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    • 1. 发明授权
    • Apparatus and method for controlling light intensity
    • 用于控制光强度的装置和方法
    • US06114682A
    • 2000-09-05
    • US139573
    • 1998-08-25
    • Tadashi MinakuchiMakoto NukuiMitsunori Iima
    • Tadashi MinakuchiMakoto NukuiMitsunori Iima
    • G02B26/12G06K7/10G06K15/12H01S5/0683H04N1/40G02B26/10H01S3/10
    • G06K7/10851G02B26/123G02B26/127G06K15/1214H04N1/40043H01S5/0683
    • A light intensity control apparatus includes an optical beam splitter which splits light into monitor light and principal light; a polarization beam splitter which splits the monitor light into two polarized light components; a monitor light detector which detects the polarized light components; a polarization correction device which corrects the output of the monitor light detector so that the intensity of the output signal of the monitor light detector and the light intensity of the principal light on an object surface have a predetermined correlation, regardless of the polarization state of the light incident upon the optical beam splitter; and a humidity dependency correction device which corrects the output of the monitor light detector via the polarization correction device by detecting a variation in polarization dependency characteristics of the optical beam splitter, caused by a change in humidity, and feeding the variation back to the polarization correction device, so that the output signal intensity of the monitor light detector and the light intensity of the principal light on the object surface have a predetermined correlation, regardless of a change in the humidity. The invention is also directed to a light intensity control method.
    • 光强度控制装置包括将光分解成监视光和主光的光束分离器; 将监视光分成两个偏振光分量的偏振分束器; 检测偏振光分量的监视光检测器; 偏振校正装置,其校正监视光检测器的输出,使得监视光检测器的输出信号的强度和物体表面上的主光的光强度具有预定的相关性,而不管 入射到光束分离器上的光; 以及湿度依赖性校正装置,其通过检测由于湿度变化引起的光束分离器的偏振依赖特性的偏差,经由偏振校正装置来校正监视光检测器的输出,并将偏差馈送到偏振校正 装置,使得监视光检测器的输出信号强度和物体表面上的主光的光强度具有预定的相关性,而与湿度的变化无关。 本发明还涉及一种光强度控制方法。
    • 2. 发明授权
    • Scanning optical device
    • 扫描光学设备
    • US6064504A
    • 2000-05-16
    • US791977
    • 1997-01-31
    • Tadashi MinakuchiMasahiro OonoMitsunori IimaHiroshi Kanazawa
    • Tadashi MinakuchiMasahiro OonoMitsunori IimaHiroshi Kanazawa
    • B41J2/47G02B26/12G02B26/08
    • B41J2/471G02B26/123G02B26/124
    • A scanning optical device includes a light source that emits a light beam; a deflector for deflecting and scanning the light beam from the light source; a scanning lens for converging the deflected light beam onto an image surface; and a mechanism for adjusting the relative position of at least one lens element of the scanning lens with respect to other lens elements of the scanning lens in an auxiliary scanning direction. Preferably, the adjustable lens element of the scanning lens be provided with an anamorphic surface having relatively larger power in the auxiliary scanning direction than in the main scanning direction. Alternatively, the above-mentioned at least one lens element may have the largest absolute value of refractive power of the lenses in the scanning lens. Further alternatively, the above-mentioned at least one lens element may be provided with a surface having the smallest absolute value of radius of curvature of all surfaces in the scanning lens.
    • 扫描光学装置包括发射光束的光源; 偏转器,用于偏转和扫描来自光源的光束; 用于将偏转的光束会聚到图像表面上的扫描透镜; 以及用于调整扫描透镜的至少一个透镜元件相对于扫描透镜的其它透镜元件在辅助扫描方向上的相对位置的机构。 优选地,扫描透镜的可调节透镜元件设置有在辅助扫描方向上比在主扫描方向上具有相对较大功率的变形表面。 或者,上述至少一个透镜元件可以具有扫描透镜中的透镜的屈光力的绝对值的最大值。 此外,上述至少一个透镜元件可以设置有扫描透镜中所有表面的曲率半径绝对值最小的表面。
    • 4. 发明授权
    • Scanning optical device and polygon mirror cover
    • 扫描光学装置和多面镜罩
    • US5838001A
    • 1998-11-17
    • US791964
    • 1997-01-31
    • Tadashi MinakuchiMasahiro OonoMitsunori IimaHiroshi Kanazawa
    • Tadashi MinakuchiMasahiro OonoMitsunori IimaHiroshi Kanazawa
    • B41J2/47G02B26/12H01J3/14
    • G02B26/123B41J2/471G02B26/124
    • A scanning optical device that includes a light source for emitting a light flux; a polygon mirror including a plurality of reflecting surfaces for deflecting the light flux to form a scanning beam spot on an image surface; a polygon mirror cover that covers the polygon mirror; and an optical sensor. The polygon mirror is provided with a mark on the top surface thereof that is eccentric from a rotation axis of the polygon mirror. Also, the polygon mirror cover includes a cylindrical rib formed on an inner surface of the top wall projecting toward the polygon mirror in a space between the top wall and the polygon mirror. The optical sensor is provided for detecting the mark and projects toward the polygon mirror from the inner surface of the top wall, through the cylindrical rib, such that the optical sensor forms a part of the cylindrical rib.
    • 一种扫描光学装置,包括用于发射光束的光源; 多面镜,包括用于偏转光束以在图像表面上形成扫描光束点的多个反射表面; 覆盖多面镜的多面镜罩; 和光学传感器。 多面镜在其顶表面上设置有与多面镜的旋转轴偏心的标记。 此外,多面镜罩包括在顶壁和多面镜之间的空间中形成在顶壁的内表面上的多个反射镜的圆柱形肋。 提供光学传感器,用于检测标记并从顶壁的内表面通过圆柱形肋状物朝向多面镜投影,使得光学传感器形成圆柱形肋的一部分。
    • 5. 发明授权
    • Scanning optical device
    • 扫描光学设备
    • US5812299A
    • 1998-09-22
    • US791320
    • 1997-01-31
    • Tadashi MinakuchiMasahiro OonoMitsunori IimaHiroshi Kanazawa
    • Tadashi MinakuchiMasahiro OonoMitsunori IimaHiroshi Kanazawa
    • B41J2/47G02B26/12G02B26/08
    • G02B26/123B41J2/471G02B26/124G02B26/127
    • A scanning optical device includes a light source, a polygon mirror having a plurality of reflecting surfaces for deflecting a light flux emitted from the light source to form a scanning beam spot on an image surface, an identifying device that identifies which reflecting surface is currently scanning the light flux, a memory that stores data corresponding to shape errors of the reflecting surfaces, a correcting member that corrects a position of the beam spot, and a controller that controls the correcting member in accordance with an output of the identifying device and with data read from the memory. The correcting member is controlled to compensate for deviations of the beam spot due to tilt errors of the reflecting surfaces and may also be controlled to compensate for deviations of the beam spot due to an unevenness of the movement of the image surface.
    • 扫描光学装置包括光源,具有多个反射表面的多面反射镜,用于偏转从光源发射的光束以在图像表面上形成扫描光束点;识别装置,识别哪个反射表面正在扫描 光通量,存储对应于反射面的形状误差的数据的存储器,校正光束位置的校正部件,以及根据识别装置的输出和数据来控制校正部件的控制器 从内存读取。 控制校正构件以补偿由于反射表面的倾斜误差引起的光斑的偏差,并且还可以控制校正构件以补偿由于图像表面的运动不均匀引起的束斑的偏差。