F1/133711G02F1/134363
    • A liquid crystal display device capable of preventing occurrence of display irregularity due to movement of spherical spacer materials. The liquid crystal display device includes a pixel electrode and counter electrode that are formed on a liquid crystal-side surface of one transparent substrate of respective transparent substrates disposed opposing each other with a liquid crystal being laid therebetween, wherein the transmissivity of light transmitting between this pixel electrode and the counter electrode is controlled by twisting of molecules of the liquid crystal as caused by an electric field generated between the pixel electrode and counter electrode. In the liquid crystal display device, spacer materials are provided between respective ones of said transparent substrates. These spacers are fixed and disposed on an insulating layer underlying an orientation film which is in contact with said liquid crystal on the one transparent substrate side.
    • 一种液晶显示装置,能够防止由于球形隔离材料的移动引起的显示不规则性。 该液晶显示装置包括:像素电极和对置电极,其形成在彼此相对布置的各个透明基板的一个透明基板的液晶侧表面上,液晶被放置在其间,其中在该透光基板之间传输的光的透射率 通过由像素电极和对电极之间产生的电场引起的液晶分子的扭转来控制像素电极和对电极。 在液晶显示装置中,在各个透明基板之间设置间隔物。 这些间隔件被固定并设置在位于一个透明基板侧与所述液晶接触的取向膜下方的绝缘层上。
    • 9. 发明授权
    • Liquid crystal display panel wherein end-sealing material contains particulates larger than gap formed by liquid crystal filling port
    • 液晶显示面板,其中端部密封材料包含大于由液晶填充口形成的间隙的微粒
    • US06275279B1
    • 2001-08-14
    • US09452145
    • 1999-12-01
    • Hiroaki AsumaShigeru MatsuyamaTohru SasakiNoboru KunimatsuMasamitsu Furuie
    • Hiroaki AsumaShigeru MatsuyamaTohru SasakiNoboru KunimatsuMasamitsu Furuie
    • G02F11339
    • G02F1/1341
    • In a liquid crystal display panel, the shrinkage of an end-scaling material for sticking a pair of substrates together is prevented or relaxed to restrain peeling of the end-sealing material from the substrates, thereby preventing any leakage of a liquid crystal and penetration of contaminants. A liquid crystal display device is assembled by bonding together a pair of substrates, which are opposed to each other across a predetermined gap and at least one of which has an electrode group formed over a surface opposed to the other substrate, with a sealing material along their peripheries excluding a liquid crystal filling port, and then sealing the liquid crystal filling port with an end-sealing material after the filling of the liquid crystal and hermetically sealing the liquid crystal in the gap between both substrates. In the liquid crystal display device, a resin which constitutes the end-sealing material contains particulates of average particle size of 0.1 &mgr;m to 3.5 &mgr;m by at least 1 volume % to 30 volume %, preferably, 1 volume % to 10 volume %.
    • 在液晶显示面板中,防止或松弛用于将一对基板粘贴在一起的端部缩放材料的收缩,从而抑制端部密封材料从基板的剥离,从而防止液晶的任何泄漏和渗透 污染物 液晶显示装置通过将预定间隙彼此相对的一对基板结合在一起而组装,并且其中至少一个具有在与另一个基板相对的表面上形成的电极组,沿着 其外围不包括液晶填充口,然后在液晶填充之后用端部密封材料密封液晶填充口,并将液晶气密地密封在两个基板之间的间隙中。 在液晶显示装置中,构成端密封材料的树脂含有平均粒径0.1μm〜3.5μm的微粒,至少1体积%〜30体积%,优选1体积%〜10体积%。