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    • 1. 发明授权
    • Electronic imaging apparatus
    • 电子成像装置
    • US07339744B2
    • 2008-03-04
    • US11357338
    • 2006-02-21
    • Masashi HankawaEiji ShirotaKazuteru KawamuraMasahito Watanabe
    • Masashi HankawaEiji ShirotaKazuteru KawamuraMasahito Watanabe
    • G02B15/14
    • G02B15/177G02B5/04G02B23/145
    • An electronic imaging apparatus includes a zoom optical system having, in order from the object side, a first lens unit with negative power and a second lens unit with positive power, in which lens components having refracting power in the first lens unit are only a single biconcave negative lens element located at the most object-side position and a positive lens component located at the most image-side position; an electronic image sensor placed on the image side of the zoom optical system; and an image processing section electrically processing image data obtained by the electronic image sensor to change the shape thereof. The zoom lens system satisfies the following conditions in focusing of a nearly infinite object point: 0.85
    • 一种电子成像装置,包括:变焦光学系统,其具有从物体侧起的具有负电源的第一透镜单元和具有正光焦度的第二透镜单元,其中在第一透镜单元中具有折射能力的透镜部件仅为单个 位于最物体侧位置的双凹面负透镜元件和位于最图像侧位置的正透镜部件; 放置在变焦光学系统的像侧的电子图像传感器; 以及电子处理由电子图像传感器获得的图像数据以改变其形状的图像处理部分。 变焦透镜系统在几乎无限的对象点的聚焦中满足以下条件:<?in-line-formula description =“In-line Formulas”end =“lead”?> 0.85 <| Y <07 &lt;&lt;&lt;&gt;&gt;&lt;&lt;&gt;&lt;&lt;&lt;&gt; ?in-line-formula description =“In-line Formulas”end =“lead”?> 0.75 <| Y /(f 10w )| <0.93 <?in-line-formula description =“In-line Formulas”end =“tail”?>其中f 是整个变焦光学的焦距 系统处于广角位置,y <10>是从电子图像传感器的有效成像表面的中心到距离中心最远的点的距离,y < 是由0.7×10 表示的图像高度,ω-07w是由对应于图像点的对象点的方向所形成的角度,连接有效的 电子图像传感器的成像表面在wi 去角位置和图像高度y <07>的位置与光轴。
    • 2. 发明申请
    • Electronic imaging apparatus
    • 电子成像装置
    • US20060221212A1
    • 2006-10-05
    • US11357338
    • 2006-02-21
    • Masashi HankawaEiji ShirotaKazuteru KawamuraMasahito Watanabe
    • Masashi HankawaEiji ShirotaKazuteru KawamuraMasahito Watanabe
    • H04N5/262
    • G02B15/177G02B5/04G02B23/145
    • An electronic imaging apparatus includes a zoom optical system having, in order from the object side, a first lens unit with negative power and a second lens unit with positive power, in which lens components having refracting power in the first lens unit are only a single biconcave negative lens element located at the most object-side position and a positive lens component located at the most image-side position; an electronic image sensor placed on the image side of the zoom optical system; and an image processing section electrically processing image data obtained by the electronic image sensor to change the shape thereof. The zoom lens system satisfies the following conditions in focusing of a nearly infinite object point: 0.85
    • 一种电子成像装置,包括:变焦光学系统,其具有从物体侧起的具有负电源的第一透镜单元和具有正光焦度的第二透镜单元,其中在第一透镜单元中具有折射能力的透镜部件仅为单个 位于最物体侧位置的双凹面负透镜元件和位于最图像侧位置的正透镜部件; 放置在变焦光学系统的像侧的电子图像传感器; 以及电子处理由电子图像传感器获得的图像数据以改变其形状的图像处理部分。 变焦透镜系统在几乎无限的对象点的聚焦中满足以下条件:<?in-line-formula description =“In-line Formulas”end =“lead”?> 0.85 <| Y <07 &lt;&lt;&lt;&gt;&gt;&lt;&lt;&gt;&lt;&lt;&lt;&gt; ?in-line-formula description =“In-line Formulas”end =“lead”?> 0.75 <| Y /(f 10w )| <0.93 <?in-line-formula description =“In-line Formulas”end =“tail”?>其中f 是整个变焦光学的焦距 系统处于广角位置,y <10>是从电子图像传感器的有效成像表面的中心到距离中心最远的点的距离,y < 是由0.7×10 表示的图像高度,ω-07w是由对应于图像点的对象点的方向所形成的角度,连接有效的 电子图像传感器的成像表面 广角位置和图像高度y <07>的位置与光轴。
    • 3. 发明申请
    • Image-formation lens, and imaging system using the same
    • 图像形成透镜和使用其的成像系统
    • US20050254139A1
    • 2005-11-17
    • US11130176
    • 2005-05-17
    • Toshio TakahashiKazuteru KawamuraMasashi HankawaEiji Shirota
    • Toshio TakahashiKazuteru KawamuraMasashi HankawaEiji Shirota
    • G02B15/20G02B15/14
    • G02B15/14
    • The invention relates to an image-formation lens system well balanced among cost reductions, size reductions and performance improvements and an imaging system incorporating that lens system. The image-formation lens system in the imaging system is a zoom lens system that comprises at least three lens groups including a first lens group G1 of positive power, a second lens group G2 of positive power and a third lens group G3 of negative power, wherein zooming is carried out by varying the spacing between adjacent lens groups. The zoom lens system comprises a total of up to 8 lenses, and satisfies the following conditions: 0.07
    • 本发明涉及在成本降低,尺寸减小和性能改进之间良好平衡的图像形成透镜系统以及并入该透镜系统的成像系统。 成像系统中的图像形成透镜系统是变焦透镜系统,其包括至少三个透镜组,其包括正功率的第一透镜组G 1,正光焦度的第二透镜组G 2和第三透镜组G 3 负功率,其中通过改变相邻透镜组之间的间距来执行变焦。 变焦透镜系统包括总共多达8个透镜,并且满足以下条件:<?in-line-formula description =“In-line formula”end =“lead”?> 0.07 / IH <0.23(1)<?in-line-formula description =“In-line Formulas”end =“tail”?> <?in-line-formula description =“In-line Formulas”end =“lead “?> 1.8 <?in-line-formula description =”In-line Formulas“ end =“lead”?> - 8% <8%(3)<?in-line-formula description =“In-line Formulas”end =“tail”?> 在远摄端的变焦透镜系统的d行和g行之间的后焦点位置之间的差异是IH,在图像平面处的最大图像高度,WideFno和TeleFno是F - 分别在广角端和远摄端的变焦透镜系统的d线处,并且DTL 是在28.0°的视角处的d线失真量 广角端。
    • 5. 发明授权
    • Image-formation lens system, and imaging system using the same
    • 图像形成透镜系统和使用其的成像系统
    • US06934091B2
    • 2005-08-23
    • US10704654
    • 2003-11-12
    • Toshio TakahashiKazuteru KawamuraMasashi HankawaEiji Shirota
    • Toshio TakahashiKazuteru KawamuraMasashi HankawaEiji Shirota
    • G02B15/20G02B15/14
    • G02B15/14
    • The invention relates to an image-formation lens system well balanced among cost reductions, size reductions and performance improvements and an imaging system incorporating that lens system. The image-formation lens system in the imaging system is a zoom lens system that comprises at least three lens groups including a first lens group G1 of positive power, a second lens group G2 of positive power and a third lens group G3 of negative power, wherein zooming is carried out by varying the spacing between adjacent lens groups. The zoom lens system comprises a total of up to 8 lenses, and satisfies the following conditions: 0.07
    • 本发明涉及在成本降低,尺寸减小和性能改进之间良好平衡的图像形成透镜系统以及结合该透镜系统的成像系统。 成像系统中的图像形成透镜系统是变焦透镜系统,其包括至少三个透镜组,其包括正功率的第一透镜组G 1,正光焦度的第二透镜组G 2和第三透镜组G 3 负功率,其中通过改变相邻透镜组之间的间距来执行变焦。 变焦透镜系统包括总共多达8个透镜,并且满足以下条件:<?in-line-formula description =“In-line Formulas”end =“lead”?> 0.07 / IH <0.23(1)<?in-line-formula description =“In-line Formulas”end =“tail”?> <?in-line-formula description =“In-line Formulas”end =“lead “?> 1.8 <?in-line-formula description =”In-line Formulas“ - =“lead”?> - 8% <8%(3)<?in-line-formula description =“In-line Formulas”end =“tail”?> 在远摄端的变焦透镜系统的d行和g行之间的后焦点位置之间的差异是IH,在图像平面处的最大图像高度,WideFno和TeleFno是F - 分别在广角端和远摄端的变焦透镜系统的d线处,并且DTL 是在视角为28.0°的d线失真的量 广角端。
    • 8. 发明申请
    • Electronic image pickup apparatus using zoom lens system
    • 使用变焦透镜系统的电子摄像装置
    • US20080084615A1
    • 2008-04-10
    • US11900309
    • 2007-09-10
    • Masashi HankawaEiji Shirota
    • Masashi HankawaEiji Shirota
    • G02B15/14
    • G02B15/177
    • There is disclosed an electronic image pickup apparatus including an aperture stop disposed on an optical path reflected by a reflective surface of a first lens unit and having a non-circular aperture in a state in which an area of an aperture of the aperture stop is maximized, and a lens arranged closest to an image side on an optical path extending from the reflective surface to an image surface and having a non-circular shape, each of the shape of the non-circular aperture of the aperture stop and the outer shape of the lens is formed such that a length of the aperture which in a direction along an incident optical axis which enters the first lens unit is smaller than that of which in a direction vertical to the incident optical axis which enters the first lens unit and a reflected optical axis reflected by the reflective surface.
    • 公开了一种电子摄像装置,包括设置在由第一透镜单元的反射表面反射的光路上的孔径光阑,并且在孔径光阑的孔径的面积最大化的状态下具有非圆形孔径 以及在从反射面延伸到图像面的光路上最靠近图像侧布置的透镜,并且具有非圆形形状,孔径止动件的非圆形孔的形状和外部形状 透镜被形成为使得沿着入射到第一透镜单元的入射光轴的方向上的孔的长度小于在与入射到第一透镜单元的入射光轴垂直的方向上的孔的长度,并且反射 光轴由反射面反射。
    • 9. 发明授权
    • Zoom optical system and electronic imaging apparatus having the same
    • 变焦光学系统和具有该光学系统的电子成像设备
    • US08159565B2
    • 2012-04-17
    • US12284955
    • 2008-09-25
    • Masashi HankawaEiji ShirotaMasaru Morooka
    • Masashi HankawaEiji ShirotaMasaru Morooka
    • H04N5/262G02B15/14
    • G02B15/173
    • An electronic imaging apparatus includes a zoom optical system having, in order from the object side, a first lens unit with positive power, a second lens unit with negative power, and an aperture stop, in which the first lens unit is composed of a single positive power unit and the second lens unit has a single negative lens element located at the most object-side position, both surfaces of which are concave, and a positive lens component located at the most image-side position; an electronic image sensor located on the image side of the zoom optical system; and an image processing section electrically processing image data obtained by the electronic image sensor to change the form thereof.
    • 一种电子成像装置,包括:变焦光学系统,其具有从物体侧起的具有正光焦度的第一透镜单元,具有负光焦度的第二透镜单元和孔径光阑,其中,第一透镜单元由单个 正电源单元和第二透镜单元具有位于最外侧位置的最靠近物体侧位置的单个负透镜元件,其两个表面均为凹形,并且位于最图像侧位置的正透镜元件; 位于变焦光学系统的像侧的电子图像传感器; 以及电子处理由电子图像传感器获得的图像数据以改变其形式的图像处理部分。
    • 10. 发明授权
    • Electronic image pickup apparatus using zoom lens system
    • 使用变焦透镜系统的电子摄像装置
    • US07561343B2
    • 2009-07-14
    • US11900309
    • 2007-09-10
    • Masashi HankawaEiji Shirota
    • Masashi HankawaEiji Shirota
    • G02B15/14G02B9/08
    • G02B15/177
    • There is disclosed an electronic image pickup apparatus including an aperture stop disposed on an optical path reflected by a reflective surface of a first lens unit and having a non-circular aperture in a state in which an area of an aperture of the aperture stop is maximized, and a lens arranged closest to an image side on an optical path extending from the reflective surface to an image surface and having a non-circular shape, each of the shape of the non-circular aperture of the aperture stop and the outer shape of the lens is formed such that a length of the aperture which in a direction along an incident optical axis which enters the first lens unit is smaller than that of which in a direction vertical to the incident optical axis which enters the first lens unit and a reflected optical axis reflected by the reflective surface.
    • 公开了一种电子摄像装置,包括设置在由第一透镜单元的反射表面反射的光路上的孔径光阑,并且在孔径光阑的孔径的面积最大化的状态下具有非圆形孔径 以及在从反射面延伸到图像面的光路上最靠近图像侧布置的透镜,并且具有非圆形形状,孔径止动件的非圆形孔的形状和外部形状 透镜被形成为使得沿着入射到第一透镜单元的入射光轴的方向上的孔的长度小于在与入射到第一透镜单元的入射光轴垂直的方向上的孔的长度,并且反射 光轴由反射面反射。