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    • 1. 发明申请
    • FLAT CAMERA MODULE
    • 平面相机模块
    • WO2008037660A1
    • 2008-04-03
    • PCT/EP2007/060019
    • 2007-09-21
    • VARIOPTICBERGE, BrunoTALLARON, NicolasCRAEN, Pierre
    • BERGE, BrunoTALLARON, NicolasCRAEN, Pierre
    • H04N5/225
    • H04N5/2254G02B13/0035G02B13/004G02B13/0065G02B17/08
    • The invention concerns a camera module mounted on a flat support surface (306, 606, 934) comprising an image sensor (302) comprising a rectangular image zone (304) in which an image is captured and a lens arrangement (307) arranged to form an image on the image zone of the image sensor, said lens arrangement having an optical axis (Δ) parallel to said flat support surface and comprising a plurality of lenses (308 to 310), said plurality of lenses comprising a lens (308) closest to said image sensor, said lens having an edge of a non-uniform diameter in a plane perpendicular to said optical axis, wherein the diameter of at least one part of said edge is larger than a minimum value required such that image points can be formed at opposite corners of the image zone, said plurality of lenses are of a size that is limited in a first dimension such that they fit between parallel planes that are parallel to the optical axis and separated by a distance smaller than said minimum value, and said first dimension is in a direction perpendicular to said flat support surface.
    • 本发明涉及安装在平坦支撑表面(306,606,934)上的相机模块,包括图像传感器(302),该图像传感器包括其中捕获图像的矩形图像区域(304),以及布置成形成 在所述图像传感器的图像区域上的图像,所述透镜装置具有平行于所述平坦支撑表面的光轴(α),并且包括多个透镜(308至310),所述多个透镜包括最接近的透镜(308) 所述透镜在与所述光轴垂直的平面中具有不均匀直径的边缘,其中所述边缘的至少一部分的直径大于所需的最小值,使得能够形成图像点 在图像区域的相对的拐角处,所述多个透镜的尺寸被限制在第一尺寸上,使得它们适合于平行于光轴并平行于所述最小值的距离的平行平面之间,并且所述 第一尺寸在垂直于所述平坦支撑表面的方向上。
    • 2. 发明申请
    • METHOD AND DEVICE FOR CONTROLLING A VARIABLE FOCAL LENGTH LIQUID LENS
    • 用于控制可变焦距长度液体镜头的方法和装置
    • WO2006103281A1
    • 2006-10-05
    • PCT/EP2006/061205
    • 2006-03-30
    • VARIOPTICTALLARON, NicolasCRAEN, PierreBERGE, Bruno
    • TALLARON, NicolasCRAEN, PierreBERGE, Bruno
    • G02B26/02
    • G02B26/005G02B3/14
    • The present invention concerns a method for controlling a variable focal length lens (10) comprising a dioptre (28) capable of being deformed by variation of the electro-wetting characteristics by application of a control voltage (V), wherein a focal length value corresponds to a given control voltage in the steady state, said method comprising: - applying, during a transition between the application of a first control voltage (V 1 ) corresponding to a first focal length value (f 1 ) and a second control voltage (V 2 ) corresponding to a second focal length value (f 2 ), a control voltage which is different from the first and second control voltages and changes according to a given profile that depends on the first and second control voltages.
    • 本发明涉及一种用于控制可变焦距透镜(10)的方法,该可变焦距透镜(10)包括能够通过施加控制电压(V)通过改变电润湿特性而变形的屈光度(28),其中焦距值对应于 在稳定状态下的给定控制电压,所述方法包括: - 在施加与第一焦距值(f 1)之间的转变期间, > 1 )和对应于第二焦距值(f 2/2)的第二控制电压(V SUB 2)),控制电压不同于 第一和第二控制电压和根据取决于第一和第二控制电压的给定轮廓而改变。
    • 7. 发明申请
    • LIQUID LENS WITH FOUR LIQUIDS
    • 液体镜片与四液体
    • WO2008015164A1
    • 2008-02-07
    • PCT/EP2007/057747
    • 2007-07-27
    • VARIOPTICBERGE, BrunoCRAEN, PierreLECLERC, Christophe
    • BERGE, BrunoCRAEN, PierreLECLERC, Christophe
    • G02B1/06G02B3/14
    • G02B3/14G02B26/004G02B26/005
    • The invention concerns a variable focus liquid lens (400) comprising a structure forming first and second chambers, an optical path through said lens passing through both chambers, said first chamber containing a first insulating liquid (401) and a first conducting liquid (402), said first liquids being immiscible and forming a single refractive interface (406) and said second chamber containing a second insulating liquid (404) and a second conducting liquid (403), said second liquids being immiscible and forming a single refractive interface (408), the curvature of the refractive interfaces between the first and second liquids being variable by electrowetting by application of voltages to a plurality of electrodes, wherein the first and second chambers are separated by a partition (413) traversing said optical path, said partition being transparent in the region of said optical path, and comprising a first electrode (416, 422) of said plurality of electrodes arranged to contact one of said first and second conducting liquids.
    • 本发明涉及一种包括形成第一和第二室的结构的可变焦距液体透镜(400),穿过所述透镜的光路穿过两个室,所述第一室包含第一绝缘液体(401)和第一导电液体(402) 所述第一液体是不混溶的并且形成单个折射界面(406),所述第二腔室包含第二绝缘液体(404)和第二导电液体(403),所述第二液体是不混溶的并形成单个折射界面(408) 通过向多个电极施加电压,第一和第二液体之间的折射界面的曲率可通过电润湿而变化,其中第一和第二腔室通过穿过所述光路的分隔物(413)分隔开,所述隔板是透明的 在所述光路的区域中,并且包括布置成接触其中之一的所述多个电极的第一电极(416,422) 第一和第二导电液体。
    • 9. 发明申请
    • IMAGE STABILIZATION CIRCUITRY FOR LIQUID LENS
    • 图像稳定电路用于液晶镜头
    • WO2009074684A1
    • 2009-06-18
    • PCT/EP2008/067464
    • 2008-12-12
    • VARIOPTICBERGE, BrunoMAILLARD, MathieuVERPLANCK, Nicolas
    • BERGE, BrunoMAILLARD, MathieuVERPLANCK, Nicolas
    • G02B3/14G02B26/02G02B27/64
    • G02B3/14G02B26/005G02B27/646H04N5/2254H04N5/23248H04N5/23258H04N5/23287
    • A method of controlling a liquid lens in an imaging device, the liquid lens including a liquid-liquid interface between first and second immiscible liquids deformable by electrowetting; a chamber containing the first and second liquids, the first liquid being an insulating liquid and the second liquid being a conducting liquid; and a first electrode in contact with the second liquid and at least one second electrode insulated from the second liquid by an insulating layer, the first and second electrodes being arranged to allow a plurality of voltages levels to be applied between the first and second electrodes to control the curvature of the liquid-liquid interface, the method including: determining motion data representative of a movement of the imaging device; determining focusing data representative of a desired focus of the imaging device; determining the plurality of voltage levels to be applied between the first and second electrodes, wherein each of the voltage levels is a function of the motion data, the focusing data and at least one parameter relating to the liquid lens and preliminary determined in a calibration phase.
    • 一种控制成像装置中的液体透镜的方法,所述液体透镜包括通过电润湿可变形的第一和第二不混溶液之间的液 - 液界面; 包含第一和第二液体的腔室,第一液体是绝缘液体,第二液体是导电液体; 以及与第二液体接触的第一电极和通过绝缘层与第二液体绝缘的至少一个第二电极,第一和第二电极被布置成允许在第一和第二电极之间施加多个电压电平, 控制液 - 液界面的曲率,该方法包括:确定表示成像装置的运动的运动数据; 确定表示所述成像装置的所需焦点的聚焦数据; 确定要在第一和第二电极之间施加的多个电压电平,其中每个电压电平是运动数据,聚焦数据和与液体透镜相关的至少一个参数的函数,并且在校准阶段中初步确定 。