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    • 3. 发明授权
    • Diffusing screen
    • 扩散屏幕
    • US08169701B2
    • 2012-05-01
    • US13188139
    • 2011-07-21
    • Prafulla Masalkar
    • Prafulla Masalkar
    • G03B21/56
    • G03B21/62G03B21/10G03B21/60
    • Various embodiments related to a rear projection display screen configured to reduce an intensity of light at a viewing angle at which the light is less likely to be viewed by a user are disclosed. One disclosed embodiment provides a diffusing screen comprising a sheet-like structure transparent to one or more wavelengths of light. The sheet-like structure has a viewing surface and comprises a diffusing pattern configured to create destructive interference of a selected wavelength of light traveling in a direction normal to a plane of the viewing surface of the screen.
    • 公开了一种与背投影显示屏有关的各种实施例,该背投影显示屏被配置为减少在用户不太可能看到光的视角的光强度。 一个公开的实施例提供了一种漫射屏幕,其包括对一个或多个波长的光线透明的片状结构。 片状结构具有观察表面,并且包括扩散图案,其被配置为产生沿垂直于屏幕的观察表面的平面的方向行进的所选择的波长的光的干涉。
    • 4. 发明授权
    • Photodetecting device
    • 光电检测装置
    • US06445000B1
    • 2002-09-03
    • US09590262
    • 2000-06-09
    • Prafulla MasalkarHiroji Ebe
    • Prafulla MasalkarHiroji Ebe
    • H01L2906
    • H01L31/035236B82Y20/00H01L31/0352
    • A first multi-quantum well structure 12 is formed on a GaAs substrate 10. The first multi-quantum well structure 12 is formed of an AlGaAs barrier layer and a GaAs well layer alternately laid one on the other to form a multi-quantum well. The GaAs barrier layer is not doped with an impurity. A second multi-quantum well structure 14 is formed on the first multi-quantum well structure 12. The second multi-quantum well structure 14 is formed of an AlGaAs barrier layer and a GaAs well layer alternately laid one on the other to form a multi-quantum well. The GaAs barrier layer is not doped with an impurity. Whereby a required electrode area can be smaller to thereby obtain higher detection sensitivity.
    • 第一多量子阱结构12形成在GaAs衬底10上。第一多量子阱结构12由彼此交替放置的AlGaAs势垒层和GaAs阱层形成,以形成多量子阱。 GaAs阻挡层不掺杂杂质。 第二多量子阱结构14形成在第一多量子阱结构12上。第二多量子阱结构14由彼此交替放置的AlGaAs势垒层和GaAs阱层形成,以形成多 - 量子井 GaAs阻挡层不掺杂杂质。 所需的电极面积可以更小,从而获得更高的检测灵敏度。
    • 6. 发明授权
    • Infrared vision with liquid crystal display device
    • 红外视觉与液晶显示装置
    • US08384694B2
    • 2013-02-26
    • US12620483
    • 2009-11-17
    • Karlton PowellZhiqiang LiuPrafulla Masalkar
    • Karlton PowellZhiqiang LiuPrafulla Masalkar
    • G06F3/042
    • G06F3/042G06F3/0425
    • Various embodiments related to infrared vision for a liquid crystal display (LCD) device are disclosed herein. For example, one disclosed embodiment provides a display system, comprising an LCD device and a display backlight configured to illuminate the LCD device by directing visible light toward an interior surface of the LCD device. The display system further comprises a wavelength-selective reflector disposed between the display backlight and the LCD device and having a smooth surface facing the interior surface of the LCD device, where the wavelength-selective reflector has a wavelength-selective coating configured to cause incident visible light from the display backlight to be transmitted through the wavelength-selective reflector to the LCD device, and cause incident infrared light reflected from an object on or near an exterior surface of the LCD device to be reflected off of the wavelength-selective reflector and directed to an infrared vision subsystem.
    • 本文公开了与液晶显示器(LCD)装置的红外视觉有关的各种实施例。 例如,一个公开的实施例提供了一种显示系统,包括LCD装置和配置成通过将可见光引导到LCD装置的内表面来照亮LCD装置的显示器背光。 所述显示系统还包括布置在所述显示器背光源和所述LCD装置之间的波长选择性反射器,并且具有面向所述LCD装置的内表面的光滑表面,其中所述波长选择性反射器具有波长选择性涂层, 来自显示器背光的光将通过波长选择性反射器传输到LCD装置,并且使得从LCD装置的外表面上或其附近的物体反射的入射红外光从波长选择性反射器反射并被引导 到一个红外视觉子系统。
    • 7. 发明申请
    • DIFFUSING SCREEN
    • 扩散屏幕
    • US20110273673A1
    • 2011-11-10
    • US13188139
    • 2011-07-21
    • Prafulla Masalkar
    • Prafulla Masalkar
    • G03B21/62G03B21/14
    • G03B21/62G03B21/10G03B21/60
    • Various embodiments related to a rear projection display screen configured to reduce an intensity of light at a viewing angle at which the light is less likely to be viewed by a user are disclosed. One disclosed embodiment provides a diffusing screen comprising a sheet-like structure transparent to one or more wavelengths of light. The sheet-like structure has a viewing surface and comprises a diffusing pattern configured to create destructive interference of a selected wavelength of light traveling in a direction normal to a plane of the viewing surface of the screen.
    • 公开了一种与背投影显示屏有关的各种实施例,该背投影显示屏被配置为减少在用户不太可能看到光的视角的光强度。 一个公开的实施例提供了一种漫射屏幕,其包括对一个或多个波长的光线透明的片状结构。 片状结构具有观察表面,并且包括扩散图案,其被配置为产生沿垂直于屏幕的观察表面的平面的方向行进的所选择的波长的光的干涉。
    • 8. 发明申请
    • ILLUMINATOR FOR TOUCH- AND OBJECT-SENSITIVE DISPLAY
    • 用于触摸屏和对象敏感显示器的照明器
    • US20110043490A1
    • 2011-02-24
    • US12621785
    • 2009-11-19
    • Karlton PowellPrafulla MasalkarTimothy LargeSteven Bathiche
    • Karlton PowellPrafulla MasalkarTimothy LargeSteven Bathiche
    • G06F3/042
    • G06F3/0421G06F3/0425G06F2203/04109
    • An integrated vision and display system comprises a display-image forming layer configured to transmit a display image for viewing through a display surface; an imaging detector configured to image infrared light of a narrow range of angles relative to the display surface normal and including a reflection from one or more objects on or near the display surface; a vision-system emitter configured to emit the infrared light for illuminating the objects; a visible- and infrared-transmissive light guide having opposing upper and/or lower face, configured to receive the infrared light from the vision-system emitter, to conduct the infrared light via TIR from the upper and lower faces, and to project the infrared light onto the objects outside of the narrow range of angles relative to the display surface normal.
    • 集成视觉和显示系统包括:显示图像形成层,被配置为通过显示表面传送用于观看的显示图像; 成像检测器,被配置为对相对于显示表面法线的窄范围的角度的红外光进行成像,并且包括来自显示表面上或附近的一个或多个物体的反射; 视觉系统发射器,被配置为发射用于照射物体的红外光; 具有相对的上和/或下表面的可见和红外透射光导,被配置为接收来自视觉系统发射器的红外光,以经由来自上表面和下表面的TIR传导红外光,并且将红外线 将光照射到相对于显示面正常的窄范围角度之外的物体上。