会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Optical pickup and objective lens used therein
    • 其中使用的光学拾取和物镜
    • US07548383B2
    • 2009-06-16
    • US11808930
    • 2007-06-13
    • Katsuhiko HayashiYasuhiro TanakaMichihiro YamagataKazuhiko Ishimaru
    • Katsuhiko HayashiYasuhiro TanakaMichihiro YamagataKazuhiko Ishimaru
    • G02B3/02G11B7/135
    • G11B7/1376G11B7/13925G11B2007/0013
    • An optical pickup 1 includes a collimator lens 13 for changing the shape of a laser light by moving on the optical axis AX from a base point. An objective lens 15 is set so as to form a spot of which size, when the collimator lens 13 is located at the base point, is minimum at a point apart from the light source side surface of an information recording medium 20 by a distance of Lc defined by an expression (1): Lc=(L0+Ln)/2  (1), wherein Lc is named as a thickness to the designed center; L0 is a distance between the light source side surface of the information recoding medium and an information recording face located nearest to the light source side surface; and Ln is a distance between the light source side surface of the information recording medium and an information recording face located farthest from the light source side surface.
    • 光拾取器1包括准直透镜13,用于通过从基点在光轴AX上移动来改变激光的形状。 物镜15被设​​定为当准直透镜13位于基点时形成大小的点,在与信息记录介质20的光源侧表面分开的距离处最小 Lc =(L0 + Ln)/ 2(1),<?in-line-formula description =“In-line-formula” 公式描述=“在线公式”end =“tail”?>其中Lc被命名为设计中心的厚度; L0是信息记录介质的光源侧表面与最靠近光源侧表面的信息记录面之间的距离; Ln是信息记录介质的光源侧表面与距光源侧表面最远的信息记录面之间的距离。
    • 2. 发明申请
    • Optical pickup and objective lens used therein
    • 其中使用的光学拾取和物镜
    • US20070291619A1
    • 2007-12-20
    • US11808930
    • 2007-06-13
    • Katsuhiko HayashiYasuhiro TanakaMichihiro YamagataKazuhiko Ishimaru
    • Katsuhiko HayashiYasuhiro TanakaMichihiro YamagataKazuhiko Ishimaru
    • G11B7/00
    • G11B7/1376G11B7/13925G11B2007/0013
    • An optical pickup 1 includes a collimator lens 13 for changing the shape of a laser light by moving on the optical axis AX from a standard point. An objective lens 15 is set so as to form a spot of which size when the collimator lens 13 is located at the standard point is minimum at a point a distance apart from the surface on a light source 10 side of an information recording medium 20, the distance being a thickness to the designed center defined by an expression (1): Lc=(L0+Ln)/2   (1), wherein Lc is a thickness to the designed center; L0 is a distance between the surface on the light source side of the information recoding medium and an information recording face located nearest to the surface; and Ln is a distance between the surface on the light source side of the information recording medium and an information recording face located farthest from the surface.
    • 光拾取器1包括准直透镜13,用于通过在标准点上在光轴AX上移动来改变激光的形状。 当在信息记录介质20的光源10侧的距离一定距离的点处,当准直透镜13位于标准点处时,物镜15被设​​定为形成尺寸的点, 该距离是由表达式(1)定义的设计中心的厚度:<?in-line-formula description =“In-line Formulas”end =“lead”?> L = (1),<?in-line-formula description =“In-line Formulas”end =“tail”?>其中L(0) c是设计中心的厚度; 信息记录介质的光源侧的表面与位于表面最近的信息记录面之间的距离为L <0 < L sub是信息记录介质的光源侧的表面与距离表面最远的信息记录面之间的距离。
    • 5. 发明授权
    • Objective lens element and optical pickup device
    • 物镜和光学拾取装置
    • US08767518B2
    • 2014-07-01
    • US13248038
    • 2011-09-29
    • Katsuhiko HayashiYasuhiro TanakaMichihiro YamagataFumitomo Yamasaki
    • Katsuhiko HayashiYasuhiro TanakaMichihiro YamagataFumitomo Yamasaki
    • G11B7/12
    • G11B7/1353G11B7/1367G11B7/1374G11B7/13922G11B2007/0006
    • An objective lens element that can suppress occurrence of an aberration is disclosed. Sawtooth-like diffraction structures having different height and cycles (pitches) are provided on an inner part R21 and an outer part R22, respectively. A curved surface M211 extending at an intermediate level of recesses and projections of the sawtooth-like diffraction structure provided on the inner part R21, and a curved surface M212 extending at an intermediate level of recesses and projections of the sawtooth-like diffraction structure provided on the outer part R22 are smoothly connected to each other. Even when wavelength of the light source and/or the environmental temperature change, a phase shift does not occur between the inner part R21 and the outer part R22, and a decrease in diffraction efficiency and occurrence of an aberration can be suppressed.
    • 公开了能够抑制像差的发生的物镜元件。 分别具有不同高度和周期(间距)的锯齿状衍射结构分别设置在内部部分R21和外部部分R22上。 在内部部件R21上设置的锯齿状衍射结构的凹部和突起的中间水平面延伸的曲面M211,以及设置在上述锯齿状衍射结构的中间水平的锯齿状衍射结构的中间水平面的弯曲面M212 外部部件R22彼此平滑地连接。 即使在光源的波长和/或环境温度发生变化的情况下,内部部件R21和外部部件R22之间也不会发生相位偏移,并且可以抑制衍射效率的降低和像差的发生。
    • 6. 发明授权
    • Optical element and optical pickup device using the same
    • 光学元件和使用其的光学拾取器件
    • US08472299B2
    • 2013-06-25
    • US13411636
    • 2012-03-05
    • Katsuhiko HayashiYasuhiro TanakaMichihiro Yamagata
    • Katsuhiko HayashiYasuhiro TanakaMichihiro Yamagata
    • G11B7/00
    • G11B7/139G02B3/04G02B3/08G02B5/1814G11B7/1374
    • An optical element which has optical steps each providing a phase difference to transmitted light and has low light amount loss and a high efficiency is provided. The optical element includes a symmetry axis, a plurality of optically functional surfaces which are ring-shaped regions around the symmetry axis, and a plurality of wall regions connecting the optically functional surfaces to each other. The optically functional surfaces and the wall regions constitute the optical steps. On a cross-section taken by, as a cutting plane, a plane including the symmetry axis, the contour line of each wall region is substantially parallel to a light beam which is incident on the optically functional surface on the outer side and passes near the wall region. The maximum value of the angle between the symmetry axis and the light beam passing near the wall region is equal to or more than 25 degrees.
    • 提供一种光学元件,其具有对透射光提供相位差并具有低光损失和高效率的光学步骤。 光学元件包括对称轴,围绕对称轴的环形区域的多个光学功能表面和将光学功能表面彼此连接的多个壁区域。 光学功能表面和壁区域构成光学步骤。 在通过作为切割平面的包括对称轴的平面截取的横截面上,每个壁区域的轮廓线基本上平行于入射在外侧上的光学功能表面上的光束,并且靠近 墙区域。 对称轴与靠近壁区域的光束之间的角度的最大值等于或大于25度。
    • 7. 发明申请
    • Objective Lens Element and Optical Pickup Device Using the Same
    • 物镜和使用其的光学拾取装置
    • US20120163142A1
    • 2012-06-28
    • US13411655
    • 2012-03-05
    • Katsuhiko HayashiYasuhiro TanakaMichihiro Yamagata
    • Katsuhiko HayashiYasuhiro TanakaMichihiro Yamagata
    • G11B7/00
    • G11B7/13922G11B7/1374
    • An objective lens element which can obtain appropriate spot performance only by simple position adjustment, and an optical pickup device using the objective lens element are provided. In the objective lens element, an amount of a generated third-order astigmatism of a spot which is formed when symmetry axes of optically functional surfaces are located parallel to the normal line of a base plate and an incident light beam incident such that a central light beam thereof is tilted at 0.5 degree with respect to the normal line of the base plate is converged, is reduced to be less than an amount of a generated spherical aberration of a spot which is formed when the symmetry axes of the optically functional surface are located parallel to the normal line of the base plate and an incident light beam incident parallel to the normal line of the base plate is converged.
    • 提供了仅通过简单的位置调整获得适当的光点性能的物镜元件和使用该物镜元件的光学拾取装置。 在物镜元件中,当光学功能表面的对称轴平行于基板的法线和入射光入射时形成的点的产生的三阶散光的量,使得中心光 其相对于基板的法线倾斜0.5度会聚,减小到小于当光学功能表面的对称轴位于时形成的光斑的产生的球面像差的量 平行于基板的法线的入射光束和平行于基板的法线的入射光束会聚。