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    • 1. 发明授权
    • Optical head, optical disc device, computer, optical disc player and optical disc recorder
    • 光头,光盘装置,计算机,光盘播放器和光盘录像机
    • US08068402B2
    • 2011-11-29
    • US12598967
    • 2008-04-28
    • Fumitomo YamasakiYoshiaki KommaToshiyasu TanakaYohichi Saitoh
    • Fumitomo YamasakiYoshiaki KommaToshiyasu TanakaYohichi Saitoh
    • G11B7/00
    • G11B7/1353G11B7/1378G11B2007/0013
    • An optical head is provided with a light source for outputting laser light having a wavelength of 430 nm or less; an objective lens for collecting the laser light outputted from the light source to an optical disc having a plurality of information recording surfaces; a light receiving element for receiving laser light reflected on the optical disc; and a detecting lens for guiding the laser light reflected on the optical disc to the light receiving element. The detecting lens is formed of a resin material. The detecting lens is arranged so that a light collecting position of the laser light reflected on an information recording surface different from an information recording surface having a thinnest protection substrate, among the information recording surfaces, is outside the detecting lens, at the time of recording or reproducing information on or from the information recording surface having the thinnest protection substrate.
    • 光头设置有用于输出波长为430nm以下的激光的光源; 用于将从光源输出的激光光收集到具有多个信息记录表面的光盘的物镜; 用于接收在光盘上反射的激光的光接收元件; 以及用于将在光盘上反射的激光导向光接收元件的检测透镜。 检测透镜由树脂材料形成。 检测透镜被布置成使得在信息记录表面中不同于具有最薄保护基板的信息记录表面的信息记录表面上的激光的聚光位置在记录时在检测透镜之外 或在具有最薄保护衬底的信息记录表面上或从信息记录表面再现信息。
    • 2. 发明申请
    • OPTICAL HEAD, OPTICAL DISC DEVICE, COMPUTER, OPTICAL DISC PLAYER AND OPTICAL DISC RECORDER
    • 光学头,光盘设备,计算机,光盘播放器和光盘录像机
    • US20100142358A1
    • 2010-06-10
    • US12598967
    • 2008-04-28
    • Fumitomo YamasakiYoshiaki KommaToshiyasu TanakaYohichi Saitoh
    • Fumitomo YamasakiYoshiaki KommaToshiyasu TanakaYohichi Saitoh
    • G11B7/135
    • G11B7/1353G11B7/1378G11B2007/0013
    • An optical head (31) is provided with a light source (1) for outputting laser light having a wavelength of 430 nm or less; an objective lens (7) for collecting the laser light outputted from the light source (1) to an optical disc (60) having a plurality of information recording surfaces; a light receiving element (10) for receiving laser light reflected on the optical disc (60); and a detecting lens (8) for guiding the laser light reflected on the optical disc (60) to the light receiving element (10). The detecting lens (8) is formed of a resin material. The detecting lens (8) is arranged so that a light collecting position of the laser light reflected on an information recording surface different from an information recording surface having a thinnest protection substrate, among the information recording surfaces, is outside the detecting lens (8), at the time of recording or reproducing information on or from the information recording surface having the thinnest protection substrate.
    • 光头(31)设置有用于输出波长为430nm以下的激光的光源(1) 用于将从所述光源(1)输出的激光光线收集到具有多个信息记录面的光盘(60)的物镜(7) 用于接收在所述光盘(60)上反射的激光的光接收元件(10)。 以及用于将在光盘(60)上反射的激光引导到光接收元件(10)的检测透镜(8)。 检测透镜(8)由树脂材料形成。 检测透镜(8)被布置成使得在信息记录表面之中反射在信息记录表面上的与具有最薄保护衬底的信息记录表面不同的激光的聚光位置在检测透镜(8)的外部, 在具有最薄保护基板的信息记录表面上记录或再现信息时。
    • 3. 发明授权
    • Optical pickup device and optical read/write apparatus
    • 光学拾取装置和光学读/写装置
    • US08451700B2
    • 2013-05-28
    • US13609484
    • 2012-09-11
    • Yasushi KobayashiYohichi SaitohKazuo Momoo
    • Yasushi KobayashiYohichi SaitohKazuo Momoo
    • G11B7/00
    • G11B7/00458G11B7/0901G11B7/0912G11B7/0916G11B7/1353G11B7/1381
    • In one embodiment, the optical pickup device includes: a light source that emits a light beam; a diffractive element that diffracts the light beam and generates a zero-order and ±first-order diffracted light beams; an objective lens that converges the diffracted light beams onto the same track on the storage medium; and a photodetector that receives the diffracted light beams reflected from the storage medium. If a distance from a light beam spot left by the zero-order diffracted light beam on the track to light beam spots left by the ±first-order diffracted light beams on that track is d [μm], the scanning linear velocity of the storage medium is v [m/s], and a time it takes for a phase-change material of the storage medium that has once been melted by the zero-order diffracted light beam to solidify is T [μs], vT≦d is satisfied.
    • 在一个实施例中,光学拾取装置包括:发射光束的光源; 衍射元件,衍射光束并产生零级和±一级衍射光束; 将衍射光束会聚在存储介质上的同一轨道上的物镜; 以及光接收器,其接收从存储介质反射的衍射光束。 如果从光轨上的零级衍射光束留下的光束点与该轨道上±1级衍射光束留下的光束点的距离为d [m],则存储器的扫描线速度 介质是v [m / s],并且由零级衍射光束一度熔化的存储介质的相变材料固化所花费的时间是T [mus],vT @ d 。
    • 4. 发明授权
    • Optical pickup and optical read/write drive
    • 光学拾取和光学读/写驱动器
    • US08659985B2
    • 2014-02-25
    • US13398934
    • 2012-02-17
    • Jun-ichi AsadaKazuo MomooYohichi Saitoh
    • Jun-ichi AsadaKazuo MomooYohichi Saitoh
    • G11B7/1353G11B7/1263
    • G11B7/00458G11B7/003G11B7/1353
    • In one embodiment of the present invention, an optical pickup for writing and reading data on an optical storage medium comprises a diffractive element for diffracting a light beam to split it into multiple light beams. The diffracted light beams includes a zero-order diffracted light beam for writing data on a track of the land or the groove of the optical storage medium and non-zero-order diffracted light beams for reading the data from the track. The diffractive element has first and second diffraction gratings that have mutually different grating vector directions and pitches. The first diffraction grating forms light beam spots on the same track by the non-zero-order and zero-order diffracted light beams. The second diffraction grating forms a light beam spot to extend to both sides of said track, or forms a light beam spot on one side of said track, by the non-zero-order diffracted light beams.
    • 在本发明的一个实施例中,用于在光学存储介质上写入和读取数据的光学拾取器包括用于衍射光束以将其分成多个光束的衍射元件。 衍射光束包括用于在光存储介质的焊盘或凹槽的轨道上写入数据的零级衍射光束和用于从轨道读取数据的非零级衍射光束。 衍射元件具有第一和第二衍射光栅,其具有相互不同的光栅矢量方向和间距。 第一衍射光栅通过非零级和零级衍射光束在同一轨道上形成光束点。 第二衍射光栅形成光束点,以延伸到所述轨道的两侧,或者通过非零级衍射光束在所述轨道的一侧上形成光束点。
    • 5. 发明授权
    • Optical pickup and optical disc device
    • 光学拾取和光盘设备
    • US07697400B2
    • 2010-04-13
    • US11816426
    • 2006-02-17
    • Hisashi SengaTomotada KameiKenzo IshibashiHideki HayashiYohichi Saitoh
    • Hisashi SengaTomotada KameiKenzo IshibashiHideki HayashiYohichi Saitoh
    • G11B7/125
    • G11B7/1275G11B7/123G11B2007/0006
    • An optical pickup according to the present invention includes an integrated circuit element (LDD) 5 for driving first, second, and third semiconductor lasers 3, 4, and 5. The LDD 50 is shaped so as to have a rectangular principal face surrounded by one side, with a plurality of input/output pins being arranged along each side. The plurality of input/output pins include a first pin group connected to a blue-violet laser 5 whose oscillation wavelength is the shortest, a second pin group connected to a red laser 4, and a third pin group connected to an infrared laser 3. The wiring structure of the optical pickup includes a first transmission line 41 for connecting the first pin group to the blue-violet laser 5, a second transmission line 33 for connecting the second pin group to the red laser 4, and a third transmission line 31 for connecting the third pin group to the infrared laser 3, where the first transmission line 41 is shorter than both the second and third transmission lines 31 and 33. Of the rectangular principal face of the LDD 50, the side along which the first pin group is provided is orthogonal to the side along which the second pin group is provided or to the side along which the third pin group is provided.
    • 根据本发明的光拾取器包括用于驱动第一,第二和第三半导体激光器3,4和5的集成电路元件(LDD)5。LDD 50被成形为具有被一个包围的矩形主面 其中沿着每一侧布置有多个输入/输出引脚。 多个输入/输出引脚包括连接到振荡波长最短的蓝紫色激光器5的第一引脚组,连接到红色激光器4的第二引脚组和连接到红外激光器3的第三引脚组。 光拾取器的布线结构包括用于将第一引线组连接到蓝紫激光器5的第一传输线41,用于将第二引脚组连接到红色激光器4的第二传输线33和第三传输线31 用于将第三引脚组连接到红外激光器3,其中第一传输线41比第二传输线31和第三传输线33短。在LDD 50的矩形主面中,第一引脚组 被设置为与设置有第二引脚组的一侧或与设置第三引脚组的一侧正交。
    • 6. 发明申请
    • OPTICAL PICKUP AND OPTICAL DISC DEVICE
    • 光学拾取和光盘设备
    • US20090052492A1
    • 2009-02-26
    • US11816426
    • 2006-02-17
    • Hisashi SengaTomotada KameiKenzo IshibashiHideki HayashiYohichi Saitoh
    • Hisashi SengaTomotada KameiKenzo IshibashiHideki HayashiYohichi Saitoh
    • H01S5/026H01S5/00
    • G11B7/1275G11B7/123G11B2007/0006
    • An optical pickup according to the present invention includes an integrated circuit element (LDD) 5 for driving first, second, and third semiconductor lasers 3, 4, and 5. The LDD 50 is shaped so as to have a rectangular principal face surrounded by one side, with a plurality of input/output pins being arranged along each side. The plurality of input/output pins include a first pin group connected to a blue-violet laser 5 whose oscillation wavelength is the shortest, a second pin group connected to a red laser 4, and a third pin group connected to an infrared laser 3. The wiring structure of the optical pickup includes a first transmission line 41 for connecting the first pin group to the blue-violet laser 5, a second transmission line 33 for connecting the second pin group to the red laser 4, and a third transmission line 31 for connecting the third pin group to the infrared laser 3, where the first transmission line 41 is shorter than both the second and third transmission lines 31 and 33. Of the rectangular principal face of the LDD 50, the side along which the first pin group is provided is orthogonal to the side along which the second pin group is provided or to the side along which the third pin group is provided.
    • 根据本发明的光拾取器包括用于驱动第一,第二和第三半导体激光器3,4和5的集成电路元件(LDD)5。LDD 50被成形为具有被一个包围的矩形主面 其中沿着每一侧布置有多个输入/输出引脚。 多个输入/输出引脚包括连接到振荡波长最短的蓝紫色激光器5的第一引脚组,连接到红色激光器4的第二引脚组和连接到红外激光器3的第三引脚组。 光拾取器的布线结构包括用于将第一引线组连接到蓝紫激光器5的第一传输线41,用于将第二引脚组连接到红色激光器4的第二传输线33和第三传输线31 用于将第三引脚组连接到红外激光器3,其中第一传输线41比第二传输线31和第三传输线33短。在LDD 50的矩形主面中,第一引脚组 被设置为与设置有第二引脚组的一侧或与设置第三引脚组的一侧正交。
    • 8. 发明申请
    • OPTICAL PICKUP AND OPTICAL DISC DEVICE
    • 光学拾取和光盘设备
    • US20100149949A1
    • 2010-06-17
    • US12712272
    • 2010-02-25
    • Hisashi SengaTomotada KameiKenzo IshibashiHideki HayashiYohichi Saitoh
    • Hisashi SengaTomotada KameiKenzo IshibashiHideki HayashiYohichi Saitoh
    • G11B7/135
    • G11B7/1275G11B7/123G11B2007/0006
    • An optical pickup according to the present invention includes an integrated circuit element (LDD) 5 for driving first, second, and third semiconductor lasers 3, 4, and 5. The LDD 50 is shaped so as to have a rectangular principal face surrounded by one side, with a plurality of input/output pins being arranged along each side. The plurality of input/output pins include a first pin group connected to a blue-violet laser 5 whose oscillation wavelength is the shortest, a second pin group connected to a red laser 4, and a third pin group connected to an infrared laser 3. The wiring structure of the optical pickup includes a first transmission line 41 for connecting the first pin group to the blue-violet laser 5, a second transmission line 33 for connecting the second pin group to the red laser 4, and a third transmission line 31 for connecting the third pin group to the infrared laser 3, where the first transmission line 41 is shorter than both the second and third transmission lines 31 and 33. Of the rectangular principal face of the LDD 50, the side along which the first pin group is provided is orthogonal to the side along which the second pin group is provided or to the side along which the third pin group is provided.
    • 根据本发明的光拾取器包括用于驱动第一,第二和第三半导体激光器3,4和5的集成电路元件(LDD)5。LDD 50被成形为具有被一个包围的矩形主面 其中沿着每一侧布置有多个输入/输出引脚。 多个输入/输出引脚包括连接到振荡波长最短的蓝紫色激光器5的第一引脚组,连接到红色激光器4的第二引脚组和连接到红外激光器3的第三引脚组。 光拾取器的布线结构包括用于将第一引线组连接到蓝紫激光器5的第一传输线41,用于将第二引脚组连接到红色激光器4的第二传输线33和第三传输线31 用于将第三引脚组连接到红外激光器3,其中第一传输线41比第二传输线31和第三传输线33短。在LDD 50的矩形主面中,第一引脚组 被设置为与设置有第二引脚组的一侧或与设置第三引脚组的一侧正交。