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    • 1. 发明授权
    • Lens barrel and image pickup apparatus
    • 镜筒和摄像装置
    • US08462451B2
    • 2013-06-11
    • US13290566
    • 2011-11-07
    • Toshihiro Okuda
    • Toshihiro Okuda
    • G02B7/02G02B15/14
    • G02B7/023G02B7/10G02B7/102G03B3/10G03B17/14G03B2205/0046
    • A lens barrel includes a first cylinder, a second cylinder configured to rotate around an optical axis relative to the first cylinder and to move a lens holding frame holding a lens in an optical axis direction, a force unit arranged outside of the second cylinder, a force relay member arranged outside of the second cylinder and configured to contact the force unit, a first roller fixed to the force relay unit and configured to contact a first surface of the second cylinder, and to transmit a force to the first surface of the second cylinder, the force being applied by the force unit and relayed by the force relay unit; and a second roller fixed to the first cylinder, and configured to contact a second surface inside of the second cylinder, and to restrict a movement of the second cylinder in the optical axis direction by the force.
    • 镜筒包括第一圆柱体,第二圆柱体,其构造成相对于第一圆柱体围绕光轴旋转并且移动在光轴方向上保持透镜的透镜保持框架;布置在第二圆筒外侧的力单元, 力继续构件,其布置在所述第二气缸的外侧并且构造成与所述力单元接触;第一辊,固定到所述力中继单元并且构造成接触所述第二气缸的第一表面,并且将力传递到所述第二气缸的第一表面 气缸,力由力单元施加并由力中继单元中继; 以及第二辊,其固定到所述第一气缸,并且构造成接触所述第二气缸内部的第二表面,并且通过所述力限制所述第二气缸在光轴方向上的移动。
    • 3. 发明申请
    • LENS BARREL AND IMAGE PICKUP APPARATUS
    • 镜头条和图像拾取装置
    • US20120113535A1
    • 2012-05-10
    • US13290566
    • 2011-11-07
    • Toshihiro Okuda
    • Toshihiro Okuda
    • G02B7/02
    • G02B7/023G02B7/10G02B7/102G03B3/10G03B17/14G03B2205/0046
    • A lens barrel includes a first cylinder, a second cylinder configured to rotate around an optical axis relative to the first cylinder and to move a lens holding frame holding a lens in an optical axis direction, a force unit arranged outside of the second cylinder, a force relay member arranged outside of the second cylinder and configured to contact the force unit, a first roller fixed to the force relay unit and configured to contact a first surface of the second cylinder, and to transmit a force to the first surface of the second cylinder, the force being applied by the force unit and relayed by the force relay unit; and a second roller fixed to the first cylinder, and configured to contact a second surface inside of the second cylinder, and to restrict a movement of the second cylinder in the optical axis direction by the force.
    • 镜筒包括第一圆柱体,第二圆柱体,其构造成相对于第一圆柱体围绕光轴旋转并且移动在光轴方向上保持透镜的透镜保持框架;布置在第二圆筒外侧的力单元, 力继续构件,其布置在所述第二气缸的外侧并且构造成与所述力单元接触;第一辊,固定到所述力中继单元并且构造成接触所述第二气缸的第一表面,并且将力传递到所述第二气缸的第一表面 气缸,力由力单元施加并由力中继单元中继; 以及第二辊,其固定到所述第一气缸,并且被构造成接触所述第二气缸内部的第二表面,并且通过所述力限制所述第二气缸在光轴方向上的移动。
    • 4. 发明申请
    • Method of manufacturing semiconductor device
    • 制造半导体器件的方法
    • US20060030119A1
    • 2006-02-09
    • US11184262
    • 2005-07-18
    • Satoshi OnaiToshihiro Okuda
    • Satoshi OnaiToshihiro Okuda
    • H01L21/76
    • H01L29/66272H01L21/763
    • There has heretofore been a problem that a junction leak current between a collector and a base is generated by a crystal defect caused in an end portion of a groove adjacent to a base region. In the present invention, an opening is formed in a silicon oxide film and a TEOS film so as to have a distance from an upper end portion of a groove. Thereafter, a base extraction electrode is formed by utilizing the opening. Subsequently, an external base region is formed by solid phase diffusion from the base extraction electrode. In this event, there is secured a distance between the external base region and the upper end portion of the groove. By use of the manufacturing method described above, it is possible to suppress generation of a junction leak current between a collector and a base.
    • 迄今为止,存在在与基底区域相邻的凹槽的端部处产生的晶体缺陷产生集电体和基底之间的结漏电流的问题。 在本发明中,在氧化硅膜和TEOS膜中形成有与槽的上端部隔开的距离的开口部。 此后,通过利用开口形成基极引出电极。 随后,通过从基极引出电极的固相扩散形成外部基极区域。 在这种情况下,固定了外部基部区域和槽的上端部分之间的距离。 通过使用上述制造方法,可以抑制集电体与基体之间的结漏电流的产生。