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    • 1. 发明申请
    • Image Detection System and Method For Production at Least One Image Detection System
    • 图像检测系统及最小图像检测系统的生产方法
    • US20090179142A1
    • 2009-07-16
    • US12223024
    • 2007-01-23
    • Jacques DuparrePeter DannbergAndreas BruecknerAndreas Braeuer
    • Jacques DuparrePeter DannbergAndreas BruecknerAndreas Braeuer
    • H01L27/146B23P17/00H01L21/00
    • G02B3/0056G02B3/0031H01L27/14603H01L27/14627H04N5/2254H04N5/335Y10T29/49002
    • According to the invention, the image detection system contains optical channels arranged one next to the other with a respectively assigned microlens with aperture and in each case at least one detector located in the image plane, wherein the detectors are arranged such that the directions of the optical axes, which form in each case the connecting lines between lens apices and centre of the detectors, represent a function of the position of the respective optical channel, wherein at least one aperture stop arrangement (4) is provided between the microlenses (1′) with aperture (2′) and the detectors (6′, 8), wherein the distance between centres of the aperture stops (4′) is located between the distance between apices of the microlenses (1′) and distance between centres of the detectors (6′, 8) such that, depending on the position of the channels, the aperture stops (4′) are arranged with different offsets to the microlenses (1′) and the detectors (6′, 8) and are in each case located on a straight line with them.
    • 根据本发明,图像检测系统包含彼此相邻布置的光通道,其中分配的具有孔径的微透镜和每种情况下至少一个位于图像平面中的检测器,其中检测器布置成使得检测器的方向 在每种情况下形成透镜顶点和检测器中心之间的连接线的光轴表示相应光学通道的位置的函数,其中至少一个孔径光阑装置(4)设置在微透镜(1')之间, )与孔(2')和检测器(6',8),其中孔径中心之间的距离(4')位于微透镜(1')的顶点之间的距离和距离 检测器(6',8),使得根据通道的位置,孔径光阑(4')以不同的偏移被布置到微透镜(1')和检测器(6',8),并且在每个 案例位于o 与他们直线。
    • 2. 发明授权
    • Image detection system of optical channels arranged next to one another
    • 相邻的光通道图像检测系统
    • US07897903B2
    • 2011-03-01
    • US12223024
    • 2007-01-23
    • Jacques DuparrePeter DannbergAndreas BruecknerAndreas Braeuer
    • Jacques DuparrePeter DannbergAndreas BruecknerAndreas Braeuer
    • H01L27/00H01J3/14H04N5/225
    • G02B3/0056G02B3/0031H01L27/14603H01L27/14627H04N5/2254H04N5/335Y10T29/49002
    • According to the invention, the image detection system contains optical channels arranged one next to the other with a respectively assigned microlens with aperture and in each case at least one detector located in the image plane, wherein the detectors are arranged such that the directions of the optical axes, which form in each case the connecting lines between lens apices and centre of the detectors, represent a function of the position of the respective optical channel, wherein at least one aperture stop arrangement (4) is provided between the microlenses (1′) with aperture (2′) and the detectors (6′, 8), wherein the distance between centres of the aperture stops (4′) is located between the distance between apices of the microlenses (1′) and distance between centres of the detectors (6′, 8) such that, depending on the position of the channels, the aperture stops (4′) are arranged with different offsets to the microlenses (1′) and the detectors (6′, 8) and are in each case located on a straight line with them.
    • 根据本发明,图像检测系统包含彼此相邻布置的光通道,其中分配的具有孔径的微透镜和每种情况下至少一个位于图像平面中的检测器,其中检测器布置成使得检测器的方向 在每种情况下形成透镜顶点和检测器中心之间的连接线的光轴表示相应光学通道的位置的函数,其中至少一个孔径光阑装置(4)设置在微透镜(1')之间, )与孔(2')和检测器(6',8),其中孔径中心之间的距离(4')位于微透镜(1')的顶点之间的距离和距离 检测器(6',8),使得根据通道的位置,孔径光阑(4')以不同的偏移被布置到微透镜(1')和检测器(6',8)并且在e ach案子与他们直线。
    • 3. 发明授权
    • Method and apparatus for producing a structure, molding tool
    • 用于生产结构,成型工具的方法和装置
    • US08945458B2
    • 2015-02-03
    • US13314904
    • 2011-12-08
    • Frank WippermannJacques DuparrePeter DannbergAndreas Braeuer
    • Frank WippermannJacques DuparrePeter DannbergAndreas Braeuer
    • B28B7/06B29D11/00B29C37/00B29C33/40B29C35/08
    • B29D11/00442B29C33/405B29C35/0894B29C37/005B29C2035/0827B29D11/00153
    • A method of producing a structure from curable material by molding includes arranging a molding tool above a surface, so that in a region between the molding tool and the surface, the curable material adjoins the surface and a molding face of the molding tool which faces the surface, and so that additional curable material may continue to flow into the region. The method further includes irradiating the curable material in the region in a locally varying manner, so that the curable material cures at different speeds in a laterally varying manner and that shrinkages occurring during curing of the curable material are compensated for by the additional curable material. The method further includes applying a constant pressure to the additional curable material. Moreover, a second method and an apparatus for producing a structure from curable material by molding and a molding tool for an optical component are described.
    • 通过模制从可固化材料制造结构的方法包括在模制工具和表面之间的区域中设置模具,使得可模制工具与表面之间的区域相邻,模制工具的面向 表面,并且使得附加的可固化材料可以继续流入该区域。 该方法还包括以局部变化的方式在区域中照射可固化材料,使得可固化材料以横向变化的方式以不同的速度固化,并且可固化材料的固化期间发生的收缩由附加的可固化材料补偿。 该方法还包括向附加的可固化材料施加恒定的压力。 此外,描述了通过模制由可固化材料制造结构的第二种方法和装置以及用于光学部件的模制工具。
    • 5. 发明申请
    • Method and Apparatus for Producing a Structure, Molding Tool
    • 用于生产结构,成型工具的方法和装置
    • US20120175796A1
    • 2012-07-12
    • US13314904
    • 2011-12-08
    • Frank WippermannJacques DuparrePeter DannbergAndreas Braeuer
    • Frank WippermannJacques DuparrePeter DannbergAndreas Braeuer
    • G02B1/12B29C45/00
    • B29D11/00442B29C33/405B29C35/0894B29C37/005B29C2035/0827B29D11/00153
    • A method of producing a structure from curable material by molding includes arranging a molding tool above a surface, so that in a region between the molding tool and the surface, the curable material adjoins the surface and a molding face of the molding tool which faces the surface, and so that additional curable material may continue to flow into the region. The method further includes irradiating the curable material in the region in a locally varying manner, so that the curable material cures at different speeds in a laterally varying manner and that shrinkages occurring during curing of the curable material are compensated for by the additional curable material. The method further includes applying a constant pressure to the additional curable material. Moreover, a second method and an apparatus for producing a structure from curable material by molding and a molding tool for an optical component are described.
    • 通过模制从可固化材料制造结构的方法包括在模制工具和表面之间的区域中设置模具,使得可模制工具与表面之间的区域相邻,模制工具的面向 表面,并且使得附加的可固化材料可以继续流入该区域。 该方法还包括以局部变化的方式在区域中照射可固化材料,使得可固化材料以横向变化的方式以不同的速度固化,并且可固化材料的固化期间发生的收缩由附加的可固化材料补偿。 该方法还包括向附加的可固化材料施加恒定的压力。 此外,描述了通过模制由可固化材料制造结构的第二种方法和装置以及用于光学部件的模制工具。
    • 10. 发明授权
    • Device, image processing device and method for optical imaging
    • 光学成像装置,图像处理装置及方法
    • US08629930B2
    • 2014-01-14
    • US13074089
    • 2011-03-29
    • Andreas BruecknerJacques DuparréFrank WippermannPeter DannbergAndreas Braeuer
    • Andreas BruecknerJacques DuparréFrank WippermannPeter DannbergAndreas Braeuer
    • H04N5/225
    • H04N5/2254G02B3/0056H04N5/23229H04N5/3572
    • An optical device for imaging is disclosed having at least one micro lens field with at least two micro lenses and one image sensor with at least two image detector matrices. The at least two image detector matrices each include a plurality of image detectors and there is an allocation between the image detector matrices and the micro lenses, so that each micro lens together with an image detector matrix forms an optical channel. The center points of the image detector matrices are shifted laterally by different distances, with respect to centroids, projected onto the image detector matrices, of the micro lens apertures of the associated optical channels, so that the optical channels have different partially overlapping detection areas and so that an overlapping area of the detection areas of two channels is imaged onto the image detector matrices offset with respect to an image detector raster of the image detector matrices. Further, an image processing device and a method for optical imaging are described.
    • 公开了一种用于成像的光学装置,其具有至少一个具有至少两个微透镜的微透镜场和具有至少两个图像检测器矩阵的一个图像传感器。 所述至少两个图像检测器矩阵各自包括多个图像检测器,并且在图像检测器矩阵和微透镜之间存在分配,使得每个微透镜与图像检测器矩阵一起形成光学通道。 图像检测器矩阵的中心点相对于投射到相关联的光通道的微透镜孔径的图像检测器矩阵上的质心横向偏移不同的距离,使得光学通道具有不同的部分重叠的检测区域, 使得两个通道的检测区域的重叠区域被成像到相对于图像检测器矩阵的图像检测器光栅偏移的图像检测器矩阵上。 此外,描述了一种用于光学成像的图像处理装置和方法。