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. 发明申请
    • OPTICAL DRIVE APPARATUS
    • 光学驱动装置
    • US20110085431A1
    • 2011-04-14
    • US12903656
    • 2010-10-13
    • Tetsuya NISHIYAMA
    • Tetsuya NISHIYAMA
    • G11B7/00
    • G11B7/0906
    • An optical drive apparatus includes: a phase-difference detection-signal generating unit that generates PEDr based on PEROd and PEFOd obtained by delaying a phase-lead output signal indicating a phase lead amount of DA with respect to DB and X that is changed to high at a timing at which NAND of the DA and the DB is changed from high to low and changed to low at a timing at which OR of the DA and the DB is changed from high to low, and generates PADr based on PAROd and PAFOd obtained by delaying a phase-lag output signal indicating a phase lag amount of the DA with respect to the DB by a predetermined time and the X; and a DPD signal generating unit that generates a phase difference signal indicating a phase difference between the DA and the DB based on the PEDr and the PADr, and generates a DPD signal based on the phase difference signal.
    • 一种光驱动装置,包括:相位差检测信号生成单元,其基于通过延迟指示相对于DB的相位超前量DA的相位超前输出信号而获得的PEROd和PEFOd,所述相位引导输出信号变为高 在DA和DB的NAND从高变为低的时刻,在DA和DB的OR从高变为低的时刻变为低,并且基于获得的PAROd和PAFOd生成PADr 通过将指示DA相对于DB的相位滞后量的相位延迟输出信号延迟预定时间和X; 以及DPD信号生成单元,其基于PEDr和PADr生成指示DA和DB之间的相位差的相位差信号,并且基于该相位差信号生成DPD信号。
    • 7. 发明授权
    • Optical drive apparatus
    • 光驱装置
    • US08542565B2
    • 2013-09-24
    • US12903656
    • 2010-10-13
    • Tetsuya Nishiyama
    • Tetsuya Nishiyama
    • G11B7/00
    • G11B7/0906
    • An optical drive apparatus includes: a phase-difference detection-signal generating unit that generates PEDr based on PEROd and PEFOd obtained by delaying a phase-lead output signal indicating a phase lead amount of DA with respect to DB and X that is changed to high at a timing at which NAND of the DA and the DB is changed from high to low and changed to low at a timing at which OR of the DA and the DB is changed from high to low, and generates PADr based on PAROd and PAFOd obtained by delaying a phase-lag output signal indicating a phase lag amount of the DA with respect to the DB by a predetermined time and the X; and a DPD signal generating unit that generates a phase difference signal indicating a phase difference between the DA and the DB based on the PEDr and the PADr, and generates a DPD signal based on the phase difference signal.
    • 一种光驱动装置,包括:相位差检测信号生成单元,其基于通过延迟指示相对于DB的相位超前量DA的相位超前输出信号而获得的PEROd和PEFOd,所述相位引导输出信号变为高 在DA和DB的NAND从高变为低的时刻,在DA和DB的OR从高变为低的时刻变为低,并且基于获得的PAROd和PAFOd生成PADr 通过将指示DA相对于DB的相位滞后量的相位延迟输出信号延迟预定时间和X; 以及DPD信号生成单元,其基于PEDr和PADr生成指示DA和DB之间的相位差的相位差信号,并且基于该相位差信号生成DPD信号。
    • 8. 发明申请
    • OPTICAL DRIVE DEVICE
    • 光驱装置
    • US20110128833A1
    • 2011-06-02
    • US12853523
    • 2010-08-10
    • Tetsuya NISHIYAMATakashi KIKUKAWA
    • Tetsuya NISHIYAMATakashi KIKUKAWA
    • G11B7/007G11B21/10
    • G11B7/0906G11B7/08511G11B7/0903G11B7/0956G11B20/10009G11B20/10527G11B2007/0013
    • An optical drive apparatus that reproduces an optical disk having a land and a groove, the optical drive apparatus including a first tracking-error-signal generating unit that generates a first tracking error signal by using a DPD method, a second tracking-error-signal generating unit that generates a second tracking error signal by using a DPP method, a tracking servo unit that controls the optical system, and a determining unit that determines that an irradiation point of an optical beam is in a non-recorded area. The tracking servo unit switches over to a control based on the second tracking error signal in response to a result of determination by the determining unit during performing a control based on the first tracking error signal.
    • 一种再现具有平台和凹槽的光盘的光驱动装置,所述光驱动装置包括通过使用DPD方法产生第一跟踪误差信号的第一跟踪误差信号产生单元,第二跟踪误差信号 生成单元,其通过使用DPP方法产生第二跟踪误差信号,控制光学系统的跟踪伺服单元以及确定光束的照射点在非记录区域中的确定单元。 响应于在执行基于第一跟踪误差信号的控制期间由确​​定单元确定的结果,跟踪伺服单元基于第二跟踪误差信号切换到控制。
    • 9. 发明申请
    • WIRELESS POWER RECEIVER, WIRELESS POWER TRANSMISSION SYSTEM, AND POWER CONTROLLER
    • 无线电力接收器,无线电力传输系统和电源控制器
    • US20120223587A1
    • 2012-09-06
    • US13270048
    • 2011-10-10
    • Tetsuya NISHIYAMAYoshihiro Saitoh
    • Tetsuya NISHIYAMAYoshihiro Saitoh
    • H02J17/00
    • H02J50/12H02J5/005H03H7/40
    • A wireless power receiver receives, at a receiving coil, AC power fed from a feeding coil by wireless using a magnetic field resonance phenomenon between the feeding coil and receiving coil. The wireless power receiver includes a loading circuit and a power controller. The loading circuit includes a loading coil that is magnetically coupled to the receiving coil to receive the AC power from the receiving coil and a load that receives the AC power supplied from the loading coil. The power controller includes a measurement unit and an adjustment unit. The measurement unit measures the receiving power of the load. The adjustment unit brings the receiving power close to its maximum value by changing the impedance of the loading circuit.
    • 无线电力接收器在接收线圈处接收通过馈电线圈和接收线圈之间的磁场共振现象通过无线从馈电线圈馈送的AC电力。 无线电力接收机包括负载电路和功率控制器。 负载电路包括加载线圈,该负载线圈磁耦合到接收线圈以接收来自接收线圈的AC电力以及接收从负载线圈供应的AC电力的负载。 功率控制器包括测量单元和调节单元。 测量单元测量负载的接收功率。 调整单元通过改变负载电路的阻抗使接收功率接近其最大值。
    • 10. 发明授权
    • Optical head device and optical recording and reading system
    • 光头设备和光记录读取系统
    • US08107349B2
    • 2012-01-31
    • US12585378
    • 2009-09-14
    • Noriyuki KawanoTetsuya NishiyamaYoshinori SatoKoji MishimaHajime Utsunomiya
    • Noriyuki KawanoTetsuya NishiyamaYoshinori SatoKoji MishimaHajime Utsunomiya
    • G11B7/00
    • G11B7/1381G11B7/0909G11B7/131G11B7/1374G11B7/1378G11B2007/0013
    • An optical head device (optical head) for a multi-layered optical recording medium has a focus control mechanism that makes use of astigmatism. The focus control mechanism has a sensor lens that includes a cylindrical lens. The focus control mechanism causes a light beam having passed through the sensor lens to have astigmatism, thereby being focused linearly in the Y direction on a front focal line located closer to the sensor lens and focused linearly in the X direction at a rear focal line located farther therefrom. The optical head also includes a photodetector which is disposed between the front focal line and the rear focal line to detect a focal position from the shape of a light beam. At the position of the front focal line, a shield plate with a window portion is disposed. The window portion has a size so as to allow the focal line to pass therethrough and shield stray light reflected from an unfocused recording layer.
    • 用于多层光学记录介质的光学头装置(光学头)具有利用散光的聚焦控制机构。 聚焦控制机构具有包括柱面透镜的传感器透镜。 聚焦控制机构使已经通过传感器透镜的光束具有散光,从而在位于更靠近传感器透镜的前焦点上沿Y方向线性聚焦,并且在位于 距离更远 光头还包括一个光电检测器,它设置在前焦线和后焦线之间,以从光束的形状检测焦点位置。 在前焦线的位置设置有具有窗口部分的屏蔽板。 窗口部分具有允许焦线穿过其中并且屏蔽从未聚焦的记录层反射的杂散光的尺寸。