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    • 2. 发明申请
    • METHOD AND DEVICE FOR ALGINING A LENS WITH AN OPTICAL SYSTEM
    • 用于用光学系统绘制镜头的方法和装置
    • US20120113413A1
    • 2012-05-10
    • US13384143
    • 2009-08-11
    • Cyril Miahczylowicz-WolskiJean-Pierre Lusinchi
    • Cyril Miahczylowicz-WolskiJean-Pierre Lusinchi
    • G01M11/02
    • G02B27/62G01M11/0221G02B7/023G02B13/0015
    • The invention comprises a process for pre-aligning a lens with an optical system, the process comprising: providing a lens and an optical system having an optical axis, wherein the lens is apt to be aligned with the optical system to form on an image plane an image of a source object, the image having top, bottom, left and right edges; coarsely positioning the lens with respect to the optical system; and in a plane normal to the optical axis of the optical system, correcting the position of the lens until the values of four Combination Modulation Transfer Functions (C-MTF) are in predetermined ranges, the C-MTF being calculated at four coarse measurement locations situated close to the edges of the image along two coarse positioning axes crossing the center of the image, each for a combination pattern comprising a combination of a Sagittal pattern and a Tangential pattern.
    • 本发明包括一种用于使镜片与光学系统预对准的方法,该方法包括:提供具有光轴的透镜和光学系统,其中透镜易于与光学系统对齐以在图像平面上形成 源对象的图像,图像具有顶部,底部,左侧和右侧边缘; 相对于光学系统粗略地定位透镜; 并且在与光学系统的光轴垂直的平面中,校正透镜的位置直到四个组合调制传递函数(C-MTF)的值在预定范围内,则在四个粗测量位置处计算C-MTF 位于靠近图像中心的两个粗定位轴附近的图像边缘,每一个用于包括矢状图案和切向图案的组合的组合图案。
    • 4. 发明授权
    • Lens module for image capture
    • 用于图像捕获的镜头模块
    • US09354424B2
    • 2016-05-31
    • US13825581
    • 2010-09-28
    • Xiaoxiong QiuJean-Pierre Lusinchi
    • Xiaoxiong QiuJean-Pierre Lusinchi
    • G02B13/00G02B9/06G02B9/08
    • G02B13/003G02B9/06G02B9/08
    • A lens module (10) for image capture comprises a first positive meniscus lens (16) having a focal length F1 and comprising a first convex optical surface (18) facing the object side (12), and a second concave optical surface (20) facing the image side (14), and a second positive meniscus lens (22) having a focal length F2 and comprising a third concave optical surface (24) facing the object side (12), and a fourth convex optical surface (26) facing the image side (14). The four surfaces follow the equations: Zi=CURViYi2/(1+(1−(1−Ki)CURVi2Yi2)1/2)+(Ai)Yi2+(Bi)Yi4+(Ci)Yi6+(Di)Yi8 and Mi=1−(1+Ki)(CURVi)2(Ri)2 wherein: i is the surface number, Ki is the conic constant of the i-th surface, CURVi is the curvature of the i-th surface at the optical axis, Ai, Bi, Ci, and Di are aspheric coefficients of the i-th surface, and Ri is the effective radius of the aperture of the i-th surface. The following relations can be satisfied: 0.70
    • 一种用于图像拍摄的透镜模块(10)包括具有焦距F1并包括面向物体侧(12)的第一凸面光学表面(18)的第一正弯月透镜(16)和第二凹面光学表面(20) 以及具有焦距F2并包括面向物体侧(12)的第三凹面光学表面(24)的第二正弯月形透镜(22)以及面对像侧(14)的第四凸面光学表面(26) 图像侧(14)。 四个表面遵循以下等式:Zi = CURViYi2 /(1+(1-(1-Ki)CURVi2Yi2)1/2)+(Ai)Yi2 +(Bi)Yi4 +(Ci)Yi6 +(Di)Yi8和Mi = (1 + Ki)(CURVi)2(Ri)2其中:i是表面数,Ki是第i个表面的圆锥常数,CURVi是第i个表面在光轴处的曲率,Ai, Bi,Ci和Di是第i个表面的非球面系数,Ri是第i个表面的孔径的有效半径。 可以满足以下关系:0.70
    • 5. 发明授权
    • Method and device for aligning a lens with an optical system
    • 将透镜与光学系统对准的方法和装置
    • US08773652B2
    • 2014-07-08
    • US13384143
    • 2009-08-11
    • Cyril Miahczylowicz-WolskiJean-Pierre Lusinchi
    • Cyril Miahczylowicz-WolskiJean-Pierre Lusinchi
    • G01M11/00G01B11/00
    • G02B27/62G01M11/0221G02B7/023G02B13/0015
    • The invention comprises a process for pre-aligning a lens with an optical system, the process comprising: providing a lens and an optical system having an optical axis, wherein the lens is apt to be aligned with the optical system to form on an image plane an image of a source object, the image having top, bottom, left and right edges; coarsely positioning the lens with respect to the optical system; and in a plane normal to the optical axis of the optical system, correcting the position of the lens until the values of four Combination Modulation Transfer Functions (C-MTF) are in predetermined ranges, the C-MTF being calculated at four coarse measurement locations situated close to the edges of the image along two coarse positioning axes crossing the center of the image, each for a combination pattern comprising a combination of a Sagittal pattern and a Tangential pattern.
    • 本发明包括一种用于使镜片与光学系统预对准的方法,该方法包括:提供具有光轴的透镜和光学系统,其中透镜易于与光学系统对齐以在图像平面上形成 源对象的图像,图像具有顶部,底部,左侧和右侧边缘; 相对于光学系统粗略地定位透镜; 并且在与光学系统的光轴垂直的平面中,校正透镜的位置直到四个组合调制传递函数(C-MTF)的值在预定范围内,则在四个粗测量位置处计算C-MTF 位于靠近图像中心的两个粗定位轴附近的图像边缘,每一个用于包括矢状图案和切向图案的组合的组合图案。
    • 6. 发明申请
    • Lens Module for Image Capture
    • 镜头模块用于图像捕获
    • US20130222928A1
    • 2013-08-29
    • US13825586
    • 2011-03-18
    • Xiaoxiong QiuJean-Pierre Lusinchi
    • Xiaoxiong QiuJean-Pierre Lusinchi
    • G02B9/06
    • G02B13/003G02B9/06G02B9/08
    • An optical module comprises: a first positive meniscus lens having a focal length F1 and comprising a first convex optical surface facing an object side, and a second concave optical surface facing an image side; a second positive meniscus lens having a focal length F2 and comprising a third concave optical surface facing the object side, and a fourth convex optical surface facing the image side. The four surfaces follow the curvature equation: Zi=CURViYi2/(1+(1−(1+Ki)CURVi2Yi2)1/2)+(Ai)Yi2+(Bi)Yi4+(Ci)Yi6+(Di)Yi8 with Mi=1−(1+Ki)(CURVi)2(Ri)2 where: i is the surface number, Ki is the conic constant of the i-th surface; CURVi is the curvature of the i-th surface at the optical axis; Ai, Bi, Ci, Di, are aspheric coefficients of the i-th surface; Ri is the effective radius of aperture of the i-th surface. The following relations are satisfied: 0.60
    • 光学模块包括:第一正弯月形透镜,具有焦距F1并且包括面向物体侧的第一凸形光学表面和面向像侧的第二凹形光学表面; 具有焦距F2并包括面向物体侧的第三凹面光学表面的第二正弯月透镜和面向像侧的第四凸形光学表面。 四个表面遵循曲率方程:Zi = CURViYi2 /(1+(1-(1 + Ki)CURVi2Yi2)1/2)+(Ai)Yi2 +(Bi)Yi4 +(Ci)Yi6 +(Di)Yi8,Mi = 1 - (1 + Ki)(CURVi)2(Ri)2其中:i是表面数,Ki是第i个表面的圆锥常数; CURVi是第i个表面在光轴处的曲率; Ai,Bi,Ci,Di是第i个表面的非球面系数; Ri是第i个表面的孔径的有效半径。 满足以下关系:0.60
    • 10. 发明申请
    • Lens Module for Image Capture
    • 镜头模块用于图像捕获
    • US20130215498A1
    • 2013-08-22
    • US13825581
    • 2010-09-28
    • Xiaoxiong QuiJean-Pierre Lusinchi
    • Xiaoxiong QuiJean-Pierre Lusinchi
    • G02B13/00
    • G02B13/003G02B9/06G02B9/08
    • A lens module (10) for image capture comprises a first positive meniscus lens (16) having a focal length F1 and comprising a first convex optical surface (18) facing the object side (12), and a second concave optical surface (20) facing the image side (14), and a second positive meniscus lens (22) having a focal length F2 and comprising a third concave optical surface (24) facing the object side (12), and a fourth convex optical surface (26) facing the image side (14). The four surfaces follow the Equations: Zi=CURVi Yi2/(1+(1−(1−Ki) CURVi2 Yi2)1/2)+(Ai) Yi2+(Bi) Yi4+(Ci) Yi6+(Di) Yi8 and Mi=1−(1+Ki)(CURVi)2(Ri)2 wherein: i is the surface number, Ki is the conic constant of the i-th surface, CURVi is the curvature of the i-th surface at the optical axis, Ai, Bi, Ci, and Di are aspheric coefficients of the i-th surface, and Ri is the effective radius of the aperture of the i-th surface. The following relations can be satisfied: 0.70
    • 一种用于图像拍摄的透镜模块(10)包括具有焦距F1并包括面向物体侧(12)的第一凸面光学表面(18)的第一正弯月透镜(16)和第二凹面光学表面(20) 以及具有焦距F2并包括面向物体侧(12)的第三凹面光学表面(24)的第二正弯月形透镜(22)以及面对像侧(14)的第四凸面光学表面(26) 图像侧(14)。 四个表面遵循方程:Zi = CURVi Yi2 /(1+(1-(1-Ki)CURVi2 Yi2)1/2)+(Ai)Yi2 +(Bi)Yi4 +(Ci)Yi6 +(Di)Yi8和Mi = 1-(1 + Ki)(CURVi)2(Ri)2其中:i是表面数,Ki是第i个表面的圆锥常数,CURVi是第i个表面在光轴处的曲率, Ai,Bi,Ci和Di是第i个表面的非球面系数,Ri是第i个表面的孔径的有效半径。 可以满足以下关系:0.70