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    • 1. 发明申请
    • DISPLAY ELEMENTS INCORPORATING ASYMMETRIC APERTURES
    • 显示元件包含不对称的接口
    • WO2014182619A1
    • 2014-11-13
    • PCT/US2014/036808
    • 2014-05-05
    • PIXTRONIX, INC.
    • SHI, JianruMI, Xiang-DongGANDHI, Jignesh
    • G02B26/02
    • G02B26/02Y10T29/49826
    • This, disclosure provides systems, methods and apparatus for improving the angular light distribution of a display apparatus. Smaller shutter-based display apparatus that modulate light passing through at least two apertures in an aperture or light blocking layer can provide similar viewing angle characteristics as larger shutter-based modulators by disproportionately reducing the width of a subset of the at least two apertures in relation to the remainder of the apertures. As the width of such apertures is one of the primary determinants of viewing angle, allowing a greater percentage of the light throughput of a shutter assembly to pass through wider apertures helps maintain a wider viewing angle for the display.
    • 本公开提供了用于改善显示装置的角度光分布的系统,方法和装置。 调制通过孔或光阻挡层中的至少两个孔的光的较小的基于快门的显示装置可以通过不相对地减小关于至少两个孔的子集的宽度来提供与较大的基于快门的调制器类似的视角特性 到其余的孔。 由于这种孔的宽度是视角的主要决定因素之一,允许快门组件的光通量的较大百分比通过较宽的孔有助于维持显示器的更宽的视角。
    • 2. 发明申请
    • THREE DIMENSIONAL (3D) IMAGE GENERATION USING ELECTROMECHANICAL DISPLAY ELEMENTS
    • 使用电子显示元件的三维(3D)图像生成
    • WO2014025781A1
    • 2014-02-13
    • PCT/US2013/053792
    • 2013-08-06
    • PIXTRONIX, INC.
    • PAYNE, Richard S.GANDHI, JigneshSHI, Jianru
    • H04N13/04
    • H04N13/315H04N13/32H04N13/356
    • A display for generating three-dimensional images includes an array of light modulators for selectively obstructing a respective apertures and a controller. The controller can control a set of light modulators in the array to form, at a first time, a first eye image corresponding to input data by causing the light modulators to be driven into a first set of positions determined based on the input data. The first eye image includes an angular distribution of light weighted towards a first side of the display. The controller can also control the same set of light modulators to form, at a second time, a second eye image corresponding to input data by causing the light modulators to be driven into a second set of positions determined based on the input data. The second eye image includes an angular distribution of light weighted towards an opposite side of the display.
    • 用于产生三维图像的显示器包括用于选择性地阻挡相应孔径的光调制器阵列和控制器。 控制器可以通过使光调制器被驱动到基于输入数据确定的第一组位置中,来控制阵列中的一组光调制器,以在第一时间形成对应于输入数据的第一眼图像。 第一眼睛图像包括朝向显示器的第一侧加权的光的角度分布。 控制器还可以通过使光调制器被驱动到基于输入数据确定的第二组位置中来控制同一组光调制器,以在第二时间形成对应于输入数据的第二眼睛图像。 第二眼睛图像包括朝向显示器的相对侧加权的光的角度分布。
    • 4. 发明申请
    • ASYMMETRIC TRAVEL FOR MEMS LIGHT MODULATOR
    • MEMS光调制器的不对称行程
    • WO2014113373A1
    • 2014-07-24
    • PCT/US2014/011441
    • 2014-01-14
    • PIXTRONIX, INC.
    • WU, Joyce H.SHI, Jianru
    • G02B26/02G02B26/08
    • G02B26/02G02B26/0841G09F9/372G09G3/3433G09G2300/0842
    • Systems, apparatuses and methods are provided for increasing the aperture ratio of a display by increasing the total travel distance of respective light modulating bodies in a display while maintaining fast switching speeds. Increasing the total travel distance allows for a larger aperture ratio in a display, which provides greater power savings and increased display brightness. The total travel distance of a light modulating body includes the distance the body travels from an open position to a closed position, and vice-versa. In one example, the travel distance of a light modulating body (e.g., any of the light modulators as described above) is asymmetric: from a neutral position, the body travels a greater distance in a first direction than in a second direction.
    • 提供了一种系统,装置和方法,用于通过增加显示器内各个光调制体的总行程距离来提高显示器的开口率,同时保持快速切换速度。 增加总行程距离允许在显示器中具有更大的开口率,这提供更大的功率节省和增加的显示亮度。 光调制体的总行进距离包括身体从打开位置到闭合位置的距离,反之亦然。 在一个示例中,光调制体(例如,如上所述的任何光调制器)的行进距离是不对称的:从中性位置,身体在第一方向上比在第二方向上行进更大的距离。
    • 6. 发明申请
    • DITHERED DISPLAYS AND DITHERING PROCESSES AND APPARATUS
    • 几何显示和抖动过程和设备
    • WO2016039911A1
    • 2016-03-17
    • PCT/US2015/044519
    • 2015-08-10
    • PIXTRONIX, INC.
    • MATSUMOTO, KatsumiKOBAYASHI, TsutomuBUCKLEY, EdwardMI, Xiang-DongSHI, JianruGANDHI, JigneshBROSNIHAN, Timothy
    • G02B26/02G03F7/20
    • G02B26/02G03F7/70466G09G3/2051G09G5/02
    • In one innovative aspect of the disclosure, a method includes patterning a first region and a first portion of a second region of a substrate using a first reticle. The method also includes patterning the second region and a first portion of the first region using a second reticle. The method additionally includes forming a first array of first patterned elements based on the patterning by the first reticle, and forming a second array of second patterned elements based on the patterning by the second reticle. In some implementations, each of the first and the second arrays are incomplete in each of the first portions. However, the first patterned elements in the first portion of the second region are complementary to the second patterned elements in the first portion of the second region. Similarly, the first patterned elements in the first portion of the first region are complementary to the second patterned elements in the first portion of the first region. In some such implementations, the combination of the first array and the second array form a complete array of patterned elements.
    • 在本公开的一个创新方面,一种方法包括使用第一掩模版图案化衬底的第二区域的第一区域和第一部分。 该方法还包括使用第二掩模版图案化第二区域和第一区域的第一部分。 该方法还包括基于通过第一掩模版的图案化形成第一图案化元件的第一阵列,以及基于通过第二掩模版的图案化形成第二图案化元件的第二阵列。 在一些实施方案中,第一和第二阵列中的每一个在每个第一部分中是不完全的。 然而,第二区域的第一部分中的第一图案化元件与第二区域的第一部分中的第二图案化元件互补。 类似地,第一区域的第一部分中的第一图案化元件与第一区域的第一部分中的第二图案化元件互补。 在一些这样的实现中,第一阵列和第二阵列的组合形成完整的图案化元件阵列。
    • 8. 发明申请
    • LIGHT EMITTING DIODE (LED) BACKLIGHT WITH REDUCED HOTSPOT FORMATION
    • LED发光二极管(LED)背光,具有减少HOTSPOT形成
    • WO2014197788A2
    • 2014-12-11
    • PCT/US2014/041288
    • 2014-06-06
    • PIXTRONIX, INC.
    • MI, Xiang-DongGANDHI, JigneshSHI, Jianru
    • F21V8/00
    • G02B6/0068G02B6/0016G02B6/002G02B6/0073G02B6/0085
    • This disclosure provides systems, methods and apparatus for reducing hotspots in backlit displays. Hotspot artifacts in multi-color backlit displays can be reduced by incorporating optical structures along the edges of light guides incorporated into the backlights. The optical structures are positioned adjacent to light emitting modules that emit light into the light guide. Light emitted from the light emitting modules passes through the optical structures before entering the light guide. Hotspot size can be reduced by appropriately configuring the shapes and sizes of these optical structures. In some implementations, the optical structures may include serrations along the side of the light guide adjacent to the light sources. In some other implementations, the optical structures may include dimples. Size of hotspots may also be reduced by reducing the distance between adjacent light sources of the same color.
    • 本公开提供了用于减少背光显示器中的热点的系统,方法和装置。 多色背光显示器中的热点伪像可以通过结合到背光源中的光导入口的边缘并入光学结构来减少。 光学结构被定位成与将光发射到光导中的发光模块相邻。 从发光模块发出的光在进入光导之前通过光学结构。 通过适当地配置这些光学结构的形状和尺寸可以减少热点大小。 在一些实施方案中,光学结构可以包括沿着与光源相邻的光导侧面的锯齿状。 在一些其他实现中,光学结构可以包括凹坑。 也可以通过减少相同颜色的相邻光源之间的距离来减小热点的尺寸。
    • 10. 发明申请
    • DISPLAY HAVING STAGGERED DISPLAY ELEMENT ARRANGEMENT
    • 显示具有标记的显示元件布置
    • WO2014126804A1
    • 2014-08-21
    • PCT/US2014/015310
    • 2014-02-07
    • PIXTRONIX, INC.
    • SHI, Jianru
    • G09G3/00G02F1/1335
    • G09G3/3433G02B26/001G02B26/0833G02F2201/40G09G3/3466G09G3/348G09G3/3611G09G2300/0426G09G2300/0465
    • This disclosure provides systems, methods and apparatus for improving an aperture ratio of a display apparatus. In particular, display elements are configured to have a length that is greater in one dimension than that in the other dimension. This implementation can reduce overhead costs associated with components such as actuators and actuator circuitry and improves the aperture ratio. Furthermore, display elements within the display apparatus can be arranged in a staggered manner. The staggered arrangement improves the perceived display element density of the display apparatus. In some implementations, the display elements are staggered along the rows of the display apparatus, while in some other implementations, the display elements are staggered along the columns of the display apparatus. In some implementations, multiple image pixels in one dimension are utilized to generate signals for each display elements.
    • 本公开提供了用于提高显示装置的开口率的系统,方法和装置。 特别地,显示元件被配置为具有在一个维度上大于另一个维度的长度的长度。 该实现可以减少与诸如致动器和致动器电路的部件相关联的开销成本并且提高开口率。 此外,显示装置内的显示元件可以以交错方式布置。 交错布置改善了显示装置的感知显示元件密度。 在一些实现中,显示元件沿着显示设备的行交错,而在一些其他实现中,显示元件沿显示设备的列交错排列。 在一些实现中,一维中的多个图像像素被用于为每个显示元件产生信号。