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    • 1. 发明申请
    • SEMI-TRAMISSION TYPE LIQUID CRYSTAL DISPLAY WHICH REFLECTS INCIDENT LIGHT COMING FROM OUTSIDE TO PROVIDE A DISPLAY LIGHT SOURCE AND TRANSMITS LIGHT FROM A LIGHT SOURCE AT THE BACK
    • 反射类型液晶显示器,其反映从外部发生的偶发光,以提供显示光源和传输来自背光源的光
    • US20070211186A1
    • 2007-09-13
    • US11751549
    • 2007-05-21
    • Hidenori IKENOMasayoshi Suzuki
    • Hidenori IKENOMasayoshi Suzuki
    • G02F1/133
    • G02F1/136227G02F1/133555
    • A semi-transmission type liquid crystal display that maximizes the luminance in reflection mode and transmission mode. The liquid crystal display comprises a lower substrate with thin film transistors, an opposite substrate facing the lower substrate, a liquid crystal layer between the lower substrate and the opposite substrate, a reflection electrode formed in a reflection area of the lower substrate, a transparent electrode formed in a transparent area of the lower substrate, a common electrode formed on the opposite substrate, and a drive circuit for applying a voltage between the reflection electrode and the transparent electrode and the common electrode. The potential difference between a drive voltage applied to that surface of the lower substrate which contacts the liquid crystal layer and a drive voltage applied to that surface of the opposite substrate which contacts the liquid crystal layer is lower in the reflection area than in the transparent area.
    • 一种半透射型液晶显示器,其使反射模式和透射模式下的亮度最大化。 液晶显示器包括具有薄膜晶体管的下基板,面向下基板的相对基板,下基板和相对基板之间的液晶层,形成在下基板的反射区域中的反射电极,透明电极 形成在下基板的透明区域中,形成在相对基板上的公共电极以及用于在反射电极和透明电极与公共电极之间施加电压的驱动电路。 施加到与液晶层接触的下基板的表面的驱动电压与施加到与液晶层接触的相对基板的表面的驱动电压之间的电位差在反射区域低于透明区域 。
    • 5. 发明申请
    • LIQUID CRYSTAL DISPLAY DEVICE
    • 液晶显示装置
    • US20110285946A1
    • 2011-11-24
    • US13205204
    • 2011-08-08
    • Hironori KIKKAWAMichiaki SAKAMOTOYuichi YAMAGUCHIHidenori IKENOFumihiko MATSUNO
    • Hironori KIKKAWAMichiaki SAKAMOTOYuichi YAMAGUCHIHidenori IKENOFumihiko MATSUNO
    • G02F1/1343
    • G02F1/133345G02F1/133553G02F1/136227G02F1/1368G02F2001/136236
    • A liquid crystal display device including a first substrate, a second substrate facing and spaced away from the first substrate, a liquid crystal layer sandwiched between the first and second substrates, a switching device formed on the first substrate, a first electrically insulating film randomly patterned on the first substrate, a second electrically insulating film covering the first electrically insulating film therewith, and having a wavy surface, and a reflection electrode formed on the second electrically insulating film, and electrically connected to an electrode of the switching device, wherein a light passing through the second substrate and the liquid crystal layer is reflected at the reflection electrode, and the second electrically insulating film extends outwardly from the first electrically insulating film by a certain length at an end of a display region in which images are to be displayed, such that a step formed by the first and second electrically insulating films in the vicinity of the end of the display region is smoothed.
    • 一种液晶显示装置,包括第一基板,面对并与第一基板间隔开的第二基板,夹在第一和第二基板之间的液晶层,形成在第一基板上的开关装置,第一电绝缘膜, 在第一基板上具有覆盖第一电绝缘膜并具有波状表面的第二电绝缘膜,以及形成在第二电绝缘膜上的电连接到开关器件的电极的反射电极,其中,光 通过第二基板和液晶层在反射电极处被反射,并且第二电绝缘膜在要显示图像的显示区域的末端从第一电绝缘膜向外延伸一定长度, 使得由第一和第二电绝缘膜i形成的台阶 n显示区域的末端附近被平滑化。
    • 8. 发明申请
    • METHOD OF MANUFACTURING A COLOR LIQUID CRYSTAL PANEL
    • 制造彩色液晶面板的方法
    • US20110014555A1
    • 2011-01-20
    • US12888777
    • 2010-09-23
    • Hidenori IKENOEriko FUJIMAKI
    • Hidenori IKENOEriko FUJIMAKI
    • G03F7/20
    • G02F1/133516G02F1/133514G02F1/133555
    • Within a reflective display section R, a part of a light that reaches a reflective electrode through a color filter exits to the outside through slits and a part of a light that reaches the reflective electrode through the slits exits to the outside through the color filter. In addition, a light reaching the reflective electrode through the color filter and exiting to the outside through the color filter, and a light having no opportunity to pass through the slits also can be observed. Therefore, a mean film thickness of color filter through which all lights pass during the time in which they travel the associated distance after they are inputted to the inside until they are outputted to the outside becomes nearly equal to that could be observed in the transmissive section T.
    • 在反射显示部分R内,通过滤色器到达反射电极的光的一部分通过狭缝离开到外部,并且通过狭缝到达反射电极的一部分光通过滤色器离开到外部。 此外,通过滤色器到达反射电极的光并且通过滤色器离开外部,并且可以观察到没有通过狭缝的机会的光。 因此,所有光通过的滤色片的平均膜厚在输入到内部之后行进相关距离的时间内通过,直到它们被输出到外部变得几乎等于在透射部分 T.