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    • 1. 发明申请
    • DRIVE DEVICE, IMAGE ACQUISITION DEVICE, AND ELECTRONIC APPARATUS
    • 驱动装置,图像获取装置和电子装置
    • US20110242403A1
    • 2011-10-06
    • US13055571
    • 2009-07-22
    • Hitoshi KawamuraManabu TaniTakashi HasudaIkuo ShintaSusumu AokiKeisuke Taguchi
    • Hitoshi KawamuraManabu TaniTakashi HasudaIkuo ShintaSusumu AokiKeisuke Taguchi
    • H04N5/225H02N2/04G02B7/04
    • H04N5/2254G02B7/08H02N2/025H04N1/00307H04N5/2257
    • A drive device in which the frequency of a drive waveform applied to a piezoelectric element is easily settable with less obligation to consider resonance in a stationary member. The device includes a piezo element that expands and contracts according to a drive voltage, a transmission shaft that receives vibration produced by the element, a stationary member that holds the transmission shaft in a slidable state along the longitudinal direction of the transmission shaft, and a lens holder that is displaced together with the piezo element and transmission shaft relative to the stationary member according to drive of the piezo element. The piezo element and the transmission shaft move in the moving direction of the lens holder in synchronization with the lens holder according to drive of the piezo element in the state where the piezo element is spaced from the stationary member. By employing this structure, the frequency of the drive waveform applied to the piezo element can be set easily without considering resonance in the stationary member.
    • 一种驱动装置,其中施加到压电元件的驱动波形的频率可以容易地设置,而在固定构件中考虑共振的义务较少。 该装置包括根据驱动电压而膨胀和收缩的压电元件,接收由该元件产生的振动的传动轴;沿着传动轴的纵向保持传动轴处于滑动状态的固定部件;以及 透镜架,其与压电元件和传动轴一起相对于静止构件与压电元件的驱动一起移位。 压电元件和传动轴在压电元件与固定构件间隔开的状态下,根据压电元件的驱动与透镜保持器同步地在透镜保持器的移动方向上移动。 通过采用这种结构,可以容易地设置施加到压电元件的驱动波形的频率,而不考虑固定构件的共振。
    • 2. 发明授权
    • Drive device, image acquisition device, and electronic apparatus
    • 驱动装置,图像采集装置和电子装置
    • US09083870B2
    • 2015-07-14
    • US13055571
    • 2009-07-22
    • Hitoshi KawamuraManabu TaniTakashi HasudaIkuo ShintaSusumu AokiKeisuke Taguchi
    • Hitoshi KawamuraManabu TaniTakashi HasudaIkuo ShintaSusumu AokiKeisuke Taguchi
    • H04N5/225G02B7/08H02N2/02H04N1/00
    • H04N5/2254G02B7/08H02N2/025H04N1/00307H04N5/2257
    • A drive device in which the frequency of a drive waveform applied to a piezoelectric element is easily settable with less obligation to consider resonance in a stationary member. The device includes a piezo element that expands and contracts according to a drive voltage, a transmission shaft that receives vibration produced by the piezo element, a stationary member that holds the transmission shaft in a slidable state along the longitudinal direction of the transmission shaft, and a lens holder that is displaced together with the piezo element and transmission shaft relative to the stationary member according to drive of the piezo element. The piezo element and the transmission shaft move in the moving direction of the lens holder in synchronization with the lens holder according to drive of the piezo element in the state where the piezo element is spaced from the stationary member. By employing this structure, the frequency of the drive waveform applied to the piezo element can be set easily without considering resonance in the stationary member.
    • 一种驱动装置,其中施加到压电元件的驱动波形的频率可以容易地设置,而在固定构件中考虑共振的义务较少。 该装置包括根据驱动电压而膨胀和收缩的压电元件,接收由压电元件产生的振动的传动轴;沿着传动轴的纵向保持传动轴处于滑动状态的固定部件;以及 根据压电元件的驱动,与压电元件和传动轴相对于固定部件一起移动的透镜保持器。 压电元件和传动轴在压电元件与固定构件间隔开的状态下,根据压电元件的驱动与透镜保持器同步地在透镜保持器的移动方向上移动。 通过采用这种结构,可以容易地设置施加到压电元件的驱动波形的频率,而不考虑固定构件的共振。
    • 3. 发明申请
    • Imaging apparatus and optical axis correction method of imaging apparatus
    • 成像设备的成像设备和光轴校正方法
    • US20100141734A1
    • 2010-06-10
    • US12588761
    • 2009-10-27
    • Manabu TaniKeisuke TaguchiIkuo Shinta
    • Manabu TaniKeisuke TaguchiIkuo Shinta
    • H04N7/00
    • H04N5/232H04N5/23238H04N5/23296
    • An imaging apparatus includes a plurality of imaging units each having a lens and an image pickup device. At least one of the imaging units is a wide-angle imaging unit having a lens with a wider angle of view, and at least another one is a zoom imaging unit having a lens with a narrower angle of view and a higher magnification and mounted rotatably to the imaging apparatus. The imaging apparatus includes a driving unit that rotates the zoom imaging unit to change an imaging range of the zoom imaging unit, an image comparison unit that compares a partial image of a wide-angle image captured by the wide-angle imaging unit and a magnified image captured by the zoom imaging unit, and an optical axis information update unit that updates optical axis information of the zoom imaging unit based on a comparison result of the image comparison unit.
    • 一种成像装置包括多个具有透镜和图像拾取装置的成像单元。 成像单元中的至少一个是具有宽视角的透镜的广角成像单元,并且至少另一个是具有较窄视角和更高倍率的透镜的变焦成像单元,并且可旋转地安装 到成像装置。 成像装置包括:驱动单元,其使变焦成像单元旋转以改变变焦成像单元的成像范围;图像比较单元,其将由广角成像单元拍摄的广角图像的部分图像与放大图像 由缩放成像单元拍摄的图像,以及光轴信息更新单元,其基于图像比较单元的比较结果来更新缩放成像单元的光轴信息。
    • 4. 发明授权
    • Electrostatic force detector with cantilever and shield for an electrostatic force microscope
    • 带静电力显微镜的悬臂和屏蔽静电力检测器
    • US06337478B1
    • 2002-01-08
    • US09434668
    • 1999-11-05
    • Toshio UeharaAkiyoshi ItohKatsuji NakagawaManabu TaniBruce T. Williams
    • Toshio UeharaAkiyoshi ItohKatsuji NakagawaManabu TaniBruce T. Williams
    • G01R2912
    • G01Q60/30Y10S977/852Y10S977/864
    • An electrostatic force microscope for measuring electrostatic force of a sample under test including a detector comprising a cantilever arm having a tip formation at one end and located so that electrostatic force is induced at the tip due to electrostatic charge on the sample under test, an optical system for transforming bending of the cantilever arm due to electrostatic force induced at the tip into an electrical signal containing a frequency component of the electrostatic force induced at the detector tip, a source for applying bias voltage to the detector, a detector for detecting the frequency component of the electrostatic force induced at the detector tip so that a measurement of electrostatic force on the sample under test can be obtained, and an electrostatic shield operatively associated with the cantilever arm. The shield is located between the cantilever arm and the sample under test, in particular in close spaced relation to the arm. The cantilever arm and the shield are maintained at the same electrical potential so that lines of electrostatic force are terminated at the shield.
    • 一种用于测量被测样品的静电力的静电力显微镜,包括检测器,该检测器包括悬臂,所述悬臂臂在一端具有尖端形成,并且定位成使得由于被测试样品上的静电荷引起的尖端处的静电力,光学 用于将由尖端引起的静电力引起的悬臂的弯曲变形为包含在检测器尖端感应的静电力的频率分量的电信号的系统,用于向检测器施加偏置电压的源,用于检测频率的检测器 在检测器尖端处感应的静电力的分量,使得可以获得在被测试样品上的静电力的测量,以及与悬臂相配合的静电屏蔽。 屏蔽位于悬臂与试验样品之间,特别是与臂紧密隔开。 悬臂和屏蔽件保持相同的电位,使得静电力线在屏蔽处终止。
    • 6. 发明授权
    • Method for recording mark length shorter than channel bit length on magneto-optical medium
    • 在磁光介质上记录短于通道位长的标记长度的方法
    • US06567348B1
    • 2003-05-20
    • US09433021
    • 1999-11-03
    • Kouichirou WakabayashiMasafumi YoshihiroManabu Tani
    • Kouichirou WakabayashiMasafumi YoshihiroManabu Tani
    • G11B1100
    • G11B11/10528G11B11/10513G11B11/10515G11B11/10595G11B20/1426
    • When recording marks having various lengths are recorded to represent information on a magneto-optical recording medium, a mark length-correcting circuit is used to correct a mark length nT with a mark length correction amount Lc determined for each mark length so that the recording is performed with a shorter mark length nT′=nT−Lc. When reproduction is performed on the magneto-optical recording medium, an appropriate reproducing light power and an appropriate reproducing magnetic field intensity can be easily selected for any recording mark having any length. Thus, the reproducing power margin is widened. The recording method is effective on a magneto-optical recording medium of the MAMMOS type comprising a recording layer and a reproducing layer, in which the light and the magnetic field are applied during the reproduction to transfer a magnetic domain from the recording layer to the reproducing layer in a magnified form.
    • 当记录具有各种长度的记录标记以表示关于磁光记录介质的信息时,使用标记长度校正电路来校正标记长度nT,并以每个标记长度确定标记长度校正量Lc,使得记录是 以较短的标记长度nT'= nT-Lc执行。 当对磁光记录介质进行再现时,可以容易地为任何长度的任何记录标记选择适当的再现光功率和适当的再现磁场强度。 因此,再现功率余量变宽。 记录方法在包括记录层和再现层的MAMMOS类型的磁光记录介质上有效,其中在再现期间施加光和磁场以将磁畴从记录层传送到再现 层以放大的形式。
    • 8. 发明申请
    • Method for determining reproducing light beam intensity and recording and reproducing apparatus
    • 用于确定再现光束强度的方法和记录和再现装置
    • US20050052956A1
    • 2005-03-10
    • US10895910
    • 2004-07-22
    • Hiroshi IdoHiroyuki AwanoManabu TaniSusumu Imai
    • Hiroshi IdoHiroyuki AwanoManabu TaniSusumu Imai
    • G11B11/00G11B11/105
    • G11B11/10515G11B11/10595
    • A means is provided to determine, accurately in a shorter period of time, an optimum reproducing laser beam intensity for reproducing user data or various management data on a magneto-optical recording medium based on the magnetic amplifying magneto-optical transfer system. In a method for determining the reproducing laser beam intensity of the present invention, a test reproduction area, which is formed of maze magnetic domains having random sizes not subjected to any recording process and provided on a magneto-optical recording medium based on Zero-Field MAMMOS, is irradiated with a laser beam before reproducing user information while changing the laser beam intensity to detect a magneto-optical signal. Subsequently, the reproducing laser beam intensity is determined for user information on the basis of the magneto-optical signal obtained from the test reproduction area.
    • 提供了一种装置,用于在更短的时间内精确地确定用于基于磁放大磁光转移系统在磁光记录介质上再现用户数据或各种管理数据的最佳再现激光束强度。 在本发明的再生激光强度的确定方法中,由具有不经历任何记录处理的随机大小的迷宫磁畴形成的测试再现区域,其设置在基于零场的磁光记录介质上 MAMMOS在再现用户信息之前用激光束照射,同时改变激光束强度以检测磁光信号。 随后,基于从测试再现区域获得的磁光信号,确定用户信息的再现激光束强度。