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    • 1. 发明申请
    • 3D DISPLAY AND DRIVING METHOD THEREOF
    • 3D显示和驱动方法
    • US20120169688A1
    • 2012-07-05
    • US13095907
    • 2011-04-28
    • Yu-Da ChenChun-Huai Li
    • Yu-Da ChenChun-Huai Li
    • G06F3/038G02B27/22
    • G09G3/003G09G3/20G09G2300/0452G09G2320/0247H04N13/305
    • A three-dimensional (3D) display including a display panel and a micro lens array is provided. The display panel includes a plurality of scan lines, a plurality of data lines, and a sub-pixel array. The sub-pixel array includes a plurality of sub-pixels arranged in an array. The sub-pixels arranged in any row are electrically connected to the same scan line. Each two sub-pixels in any column are electrically connected to an adjacent data line on a different side alternately. Polarity distribution of the sub-pixels is cyclically repeated in a row direction by one sub-pixel, and polarity distribution of the sub-pixels is cyclically repeated in a column direction by two sub-pixels. The micro lens array includes a plurality of lens units. An image displayed by the display panel produces a left-eye image and a right-eye image after passing through the micro lens array. Furthermore, a driving method is also provided.
    • 提供了包括显示面板和微透镜阵列的三维(3D)显示器。 显示面板包括多条扫描线,多条数据线和子像素阵列。 子像素阵列包括排列成阵列的多个子像素。 布置在任何行中的子像素电连接到相同的扫描线。 任何列中的每两个子像素交替地电连接到不同侧上的相邻数据线。 子像素的极性分布在行方向上循环重复一个子像素,并且子像素的极性分布在列方向上循环重复两个子像素。 微透镜阵列包括多个透镜单元。 由显示面板显示的图像在通过微透镜阵列之后产生左眼图像和右眼图像。 此外,还提供了驱动方法。
    • 2. 发明申请
    • Sensor alignment method using in a scanning apparatus
    • 传感器校准方法在扫描仪中使用
    • US20060203305A1
    • 2006-09-14
    • US11076931
    • 2005-03-11
    • Chih-Hsien ChangYu-Da Chen
    • Chih-Hsien ChangYu-Da Chen
    • H04N1/04
    • H04N1/1017H04N1/193H04N2201/0404H04N2201/0448
    • The present invention provides a sensor alignment method using in a scanning apparatus. Firstly, providing a housing on the transparent board and defining a alignment area below the housing, the sensor locates under the alignment area and the light source locates aside the alignment area; then, moving the sensor out of underside of the alignment area and measuring intensity of light source to obtain a regional position where the brightest position on the transparent board, and moving the sensor to underside of the regional position; and finally, moving the sensor and the light source into the alignment area, and synchronously moving the sensor and the light source out to capture images. This invention prevents the tolerance formed in the printing process and the alignment point determination of the sensor is more precise, and furthermore, the scanning area is increased and the manufacturing cost is reduced.
    • 本发明提供一种在扫描装置中使用的传感器对准方法。 首先,在透明板上设置壳体并且在壳体下方限定对准区域,传感器位于对准区域下方,光源位于对准区域的一侧; 然后将传感器从对准区域的下侧移出并测量光源的强度,以获得透明板上最亮位置的区域位置,并将传感器移动到区域位置的下侧; 最后,将传感器和光源移动到对准区域,同时将传感器和光源移开,以捕获图像。 本发明防止在印刷过程中形成的公差,并且传感器的对准点确定更精确,此外,扫描面积增加并且制造成本降低。