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    • 72. 发明授权
    • Liquid crystal display device
    • 液晶显示装置
    • US08390771B2
    • 2013-03-05
    • US13055478
    • 2009-06-22
    • Takehiko SakaiDai ChibaYoshiharu KataokaTakuya Watanabe
    • Takehiko SakaiDai ChibaYoshiharu KataokaTakuya Watanabe
    • G02F1/1333G06F3/041
    • G06F3/045G02F1/13338G02F1/133512G02F1/133553G06F3/0412
    • A device includes: an active matrix substrate (20a) including a plurality of first display lines (11a) extending parallel to each other and a plurality of second display lines extending parallel to each other in a direction crossing the first display lines (11a); and a counter substrate (30a) including a black matrix (B) provided so as to overlap the first display lines (11a) and the second display lines, wherein the active matrix substrate (20a) includes a plurality of touch panel lines (11b) extending parallel to each other in a direction in which the first display lines (11a) extend, and portions of the black matrix (B) overlapping the second display lines are electrically conductive and are configured so as to come into contact with the touch panel lines (11b) when the surface of the active matrix substrate (20a) or the counter substrate (30a) is pressed.
    • 一种器件包括:有源矩阵衬底(20a),包括彼此平行延伸的多个第一显示线(11a)和沿与第一显示线(11a)交叉的方向彼此平行延伸的多条第二显示线; 以及包括设置成与第一显示线(11a)和第二显示线重叠的黑矩阵(B)的对置基板(30a),其中有源矩阵基板(20a)包括多个触摸面板线(11b) 在第一显示线(11a)延伸的方向上彼此平行延伸,并且与第二显示线重叠的黑矩阵(B)的部分是导电的并且被配置为与触摸面板线接触 (20a)或相对基板(30a)的表面被按压时(11b)。
    • 73. 发明申请
    • DISPLAY DEVICE AND ELECTRONIC EQUIPMENT
    • US20120037905A1
    • 2012-02-16
    • US13265766
    • 2009-11-20
    • Atsuhito MuraiYoshiharu KataokaTakuya WatanabeHajime ImaiHideki Kitagawa
    • Atsuhito MuraiYoshiharu KataokaTakuya WatanabeHajime ImaiHideki Kitagawa
    • H01L31/153
    • H01L31/101G02F1/13318G02F1/1362G02F2201/58G06F3/0412
    • A display device of the present invention includes a display panel (101) including a photodiode (17), which generates a current having a magnitude corresponding to an intensity of light incident on the photoelectric conversion element; and, a backlight (108) for irradiating light from behind the photodiode (17) to beyond a front surface of the display panel (101), wherein: the photodiode (17) includes an activating layer made of hydrogenated a-Si; the light source (108) has a peak wavelength within a range from 780 nm or more to 830 nm or less; and the display device further includes a light blocking member (15) for blocking light having a wavelength less than 780 nm, the light blocking member (15) being provided between a front surface of the display panel (101) and the photodiode (17) and over the photodiode (17). With this, the present invention can perform a stable sensing operation under various environments because the display device is configured to reduce the outside-light-caused noise to the optical sensor and the display device is therefore less susceptible to environment surrounding the display device (outside light intensity etc.).A display device of the present invention includes a display panel (101) including a photodiode (17), which generates a current having a magnitude corresponding to an intensity of light incident on the photoelectric conversion element; and, a backlight (108) for irradiating light from behind the photodiode (17) to beyond a front surface of the display panel (101), wherein: the photodiode (17) includes an activating layer made of hydrogenated a-Si; the light source (108) has a peak wavelength within a range from 780 nm or more to 830 nm or less; and the display device further includes a light blocking member (15) for blocking light having a wavelength less than 780 nm, the light blocking member (15) being provided between a front surface of the display panel (101) and the photodiode (17) and over the photodiode (17). With this, the present invention can perform a stable sensing operation under various environments because the display device is configured to reduce the outside-light-caused noise to the optical sensor and the display device is therefore less susceptible to environment surrounding the display device (outside light intensity etc.).
    • 77. 发明授权
    • Apparatus and method for driving plasma display panel
    • 用于驱动等离子体显示面板的装置和方法
    • US07760159B2
    • 2010-07-20
    • US11155670
    • 2005-06-20
    • Takuya WatanabeSeong Ho KangSang Jin YoonSoo Seok Sim
    • Takuya WatanabeSeong Ho KangSang Jin YoonSoo Seok Sim
    • G09G3/28
    • G09G3/2051G09G3/296G09G2310/0213G09G2310/0218G09G2310/0286G09G2330/021G09G2330/025
    • The present invention relates to an apparatus and method for driving a plasma display panel, and more particularly, to a scan drive apparatus and method of a plasma display panel. The present invention includes a data conversion unit converting video data to converted video data suitable for the PDP, a subfield mapping unit mapping a subfield corresponding to the converted video data, a data comparison unit computing a size of a displacement current by comparing video data of a cell bundle including at least one cell situated on a specific scan line to video data of a cell bundle situated in vertical and horizontal directions of the cell bundle according to each scan type of a plurality of scan types, and a scan sequence decision unit deciding a scan sequence according to the scan type having a small displacement current inputted from the data comparison unit.
    • 本发明涉及一种用于驱动等离子体显示面板的装置和方法,更具体地,涉及等离子体显示面板的扫描驱动装置和方法。 本发明包括将视频数据转换为适合于PDP的转换视频数据的数据转换单元,映射与转换的视频数据相对应的子场的子场映射单元,数据比较单元,通过比较视频数据的视频数据 根据多种扫描类型的每种扫描类型,将位于特定扫描线上的至少一个单元格的细胞束包含在位于细胞束的垂直和水平方向的细胞束的视频数据上,扫描序列决定单元决定 根据扫描类型的扫描序列具有从数据比较单元输入的小位移电流。
    • 78. 发明申请
    • SCAN SIGNAL LINE DRIVER CIRCUIT, DISPLAY DEVICE, AND METHOD OF DRIVING SCAN SIGNAL LINES
    • 扫描信号线驱动电路,显示装置及驱动扫描信号线的方法
    • US20100134474A1
    • 2010-06-03
    • US12451627
    • 2008-04-24
    • Takuya Watanabe
    • Takuya Watanabe
    • G06F3/038
    • G09G3/3648G09G3/3614G09G3/3666G09G3/3677G09G2310/0224G09G2310/08G09G2330/021G09G2330/045G11C19/28
    • A gate driver of on embodiment of the present invention includes: a scan signal output circuit for performing alternately scanning whereby either odd-numbered scan signal lines or even-numbered scan signal lines are sequentially driven and scanning whereby the remaining scan signal lines are sequentially driven; a rise counter circuit for sensing the rise count for a clock signal in a HIGH level period of an externally supplied start signal; a scan sequence setup circuit for setting up a scan sequence to be followed by the scan signal output circuit according to the rise count; and a start signal generating circuit for generating a start signal to be supplied to a next scan signal line driver circuit. Hence, the resultant scan signal line driver circuit and method of driving a display device is capable of producing high quality images at low cost while restricting power consumption and heat generation by a data signal line driver circuit.
    • 本发明实施例的栅极驱动器包括:扫描信号输出电路,用于执行交替扫描,由此奇数扫描信号线或偶数扫描信号线被依次驱动和扫描,从而依次驱动剩余的扫描信号线 ; 上升计数器电路,用于感测外部提供的开始信号的高电平时段中的时钟信号的上升计数; 扫描序列设置电路,用于根据上升计数设置扫描信号输出电路所遵循的扫描序列; 以及起始信号发生电路,用于产生要提供给下一个扫描信号线驱动电路的起始信号。 因此,所得到的扫描信号线驱动电路和驱动显示装置的方法能够以低成本制造高品质图像,同时限制由数据信号线驱动电路产生的功率消耗和发热。