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    • 2. 发明申请
    • ENHANCED LIGHT FIXTURE
    • 增强的灯具
    • WO2006055872A3
    • 2006-07-13
    • PCT/US2005042053
    • 2005-11-17
    • FUSION OPTIX INCYEO TERENCE ECOLEMAN ZANE A
    • YEO TERENCE ECOLEMAN ZANE A
    • G02B6/00
    • G02B6/0041F21S6/00F21S8/08F21V1/00F21V3/049F21V2200/10F21V2200/20F21W2131/103F21Y2105/00F21Y2115/10G02B5/0242G02B5/0257G02B5/0284G02B6/0051G02B6/0055G02B27/0988
    • An enhanced light fixture containing a volumetric, anisotropic diffuser to control the spatial luminance uniformity and angular spread of light from the light fixture is disclosed.The anisotropic diffuser provides increased spatial luminance uniformity and efficient control over the illuminance such that power reductions, reduced cost or reduced size may be achieved. The anisotropic diffuser contains one or more regions of asymmetrically shaped light scattering particles. The spread of illumination of light from a light emitting source can be efficiently controlled by using a thin, low cost, volumetric, asymmetric diffuser to direct the light in the desired direction. This allows the reduction in number of light sources, a reduction in power requirements, or a more tailored illumination. When the anisotropic diffuser is used in combination with a waveguide to extract light, the light is efficiently coupled out of the waveguide in a thin, planar surface. This transmissive diffuser can be coupled to a reflecting element such that the resulting combination is a light reflecting element with a desired asymmetric light scattering profile.
    • 公开了一种增强的灯具,其包含用于控制来自灯具的光的空间亮度均匀性和角度扩展的体积各向异性扩散器。各向异性扩散器提供增加的空间亮度均匀性和对照度的有效控制,使得功率降低,降低成本或 可以实现减小的尺寸。 各向异性扩散器包含一个或多个不对称形状的光散射颗粒区域。 通过使用薄的,低成本的,体积不对称的扩散器,可以有效地控制来自发光源的光的照射扩散,以将光引向所需的方向。 这允许减少光源的数量,降低功率需求,或者更适合照明。 当各向异性扩散器与波导组合使用以提取光时,光在薄的平坦表面中被有效地耦合到波导外。 该透射漫射器可以耦合到反射元件,使得所得到的组合是具有期望的不对称光散射分布的光反射元件。
    • 4. 发明申请
    • ENHANCED LIGHT FIXTURE
    • 增强型灯具
    • WO2006055872A2
    • 2006-05-26
    • PCT/US2005/042053
    • 2005-11-17
    • FUSION OPTIX, INC.YEO, Terence, E.COLEMAN, Zane, A.
    • YEO, Terence, E.COLEMAN, Zane, A.
    • G02B6/00
    • G02B6/0041F21S6/00F21S8/08F21V1/00F21V3/049F21V2200/10F21V2200/20F21W2131/103F21Y2105/00F21Y2115/10G02B5/0242G02B5/0257G02B5/0284G02B6/0051G02B6/0055G02B27/0988
    • An enhanced light fixture containing a volumetric, anisotropic diffuser to control the spatial luminance uniformity and angular spread of light from the light fixture is disclosed.The anisotropic diffuser provides increased spatial luminance uniformity and efficient control over the illuminance such that power reductions, reduced cost or reduced size may be achieved. The anisotropic diffuser contains one or more regions of asymmetrically shaped light scattering particles. The spread of illumination of light from a light emitting source can be efficiently controlled by using a thin, low cost, volumetric, asymmetric diffuser to direct the light in the desired direction. This allows the reduction in number of light sources, a reduction in power requirements, or a more tailored illumination. When the anisotropic diffuser is used in combination with a waveguide to extract light, the light is efficiently coupled out of the waveguide in a thin, planar surface. This transmissive diffuser can be coupled to a reflecting element such that the resulting combination is a light reflecting element with a desired asymmetric light scattering profile.
    • 本发明公开了一种增强照明装置,其包含体积各向异性漫射器以控制来自灯具的光的空间亮度均匀性和角展度。各向异性漫射器提供增加的空间亮度均匀性和对照度的有效控制 从而可以实现功率降低,成本降低或尺寸减小。 各向异性漫射体包含一个或多个不对称形状的光散射颗粒区域。 通过使用薄的,低成本的体积不对称漫射器将光引导到期望的方向,可以有效地控制来自发光源的光的照射的扩散。 这样可以减少光源数量,降低功率要求,或者实现更加个性化的照明。 当各向异性漫射器与波导组合使用以提取光时,光在薄的平坦表面中有效地耦合出波导。 该透射漫射体可以耦合到反射元件,使得所得到的组合是具有期望的不对称光散射轮廓的光反射元件。
    • 5. 发明申请
    • IMAGING MATERIAL WITH IMPROVED CONTRAST
    • 成像材料与改进的对比
    • WO2006020583A3
    • 2006-04-13
    • PCT/US2005028170
    • 2005-08-10
    • FUSION OPTIX INCYEO TERENCE ECOLEMAN ZANE A
    • YEO TERENCE ECOLEMAN ZANE A
    • G03B21/62
    • G03B21/10G02B2006/1219G03B21/625
    • An imaging material has been developed which provides improved image contrast, increased gain and increased viewing angle. A method for production of the screen element is also described. The imaging material of the invention includes a refractive optical element (202) which redirects incident light along a desired axis, a light transmissive focusing region (205) which diffuses the light along the desired axis, and a controlled light-transmissive region (207) which controls backscatter and increases contrast. The refractive optical element (202) desirably includes an active surface such as a lenticular array embossed thereon which serves to redirect incident light as desired. The focusing region (205) desirably is made of a matrix material (206) having a refractive index n
    • 已经开发了成像材料,其提供改善的图像对比度,增加的增益和增加的视角。 还描述了用于生产屏幕元件的方法。 本发明的成像材料包括:折射光学元件(202),其沿着期望的轴线重定向入射光,将光沿着所需轴线扩散的透光聚焦区域(205)和受控光透射区域(207) 其控制反向散射并增加对比度。 折射光学元件(202)期望地包括有效表面,诸如压花在其上的透镜阵列,其用于根据需要重定向入射光。 聚焦区域(205)期望地由具有折射率n
    • 8. 发明申请
    • HIGH CONTRAST OPTICAL PATH CORRECTED SCREEN
    • 高对比度光学路径校正屏幕
    • WO2006032002A1
    • 2006-03-23
    • PCT/US2005/033070
    • 2005-09-13
    • FUSION OPTIX, INC.YEO, Terence, E.COLEMAN, Zane, A.
    • YEO, Terence, E.COLEMAN, Zane, A.
    • G03B21/62G02B3/08G02B3/00
    • G02B3/0031G02B3/0068G02B3/08G03B21/625
    • By using high and low refractive index materials, a planarized reflective-refractive Fresnel lens and a planarized refractive lenticular lens can be created. These flat screen components eliminate the need for an air-gap, thus reducing the screen thickness. Additionally, this allows for the screen to be manufactured on a roll-to-roll process that can significantly reduce the screen cost. By adding the capability of planarizing the elements, they can be combined in a final structure on a roll-to-roll process. Since the Fresnel lens can be combined with the lenticular lens before exposure of the black stripe region, the exposure of the black stripe region can account for any deviation from true collimation or non-normal angle of incidence of the light path in the projection system design.
    • 通过使用高折射率材料和低折射率材料,可以形成平面化的反射折射菲涅耳透镜和平面化折射双凸透镜。 这些平面屏幕部件消除了对气隙的需要,从而减小了屏幕厚度。 此外,这允许屏幕以卷对卷的方式制造,这可显着降低屏幕成本。 通过添加平面化元件的能力,它们可以在卷对卷过程中以最终结构组合。 由于在黑条纹区域曝光之前菲涅尔透镜可以与双凸透镜组合,所以黑色条纹区域的曝光可以解释投影系统设计中的光路的真实准直或非正常入射角的任何偏差 。
    • 9. 发明申请
    • ENHANCED LCD BACKLIGHT
    • 增强液晶背光
    • WO2006031545A1
    • 2006-03-23
    • PCT/US2005/031795
    • 2005-09-09
    • FUSION OPTIX, INC.YEO, Terence, E.COLEMAN, Zane, A.
    • YEO, Terence, E.COLEMAN, Zane, A.
    • G02B6/00
    • G02B6/0041G02B6/0038G02B6/0046G02B6/0051G02B6/0053G02B6/0055G02B6/0056G02B6/0065G02B6/0078
    • The present invention provides an improved light guide with inherently more flexibility for display system designers and higher optical efficiency. By using a light guide containing substantially aligned non-spherical particles, more efficient control of the light scattering can be achieved. One or more regions containing ellipsoidal particles may be used and the particle sizes may vary between 2 and 100 microns in the smaller dimension. The light scattering regions may be substantially orthogonal in their axis of alignment. Alternatively, one or more asymmetrically scattering films can be used in combination with a backlight light guide and a reflector to produce an efficient backlight system. The light guides may be manufactured by embossing, stamping, or compression molding a light guide in a suitable light guide material containing asymmetric particles substantially aligned in one direction. The light scattering light guide or non-scattering light guide may be used with one or more light sources, collimating films or symmetric or asymmetric scattering films to produce an efficient backlight that can be combined with a liquid crystal display or other transmissive display. By maintaining more control over the scattering, the efficiency of the recycling of light by using reflective polarizers can also be increased.
    • 本发明提供了一种改进的光导,其显示系统设计者具有固有的更大的灵活性和更高的光学效率。 通过使用包含基本上对准的非球形颗粒的光导,可以实现对光散射的更有效的控制。 可以使用包含椭圆体颗粒的一个或多个区域,并且在较小尺寸中粒径可以在2和100微米之间变化。 光散射区域可以在其对准轴线上基本正交。 或者,可以将一个或多个非对称散射膜与背光光导和反射器组合使用以产生有效的背光系统。 可以通过在包含基本上在一个方向上对齐的不对称粒子的合适的导光材料中压印,冲压或压缩模制光导来制造光导。 光散射光导或非散射光导可以与一个或多个光源,准直膜或对称或不对称散射膜一起使用,以产生可与液晶显示器或其它透射显示器组合的高效背光。 通过保持对散射的更多控制,还可以增加通过使用反射偏振器的光的再循环的效率。
    • 10. 发明申请
    • IMAGING MATERIAL WITH IMPROVED CONTRAST
    • 成像材料与改进的对比
    • WO2006020583A2
    • 2006-02-23
    • PCT/US2005/028170
    • 2005-08-10
    • FUSION OPTIX, INC.YEO, Terence, E.COLEMAN, Zane, A.
    • YEO, Terence, E.COLEMAN, Zane, A.
    • G03B21/62
    • G03B21/10G02B2006/1219G03B21/625
    • An imaging material has been developed which provides improved image contrast, increased gain and increased viewing angle. A method for production of the screen element is also described. The imaging material of the invention includes a refractive optical element which redirects incident light along a desired axis, a light transmissive focusing region which diffuses the light along the desired axis, and a controlled light-transmissive region which controls backscatter and increases contrast. The refractive optical element desirably includes an active surface such as a lenticular array embossed thereon which serves to redirect incident light as desired. The focusing region desirably is made of a matrix material having a refractive index n 1 , having dispersed throughout the matrix asymmetric micro-bodies that have a refractive index n 2 different from n 1 . The controlled light-transmissive region may desirably comprise an alternating black stripe and transparent region. Various implementations of these elements of course are contemplated as within the scope of the invention The materials described herein are typically used in a rear and/or front projection display system such as those used in televisions, computers, home theatres, information displays and simulation systems.
    • 已经开发了成像材料,其提供改善的图像对比度,增加的增益和增加的视角。 还描述了用于生产屏幕元件的方法。 本发明的成像材料包括折射光学元件,其沿着期望的轴重定向入射光,将光沿着期望的轴扩散的透光聚焦区域和控制反向散射并增加对比度的受控光透射区域。 折射光学元件理想地包括有效表面,例如压印在其上的透镜阵列,其用于根据需要重定向入射光。 聚焦区域期望地由具有折射率n <1的矩阵材料制成,其分散在整个矩阵不对称的微体中,折射率n不同于n 1 。 受控的透光区域可以理想地包括交替的黑色条纹和透明区域。 当然,这些元件的各种实施方式也被认为在本发明的范围内。这里描述的材料通常用于后面和/或前投影显示系统中,例如在电视机,计算机,家庭影院,信息显示和模拟系统中使用的那些 。