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    • 2. 发明授权
    • Display device
    • 显示设备
    • US06388646B1
    • 2002-05-14
    • US09494140
    • 2000-01-28
    • Koji FujiwaraTomohiko YamamotoKeiichi TanakaNaoto InoueHideki Ichioka
    • Koji FujiwaraTomohiko YamamotoKeiichi TanakaNaoto InoueHideki Ichioka
    • G09G336
    • G09G3/3648
    • It is an object of the invention to reduce a leakage low-frequency electric field from a panel section of a matrix type. In the case where a panel section has a usual current structure in which the panel section has a single common electrode elongating over the whole of the display region of the panel section, the maximum voltage difference of a reference signal supplied to the common electrode is defined to be 0.3678×x−0.6136 (wherein x is the area of the display region) or less. In the case where the panel section has the so-called counter source structure and a plurality of column electrodes, the maximum voltage difference of a reference signal supplied to the column electrodes is defined to be ax−b (wherein a=0.3565×y−0.6829, b=−0.0937y+0.7091, and y is a ratio of the area of all the column electrodes to the area of the display region) or less. In the case where a panel section has the counter source structure, the average area per unit length of one part of the column electrode opposed to a signal line is smaller than the average area per unit length of the remaining part of the column electrode other than the one part.
    • 本发明的一个目的是从矩阵型的面板部分减少泄漏的低频电场。 在面板部具有通常的电流结构的情况下,其中面板部分具有在面板部分的整个显示区域上延伸的单个公共电极,定义提供给公共电极的参考信号的最大电压差 为0.3678xx-0.6136(其中,x为显示区域的面积)以下。 在面板部分具有所谓的反向源结构和多个列电极的情况下,提供给列电极的参考信号的最大电压差定义为ax-b(其中a = 0.3565xy-0.6829 ,b = -0.0937y + 0.7091,y是所有列电极的面积与显示区域的面积的比率)以下。 在面板部具有计数器源结构的情况下,与信号线相对的列电极的一部分的每单位长度的平均面积小于列电极的剩余部分的平均单位长度以外的平均面积 一部分。
    • 4. 发明授权
    • Driving method and driving device of liquid crystal panel
    • 液晶面板的驱动方法和驱动装置
    • US06614416B1
    • 2003-09-02
    • US09687655
    • 2000-10-13
    • Tomohiko YamamotoNaoto InoueKeiichi TanakaKoji FujiwaraHideki Ichioka
    • Tomohiko YamamotoNaoto InoueKeiichi TanakaKoji FujiwaraHideki Ichioka
    • G09G336
    • G09G3/3655G09G2310/06G09G2320/0209G09G2320/0223
    • A wave A1 is used as a signal inputted to a liquid crystal panel via an operational amplifier OP. The wave A1 is a superimposed wave made up of, for example, a first rectangular wave to be the base of a driving signal and a second wave capable of increasing respective amplitudes of the first wave in rising and falling directions. Because a wave A3 is superimposed, using the wave A1 as the driving signal of the liquid crystal panel surely results in increase in a quantity of charges with which respective pixels of the liquid crystal panel are supplied at early stages of writing, more than simply applying the wave A2 to the liquid crystal panel. Consequently, even when a charge supplying ability of a reference voltage line is considerably low, a desired charging quantity can surely be obtained in respective pixels within desired writing time, thereby preventing crosstalk having different degrees depending on a location even when a charge supplying ability for the respective pixels of the liquid crystal panel is considerably low.
    • 波A1被用作通过运算放大器OP输入到液晶面板的信号。 波A1是由例如作为驱动信号的基础的第一矩形波和能够增加上升和下降方向上的第一波的各自振幅的第二波构成的叠加波。 由于重叠波A3,所以使用波A1作为液晶面板的驱动信号,确实导致在写入的早期阶段提供液晶面板的各像素的电荷量的增加,而不仅仅是简单地应用 波A2到液晶面板。 因此,即使在基准电压线的充电能力相当低的情况下,也可以在期望的写入时间内的各个像素中可以确实获得期望的充电量,从而可以防止根据位置具有不同程度的串扰,即使当针对 液晶面板的各像素相当低。
    • 5. 发明授权
    • Liquid crystal display device
    • 液晶显示装置
    • US06801289B2
    • 2004-10-05
    • US10091343
    • 2002-03-06
    • Hideki IchiokaTomohiko YamamotoNaoto InoueKeiichi TanakaKoji Fujiwara
    • Hideki IchiokaTomohiko YamamotoNaoto InoueKeiichi TanakaKoji Fujiwara
    • G02F11345
    • G02F1/1345
    • A liquid crystal display device has a liquid crystal layer between a glass substrate and a counter substrate. A TFT and scanning lines which control the TFT are provided on the glass substrate. On the counter substrate, a gradation signal line which is connected to a counter electrode applying a voltage to the liquid crystal layer is provided opposite to the scanning lines. A sealing section for sealing the liquid crystal of the liquid crystal layer is provided while enclosing the display area between the glass substrate and the counter substrate. The sealing section has conductive particles. Upper contact pads connected to the gradation signal lines and lower contact pads on the glass substrate are electrically connected via the conductive particles. This realizes a liquid crystal display device with a smaller frame and makes the mounting compact in size without causing poor connection due to line breakage.
    • 液晶显示装置在玻璃基板和对置基板之间具有液晶层。 控制TFT的TFT和扫描线设置在玻璃基板上。 在对置基板上,与扫描线相对地设置有与向液晶层施加电压的对置电极连接的灰度信号线。 提供用于密封液晶层的液晶的密封部,同时包围玻璃基板和对置基板之间的显示区域。 密封部分具有导电颗粒。 连接到玻璃基板上的灰度信号线和下接触焊盘的上接触焊盘通过导电颗粒电连接。 这实现了具有较小框架的液晶显示装置,并且使得安装紧凑尺寸,而不会由于线路断裂而导致不良连接。
    • 6. 发明授权
    • Display device having connecting pads crossing a spare line
    • 具有穿过备用线的连接垫的显示装置
    • US06791634B2
    • 2004-09-14
    • US10347191
    • 2003-01-21
    • Hideki IchiokaTomohiko YamamotoKeiichi TanakaNaoto InoueKoji Fujiwara
    • Hideki IchiokaTomohiko YamamotoKeiichi TanakaNaoto InoueKoji Fujiwara
    • G02F11343
    • G02F1/1345G02F2001/136272
    • A display device includes: a first substrate including data electrodes and first and second groups of connecting pads; a second substrate, which faces the first substrate and which includes data signal input terminals, a spare line, and third and fourth groups of connecting pads opposed to the first and second groups of connecting pads, respectively; and a display medium layer interposed between the first and second substrates. The data signal input terminals are connected to the third group of connecting pads. In case of disconnection, a data signal to be supplied to one of the data electrodes may be input through the spare line. The fourth group of connecting pads crosses the spare line with an insulating layer interposed between them. Each pair of connecting pads in the first and third groups or the second and fourth groups is electrically connected together with an anisotropic conductive material.
    • 显示装置包括:第一基板,包括数据电极和第一和第二组连接焊盘; 面向第一基板的第二基板,分别包括数据信号输入端子,备用线以及与第一组和第二组连接焊盘相对的第三组和第四组连接焊盘; 以及介于第一和第二基板之间的显示介质层。 数据信号输入端子连接到第三组连接焊盘。 在断开的情况下,可以通过备用线输入要提供给数据电极之一的数据信号。 第四组连接焊盘与备用线路之间插入绝缘层。 第一组和第三组或第二组和第四组中的每对连接焊盘与各向异性导电材料电连接在一起。
    • 8. 发明授权
    • Input-output integrated type display device
    • 输入输出集成式显示装置
    • US07075521B2
    • 2006-07-11
    • US10238896
    • 2002-09-11
    • Tomohiko YamamotoKoji FujiwaraKeiichi TanakaNaoto InoueHideki Ichioka
    • Tomohiko YamamotoKoji FujiwaraKeiichi TanakaNaoto InoueHideki Ichioka
    • G09G5/00
    • G06F3/0412G09G3/3648
    • Input position is accurately detected. In an x-detection period of a non-display period, a source drive circuit simultaneously applies to all signal wiring lines a pulse of a peak value proportional to a distance from a gate drive circuit. A coordinate detection circuit obtains an x-coordinate on the basis of a voltage induced at a pen corresponding to the peak value (x-coordinate) of the applied pulse. In a y-detection period, a pulse generation circuit applies one pulse to a common line. The pen detects a potential variation in amplitude proportional to a distance (y-coordinate) from the source drive circuit, generated approximately simultaneously on all the signal wiring lines via a capacitance. The coordinate detection circuit obtains the y-coordinate similarly to the case of x-coordinate detection.
    • 准确检测输入位置。 在非显示周期的x检测周期中,源驱动电路同时向所有信号布线施加与从栅极驱动电路的距离成比例的峰值的脉冲。 坐标检测电路基于与所施加的脉冲的峰值(x坐标)对应的笔感应的电压来获得x坐标。 在y检测周期中,脉冲发生电路将一个脉冲施加到公共线。 笔检测到与来自源驱动电路的距离(y坐标)成比例的振幅的电位变化,其通过电容在所有信号布线上大致同时地产生。 坐标检测电路与x坐标检测的情况类似地获得y坐标。
    • 9. 发明授权
    • Driving method of display device and display device using thereof
    • 显示装置的驱动方法及其使用的显示装置
    • US06977639B2
    • 2005-12-20
    • US10270195
    • 2002-10-15
    • Koji FujiwaraTomohiko YamamotoKeiichi TanakaNaoto InoueHideki Ichioka
    • Koji FujiwaraTomohiko YamamotoKeiichi TanakaNaoto InoueHideki Ichioka
    • G02F1/133G09G3/20G09G3/30G09G3/36
    • G09G3/3648G09G3/2011G09G3/3655G09G2310/065
    • A display device is arranged in such a manner that rows on the screen on which pixel electrodes are provided in a matrix manner are sequentially selected so as to be scanned by scanning signal lines formed on a substrate, and a data signal is supplied from gray scale signal lines, which are formed on a counter substrate facing the substrate, to the pixel electrodes on the selected row, so that the display is carried out. Also, an idle period, (i) which is longer than a scanning period for scanning the screen once and (ii) during which period all scanning signal lines are in the state of non-scanning, is provided, and the scanning period and the idle period constitute one vertical period. With this arrangement, it is possible to (1) provide a driving method of a display device by which method the reduction of power consumption is sufficiently realized without causing the degradation of the display qualities, and (2) provide a display device using the same.
    • 顺序地选择显示装置,使得以矩阵方式设置像素电极的屏幕上的行,以便通过扫描形成在基板上的信号线进行扫描,并且从灰度级提供数据信号 形成在与衬底相对的对置衬底上的信号线到所选择的行上的像素电极,从而执行显示。 此外,提供了比扫描一次的扫描期间长的怠速期间,(ⅱ)在所述扫描信号线处于非扫描状态的期间,(ⅱ),扫描期间和 闲置期构成一个垂直期。 通过这种布置,可以(1)提供显示装置的驱动方法,通过该方法可以充分实现功耗的降低而不会导致显示质量的劣化,(2)提供使用该显示装置的显示装置 。
    • 10. 发明授权
    • Electronic device and method for driving the same
    • 电子设备及其驱动方法
    • US06724359B2
    • 2004-04-20
    • US10027114
    • 2001-12-20
    • Tomohiko YamamotoKeiichi TanakaHideki IchiokaNaoto InoueKoji Fujiwara
    • Tomohiko YamamotoKeiichi TanakaHideki IchiokaNaoto InoueKoji Fujiwara
    • G09G336
    • G09G3/3659G09G2300/0842
    • An electronic device includes on a substrate: a plurality of first capacitors each including a first electrode and a second electrode opposing the first electrode via a first dielectric layer; a plurality of second capacitors each including a third electrode electrically connected to the first electrode and a fourth electrode opposing the third electrode via a second dielectric layer; a first line whose electrical connection to the first electrode and the third electrode is turned ON/OFF by a first switching element; a second line electrically connected to the second electrode at least temporarily; a third line whose electrical connection to the fourth electrode is turned ON/OFF by a second switching element; and a fourth line whose electrical connection to the fourth electrode is turned ON/OFF by a third switching element.
    • 电子设备包括在基板上:多个第一电容器,每个第一电容器包括经由第一介电层与第一电极相对的第一电极和第二电极; 多个第二电容器,每个包括电连接到第一电极的第三电极和经由第二电介质层与第三电极相对的第四电极; 与第一电极和第三电极的电连接由第一开关元件接通/断开的第一线; 至少暂时与第二电极电连接的第二线; 与第四电极的电连接由第二开关元件接通/断开的第三线; 以及与第四电极的电连接由第三开关元件接通/断开的第四线。