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    • 9. 发明授权
    • Display device
    • 显示设备
    • US07952673B2
    • 2011-05-31
    • US12427859
    • 2009-04-22
    • Yoshiaki NakayoshiKazuhiko YanagawaTakahiro OchiaiHirotaka Imayama
    • Yoshiaki NakayoshiKazuhiko YanagawaTakahiro OchiaiHirotaka Imayama
    • G02F1/1343
    • G02F1/134363G02F1/133555G02F2001/134318G02F2001/134345
    • The present invention provides a liquid crystal display device which exhibits the excellent wide viewing angle characteristic and the high-speed responsiveness. A pixel region includes a switching element which is operated in response to a scanning signal from a gate signal line, a pixel electrode to which a video signal from a drain signal line is supplied through a switching element, and a counter electrode which generates an electric field between the counter electrode and the pixel electrode. The pixel region is constituted of divided respective regions. In one region, the counter electrode made of a light-transmitting material which is formed on the center except for a slight periphery of the region below an insulation film and the pixel electrode which is constituted of a group of electrodes which extend in one direction and are arranged in parallel to each other in the direction which intersects one direction above the insulation film in a state that the group of electrodes are overlapped to the counter electrode are formed. In another region, the counter electrode which is constituted of a group of electrodes which extend in one direction and are arranged in parallel to each other in the direction which intersects one direction below the insulation layer and the pixel electrode which is constituted of a group of electrodes which extend in one direction and are arranged in parallel in the direction which intersects one direction above the insulation film and is arranged alternately with the counter electrode are formed.
    • 本发明提供一种具有优良的宽视角特性和高速响应性的液晶显示装置。 像素区域包括响应于来自栅极信号线的扫描信号而操作的开关元件,通过开关元件提供来自漏极信号线的视频信号的像素电极和产生电 在对电极和像素电极之间。 像素区域由分割的各个区域构成。 在一个区域中,由透明材料制成的对电极,该透光材料形成在绝缘膜下方的区域的稍微周围的中心,以及由沿一个方向延伸的一组电极构成的像素电极, 在与电极重叠的状态下形成与绝缘膜上方的一个方向相交的方向彼此平行地排列。 在另一区域中,所述对电极由一组电极组成,所述一组电极沿一个方向延伸并且在与所述绝缘层下方的一个方向相交的方向上彼此平行布置,并且所述像素电极由一组 形成在一个方向上延伸并且沿与绝缘膜上方一个方向相交的方向平行布置并与对电极交替布置的电极。
    • 10. 发明授权
    • Display device
    • US07924384B2
    • 2011-04-12
    • US10563669
    • 2003-07-14
    • Yoshiaki NakayoshiKazuhiko YanagawaTakahiro OchiaiHirotaka Imayama
    • Yoshiaki NakayoshiKazuhiko YanagawaTakahiro OchiaiHirotaka Imayama
    • G02F1/1343
    • G02F1/134363G02F1/133555G02F2001/134318G02F2001/134345
    • The present invention provides a liquid crystal display device which exhibits the excellent wide viewing angle characteristic and the high-speed responsiveness. A pixel region includes a switching element which is operated in response to a scanning signal from a gate signal line, a pixel electrode to which a video signal from a drain signal line is supplied through a switching element, and a counter electrode which generates an electric field between the counter electrode and the pixel electrode. The pixel region is constituted of divided respective regions. In one region, the counter electrode made of a light-transmitting material which is formed on the center except for a slight periphery of the region below an insulation film and the pixel electrode which is constituted of a group of electrodes which extend in one direction and are arranged in parallel to each other in the direction which intersects one direction above the insulation film in a state that the group of electrodes are overlapped to the counter electrode are formed. In another region, the counter electrode which is constituted of a group of electrodes which extend in one direction and are arranged in parallel to each other in the direction which intersects one direction below the insulation layer and the pixel electrode which is constituted of a group of electrodes which extend in one direction and are arranged in parallel in the direction which intersects one direction above the insulation film and is arranged alternately with the counter electrode are formed.