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    • 1. 发明授权
    • Disc player
    • 光盘播放器
    • US06282160B1
    • 2001-08-28
    • US09271316
    • 1999-03-18
    • Kiyoshi TateishiMitsuru Sato
    • Kiyoshi TateishiMitsuru Sato
    • G11B700
    • G11B19/247G11B7/0037G11B7/00745G11B19/12
    • Disclosed is a disc player for obtaining a read signal from an optical disc having sectors including land and groove tracks and ID regions, preformatted at given angular spatial intervals, which demarcate the sectors and are segmented, in the track extending direction, into two regions, each segmented region including a plural number of recording regions and non-recording regions, which are alternately and radially arrayed while being radially shifted by approximately half a track pitch from the tracks of the sectors adjacent to the segmented regions, each recording region containing record position information recorded therein having predetermined time durations. The disc player comprises: optical read means for projecting a light beam onto the optical disc and receiving a light beam reflected from a recording surface of the optical disc; first and second signal generating means for generating first and second signals which are dependent on the record position information recorded in the recording regions of the first and second segmented regions by use of a signal output from the optical read means; and ID region detecting means for outputting a detecting signal indicating that the ID region is detected when the first and second signals are both present.
    • 公开了一种光盘播放器,用于从具有扇区的光盘获得读取信号,所述扇区包括具有纹间和纹道轨迹和ID区域的扇区,以特定的角度空间间隔预先格式化,将扇区划分成轨道延伸方向并分段成两个区域, 每个分段区域包括多个记录区域和非记录区域,它们从与分段区域相邻的扇区的轨道径向偏移约半个轨道间距,每个记录区域包含记录位置 其中记录的信息具有预定的持续时间。 光盘播放器包括:光学读取装置,用于将光束投射到光盘上并接收从光盘的记录表面反射的光束; 第一和第二信号产生装置,用于通过使用从光学读取装置输出的信号产生依赖于记录在第一和第二分割区域的记录区域中的记录位置信息的第一和第二信号; 以及ID区域检测装置,用于当第一和第二信号都存在时,输出指示检测到ID区域的检测信号。
    • 2. 发明申请
    • Optical pickup device and apparatus for reading data from optical storage medium
    • 用于从光学存储介质读取数据的光学拾取装置和装置
    • US20050041541A1
    • 2005-02-24
    • US10921836
    • 2004-08-20
    • Kiyoshi TateishiKazuo TakahashiMitsuru SatoIchiro Sugai
    • Kiyoshi TateishiKazuo TakahashiMitsuru SatoIchiro Sugai
    • G11B7/085G11B7/00G11B7/09
    • G11B7/08511G11B7/0945G11B2007/0013
    • An optical pickup is provided for preventing an objective lens from colliding with an optical recording medium at the stage of initial adjustments. The optical pickup device comprises a servo circuit, and a lens driver for driving an objective lens. In the servo circuit, a drive signal generator supplies the lens driver with one of a first focus drive signal for moving the objective lens in a direction closer to an information recording layer, and a second focus drive signal for moving the objective lens in a direction away from the information recording layer. A controller in a timing generator switches a signal supplied to the lens driver from the first focus drive signal to the second focus drive signal when the level changes by a predetermined range or more in a servo signal which is generated during a period in which the first focus drive signal is being supplied to the lens driver.
    • 提供了一种用于在初始调整阶段防止物镜与光记录介质碰撞的光拾取器。 光学拾取装置包括伺服电路和用于驱动物镜的透镜驱动器。 在伺服电路中,驱动信号发生器向透镜驱动器提供用于使物镜沿更靠近信息记录层的方向移动的第一聚焦驱动信号和用于使物镜沿方向移动的第二聚焦驱动信号 远离信息记录层。 定时发生器中的控制器在第一聚焦驱动信号中提供给镜头驱动器的信号切换到第二聚焦驱动信号,当电平在伺服信号中改变预定范围或更大时,该伺服信号是在第一 聚焦驱动信号被提供给镜头驱动器。
    • 3. 发明授权
    • Optical pickup device and apparatus for reading data from optical storage medium
    • 用于从光学存储介质读取数据的光学拾取装置和装置
    • US07522482B2
    • 2009-04-21
    • US10921836
    • 2004-08-20
    • Kiyoshi TateishiKazuo TakahashiMitsuru SatoIchiro Sugai
    • Kiyoshi TateishiKazuo TakahashiMitsuru SatoIchiro Sugai
    • G11B7/00
    • G11B7/08511G11B7/0945G11B2007/0013
    • An optical pickup is provided for preventing an objective lens from colliding with an optical recording medium at the stage of initial adjustments. The optical pickup device comprises a servo circuit, and a lens driver for driving an objective lens. In the servo circuit, a drive signal generator supplies the lens driver with one of a first focus drive signal for moving the objective lens in a direction closer to an information recording layer, and a second focus drive signal for moving the objective lens in a direction away from the information recording layer. A controller in a timing generator switches a signal supplied to the lens driver from the first focus drive signal to the second focus drive signal when the level changes by a predetermined range or more in a servo signal which is generated during a period in which the first focus drive signal is being supplied to the lens driver.
    • 提供了一种用于在初始调整阶段防止物镜与光记录介质碰撞的光拾取器。 光学拾取装置包括伺服电路和用于驱动物镜的透镜驱动器。 在伺服电路中,驱动信号发生器向透镜驱动器提供用于使物镜沿更靠近信息记录层的方向移动的第一聚焦驱动信号和用于使物镜沿方向移动的第二聚焦驱动信号 远离信息记录层。 定时发生器中的控制器在第一聚焦驱动信号中提供给镜头驱动器的信号切换到第二聚焦驱动信号,当电平在伺服信号中改变预定范围或更大时,该伺服信号是在第一 聚焦驱动信号被提供给镜头驱动器。
    • 5. 发明授权
    • Pickup drive apparatus, pickup drive method, and recording/reproducing apparatus
    • 拾取驱动装置,拾取驱动方法和记录/再现装置
    • US06501711B1
    • 2002-12-31
    • US09461309
    • 1999-12-15
    • Kiyoshi TateishiMitsuru SatoIkuya Kikuchi
    • Kiyoshi TateishiMitsuru SatoIkuya Kikuchi
    • G11B700
    • G11B7/00718G11B7/0901
    • A pickup drive apparatus for recording or reproducing with respect to a recording medium such as a CD and a DVD. In the apparatus, return light produced by irradiating an optical spot is detected by a photodetector, and a push-pull signal is produced from this detection output. A tracking error signal is produced from the push-pull signal by a low-pass filter and a phase compensating circuit. A quasi-ON/OFF control signal having information of an irradiation position of the optical spot is produced from the push-pull signal by a high-pass filter, a comparator, and a single pulse generator. When the quasi-ON/OFF control signal is produced which indicates that the optical spot is positioned on a groove, the tracking error signal is outputted via switching circuits in synchronism with this signal production. A pickup is servo-controlled based on this output signal.
    • 一种用于相对于诸如CD和DVD的记录介质进行记录或再现的拾取驱动装置。 在该装置中,通过光电检测器检测通过照射光点产生的返回光,并且从该检测输出产生推挽信号。 通过低通滤波器和相位补偿电路从推挽信号产生跟踪误差信号。 通过高通滤波器,比较器和单脉冲发生器从推挽信号产生具有光点的照射位置信息的准ON / OFF控制信号。 当产生表示光点位于凹槽上的准ON / OFF控制信号时,跟踪误差信号与该信号产生同步地经由开关电路输出。 基于该输出信号对拾取器进行伺服控制。
    • 6. 发明授权
    • Power controller
    • 电源控制器
    • US06741041B2
    • 2004-05-25
    • US10445258
    • 2003-05-27
    • Kiyoshi TateishiMitsuru Sato
    • Kiyoshi TateishiMitsuru Sato
    • H05B3702
    • H05B33/0851G11B7/126G11B7/1263
    • A power controller is provided which can control the emission power from a light source to follow an appropriate response property based on a target value. The power controller includes feedforward systems for allowing currents corresponding to target values set at target value setting units to be switched at a switching device and supplied as a power setting current to an adder. Also included are feedback systems for detecting the power of the laser beam emitted by a semiconductor laser serving as the light source and adjusting a feedback current to stabilize the deviation from the target values at a predetermined value. Further included are a switching device for allowing the target values to be switched and supplied to the aforementioned feedback systems, and the adder for adding a feedback current and the power setting current to thereby generate a drive current for driving the semiconductor laser. The switching devices are simultaneously switched upon changing the power of the laser beam in response to the target values, thereby implementing an appropriate response property allowing no ringing caused in the power upon the transient event.
    • 提供了一种功率控制器,其可以控制来自光源的发射功率,以基于目标值遵循适当的响应特性。 功率控制器包括前馈系统,用于允许对应于在目标值设置单元设置的目标值的电流在开关装置处切换并作为功率设定电流提供给加法器。 还包括用于检测由用作光源的半导体激光器发射的激光束的功率的反馈系统,并且调整反馈电流以将偏离目标值的偏差稳定在预定值。 进一步包括用于允许将目标值切换并提供给上述反馈系统的开关装置,以及用于增加反馈电流和功率设定电流的加法器,从而产生用于驱动半导体激光器的驱动电流。 响应于目标值改变激光束的功率,同时切换开关装置,从而实现适当的响应特性,允许在瞬态事件时在电源中引起振铃。
    • 8. 发明申请
    • LIGHT AMOUNT DETECTING APPARATUS, AND LIGHT AMOUNT INFORMATION PROCESSING APPARATUS
    • 轻量检测装置和轻量信息处理装置
    • US20120105033A1
    • 2012-05-03
    • US13380407
    • 2009-07-01
    • Kiyoshi TateishiYoshihiro HanadaMichiaki Nakamura
    • Kiyoshi TateishiYoshihiro HanadaMichiaki Nakamura
    • G05F1/10
    • H03F3/45475G01J1/44H03F3/082H03F3/087H03F3/45183H03F3/4565H03F2203/45082H03F2203/45138H03F2203/45528H03F2203/45702
    • A light amount detecting apparatus includes: a photoelectric converting element converting quantity of light inputted to current; a current/voltage converting device having a positive input terminal connected to a first terminal of the photoelectric converting element, a negative input terminal connected to a second terminal of the photoelectric converting element, a negative output terminal for reversing polarity of a current inputted to the positive input terminal and outputting it as a voltage, a positive output terminal for reversing polarity of a current inputted to the negative input terminal and outputting it as a voltage, a first negative feedback resistor connecting the positive and negative output terminals, and a second negative feedback resistor connected between the negative and positive output terminals, the current/voltage converting device setting the photoelectric converting element in zero bias and converting the converted current to the voltage; and an amplifying device for amplifying the converted voltage.
    • 光量检测装置包括:光电转换元件,将输入到电流的光量进行转换; 电流/电压转换装置,具有连接到光电转换元件的第一端子的正输入端子,连接到光电转换元件的第二端子的负输入端子,用于反转输入到光电转换元件的电流的极性的负输出端子 正输入端子并将其输出为电压;正输出端子,用于反转输入到负输入端子的电流的极性并将其输出为电压;第一负反馈电阻器,连接正极和负极输出端子;以及第二负极 反馈电阻连接在负输出端和正输出端之间,电流/电压转换装置将光电转换元件设置为零偏置并将转换后的电流转换为电压; 以及用于放大转换电压的放大装置。
    • 9. 发明授权
    • Physical properties detection device and physical properties detection method
    • 物理性质检测装置及物理性质检测方法
    • US08138746B2
    • 2012-03-20
    • US12532129
    • 2007-03-20
    • Kiyoshi TateishiTakanori MaedaHideki KobayashiTomotaka Yabe
    • Kiyoshi TateishiTakanori MaedaHideki KobayashiTomotaka Yabe
    • G01N27/00
    • G11B9/02G11B9/06
    • A physical properties detection device comprising a probe to be placed near or touching a surface of a ferroelectric; an oscillation loop including the probe and capacitance within the ferroelectric; and detection means for detecting a physical properties of the ferroelectric on the basis of a frequency variation of a measurement signal generated in the oscillation loop, the frequency variation accompanying application of an alternating electric field to the ferroelectric; and the physical properties detection device is further comprising frequency conversion means for converting the frequency of the measurement signal to a low frequency and outputting the resulting signal as a converted measurement signal; frequency control means for controlling the frequency of the converted measurement signal so as to match a target frequency; frequency detection means for generating a frequency detection signal that has a signal level corresponding to the frequency of the converted measurement signal; and synchronous detection means for synchronously detecting the frequency detection signal on the basis of a synchronization signal.
    • 一种物理特性检测装置,包括放置在铁电体表面附近或接触铁电体的探针; 包括铁电体内探针和电容的振荡回路; 以及检测装置,用于基于在振荡环路中产生的测量信号的频率变化,伴随向铁电体施加交变电场的频率变化来检测铁电体的物理性质; 物理特性检测装置还包括频率转换装置,用于将测量信号的频率转换为低频,并将所得信号作为转换的测量信号输出; 频率控制装置,用于控制转换的测量信号的频率以便匹配目标频率; 频率检测装置,用于产生具有与转换的测量信号的频率对应的信号电平的频率检测信号; 以及用于基于同步信号同步检测频率检测信号的同步检测装置。