公开(公告)号：US20160258583A1

公开(公告)日：2016-09-08

申请号：US14641052

申请日：2015-03-06

Applicant: Pixtronix, Inc.

Inventor： Jianru Shi ,  Lu Lu ,  Yuhong Yao ,  Xiang-Dong Mi ,  Jignesh Gandhi ,  James Eakin ,  Waseem Mohammad ,  Robert Myers ,  Nikolay Nemchuk

IPC: F21K99/00 ,  C23C16/455 ,  F21V9/16

CPC classification number: C23C16/45525 ,  G02B5/207 ,  G02B5/285 ,  G02B26/02 ,  G02F2/02 ,  G02F2001/133521 ,  G02F2001/133614 ,  G02F2202/108

Abstract: This disclosure provides devices, apparatuses and methods of providing an optical filter with quantum dot films for converting a first wavelength of light to a second wavelength of light. The optical filter includes a plurality of high refractive index layers and a plurality of low refractive index layers alternatingly disposed between the high refractive index layers. Quantum dots are dispersed in either the high refractive index layers or the low refractive index layers. In some implementations, the quantum dots are capable of absorbing blue light and emitting green light. Thus, the optical filter can be part of a red-green-blue lighting device that includes a first blue LED optically coupled with the optical filter to produce green light, a red LED and a second blue LED.

Abstract translation: 本公开提供了提供具有用于将第一波长的光转换成第二波长的光的量子点膜的滤光器的装置，装置和方法。 滤光器包括交替地设置在高折射率层之间的多个高折射率层和多个低折射率层。 量子点分散在高折射率层或低折射率层中。 在一些实施方案中，量子点能够吸收蓝光并发出绿光。 因此，滤光器可以是红 - 绿 - 蓝照明装置的一部分，其包括与滤光器光学耦合以产生绿光的第一蓝色LED，红色LED和第二蓝色LED。

公开(公告)号：US20160210934A1

公开(公告)日：2016-07-21

申请号：US14601065

申请日：2015-01-20

Applicant: Pixtronix, Inc.

Inventor： Mark Douglas Halfman ,  Edward Buckley ,  Nakano Taketoshi ,  Brian Finkel ,  James Eakin ,  Jignesh Gandhi ,  Alan Gerald Lewis ,  Robert Myers ,  Fahri Yaras ,  John Fijol

IPC: G09G5/02 ,  G06T1/60 ,  G09G5/10 ,  G06T1/20 ,  G09G5/06 ,  G06K9/46

CPC classification number: G09G5/02 ,  G06K9/4661 ,  G06T1/20 ,  G06T1/60 ,  G09G3/2022 ,  G09G3/2044 ,  G09G3/3406 ,  G09G3/3433 ,  G09G5/06 ,  G09G5/10 ,  G09G2310/0235 ,  G09G2320/0646 ,  G09G2340/0428 ,  G09G2360/144 ,  G09G2360/16

Abstract: This disclosure provides systems, methods and apparatus, including computer programs encoded on computer storage media, for enhancing display viewability in high ambient conditions without excessive increase in power consumption. In one aspect, a controller associated with the display device can be configured to obtain an indication of ambient light conditions from an ambient light sensor or from a host device hosting the display device. Upon receiving an image frame, the controller can derive a set of color subfields and determine a bit-depth value for each color subfield based on the obtained indication of current ambient light conditions and mapping data which maps ranges of ambient light to respective bit-depth values on a color subfield by color subfield basis. The controller can then generate a number of subframes for each color subfield based on the respective determined bit-depth value and cause the generated subframes to be displayed.

Abstract translation: 本公开提供了系统，方法和装置，包括在计算机存储介质上编码的计算机程序，用于在高环境条件下增强显示器可视性，而不会过度增加功耗。 在一个方面，与显示装置相关联的控制器可以被配置成从环境光传感器或者主持显示装置的主机装置获得环境光条件的指示。 在接收到图像帧时，控制器可以基于获得的当前环境光条件的指示和将环境光的范围映射到相应位深度的映射数据来导出一组彩色子场并确定每个颜色子场的位深度值 通过颜色子字段在颜色子字段上的值。 然后，控制器可以基于相应确定的位深度值为每个颜色子场生成多个子帧，并且使得生成的子帧被显示。

公开(公告)号：US20160282541A1

公开(公告)日：2016-09-29

申请号：US14668893

申请日：2015-03-25

Applicant: Pixtronix, Inc.

Inventor： Jianru Shi ,  Yuhong Yao ,  Lu Lu ,  Jignesh Gandhi ,  Xiang-Dong Mi ,  James Eakin ,  Robert Myers ,  Waseem Mohammad ,  Matthew Brian Sampsell

IPC: F21V8/00 ,  G02B26/02

CPC classification number: G02B6/0053 ,  G02B5/045 ,  G02B6/0036 ,  G02B6/0038 ,  G02B6/0055 ,  G02B26/02 ,  G02B2207/123

Abstract: This disclosure provides systems, methods and apparatus for providing stacks of optical films that may be used to provide increased on-axis display brightness. In one aspect, an apparatus or system may be provided that includes a light source, a first optical film having triangular cross-section, prismatic light-turning structures, and a second optical film having trapezoidal cross-section, prismatic light-turning structures. The first optical film may be interposed between the light source and the second optical film. In further aspects, a third optical film, similar to the first optical film, may be interposed between the light source and the first optical film. In yet further aspects, one or more additional optical films, similar to the second optical film, may be positioned in the stack such that the second optical film is between the first optical film and the additional optical film(s).

Abstract translation: 本公开提供了用于提供可用于提供增加的在轴显示亮度的光学膜堆叠的系统，方法和装置。 一方面，可以提供一种装置或系统，其包括光源，具有三角形横截面的第一光学膜，棱镜光转向结构以及具有梯形截面的第二光学膜，棱镜式光转弯结构。 第一光学膜可以介于光源和第二光学膜之间。 在另外的方面，类似于第一光学膜的第三光学膜可以插入在光源和第一光学膜之间。 在另外的方面，类似于第二光学膜的一个或多个附加光学膜可以被定位在堆叠中，使得第二光学膜位于第一光学膜和附加的光学膜之间。

公开(公告)号：US09613587B2

公开(公告)日：2017-04-04

申请号：US14601065

申请日：2015-01-20

Applicant: Pixtronix, Inc.

Inventor： Mark Douglas Halfman ,  Edward Buckley ,  Nakano Taketoshi ,  Brian Finkel ,  James Eakin ,  Jignesh Gandhi ,  Alan Gerald Lewis ,  Robert Myers ,  Fahri Yaras ,  John Fijol

IPC: G09G5/02 ,  G09G5/06 ,  G06K9/46 ,  G09G5/10 ,  G06T1/20 ,  G06T1/60 ,  G09G3/20 ,  G09G3/34

CPC classification number: G09G5/02 ,  G06K9/4661 ,  G06T1/20 ,  G06T1/60 ,  G09G3/2022 ,  G09G3/2044 ,  G09G3/3406 ,  G09G3/3433 ,  G09G5/06 ,  G09G5/10 ,  G09G2310/0235 ,  G09G2320/0646 ,  G09G2340/0428 ,  G09G2360/144 ,  G09G2360/16

Abstract: This disclosure provides systems, methods and apparatus, including computer programs encoded on computer storage media, for enhancing display viewability in high ambient conditions without excessive increase in power consumption. In one aspect, a controller associated with the display device can be configured to obtain an indication of ambient light conditions from an ambient light sensor or from a host device hosting the display device. Upon receiving an image frame, the controller can derive a set of color subfields and determine a bit-depth value for each color subfield based on the obtained indication of current ambient light conditions and mapping data which maps ranges of ambient light to respective bit-depth values on a color subfield by color subfield basis. The controller can then generate a number of subframes for each color subfield based on the respective determined bit-depth value and cause the generated subframes to be displayed.