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    • 1. 发明授权
    • Array of micromirror array lenses
    • 阵列微镜阵列透镜
    • US07161729B2
    • 2007-01-09
    • US10857714
    • 2004-05-28
    • Tae Hyeon KimSang Hyune Baek
    • Tae Hyeon KimSang Hyune Baek
    • G02B26/00G02B26/08G02B5/08G02B5/10G02B7/182
    • G02B26/0833
    • An array of micromirror array lenses is invented. The micromirror array lens consists of many micromirrors and actuating components. Each micromirror array lens is variable focal length lens with high speed focal length change. The lens can have arbitrary type and/or size as desired and desired arbitrary optical axis and can correct aberration by controlling each micromirror independently. Independent control of each micromirror is possible by known microelectronics technologies. The actuating components control the positions of micromirrors electrostatically and/or electromagnetically. The optical efficiency of the micromirror array lens is increased by locating a mechanical structure upholding micromirrors and the actuating components under micromirrors. The known microelectronics technologies remove the loss in effective reflective area due to electrode pads and wires.
    • 发明了一种微镜阵列透镜阵列。 微镜阵列透镜由许多微镜和致动部件组成。 每个微镜阵列透镜是具有高速焦距变化的可变焦距透镜。 透镜可以根据需要和期望的任意光轴具有任意类型和/或尺寸,并且可以通过独立地控制每个微镜来校正像差。 通过已知的微电子技术可以实现每个微镜的独立控制。 致动部件静电和/或电磁控制微镜的位置。 微镜阵列透镜的光学效率通过将保持微镜的机械结构和在微镜下的致动部件定位来增加。 已知的微电子技术消除了由于电极焊盘和电线导致的有效反射区域的损失。
    • 2. 发明授权
    • Variable focal length lens comprising micromirrors with one degrees of freedom rotation and one degree of freedom translation
    • 可变焦距镜头包括具有一个自由度旋转和一个自由度平移的微镜
    • US06934073B1
    • 2005-08-23
    • US10857796
    • 2004-05-28
    • Tae Hyeon KimSang Hyune Baek
    • Tae Hyeon KimSang Hyune Baek
    • G02B26/06G02B26/08G02B26/00
    • G02B26/0833G02B26/06Y10S359/904
    • A micromirror array lens consists of many micromirrors with one degree of freedom rotation and one degree of freedom translation and actuating components. As a reflective variable focal length lens, the array of micromirrors makes all lights scattered from one point of an object have the same periodic phase and converge at one point of image plane. As operational methods for the lens, the actuating components control the positions of micromirrors electrostatically and/or electromagnetically. The optical efficiency of the micromirror array lens is increased by locating a mechanical structure upholding micromirrors and the actuating components under micromirrors. The known semiconductor microelectronics technologies can remove the loss in effective reflective area due to electrode pads and wires. The lens can correct aberration by controlling each micromirror independently. Independent control of each micromirror is possible by known semiconductor microelectronics technologies.
    • 微镜阵列透镜由许多具有一个自由度旋转和一个自由度平移和致动部件的微镜组成。 作为反射可变焦距透镜,微镜阵列使得从物体的一个点散射的所有光具有相同的周期相位并且在像平面的一个点处会聚。 作为透镜的操作方法,致动部件静电和/或电磁地控制微镜的位置。 微镜阵列透镜的光学效率通过将保持微镜的机械结构和在微镜下的致动部件定位来增加。 已知的半导体微电子技术可以消除由于电极焊盘和电线引起的有效反射区域的损耗。 透镜可以通过独立控制每个微镜来校正像差。 通过已知的半导体微电子技术,每个微镜的独立控制是可能的。
    • 3. 发明授权
    • Variable focusing lens comprising micromirrors with one degree of freedom rotation
    • 可变聚焦透镜包括具有一个自由度旋转的微镜
    • US06970284B1
    • 2005-11-29
    • US10855554
    • 2004-05-27
    • Tae Hyeon KimSang Hyune Baek
    • Tae Hyeon KimSang Hyune Baek
    • G02B5/09G02B26/00G02B26/08G02F1/29
    • G02B5/09G02B26/0825
    • A variable focal length lens comprising micromirrors with one degree of freedom rotation is invented. The lens consists of many micromirrors and actuating components. The array of micromirrors with one degree of freedom rotation makes all lights scattered from one point of an object converge at one point of image plane by using rotation of micromirror. The micromirror has the same function as a mirror. Therefore, the reflective surface of the micromirror is made of metal, metal compound, multi-layered dielectric material, or other materials with high reflectivity. The actuating components control the rotational displacements of micromirrors electrostatically and/or electromagnetically. The optical efficiency of the micromirror array lens is increased by locating a mechanical structure upholding micromirrors and the actuating components under micromirrors. The known CMOS technologies can remove the loss in effective reflective area due to electrode pads and wires.
    • 发明了包括具有一个自由度旋转的微镜的可变焦距透镜。 该镜头由许多微镜和致动组件组成。 具有一个自由度旋转的微镜阵列使得从物体的一个点散射的所有光通过使用微镜的旋转会聚在图像平面的一个点处。 微镜具有与镜像相同的功能。 因此,微反射镜的反射表面由金属,金属化合物,多层电介质材料或具有高反射率的其它材料制成。 致动部件静电和/或电磁控制微镜的旋转位移。 微镜阵列透镜的光学效率通过将保持微镜的机械结构和在微镜下的致动部件定位来增加。 已知的CMOS技术可以消除由于电极焊盘和电线导致的有效反射区域的损耗。
    • 4. 发明授权
    • Variable focal length lens comprising micromirrors with one degree of freedom translation
    • 可变焦距镜头包括具有一个自由度平移的微镜
    • US06999226B2
    • 2006-02-14
    • US10857280
    • 2004-05-28
    • Tae Hyeon KimSang Hyune Baek
    • Tae Hyeon KimSang Hyune Baek
    • G02B26/00G02B26/08
    • G02B3/0081G02B3/14G02B26/0841G02B26/085Y10S359/904
    • A variable focal length lens comprising micromirrors with pure translation is invented. The lens consists of many micromirrors and actuating components. The array of micromirrors with pure translation makes all lights scattered from one point of an object have the same periodic phase and converge at one point of image plane by using Fresnel diffraction theory. The actuating components control the positions of micromirrors electrostatically and/or electromagnetically. The optical efficiency of the micromirror array lens is increased by locating a mechanical structure upholding micromirrors and the actuating components under micromirrors. The known semiconductor microelectronics technologies can remove the loss in effective reflective area due to electrode pads and wires. The lens can correct aberration by controlling each micromirror independently. Independent control of each micromirror is possible by known semiconductor microelectronics technologies. The micromirror array can also form arbitrary shape and/or size of a lens.
    • 发明了包括具有纯平移的微反射镜的可变焦距透镜。 该镜头由许多微镜和致动组件组成。 具有纯平移的微镜阵列使得从对象的一个​​点散射的所有光具有相同的周期性相位并且通过使用菲涅尔衍射理论在图像平面的一个点处会聚。 致动部件静电和/或电磁控制微镜的位置。 微镜阵列透镜的光学效率通过将保持微镜的机械结构和在微镜下的致动部件定位来增加。 已知的半导体微电子技术可以消除由于电极焊盘和电线引起的有效反射区域的损耗。 透镜可以通过独立控制每个微镜来校正像差。 通过已知的半导体微电子技术,每个微镜的独立控制是可能的。 微镜阵列还可以形成透镜的任意形状和/或尺寸。
    • 5. 发明授权
    • Variable focal length lens comprising micromirrors
    • 可变焦距镜头包括微镜
    • US07267447B2
    • 2007-09-11
    • US10983353
    • 2004-11-08
    • Tae Hyeon KimSang Hyune Baek
    • Tae Hyeon KimSang Hyune Baek
    • G02B7/182G02B26/00
    • G02B26/085G02B3/00G02B7/32G02B17/0694G02B26/0833G02B26/0841G02B26/105G02B27/0068G02B27/40
    • A variable focal length lens consists of many micromirrors with degrees of freedom rotation and/or degrees of freedom translation and actuating components. As operating methods for the lens, the actuating components control the positions of micromirrors electrostatically and/or electromagnetically. The optical efficiency of the variable focal length lens is increased by locating a mechanical structure upholding micromirrors and the actuating components under micromirrors. The lens can correct aberration by controlling each micromirror independently. The lens can also be of a desired arbitrary shape and/or size. The micromirrors are arranged in a flat plane or in a curved plane with a predetermined curvature. The electrodes determining the position of the micromirrors can be made of material with high electrical conductivity, preferably metal. The surface material of the micromirror is made of a material with high reflectivity such as aluminum, silver, and gold, which are coated with multi-layer dielectric material or antioxidant.
    • 可变焦距透镜由许多具有自由度旋转和/或自由度平移和致动部件的微镜组成。 作为透镜的操作方法,致动部件静电和/或电磁地控制微镜的位置。 可变焦距透镜的光学效率通过将保持微镜和致动部件的机械结构定位在微镜下来增加。 透镜可以通过独立控制每个微镜来校正像差。 透镜也可以是期望的任意形状和/或尺寸。 微镜布置在平面或具有预定曲率的弯曲平面中。 确定微镜的位置的电极可以由具有高导电性的材料制成,优选由金属制成。 微镜的表面材料由具有高反射率的材料制成,例如铝,银和金,其涂覆有多层电介质材料或抗氧化剂。
    • 6. 发明授权
    • Variable focal length lens comprising micromirrors with two degrees of freedom rotation
    • 可变焦距镜头包括具有两个自由度旋转的微镜
    • US07031046B2
    • 2006-04-18
    • US10855715
    • 2004-05-27
    • Tae Hyeon KimSang Hyune Baek
    • Tae Hyeon KimSang Hyune Baek
    • G02B26/00
    • G02B3/0081G02B3/14G02B26/0841G02B26/085G02B26/0866
    • A micromirror array lens consists of many micromirrors with two degrees of freedom rotation and actuating components. As a reflective variable focal length lens, the array of micromirrors makes all lights scattered from one point of an object converge at one point of image plane. As operational methods for the lens, the actuating components control the positions of micromirrors electrostatically and/or electromagnetically. The optical efficiency of the micromirror array lens is increased by locating a mechanical structure upholding micromirrors and the actuating components under micromirrors. The known semiconductor microelectronics technologies can remove the loss in effective reflective area due to electrode pads and wires. Independent control of each micromirror is possible by known semiconductor microelectronics technologies. The micromirror array can form a lens with arbitrary shape and/or size, as desired.
    • 微镜阵列透镜由许多具有两个自由度旋转和致动部件的微镜组成。 作为反射可变焦距透镜,微镜阵列使得从物体的一个点散射的所有光在图像平面的一点聚集。 作为透镜的操作方法,致动部件静电和/或电磁地控制微镜的位置。 微镜阵列透镜的光学效率通过将保持微镜的机械结构和在微镜下的致动部件定位来增加。 已知的半导体微电子技术可以消除由于电极焊盘和电线引起的有效反射区域的损耗。 通过已知的半导体微电子技术,每个微镜的独立控制是可能的。 根据需要,微镜阵列可以形成任意形状和/或尺寸的透镜。
    • 7. 发明授权
    • Variable focal length lens comprising micromirrors with two degrees of freedom rotation and one degree of freedom translation
    • 可变焦距透镜包括具有两个自由度旋转和一个自由度平移的微镜
    • US06934072B1
    • 2005-08-23
    • US10855287
    • 2004-05-27
    • Tae Hyeon KimSang Hyune Baek
    • Tae Hyeon KimSang Hyune Baek
    • G02B26/06G02B26/08G02B26/00
    • G02B26/0833G02B26/06Y10S359/904
    • A micromirror array lens consists of many micromirrors with two degrees of freedom rotation and one degree of freedom translation and actuating components. As a reflective variable focal length lens, the array of micromirrors makes all lights scattered from one point of an object have the same periodic phase and converge at one point of image plane. As operating methods for the lens, the actuating components control the positions of micromirrors electrostatically and/or electromagnetically. The optical efficiency of the micromirror array lens is increased by locating a mechanical structure upholding micromirrors and the actuating components under micromirrors. Semiconductor microelectronics technologies can remove the loss in effective reflective area due to electrode pads and wires. The lens can correct aberration by controlling each micromirror independently. Independent control of each micromirror is possible by known semiconductor microelectronics technologies. The micromirror array can also form a lens with desired arbitrary shape and/or size.
    • 微镜阵列透镜由许多具有两个自由度旋转和一个自由度平移和致动部件的微镜组成。 作为反射可变焦距透镜,微镜阵列使得从物体的一个点散射的所有光具有相同的周期相位并且在像平面的一个点处会聚。 作为透镜的操作方法,致动部件静电和/或电磁地控制微镜的位置。 微镜阵列透镜的光学效率通过将保持微镜的机械结构和在微镜下的致动部件定位来增加。 半导体微电子技术可以消除由于电极焊盘和电线导致的有效反射区域的损耗。 透镜可以通过独立控制每个微镜来校正像差。 通过已知的半导体微电子技术,每个微镜的独立控制是可能的。 微镜阵列还可以形成具有期望的任意形状和/或尺寸的透镜。