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    • 2. 发明授权
    • Optical pickup device
    • 光学拾取装置
    • US07821899B2
    • 2010-10-26
    • US11996430
    • 2006-07-03
    • Takuma YanagisawaMasakazu Ogasawara
    • Takuma YanagisawaMasakazu Ogasawara
    • G11B7/00
    • G11B7/1381G11B7/0903G11B7/094G11B7/1353
    • The present invention provides an optical pickup device requiring no position adjustment of a diffraction grating at the time of assembling the optical pickup device, and capable of suppressing fluctuations in a differential push-pull signal amplitude and cancelling a push-pull offset.An optical pickup device 200 of an embodiment of the present invention has a diffraction grating 230 of a special shape including predetermined grooves and two kinds of lattice grooves arranged at a pitch determined on the basis of a pitch of grooves formed in the surface of an optical disk 50, numerical aperture, wavelength of a light beam, and effective diameter of the light beam applied on the optical disk 50. To suppress push-pull signals generated in the ± first-order diffraction rays, reflection rays from the optical disk 50 of a zeroth-order diffraction ray and ± first-order diffraction rays are detected, and signals corresponding to light reception results are output to a reproduction unit 150, a control unit 130, and an actuator servo circuit 140.
    • 本发明提供了一种在组装光学拾取装置时不需要对衍射光栅进行位置调整并且能够抑制差分推挽信号振幅的波动并取消推挽偏移的光学拾取装置。 本发明实施例的光学拾取装置200具有特殊形状的衍射光栅230,该衍射光栅230包括预定的凹槽和两个格栅槽,它们以基于在光学器件表面形成的凹槽的间距所确定的间距 盘50,数值孔径,光束波长和施加在光盘50上的光束的有效直径。为了抑制在±一级衍射光线中产生的推挽信号,来自光盘50的反射光线 检测到零级衍射线和±一级衍射线,并且将对应于光接收结果的信号输出到再现单元150,控制单元130和致动器伺服电路140。
    • 3. 发明申请
    • PICKUP DEVICE
    • 扒手装置
    • US20100177619A1
    • 2010-07-15
    • US12376595
    • 2006-10-04
    • Makoto SatoMasakazu OgasawaraTakuma Yanagisawa
    • Makoto SatoMasakazu OgasawaraTakuma Yanagisawa
    • G11B7/00
    • G11B7/0901G11B7/0909G11B7/133G11B7/1353G11B2007/0013
    • A pickup device which, focusing a ray bundle on a track of a recording surface of an optical recording medium to form a light spot, comprises a detection optical system including a photo detector to receive return light reflected from the light spot via an objective lens and perform photoelectric conversion. The photo detector has at least two photoreceptor sections positioned axis-symmetrical with respect to a detection-side division line extending through an optical axis of the return light and parallel to the track. A dividing element placed in an optical path between the photo detector and the objective lens includes at least two inner divided areas positioned axis-symmetrical with respect to a deflection-side division line extending through the optical axis of the return light and parallel to the track, and at least two outer divided areas positioned sandwiching the inner divided areas and axis-symmetrical with respect to the deflection-side division line. The inner divided areas are formed such that parts of a light beam from the other region than overlap regions, divided axis-symmetrically along the deflection-side division line, are exchanged in position across the detection-side division line and directed to the photoreceptor sections of the photo detector so as to be axis-symmetrical with respect to the detection-side division line.
    • 一种拾取装置,其将光束聚焦在光记录介质的记录表面的轨道上以形成光点,包括检测光学系统,其包括光电检测器,以接收经由物镜从光点反射的返回光;以及 执行光电转换。 光检测器具有至少两个相对于延伸通过返回光的光轴并平行于轨道的检测侧分割线轴对称的感光体部分。 放置在光检测器和物镜之间的光路中的分隔元件包括至少两个相对于延伸穿过返回光的光轴并平行于轨道的偏转侧分割线轴对称的内分割区域 以及至少两个外分割区域,其定位为夹着内分割区域并相对于偏转侧分割线轴对称。 内部分割区域被形成为使得来自另一区域的光束的部分比沿着偏转侧分割线轴对称分割的重叠区域的部分在检测侧分割线上交替位置并且被引导到感光体部分 的光检测器相对于检测侧分割线轴对称。
    • 5. 发明申请
    • HOLOGRAM RECORDING AND REPRODUCING SYSTEM
    • US20090279406A1
    • 2009-11-12
    • US12065327
    • 2006-08-09
    • Masakazu Ogasawara
    • Masakazu Ogasawara
    • G11B7/00
    • G11B7/0065G11B7/00781G11B7/128G11B7/1353G11B7/1369G11B7/1374G11B7/24044G11B2007/13727
    • A hologram recording and reproducing system for recording or reproducing information to or from a hologram record carrier that stores an optical interference pattern of a reference beam and a signal beam therein as a diffraction grating, includes: light producing means that generates a reference beam and a signal beam based on a coherent beam in which the coherent beam is modulated into the signal beam according to information to be recorded; interference means that allows one of the reference and signal beams to propagate axially on an optical axis as a central region light flux and allows the other of the reference and signal beams to propagate coaxially and annularly in section as an annular region light flux surrounding the one spatially separated from the other in a same direction and converges both the reference beam and the signal beam on different focal points in the optical axis respectively through an objective lens optical system to cause interference between the reference beam and the signal beam; a hologram record carrier having a hologram record layer located on a side of a near one of the different focal points to the objective lens optical system and a reflection layer located on a side of a distant one of the different focal points from the objective lens optical system; and image detecting means arranged on the optical axis and for receiving a beam returning from the hologram record layer through the objective lens optical system when the reference beam is illuminated to the hologram record layer; wherein the hologram record carrier further comprising a servo guide layer which is placed at a position either nearer to the objective lens optical system than the hologram record layer or farther than the reflection layer from the objective lens optical system. The hologram recording and reproducing system further includes a servo control system for focusing a servo beam onto the servo guide layer and for receiving a reflection light returning from the servo guide layer to photoelectrically convert it to a signal and for driving the objective lens optical system in accordance with the signal photoelectrically converted, wherein the servo beam has a wavelength different from the coherent beam wavelength and passes through the central region coaxially with the central region light flux including the optical axis.
    • 6. 发明授权
    • Aberration correction apparatus, and control apparatus, control method and control program of optical pickup
    • 畸变校正装置,光学拾取器的控制装置,控制方法和控制程序
    • US07499386B2
    • 2009-03-03
    • US11177638
    • 2005-07-11
    • Masakazu Ogasawara
    • Masakazu Ogasawara
    • G11B7/00
    • G11B7/1369G11B7/0956G11B7/13927G11B2007/0006
    • An aberration correction apparatus includes an optical pickup having a liquid crystal panel which gives a phase difference to a light beam emitted from a light source unit and irradiated onto a recording medium and corrects an aberration occurring to the light beam by a tilt of the recording medium, and a control unit which applies, to the liquid crystal panel, a correction voltage correspondent to an amount of the aberration in reference to a bias voltage. The bias voltage is set for each of the recording mediums so that the correction voltage applied for correcting the aberration of the same amount caused by the disc tilt becomes equal for different kinds of recording mediums. Namely, even when the plural kinds of recording mediums are used, if the disc tilt angles are same, the aberration can be corrected by applying the same correction voltage. Therefore, by using a control circuit for applying the correction voltage, the control can be executed with the same resolution irrespective of the kind of recording medium, and aberration correction accuracy of each recording medium can be improved.
    • 像差校正装置包括具有液晶面板的光学拾取器,该液晶面板对从光源单元发射的光束照射到记录介质上,并且通过记录介质的倾斜来校正发生在光束上的像差, 以及控制单元,其向液晶面板施加与偏置电压相关的像差量的校正电压。 为每个记录介质设置偏置电压,使得用于校正由盘倾斜引起的相同量的像差的校正电压在不同种类的记录介质上相等。 也就是说,即使使用多种记录介质,如果盘倾斜角度相同,则可以通过施加相同的校正电压来校正像差。 因此,通过使用用于施加校正电压的控制电路,可以以相同的分辨率执行控制,而与记录介质的种类无关,并且可以提高每个记录介质的像差校正精度。
    • 10. 发明授权
    • Liquid crystal panel, optical pickup, and information reproducing apparatus
    • 液晶面板,光学拾取器和信息再现装置
    • US07262820B2
    • 2007-08-28
    • US10819348
    • 2004-04-07
    • Masakazu Ogasawara
    • Masakazu Ogasawara
    • G02F1/13G02F1/1335G11B7/00
    • G02F1/134309G02F1/13306G02F2203/18
    • The transparent electrode of the liquid crystal panel includes the first partial electrode portion constituted by the pattern electrodes and the second electron portion constituted by the pattern electrodes. When the central axis of the objective lens and the central axis of the liquid crystal panel are aligned with each other, the light beam passes through the first electrode portion. In this case, wavefront aberration is compensated by providing a predetermined phase difference to the light beam in the region of the liquid crystal corresponding to the first electrode portion. When the positions are not aligned and misalignment occurs, the light beam passes through the first electrode portion and the second electrode portion. In this case, wavefront aberration is compensated by providing a predetermined phase difference to the light beam in the region of the liquid crystal corresponding to the first electrode portion and the second electrode portion.
    • 液晶面板的透明电极包括由图案电极构成的第一部分电极部分和由图案电极构成的第二电子部分。 当物镜的中心轴与液晶面板的中心轴线对准时,光束通过第一电极部分。 在这种情况下,通过在对应于第一电极部分的液晶区域中的光束提供预定的相位差来补偿波前像差。 当位置不对准和发生不对准时,光束通过第一电极部分和第二电极部分。 在这种情况下,通过在对应于第一电极部分和第二电极部分的液晶区域中的光束提供预定的相位差来补偿波前像差。