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    • 1. 发明授权
    • Light amount detecting apparatus, and light amount information processing apparatus
    • 光量检测装置和光量信息处理装置
    • US08742314B2
    • 2014-06-03
    • US13380407
    • 2009-07-01
    • Kiyoshi TateishiYoshihiro HanadaMichiaki Nakamura
    • Kiyoshi TateishiYoshihiro HanadaMichiaki Nakamura
    • H03F3/08
    • 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。
    • 2. 发明授权
    • Capacitance detecting apparatus
    • 电容检测装置
    • US08164352B2
    • 2012-04-24
    • US12278541
    • 2007-01-23
    • Kiyoshi TateishiTakanori Maeda
    • Kiyoshi TateishiTakanori Maeda
    • G01R27/26
    • G01D5/24G01L9/12G01P15/125G01R27/2605
    • A capacitance detecting apparatus which can detect the change in minute capacitance of a measuring object with high sensitivity comprises a signal generator, a differential amplifying circuit, and a detecting unit. The signal generator generates a probe signal w(t) to be applied to one end of the measuring object. The differential amplifying circuit amplifies differentially a response signal v1(t) developed at the other end of the measuring object in response to the application of the probe signal w(t) and the probe signal w(t). The detecting unit detects capacitance change of the measuring object based on the amplified signal v(t) from the differential amplifying circuit.
    • 可以检测高灵敏度的测量对象的微小电容的变化的电容检测装置包括信号发生器,差分放大电路和检测单元。 信号发生器产生要施加到测量对象的一端的探测信号w(t)。 差分放大电路响应于探测信号w(t)和探测信号w(t)的应用,差分地放大在测量对象的另一端产生的响应信号v1(t)。 检测单元基于来自差分放大电路的放大信号v(t)来检测测量对象的电容变化。
    • 3. 发明授权
    • Semiconductor laser driving device and semiconductor laser driving method
    • 半导体激光驱动装置和半导体激光驱动方法
    • US07697583B2
    • 2010-04-13
    • US11910282
    • 2006-03-30
    • Junichi FurukawaKiyoshi Tateishi
    • Junichi FurukawaKiyoshi Tateishi
    • H01S3/00H01S3/04
    • G11B7/1263G11B7/0062H01S5/0617H01S5/06804H01S5/06832
    • A semiconductor laser driving device is mounted on an information recording and reproduction device, and is suitably used for recording and reproducing information. The semiconductor laser driving device includes: a semiconductor laser for emitting a laser light; and a temperature detection unit for detecting a temperature of the semiconductor laser. The semiconductor laser driving device changes the output of the laser light based on the detected temperature. Thus, the semiconductor laser driving unit can suitably improve response characteristics of the semiconductor laser, irrespective of the temperature of the semiconductor laser. Therefore, the semiconductor laser driving device can ensure recording performance onto an optical disc without being affected by the temperature of the semiconductor laser.
    • 半导体激光器驱动装置安装在信息记录和再现装置上,适用于记录和再现信息。 半导体激光器驱动装置包括:用于发射激光的半导体激光器; 以及用于检测半导体激光器的温度的温度检测单元。 半导体激光驱动装置根据检测到的温度来改变激光的输出。 因此,与半导体激光器的温度无关,半导体激光器驱动单元可以适当地改善半导体激光器的响应特性。 因此,半导体激光驱动装置能够确保在光盘上的记录性能而不受半导体激光器的温度的影响。
    • 4. 发明申请
    • TWO-DIMENSIONAL DEMODULATION METHOD, TWO-DIMENSIONAL DEMODULATION APPARATUS AND HOLOGRAPHIC APPARATUS
    • 二维解调方法,二维解调装置和全息装置
    • US20090316558A1
    • 2009-12-24
    • US12295597
    • 2007-03-16
    • Michikazu HashimotoKiyoshi Tateishi
    • Michikazu HashimotoKiyoshi Tateishi
    • G11B7/0065
    • G11B7/0065G11B20/10009G11B2020/1863
    • A two-dimensional demodulation method for reproducing a data page by means of decision feedback Viterbi detection processing from a recording medium on which a data page has been recorded as a set of a plurality of two-dimensional modulation pattern symbols each of which comprises a plurality of pixels, and which have been modulated two-dimensionally, the method comprising: a step of determining a value of pixel deviation in a reproduction image obtained by receiving light from the recording medium on an image sensor; a step of splitting an output signal of the image sensor which indicates the reproduction image of the light received from the recording medium into signal symbol data by division into blocks in accordance with the two-dimensional modulation pattern symbols; and a step of carrying out decision feedback Viterbi detection for each signal symbol data in accordance with the pixel deviation value.
    • 一种二维解调方法,用于通过判定反馈维特比检测处理从其上记录了数据页的记录介质再现数据页,作为多个二维调制图案符号的集合,每个二维调制图案符号包括多个 并且已经被二维调制,该方法包括:确定通过在图像传感器上接收来自记录介质的光而获得的再现图像中的像素偏差的值的步骤; 根据二维调制图案符号,将表示从记录介质接收的光的再现图像分解为信号符号数据的图像传感器的输出信号分割为块的步骤; 以及根据像素偏差值对每个信号符号数据执行判定反馈维特比检测的步骤。
    • 6. 发明申请
    • MARKER SELECTION METHOD, SELECTION DEVICE, MARKER, HOLOGRAM RECORDING DEVICE AND METHOD, HOLOGRAM REPRODUCING DEVICE AND METHOD, AND COMPUTER PROGRAM
    • 标记选择方法,选择装置,标记,HOLOGRAM记录装置和方法,HOLOGRAM再现装置和方法以及计算机程序
    • US20090238058A1
    • 2009-09-24
    • US11885406
    • 2006-03-03
    • Kiyoshi TateishiMichikazu Hashimoto
    • Kiyoshi TateishiMichikazu Hashimoto
    • G11B7/00
    • G03H1/00G03H2001/0066G06T7/74
    • A marker selection method includes: a marker generation step for generating a marker defining a position reference when recording data according to the modulation rule of the hologram recording/reproduction; a calculation step for calculating a correlation value indicating the correlation between a template image indicating a maker and each of a first verification image containing the marker shifted by a predetermined pixel and a second verification image containing data; and a selection step for selecting such a marker that the peak of the correlation value in the first verification image becomes greater than the peak of the correlation value in the second verification image. The selected marker is used as marker data in a marker generator in a recording processing circuit during recoding and as template data of the template matching processing circuit in the reproduction processing circuit during reproduction.
    • 标记选择方法包括:标记生成步骤,用于在根据全息图记录/再现的调制规则记录数据时产生定义位置参考的标记; 计算步骤,用于计算指示制造商的模板图像与包含偏移了预定像素的标记的第一验证图像与包含数据的第二验证图像之间的相关性的相关值; 以及选择步骤,用于选择这样的标记,使得第一验证图像中的相关值的峰值变得大于第二验证图像中的相关值的峰值。 所选择的标记在重新编码期间用作记录处理电路中的标记生成器中的标记数据,并且在再现期间用作再现处理电路中的模板匹配处理电路的模板数据。
    • 8. 发明授权
    • Rotation controlling apparatus for optical recording medium
    • 光记录媒体旋转控制装置
    • US06920096B2
    • 2005-07-19
    • US10104064
    • 2002-03-25
    • Kiyoshi Tateishi
    • Kiyoshi Tateishi
    • G11B7/005G11B7/007G11B19/28G11B5/09
    • G11B19/28G11B7/24082
    • An rotation speed controlling apparatus of an optical recording medium having a wobbled track includes an optical pickup for irradiating a light beam to generate a reading signal according to a wobbling shape of the track; a filter having a predetermined frequency band to pass a wobble reference frequency therethrough for extracting a wobble signal from the reading signal; a generator for generating a wobble reference signal; a detector for detecting the difference between the wobble signal frequency and the wobble reference frequency; a controller for controlling the rotation speed on the basis of the difference between the frequency of the extracted wobble signal and the wobble reference frequency; and a discriminator for discriminating that the wobble signal frequency lies outside the frequency band of the filter; wherein the controller controls the rotation speed in accordance with the detected frequency difference when the wobble signal frequency lies outside the frequency band of the filter.
    • 具有摆动轨迹的光记录介质的转速控制装置包括:用于照射光束的光拾取器,以根据轨道的摆动形状生成读取信号; 具有预定频带的滤波器,用于通过摆动参考频率从其中提取来自读取信号的摆动信号; 用于产生摆动参考信号的发生器; 检测器,用于检测摆动信号频率与摆动参考频率之间的差异; 控制器,用于根据所提取的摆动信号的频率与摆动参考频率之间的差异来控制转速; 以及鉴别器,用于鉴别摆动信号频率位于滤波器的频带之外; 其中当摆动信号频率位于滤波器的频带之外时,控制器根据检测到的频率差来控制转速。
    • 9. 发明申请
    • Two-dimensional light-receiving element, optical reproducing apparatus and optical recording and reproducing apparatus
    • 二维光接收元件,光学再现装置和光学记录和再现装置
    • US20050147013A1
    • 2005-07-07
    • US11028862
    • 2005-01-05
    • Kiyoshi TateishiHideki Kobayashi
    • Kiyoshi TateishiHideki Kobayashi
    • G11B7/0065G11B7/00G11B7/13G11B7/131H01L31/10
    • G11B7/00781G11B7/0065G11B7/131
    • A marker for position detection is included in a spatially-modulated pattern of recording information, and an object light is generated and the recording information is recorded on a recording medium. From a detected light from the recording medium, information data corresponding to the recording information and marker data are detected by a two-dimensional sensor. By making unit light-receiving element sizes of marker detecting area and data detecting area of the two-dimensional sensor different, detection accuracy of the marker position can be improved. In addition, by making a bit length of the detected marker data longer than a bit length of the information data, the detection accuracy of the marker position can also be improved. Further, by outputting the detected marker data prior to the information data, a process such as a marker position detection and a geometrical correction can be started in an early stage, and reproduction of the recording information can rapidly be performed.
    • 用于位置检测的标记被包括在记录信息的空间调制图案中,并且产生对象光并将记录信息记录在记录介质上。 从记录介质的检测光中,通过二维传感器检测与记录信息和标记数据相对应的信息数据。 通过使标记检测区域的单位光接收元件尺寸和二维传感器的数据检测区域不同,可以提高标记位置的检测精度。 此外,通过使所检测的标记数据的位长度比信息数据的位长度长,也可以提高标记位置的检测精度。 此外,通过在信息数据之前输出检测到的标记数据,可以在早期开始诸如标记位置检测和几何校正的处理,并且可以快速地执行记录信息的再现。
    • 10. 发明申请
    • Hologram recording and reproducing apparatus
    • 全息记录和再现设备
    • US20050135217A1
    • 2005-06-23
    • US11013797
    • 2004-12-17
    • Kiyoshi TateishiMichikazu Hashimoto
    • Kiyoshi TateishiMichikazu Hashimoto
    • G03H1/04G03H1/22G11B7/00G11B7/0065G11B7/09G11B7/135
    • G11B7/00781G11B7/0065G11B7/0908G11B7/0938
    • The hologram recording and reproducing apparatus includes a recording unit which records information on a holographic recording medium by recording interference fringes formed by irradiation of a reference light and an object light corresponding to recording information, a reproducing unit which generates detected information data and a focus error signal on the basis of detected light from the holographic recording medium, and a focus servo unit that carries out focus servo on the basis of the focus error signal. The focus servo unit has a servo target value setting unit which sets a target value for focus servo on the basis of the detected information data. The detected information data also includes information indicative of the position relationship between the recording medium and the reference light or the like. Accordingly, by utilizing the detected information data to set the target value for focus servo, it is possible to carry out more precise focus servo, with managing a variation in the focus servo target value caused by a change in environment such as temperature or a variation in the thickness of the recording medium.
    • 全息记录和再现装置包括:记录单元,记录关于全息记录介质的信息,记录通过参照光照射形成的干涉条纹和与记录信息相对应的物体光;生成检测信息数据的再现单元和聚焦误差 基于来自全息记录介质的检测光的信号,以及基于聚焦误差信号执行聚焦伺服的聚焦伺服单元。 聚焦伺服单元具有基于检测到的信息数据设定聚焦伺服的目标值的伺服目标值设定单元。 所检测的信息数据还包括指示记录介质和参考光之间的位置关系的信息等。 因此,通过利用检测到的信息数据来设定聚焦伺服的目标值,可以通过管理由诸如温度或变化的环境变化引起的聚焦伺服目标值的变化来执行更精确的聚焦伺服 在记录介质的厚度上。