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    • 5. 发明申请
    • LIQUID CRYSTAL DISPLAY APPARATUS AND LIGHT EMITTING ASSEMBLY WITH LIGHT TRANSMISSION CONTROL ELEMENTS FOR ILLUMINATING SAME
    • 液晶显示装置和发光组件,具有用于照射相机的光传输控制元件
    • US20120075555A1
    • 2012-03-29
    • US13321447
    • 2010-06-03
    • Jeffery R. ParkerKurt R. StarkeyFumitomo Hide
    • Jeffery R. ParkerKurt R. StarkeyFumitomo Hide
    • G02F1/13357
    • G09G3/342G02B6/0068G02B6/008G09G2320/064G09G2320/0646G09G2320/066
    • A liquid crystal display apparatus (500) including a liquid crystal display (LCD) panel (502), a light emitting assembly (501) arranged to illuminate the LCD panel, and a light conditioning element (510) between the light emitting assembly and the LCD panel. The light emitting assembly includes a planar optical conductor (158) characterized by a length and a width. The optical conductor has a light input surface (225), light transmission control elements (151) and well defined light extracting optical elements (157) configured to redirect light received at the light input surface out from the optical conductor. The light transmission control elements divide the optical conductor into independently operable light emitting regions (152). An LED light source (156) is optically coupled to each of the light emitting regions adjacent the light input surface of the optical conductor. Each LED light source is small relative to the length and width of the optical conductor.
    • 一种液晶显示装置(500),包括液晶显示器(LCD)面板(502),布置成照亮LCD面板的发光组件(501)和在发光组件和发光组件之间的光调节元件 液晶面板 发光组件包括特征在于长度和宽度的平面光导体(158)。 光导体具有光输入表面(225),光传输控制元件(151)和明确限定的光提取光学元件(157),其被配置为将在光输入表面处接收的光从光导体重定向。 光传输控制元件将光导体分成可独立操作的发光区域(152)。 LED光源(156)光耦合到与光导体的光输入表面相邻的每个发光区域。 每个LED光源相对于光导体的长度和宽度较小。
    • 6. 发明申请
    • Micromirrors with support walls
    • 带扶手墙的微镜
    • US20050162727A1
    • 2005-07-28
    • US10763672
    • 2004-01-24
    • Fusao IshiiFumitomo Hide
    • Fusao IshiiFumitomo Hide
    • G02B26/08G02F1/03G02F1/07
    • G02B26/0841
    • A micromirror device comprises a reflective element that is supported by at least 1 support wall. Support walls are designed for providing devices with improved mechanical and optical performance. Support walls are supported by a deformable element. The deformable element may be a torsion hinge. The deformable element may be supported by support structures that are designed to limit the deflection of the reflective element. An array of micromirror devices may be used as a spatial light modulator (SLM). Methods of fabricating micromirror arrays comprise the steps of: 1) providing a three-layer substrate, comprising a crystalline layer, a sacrificial layer, and a base layer, with the sacrificial layer being disposed between the crystalline layer and the base layer; 2) forming a deformable element in the crystalline layer; 3) forming support structures for the deformable element; and 4) forming electronic circuits on the base layer.
    • 微反射镜装置包括由至少1个支撑壁支撑的反射元件。 支撑墙设计用于为设备提供改进的机械和光学性能。 支撑壁由可变形元件支撑。 可变形元件可以是扭转铰链。 可变形元件可以被设计成限制反射元件的偏转的支撑结构支撑。 微镜器件的阵列可以用作空间光调制器(SLM)。 制造微镜阵列的方法包括以下步骤:1)提供三层衬底,其包括晶体层,牺牲层和基底层,牺牲层设置在晶体层和基底层之间; 2)在所述结晶层中形成可变形元件; 3)形成用于可变形元件的支撑结构; 和4)在基层上形成电子电路。
    • 10. 发明申请
    • Controlled formation of vapor and liquid droplet jets from liquids
    • 从液体中控制形成蒸汽和液滴射流
    • US20060196968A1
    • 2006-09-07
    • US11355461
    • 2006-02-16
    • Barry RabinFumitomo Hide
    • Barry RabinFumitomo Hide
    • B05B1/24
    • A61M15/00A61M11/001A61M11/002A61M11/042A61M11/048A61M15/025A61M2205/3673B05B7/0075B05B7/1686B05B17/04F23D3/40F23D11/448F24F6/08
    • Devices for generating a vapor jet from a source liquid comprise a capillary force vaporizer and a condensation controller. Generally, a capillary force vaporizer comprises a porous vaporizer having capillary-sized pores, an enclosure and a vapor egress orifice. The capillary force vaporizer forms a vapor jet from unpressurized liquid by heating the liquid to vaporization in a substantially confined volume. Vapor output from the liquid vaporization section enters the condensation controller, which may be configured to prevent the condensation of vapor or promote the controlled formation of fine liquid droplets, which are generally less than about 100 μm diameter. The condensation controller may be maintained at a predetermined temperature. Alternatively, ambient air or other external gases may be introduced into the condensation controller. Various architectures for the vapor condensation controller are disclosed.
    • 用于从源液体产生蒸汽射流的装置包括毛细管力蒸发器和冷凝控制器。 通常,毛细管力蒸发器包括具有毛细管孔的多孔蒸发器,外壳和蒸汽出口孔。 毛细管力蒸发器通过将液体加热至基本上限制的体积蒸发而形成来自未加压液体的蒸汽射流。 来自液体蒸发部分的蒸汽输出进入冷凝控制器,冷凝控制器可被配置为防止蒸气冷凝或促进受控地形成通常小于约100μm直径的细液滴。 冷凝控制器可以保持在预定温度。 或者,可以将环境空气或其它外部气体引入冷凝控制器。 公开了用于蒸汽冷凝控制器的各种结构。