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    • 2. 发明授权
    • Method and apparatus for augmenting and correcting mobile camera optics on a mobile device
    • 用于在移动设备上增强和校正移动照相机光学元件的方法和装置
    • US09232129B2
    • 2016-01-05
    • US14094401
    • 2013-12-02
    • Nvidia Corporation
    • Christen Pedersen
    • H04N5/232G02B7/16G02B15/06G02B15/10
    • H04N5/23212G02B7/16G02B15/06G02B15/10H04N5/2254H04N5/23203
    • Embodiments of the present invention utilize an attachable lens board that can be secured to the back of a mobile device and placed in a position that is proximate to the built-in camera lens associated with the camera system of the mobile device. As such, the lens board can be positioned to accurately align several different auxiliary camera lenses, each installed within various camera lens receivers formed within the lens board, with the built-in camera lens for focusing and/or image capture. Additionally, embodiments of present invention can include circuitry within the lens board that can be used to identify the types of lenses currently installed within each camera lens receiver. In this manner, embodiments of the present invention can correct possible optical imperfections of resultant images produced by the combination of the built-in camera lens and auxiliary lens selected for focusing and/or image capture by the user.
    • 本发明的实施例利用可固定到移动设备背面的可附接透镜板,并将其放置在与移动设备的相机系统相关联的内置相机镜头附近的位置。 因此,透镜板可以被定位成精确对准几个不同的辅助相机镜头,每个不同的辅助相机镜头安装在形成在镜片板内的各种相机镜头接收器内,并具有用于聚焦和/或图像拍摄的内置相机镜头。 此外,本发明的实施例可以包括透镜板内的电路,其可用于识别当前安装在每个相机镜头接收器内的透镜的类型。 以这种方式,本发明的实施例可以校正由用户聚焦和/或图像拍摄选择的内置相机镜头和辅助镜头组合产生的合成图像的可能光学缺陷。
    • 6. 发明授权
    • Afocal Galilean attachment lens with high pupil magnification
    • 非焦距伽利略附件镜头具有高瞳孔放大率
    • US07808718B2
    • 2010-10-05
    • US12387001
    • 2009-04-27
    • James A. FrazierJ. Brian Caldwell
    • James A. FrazierJ. Brian Caldwell
    • G02B15/06G02B13/00
    • G02B27/0081G02B13/04
    • An afocal Galilean attachment lens is disclosed, with the lens comprising, along an optical axis, a first lens group with overall negative optical power and a second lens group with overall positive power. The first and second lens groups are arranged to define a Galilean configuration. The lens also has exit and an entrance pupils with respective diameters DEX and DEN that define a pupil magnification PM=DEX/DEN>4 and in some embodiments PM>10. The afocal Galilean attachment lens also has a length parameter defined LP>200 and in some embodiments LP>700. The extreme length of the afocal Galilean attachment allows for photographing or filming objects that are remote or otherwise hard to photograph while also providing a relatively large depth of field.
    • 公开了一种非焦距伽利略附件透镜,透镜包括沿光轴的具有总体负光焦度的第一透镜组和具有总体正光焦度的第二透镜组。 第一和第二透镜组被布置以限定伽利略配置。 透镜还具有出口和具有各自直径DEX和DEN的入射光瞳,其限定瞳孔放大率PM = DEX / DEN> 4,并且在一些实施例中PM> 10。 非焦距伽利略附件透镜还具有限定的长度参数LP> 200,在一些实施例中,LP> 700。 无焦距伽利略附件的极限长度允许拍摄或拍摄遥控或其他难以拍摄的物体,同时还提供相对较大的景深。
    • 8. 发明授权
    • Optical system
    • 光学系统
    • US4078857A
    • 1978-03-14
    • US703842
    • 1976-07-09
    • Otto KantnerPeter Revy VON Belvard
    • Otto KantnerPeter Revy VON Belvard
    • G02B7/105G02B7/04G02B13/18G02B15/06G02B15/14G02B15/22G02B15/24G02B15/26
    • G02B13/18G02B15/06G02B15/14G02B15/22
    • A zoom lens system having slidable lens elements wherein in a first, zoom mode a first mechanical control means is provided for moving the slidable lens elements in accordance with a first law wherein the images of different magnifications of objects lying beyond a predetermined distance from the zoom lens may be focussed in the image plane, and a second macro mode wherein mechanical means are provided for moving the movable lens elements in accordance with a second law such that images of different magnification of an object nearer to the zoom lens than the first predetermined distance may be focused in the image plane. The first and second control means, in one embodiment, are arranged and formed on a common carrier structure. Control means are provided for enabling the focal length to be varied at any of two or more macro regions or planes.
    • 一种具有可滑动透镜元件的变焦透镜系统,其中,在第一变焦模式中,设置有第一机械控制装置,用于根据第一定律移动可滑动透镜元件,其中物体的不同放大倍数的图像超出距放大预定距离 透镜可以被聚焦在图像平面中,而第二微距模式,其中提供机械装置以根据第二定律移动可移动透镜元件,使得比第一预定距离更接近变焦透镜的物体的不同放大倍数的图像 可能会聚焦在图像平面中。 在一个实施例中,第一和第二控制装置被布置和形成在公共载体结构上。 提供控制装置,用于使焦距在两个或多个宏区域或平面中的任何一个处改变。