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    • 1. 发明授权
    • Shortened asymmetrical tunnel for spatially integrating light
    • 缩短不对称隧道空间整合光
    • US06517210B2
    • 2003-02-11
    • US09827869
    • 2001-04-06
    • Mark PetersonFranc PotekevKurt Stahl
    • Mark PetersonFranc PotekevKurt Stahl
    • G03B2128
    • H04N9/3114G02B27/09H04N9/3152H04N9/3173Y10S385/901
    • A multimedia projector (30) includes a light source (32) producing a nonuniform illumination pattern and a light integrating tunnel (110, 130) having parallelogram-shaped input and output apertures (132, 134) with an average diagonal dimension. The input and output apertures are spaced apart by a length dimension (136) that is less than five-times the average diagonal dimension of the apertures. A light pattern (150) propagating from the output aperture is substantially more uniform than a light pattern (146) propagating from a rectangular tunnel of the same length. Alternatively, a light pattern (164) propagating from the output aperture has substantially the same uniformity as the light pattern (146) propagating from a substantially longer rectangular tunnel.
    • 一种多媒体投影仪(30)包括产生非均匀照明图案的光源(32)和具有平均四边形形状的具有平均对角线尺寸的输入和输出孔(132,134)的光积分隧道(110,130)。 输入和输出孔径间隔开小于孔的平均对角线尺寸的五倍的长度尺寸(136)。 从输出孔传播的光图案(150)与从相同长度的矩形隧道传播的光图案(146)基本上更均匀。 或者,从输出孔传播的光图案(164)具有与从基本上较长的矩形隧道传播的光图案(146)基本相同的均匀性。
    • 2. 发明授权
    • Asymmetrical tunnel for spatially integrating light
    • 用于空间积分光的不对称隧道
    • US06419365B1
    • 2002-07-16
    • US09557095
    • 2000-04-21
    • Franc PotekevMark PetersonKurt StahlScott Engle
    • Franc PotekevMark PetersonKurt StahlScott Engle
    • G03B2128
    • H04N9/3114G02B27/09H04N9/3152
    • A projector includes a source of polychromatic light that propagates through color filter segments of a color wheel and enters an input aperture of an asymmetrical light integrating tunnel that integrates the filtered light into a uniform pattern at a nonrectangular output aperture of the tunnel. The uniform illumination exiting the nonrectangular output aperture is re-imaged onto a light valve that is mounted obliquely to a longitudinal axis of the tunnel. The image of the nonrectangular output aperture on the light valve compensates for any keystone distortion, illumination overfill and illumination drop-off regions on the light valve, thereby increasing brightness and brightness uniformity across the light valve. The asymmetrical light integrating tunnel may include a trapezoidal input aperture that reduces the time period when adjacent color wheel filter segments are traversing the input aperture, thereby increasing the time period when the input aperture receives light from each single filter segment.
    • 投影仪包括多色光源,其通过色轮的滤色器片段进入,并进入非对称光积分隧道的输入孔,该隧道将滤波后的光在隧道的非矩形输出孔径处整合为均匀图案。 离开非矩形输出孔的均匀照明被重新成像到倾斜于隧道的纵向轴线的光阀上。 光阀上的非矩形输出孔径的图像补偿光阀上的任何梯形失真,照明过度填充和照明下降区域,从而增加光阀的亮度和亮度均匀性。 不对称的光积分隧道可以包括梯形输入孔,其减小相邻的色轮滤波器段穿过输入孔的时间段,从而增加输入孔径从每个单个滤波器段接收光的时间段。
    • 3. 发明授权
    • Image projection system packaged to operate lying flat with a very low profile
    • 图像投影系统封装,操作平坦,具有非常低的轮廓
    • US06185047B2
    • 2001-02-06
    • US09405425
    • 1999-09-22
    • Mark PetersonScott EngleFranc Potekev
    • Mark PetersonScott EngleFranc Potekev
    • G02B2712
    • H04N9/3141G02B26/0833H04N5/7458H04N9/3114
    • An image projection system implemented with a projector engine using a reflective light modulator, preferably a Digital Micromirror Device (DMD), operates lying flat with very low profile on a support table. The invention overcomes the disadvantage of previous DMD projectors that require either tilting all or part of the projection system 45 degrees relative to a support table top or packaging the projection system in a thick box that allows light to impinge on the DMD from above or below its light reflecting surface. This is accomplished with a prism assembly that sets up the correct illumination angles for the DMD and directs imaging (output) light along approximately the same vector as that of illumination (input) light incident to the prism assembly. The illumination light and imaging light do not propagate in a common plane within the prism assembly, but the vectors of the illumination light entering and the imaging light exiting the prism assembly are approximately the same. An alternative preferred embodiment of the prism assembly includes a light escape window through which illumination light reflected by the DMD in its off-state escapes from the prism assembly in a direction away from the projection lens. An implementation using a third prism optically fixed to an output prism or forming an integral part of an enlarged output prism is especially advantageous because it can provide a three-point mounting of the prism assembly to the floor of the interior of the projection system housing.
    • 使用反射式光调制器,优选数字微镜器件(DMD)的投影机引擎实现的图像投影系统在支撑台上以非常低的轮廓平放地操作。 本发明克服了以前的DMD投影机的缺点,其需要相对于支撑台面倾斜全部或部分投影系统45度,或者将投影系统包装在允许光从其上方或下方的DMD上撞击到DMD的厚箱中 光反射面。 这是通过棱镜组件实现的,该棱镜组件为DMD设置正确的照明角度,并将成像(输出)光沿与入射到棱镜组件的照明(输入)光大致相同的矢量引导。 照明光和成像光不会在棱镜组件内的公共平面中传播,而入射的照明光和离开棱镜组件的成像光的矢量大致相同。 棱镜组件的替代优选实施例包括光逸出窗,通过该光逸出窗,DMD在其关闭状态下反射的照明光在远离投影透镜的方向上从棱镜组件中逸出。 使用光学地固定到输出棱镜或形成放大输出棱镜的整体部分的第三棱镜的实现是特别有利的,因为它可以将棱镜组件三点安装到投影系统壳体的内部的地板上。
    • 5. 发明授权
    • Non-imaging optical concentrator for use in infrared remote control systems
    • 用于红外遥控系统的非成像光集中器
    • US06201246B1
    • 2001-03-13
    • US09127591
    • 1998-07-31
    • Franc PotekevAndrei Kazmierski
    • Franc PotekevAndrei Kazmierski
    • G02B1700
    • G02B19/009G02B19/0028G02B19/008Y10S250/01
    • A non-imaging optical concentrator (18, 70) includes an optically transparent body having a substantially dome-shaped convex surface (42, 74) of revolution formed about an optical axis (24) and at least one conical concave surface of revolution (44, 76, 78) protruding into the convex surface in a direction along the optical axis toward a light sensor (46). The convex surface receives light rays (54, 90) propagating from low to medium elevational angles and causes them to propagate through the optically transparent body, reflect off the concave surface, and propagate generally along the optical axis toward the light sensor. The concave surface further receives light rays (58) propagating from high elevational angles and refracts them through the optically transparent body toward the light sensor. This invention is advantageous because only one light sensor is required to receive light rays, such as IR controller data, propagating from a wide range of elevational and azimuthal angles.
    • 非成像光学聚光器(18,70)包括光学透明体,其具有围绕光轴(24)形成的大致圆顶形的凸面(42,74),并且具有至少一个圆锥形凹面(44) ,76,78)沿着所述光轴朝向光传感器(46)突出到所述凸表面中。 凸表面接收从低到高的角度传播的光线(54,90),并使它们传播通过光学透明体,反射出凹面,并且大致沿着光轴朝向光传感器传播。 凹面还容纳从高仰角传播的光线(58),并将它们通过光学透明体向光传感器折射。 本发明是有利的,因为只需要一个光传感器来接收从宽的方位角和方位角传播的诸如IR控制器数据的光线。