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    • 53. 发明申请
    • Wide Viewing Angle Transflective Liquid Crystal Displays
    • 宽视角反射液晶显示器
    • US20080309853A1
    • 2008-12-18
    • US11763894
    • 2007-06-15
    • Zhibing GeThomas Xinzhang WuShin-Tson WuWang-Yang LiChung-Kuang Wei
    • Zhibing GeThomas Xinzhang WuShin-Tson WuWang-Yang LiChung-Kuang Wei
    • G02F1/1335
    • G02F1/133555G02F1/134363G02F2001/133548
    • Apparatus, methods and systems for a transmissive liquid crystal display including a plurality of pixel circuits, each pixel circuit including a reflective region and a transmissive region. The reflective region includes a polarization dependent reflector for reflecting ambient light. The reflective and transmissive regions include an initially homogeneously aligned liquid crystal layer sandwiched between a first and a second substrate. Each pixel further includes at lease one first transparent electrode as the common electrode and at least one second transparent electrode as the pixel electrode both formed on one of the same first and second substrates, wherein substantial fringe fields with rich horizontal electric fields are generated in the liquid crystal layer when voltage is applied to the pixel electrode, making the liquid crystal molecules rotate mainly in the horizontal direction to achieve wide viewing angle.
    • 包括多个像素电路的透射型液晶显示器的装置,方法和系统,每个像素电路包括反射区域和透射区域。 反射区域包括用于反射环境光的偏振相关反射器。 反射和透射区域包括夹在第一和第二基底之间的初始均匀排列的液晶层。 每个像素还包括至少一个作为公共电极的第一透明电极,以及作为像素电极的至少一个第二透明电极都形成在相同的第一和第二基板之一上,其中在所述第一和第二基板中产生具有丰富的水平电场的实质边缘场 当对像素电极施加电压时,液晶分子主要在水平方向上旋转以实现宽视角。
    • 54. 发明申请
    • Transflective LCD using multilayer dielectric film transflector
    • 透反液晶显示器采用多层介质膜透射反射器
    • US20070103628A1
    • 2007-05-10
    • US11635718
    • 2006-12-07
    • Shin-Tson WuQiong-Hua WangThomas WuXinyu ZhuZhibing Ge
    • Shin-Tson WuQiong-Hua WangThomas WuXinyu ZhuZhibing Ge
    • G02F1/1335
    • G02F1/133555G02F2001/133557G02F2202/42
    • A novel transflective liquid crystal display (LCD) is provided with a multilayer dielectric film transflector. The dielectric transflector is composed of alternating high and low refractive index dielectric material layers deposited directly on the inner side of the LCD substrate to avoid parallax. The transmittance of the dielectric transflector can vary from approximately 5% to approximately 95% by simply adjusting the individual dielectric layer thickness and the arrangement of layers. The thickness of the 10-layer film is approximately 700 nm, which does not affect the voltage drop on the LC. Two structures of the dielectric film using different positions of the materials of construction are provided and demonstrated. Such a transflective LCD exhibits outstanding features, such as, robust dielectric film, single cell gap, no parallax, and a simple fabrication process.
    • 一种新型半透射液晶显示器(LCD)具有多层电介质膜透射反射器。 介电透射反射器由直接沉积在LCD基板的内侧上的交替的高折射率和低折射率介电材料层组成,以避免视差。 通过简单地调节单个介电层厚度和层的布置,介电透射反射器的透射率可以在约5%至约95%之间变化。 10层膜的厚度约为700nm,不影响LC上的电压降。 提供并展示了使用构造材料的不同位置的电介质膜的两个结构。 这种透反射液晶显示器具有突出的特征,例如坚固的电介质膜,单电池间隙,无视差,以及简单的制造工艺。
    • 55. 发明申请
    • Transflective liquid crystal display with vertical alignment
    • 具有垂直对准的透射型液晶显示器
    • US20060238675A1
    • 2006-10-26
    • US11110229
    • 2005-04-20
    • Xinyu ZhuZhibing GeShin-Tson Wu
    • Xinyu ZhuZhibing GeShin-Tson Wu
    • G02F1/1335
    • G02F1/133555G02F2001/134381
    • A transflective liquid crystal display with uniform cell gap configuration throughout the transmissive and the reflective display region is invented. Mutually complementary common electrode pattern and reflector pattern or mutually complementary ITO pixel electrode pattern and reflector pattern produce an electric field in the transmissive display region that has a uniform longitudinal field and an electric field in the reflective display region that is a fringing field. An initially vertically aligned negative dielectric anisotropic nematic liquid crystal material between the electrodes forms a smaller tilt angle with respect to the substrate normal in the reflective display region while a larger tilt angle with respect to the substrate normal in the transmissive display region. Consequently, the ambient incident light experiences smaller phase retardation in the reflective display region while the light from the backlight source experiences larger phase retardation. Since the ambient light passes through the reflective display region twice while the light from the backlight source passes through the transmissive display region only once, by properly designing the electrodes and the reflector width, the light from both ambient light source and backlight source will experience almost the same phase retardation in both reflective and transmissive display regions. As a result, the electro-optical performance curves of both transmissive display mode and reflective display mode overlap.
    • 发明了在整个透射和反射显示区域中具有均匀的单元间隙配置的半透射型液晶显示器。 相互互补的公共电极图案和反射器图案或互补的ITO像素电极图案和反射器图案在透射显示区域中产生在反射显示区域中具有均匀的纵向场和电场的电场,该电场是边缘场。 电极之间的初始垂直排列的负介电各向异性向列型液晶材料在反射显示区域中相对于衬底法线形成较小的倾斜角,而在透射显示区域中相对于衬底的倾斜角相对于衬底法定。 因此,环境入射光在反射显示区域中经历较小的相位延迟,而来自背光源的光经历较大的相位延迟。 由于环境光通过反射显示区域两次,而来自背光源的光仅通过透射显示区域一次,通过适当地设计电极和反射器宽度,来自环境光源和背光源的光将经历几乎 在反射和透射显示区域中相同的相位延迟。 结果,透射显示模式和反射显示模式的电光性能曲线重叠。
    • 57. 发明授权
    • Common electrode connections in integrated touch screens
    • 集成触摸屏中的公共电极连接
    • US09195331B2
    • 2015-11-24
    • US13312940
    • 2011-12-06
    • Cheng-Ho YuZhibing GeMing XuShih Chang Chang
    • Cheng-Ho YuZhibing GeMing XuShih Chang Chang
    • G06F3/041G06F3/044G02F1/1333
    • G06F3/0412G02F1/13338G06F3/044H01L2224/48137
    • Common electrodes (Vcom) of integrated touch screens can be segmented into electrically isolated Vcom portions that can be operated as drive lines and/or sense lines of a touch sensing system. The touch screen can include high-resistivity connections between Vcom portions. The resistivity of the high-resistivity connections can be high enough so that touch sensing and image display can be performed by the touch screen, and the high-resistivity connections can provide an added functionality by allowing a charge build up on one of the Vcom portions to be spread to other Vcom portions and/or discharged from system by allowing charge to leak through the high-resistivity connections. In this way, for example, visual artifacts that result from charge build up on a Vcom portion can be reduced or eliminated.
    • 集成触摸屏的公共电极(Vcom)可以被分割成电隔离的Vcom部分,其可以作为触摸感测系统的驱动线和/或感测线来操作。 触摸屏可以包括Vcom部分之间的高电阻连接。 高电阻率连接的电阻率可以足够高,以便可以通过触摸屏进行触摸感测和图像显示,并且高电阻率连接可以通过允许在Vcom部分之一上积累电荷来提供附加功能 通过允许电荷通过高电阻率连接泄漏而扩散到其它Vcom部分和/或从系统排出。 以这种方式,例如,可以减少或消除由在Vcom部分上积累的电荷导致的视觉伪影。