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    • 2. 发明授权
    • Imaging Device
    • 成像设备
    • US07236304B2
    • 2007-06-26
    • US10578226
    • 2004-11-04
    • Hiroaki OkayamaMichihiro YamagataKazutake BokuYasuhiro TanakaKenichi HayashiYoshimasa FushimiShigeki MurataTakayuki Hayashi
    • Hiroaki OkayamaMichihiro YamagataKazutake BokuYasuhiro TanakaKenichi HayashiYoshimasa FushimiShigeki MurataTakayuki Hayashi
    • G02B27/10G02B13/16H04N5/225H04N5/222
    • G02B3/0056G02B27/0018H04N5/2254
    • There is provided an imaging device which is small in light loss, is operable to suppress an occurrence of a stray light, and is operable to provide an image with a high quality as far as a periphery thereof. The imaging device operable to output an image of an object as an electrical image signal, comprising: a solid-state imaging sensor including pixels which are two dimensionally arranged on a first flat surface and each of which has a photo-electric conversion function; and a lens array including micro lenses two dimensionally arranged on a second flat surface separately provided so as to be parallel to the first flat surface, in which the solid-state imaging sensor includes an imaging area of unit including a plurality of pixels, and each of the micro lenses forms an optical image of the object on a corresponding imaging area of unit and satisfies a predetermined condition, arctan(L/f)≦θ, for a pixel, from among pixels included in an imaging area of unit corresponding to each micro lens, positioned farthest from an optical axis of a corresponding micro lens. Here, θ is a maximum angle of an incident light capable of entering a pixel, f is a focal length of a micro lens, and L is a diameter of a circle circumscribing an imaging area of unit corresponding to one of the micro lenses.
    • 提供了一种光损失小的成像装置,可操作地抑制杂散光的发生,并且可操作以提供具有高质量的图像至其周边。 该成像装置可操作以输出物体的图像作为电图像信号,包括:固态成像传感器,其包括二维排列在第一平面上并具有光电转换功能的像素; 以及透镜阵列,其包括二维布置在分别设置成平行于所述第一平坦表面的第二平坦表面上的微透镜,其中所述固态成像传感器包括包括多个像素的单元的成像区域,并且每个 的微透镜在单元的对应成像区域上形成物体的光学图像,并且满足预定条件,对于像素,从包括在对应于单元的单元的成像区域中的像素中的像素的arctan(L / f)<= 每个微透镜被定位成最远离相应微透镜的光轴。 这里,θ是能够进入像素的入射光的最大角度,f是微透镜的焦距,L是围绕与微透镜之一对应的单位的成像区域的圆的直径。
    • 5. 发明申请
    • Imaging device
    • 成像设备
    • US20070091197A1
    • 2007-04-26
    • US10578226
    • 2004-11-04
    • Hiroaki OkayamaMichihiro YamagataKazutake BokuYasuhiro TanakaKenichi HayashiYoshima FushimiShigeki MurataTakayuki Hayashi
    • Hiroaki OkayamaMichihiro YamagataKazutake BokuYasuhiro TanakaKenichi HayashiYoshima FushimiShigeki MurataTakayuki Hayashi
    • H04N5/225
    • G02B3/0056G02B27/0018H04N5/2254
    • There is provided an imaging device which is small in light loss, is operable to suppress an occurrence of a stray light, and is operable to provide an image with a high quality as far as a periphery thereof. The imaging device operable to output an image of an object as an electrical image signal, comprising: a solid-state imaging sensor including pixels which are two dimensionally arranged on a first flat surface and each of which has a photo-electric conversion function; and a lens array including micro lenses two dimensionally arranged on a second flat surface separately provided so as to be parallel to the first flat surface, in which the solid-state imaging sensor includes an imaging area of unit including a plurality of pixels, and each of the micro lenses forms an optical image of the object on a corresponding imaging area of unit and satisfies a predetermined condition, arctan(L/f)≦θ, for a pixel, from among pixels included in an imaging area of unit corresponding to each micro lens, positioned farthest from an optical axis of a corresponding micro lens. Here, θ is a maximum angle of an incident light capable of entering a pixel, f is a focal length of a micro lens, and L is a diameter of a circle circumscribing an imaging area of unit corresponding to one of the micro lenses.
    • 提供了一种光损失小的成像装置,可操作地抑制杂散光的发生,并且可操作以提供具有高质量的图像至其周边。 该成像装置可操作以输出物体的图像作为电图像信号,包括:固态成像传感器,其包括二维排列在第一平面上并具有光电转换功能的像素; 以及透镜阵列,其包括二维布置在分别设置成平行于所述第一平坦表面的第二平坦表面上的微透镜,其中所述固态成像传感器包括包括多个像素的单元的成像区域,并且每个 的微透镜在单元的对应成像区域上形成物体的光学图像,并且满足预定条件,对于像素,从包括在对应于单元的单元的成像区域中的像素中的像素的arctan(L / f)<= 每个微透镜被定位成最远离相应微透镜的光轴。 这里,θ是能够进入像素的入射光的最大角度,f是微透镜的焦距,L是围绕与微透镜之一对应的单位的成像区域的圆的直径。
    • 7. 发明授权
    • Imaging apparatus and method for manufacturing microlens array
    • 用于制造微透镜阵列的成像装置和方法
    • US07894139B2
    • 2011-02-22
    • US10570051
    • 2005-04-26
    • Michihiro YamagataKenichi HayashiHiroaki Okayama
    • Michihiro YamagataKenichi HayashiHiroaki Okayama
    • G02B27/10
    • H01L27/14685H01L27/14627
    • An imaging device (3) including a plurality of pixels (3a) having a photoelectric conversion function, and a microlens array (1) including a plurality of microlenses (1a) that form subject images on these plurality of pixels (3a) and are arranged in a matrix are disposed so as to face each other. The microlens array (1) includes grooves (20) in a lattice form between the microlenses (1a) that are adjacent to each other. The depth of the grooves (20) is larger than a half of the thickness of the microlens array (1). Accordingly, it is possible to achieve an imaging apparatus that is easy to manufacture, has a simplified configuration and can capture a clear image and in which an influence of stray light and cross talk are reduced sufficiently.
    • 包括具有光电转换功能的多个像素(3a)的成像装置(3)和包括在这多个像素(3a)上形成被摄体图像的多个微透镜(1a)的微透镜阵列(1) 在矩阵中被布置为彼此面对。 微透镜阵列(1)包括在彼此相邻的微透镜(1a)之间格子状的凹槽(20)。 凹槽(20)的深度大于微透镜阵列(1)的厚度的一半。 因此,可以实现易于制造的成像装置,具有简化的构造并且可以捕获清晰的图像,并且其中杂散光和串扰的影响被充分降低。
    • 10. 发明授权
    • Wide-angle image generating device
    • 广角图像生成装置
    • US07312810B2
    • 2007-12-25
    • US10477685
    • 2002-05-20
    • Kenichi HayashiYasushi SogabeShigeki Murata
    • Kenichi HayashiYasushi SogabeShigeki Murata
    • H04N7/00G02B13/16
    • H04N5/23238H04N5/2259H04N5/2628
    • In a wide-angle image-generating device for obtaining a developed image by picking up a wide-angle image of about ±90 degrees using a reflecting mirror having a rotary-symmetrical convex shape, and performing computational processing, the contents of the developed image thus obtained are tilted by the amount commensurate with the inclination of the central rotational axis of the reflecting plane, which produces the drawback of giving a sense of discomfort to the viewer when the central rotational axis of the reflecting plane is tilted from a vertical direction within a plane perpendicular to a 0-degree direction. In the present invention, an angle sensor (12) is provided in the imaging device for picking up a wide-angle image of about ±90 degrees using a reflecting mirror (1), and the tilt within the plane perpendicular to the 0-degree direction is measured. The resulting value is used to perform development processing and to rotate the developed image by means of the computational processing device (11) so as to make the horizontals of the developed image and the TV monitor (13) conform to each other.
    • 在通过使用具有旋转对称凸形的反射镜拾取约±90度的广角图像来获得显影图像并进行计算处理的广角图像生成装置中,显影图像的内容 由此获得的倾斜量与反射面的中心旋转轴线的倾斜度相当,这产生当反射平面的中心旋转轴线从垂直方向倾斜时给观众带来不适感的缺点, 垂直于0度方向的平面。 在本发明中,在成像装置中设置角度传感器(12),用于使用反射镜(1)拾取约±90度的广角图像,并且垂直于0度的平面内的倾斜 测量方向。 所得到的值用于执行显影处理并通过计算处理装置(11)旋转显影图像,以使显影图像和TV监视器(13)的水平线彼此一致。