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    • 4. 发明申请
    • OPTICAL PICKUP DEVICE AND OPTICAL DISC DEVICE
    • 光学拾取装置和光盘装置
    • US20100182891A1
    • 2010-07-22
    • US12690501
    • 2010-01-20
    • Noboru MamiyaKatsutoshi HibinoKenji Nagatomi
    • Noboru MamiyaKatsutoshi HibinoKenji Nagatomi
    • G11B7/00
    • G11B7/094G11B7/131G11B7/1353G11B2007/0013
    • An optical pickup device is so configured as to change the propagating directions of light fluxes in four light flux areas defined in the periphery of an optical axis of laser light, out of the laser light reflected on a disc, to separate the four light fluxes one from the other. A signal light area where only signal light exists is defined on a detecting surface of a photodetector. Sensors for signal light is disposed at a position in the signal light area to be irradiated by the signal light, and a tracking error signal is generated based on a signal from the sensors. A direct-current component of the tracking error signal resulting from positional displacements of the sensors is cancelled by adjusting a gain of the signal from the sensor.
    • 光学拾取装置被配置成在由光盘上反射的激光中改变在激光光轴的外围限定的四个光通量区域中的光束的传播方向,从而将四个光束1 从另一个 仅在信号光存在的信号光区域被限定在光检测器的检测表面上。 用于信号光的传感器设置在信号光区域中由信号光照射的位置,并且基于来自传感器的信号产生跟踪误差信号。 通过调节来自传感器的信号的增益来消除由传感器的位置偏移产生的跟踪误差信号的直流分量。
    • 5. 发明申请
    • OPTICAL PICKUP APPARATUS AND FOCAL-POINT ADJUSTING METHOD
    • 光学拾取装置和焦点调整方法
    • US20100027404A1
    • 2010-02-04
    • US12512416
    • 2009-07-30
    • Kenji NagatomiKatsutoshi Hibino
    • Kenji NagatomiKatsutoshi Hibino
    • G11B7/00
    • G11B7/0909G11B7/1356G11B7/1378G11B2007/13727
    • An optical pickup apparatus includes an astigmatic element, an angle adjusting element for contradicting propagation directions of luminous fluxes within four different luminous flux regions out of a reflected light, a polarization adjusting element. Two of the luminous flux regions are placed in a direction in which aligned are a set of opposite angles made by the two mutually crossing straight lines respectively parallel to a first convergence direction and a second convergence direction vertical to the first convergence direction by the astigmatic element, and the remaining two luminous flux regions are placed in a direction in which an alternate set of opposite angles are aligned. The polarization adjusting element differentiates polarization directions of luminous fluxes which are selected out of the luminous fluxes within the four luminous flux regions and which are adjacent in a peripheral direction in which the optical axis of reflected light serves as an axis.
    • 光学拾取装置包括像散元件,用于与反射光中的四个不同光通量区域内的光束的传播方向相抵消的角度调整元件,偏振调节元件。 两个光通量区域被放置成沿着与通过散光元件分别平行于第一会聚方向和第二会聚方向的第二会聚方向的两条相互交叉的直线形成的一组相反角度的方向 并且剩余的两个光通量区域被放置在一组相反的角度对齐的方向上。 偏振调整元件使从四个光束区域内的光束中选出的与反射光的光轴成为轴的圆周方向相邻的光通量的偏振方向分离。
    • 6. 发明授权
    • Optical pickup device
    • 光学拾取装置
    • US08023387B2
    • 2011-09-20
    • US12723088
    • 2010-03-12
    • Kenji NagatomiKatsutoshi Hibino
    • Kenji NagatomiKatsutoshi Hibino
    • G11B7/00
    • G11B7/1353G11B7/1356G11B7/1378
    • An optical pickup device radiates laser light to a disc having a plurality of recording layers in a direction of lamination. The optical pickup device includes an astigmatic element and a spectral element. The astigmatic element allows reflected light from the disc to converge in a first direction and form a first focal line at a first position, and allows reflected light to converge in a second direction and form a second focal line at a second position closer to the disc than the first position. The spectral element splits a reflected light flux in two along a straight line parallel to the first direction and turns traveling directions of the split two light fluxes into directions separated from each other. Here, the spectral element is interposed between the second focal line of the reflected light from a target recording layer and the second focal line of the reflected light from a deeper recording layer than the target recording layer. The photodetector is interposed between the first and second focal lines of the reflected light from the target recording layer.
    • 光学拾取装置将激光照射到具有层叠方向的多个记录层的盘上。 光学拾取装置包括像散元件和光谱元件。 散光元件允许来自光盘的反射光在第一方向上会聚并在第一位置处形成第一焦线,并允许反射光在第二方向上会聚,并且在靠近光盘的第二位置处形成第二焦线 比第一个位置。 光谱元件沿着与第一方向平行的直线将反射光束分成两部分,并将分离的两个光束的行进方向转换成彼此分离的方向。 这里,光谱元件插入在来自目标记录层的反射光的第二焦线与来自比目标记录层更深的记录层的反射光的第二焦线之间。 光检测器插入在来自目标记录层的反射光的第一和第二焦点之间。
    • 7. 发明授权
    • Optical pickup apparatus and focal-point adjusting method
    • 光学拾取装置和焦点调整方法
    • US07916612B2
    • 2011-03-29
    • US12512416
    • 2009-07-30
    • Kenji NagatomiKatsutoshi Hibino
    • Kenji NagatomiKatsutoshi Hibino
    • G11B7/00
    • G11B7/0909G11B7/1356G11B7/1378G11B2007/13727
    • An optical pickup apparatus includes an astigmatic element, an angle adjusting element for contradicting propagation directions of luminous fluxes within four different luminous flux regions out of a reflected light, a polarization adjusting element. Two of the luminous flux regions are placed in a direction in which aligned are a set of opposite angles made by the two mutually crossing straight lines respectively parallel to a first convergence direction and a second convergence direction vertical to the first convergence direction by the astigmatic element, and the remaining two luminous flux regions are placed in a direction in which an alternate set of opposite angles are aligned. The polarization adjusting element differentiates polarization directions of luminous fluxes which are selected out of the luminous fluxes within the four luminous flux regions and which are adjacent in a peripheral direction in which the optical axis of reflected light serves as an axis.
    • 光学拾取装置包括像散元件,用于与反射光中的四个不同光通量区域内的光束的传播方向相抵消的角度调整元件,偏振调节元件。 两个光通量区域被放置成沿着与通过散光元件分别平行于第一会聚方向和第二会聚方向的第二会聚方向的两条相互交叉的直线形成的一组相反角度的方向 并且剩余的两个光通量区域被放置在一组相反的角度对齐的方向上。 偏振调整元件使从四个光束区域内的光束中选出的与反射光的光轴成为轴的圆周方向相邻的光通量的偏振方向分离。
    • 8. 发明申请
    • OPTICAL PICKUP DEVICE AND OPTICAL DISC DEVICE
    • 光学拾取装置和光盘装置
    • US20110026389A1
    • 2011-02-03
    • US12844261
    • 2010-07-27
    • Kenji NagatomiKatsutoshi Hibino
    • Kenji NagatomiKatsutoshi Hibino
    • G11B7/135
    • G11B7/0909G11B7/1353G11B2007/0013
    • An optical pickup device includes an astigmatism element which sets focal line positions to be defined by convergence of laser light away from each other, a diffraction element which diffracts four light fluxes obtained by a light flux of the laser light to disperse the four light fluxes from each other, and a photodetector having a first sensing section and a second sensing section which respectively receive m-th order diffraction light and n-th order diffraction light of the four light fluxes. In this arrangement, the first sensing section receives eight light fluxes obtained by dividing the four light fluxes of the m-th order diffraction light by two straight lines to output detection signals of the number less than eight.
    • 一种光学拾取装置,包括:散光元件,其将通过激光的会聚而定义的焦点位置设置为彼此偏离;衍射元件,其衍射由激光的光束获得的四个光通量,以将四个光通量从 以及具有分别接收四个光束的m次衍射光和n次衍射光的第一感测部和第二感测部的光检测器。 在这种布置中,第一感测部分接收通过将m级衍射光的四个光束除以两条直线而获得的8个光束,以输出小于8的数字的检测信号。
    • 10. 发明授权
    • Optical pickup device and optical disc device
    • 光拾取装置和光盘装置
    • US08040779B2
    • 2011-10-18
    • US12844261
    • 2010-07-27
    • Kenji NagatomiKatsutoshi Hibino
    • Kenji NagatomiKatsutoshi Hibino
    • G11B7/135
    • G11B7/0909G11B7/1353G11B2007/0013
    • An optical pickup device includes an astigmatism element which sets focal line positions to be defined by convergence of laser light away from each other, a diffraction element which diffracts four light fluxes obtained by a light flux of the laser light to disperse the four light fluxes from each other, and a photodetector having a first sensing section and a second sensing section which respectively receive m-th order diffraction light and n-th order diffraction light of the four light fluxes. In this arrangement, the first sensing section receives eight light fluxes obtained by dividing the four light fluxes of the m-th order diffraction light by two straight lines to output detection signals of the number less than eight.
    • 一种光学拾取装置,包括:散光元件,其将通过激光的会聚而定义的焦点位置设置为彼此偏离;衍射元件,其衍射由激光的光束获得的四个光通量,以将四个光通量从 以及具有分别接收四个光束的m次衍射光和n次衍射光的第一感测部和第二感测部的光检测器。 在这种布置中,第一感测部分接收通过将m级衍射光的四个光束除以两条直线而获得的8个光束,以输出小于8的数字的检测信号。