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    • 1. 发明授权
    • Apparatus having an afocal lens system used in optical measurement of
displacement
    • 具有用于位移光学测量的无焦点透镜系统的装置
    • US5926276A
    • 1999-07-20
    • US835462
    • 1997-04-08
    • Makoto TakamiyaShigeki Kato
    • Makoto TakamiyaShigeki Kato
    • G01B11/00G01P3/36G01P5/26G01S7/48G01S17/58G01B9/02
    • G01P5/26G01P3/366
    • An optical displacement measuring apparatus including an afocal optical system within a plane containing paths of at least two light beams. The afocal optical system includes a first lens optical unit and a second lens optical unit having a focal length which is greater than the focal length of the first lens optical unit. The distance between a diffraction grating and the first lens optical unit is smaller than the focal length of the first lens optical unit. The second lens optical unit is a combination of a lens with a negative refractive power and a lens with a positive refractive power. Accordingly, the optical displacement measuring apparatus performs accurate measurements with a large measurement depth, even for the cases where an afocal optical system is constructed within a plane containing the paths of the two light beams and the working distance is increased without increasing the size of an optical head.
    • 一种光学位移测量装置,包括在包含至少两个光束的路径的平面内的无焦光学系统。 无焦光学系统包括第一透镜光学单元和具有大于第一透镜光学单元的焦距的焦距的第二透镜光学单元。 衍射光栅与第一透镜光学单元之间的距离小于第一透镜光学单元的焦距。 第二透镜光学单元是具有负屈光力的透镜和具有正折光力的透镜的组合。 因此,即使在包含两个光束的路径的平面内构造无焦光学系统的情况下,光学位移测量装置也能够进行具有大测量深度的精确测量,并且增加工作距离而不增加尺寸 光头。
    • 4. 发明授权
    • Interference device, position detecting device, positioning device and information recording apparatus using the same
    • 干涉装置,位置检测装置,定位装置及使用该装置的信息记录装置
    • US06631047B2
    • 2003-10-07
    • US09156491
    • 1998-09-18
    • Kou IshizukaHidejiro KadowakiNaoki KawamataHiroyuki HagiwaraMakoto TakamiyaShigeki KatoHiroyuki Shiomi
    • Kou IshizukaHidejiro KadowakiNaoki KawamataHiroyuki HagiwaraMakoto TakamiyaShigeki KatoHiroyuki Shiomi
    • G11B5596
    • G11B5/59677
    • An apparatus having a first system for forming a composite light beam of two light beams to be made to interfere with each other, a splitting member for amplitude-splitting the composite light beam into three or more split light beams in the same area, and a second system for obtaining interference light beams of different phases from the plurality of split light beams. Also, an apparatus for effecting information recording on a hard disc drive device comprising an (i) optical system for splitting a light beam into two light beams, causing one of the two light beams to be condensed and reflected by the side of an arm for a recording reading head in the hard disc drive device, and superposing the condensed and reflected light beam on the other light beam to thereby obtain a composite light beam, (ii) a splitting member for amplitude-splitting the composite light beam into three or more split light beams in the same area, (iii) an optical member for obtaining interference light beams of different phases from the plurality of split light beams, (iv) light receiving elements for detecting respective ones of the interference light beams of different phases, (v) a control system for effecting the positioning of the arm on the basis of the result of the detection by each of the light receiving elements, and (vi) a signal writing-in system for writing a signal into a hard disc through the recording reading head each time the arm is positioned.
    • 一种具有第一系统的装置,用于形成要彼此干涉的两个光束的复合光束,用于将复合光束分解成同一区域中的三个或更多个分束光束的分束构件,以及 用于从多个分裂光束获得不同相位的干涉光束的第二系统。 另外,一种用于在硬盘驱动装置上进行信息记录的装置,包括:(i)用于将光束分成两束光束的光学系统,使得两个光束中的一个被臂的侧面冷凝和反射, 在所述硬盘驱动装置中的记录读取头,并且将所述聚光反射光束重叠在所述另一光束上,从而获得复合光束;(ii)用于将所述复合光束分解为三个以上的分割部件 在相同的区域中分割光束,(iii)用于从多个分裂光束获得不同相位的干涉光束的光学部件,(iv)用于检测不同相位的干涉光束的各个的光接收元件( v)用于根据每个光接收元件的检测结果来实现臂的定位的控制系统,以及(vi)用于写入信号的信号写入系统 每当手臂定位时,通过记录读取头进入硬盘。
    • 5. 发明授权
    • Doppler velocimeter and various kinds of apparatuses for signal
processing thereof
    • US5812250A
    • 1998-09-22
    • US886531
    • 1997-07-01
    • Yasuhiko IshidaHidejiro KadowakiMakoto TakamiyaJun AshiwaShigeki KatoShinji Ueda
    • Yasuhiko IshidaHidejiro KadowakiMakoto TakamiyaJun AshiwaShigeki KatoShinji Ueda
    • G01P3/36G01P21/02H03L7/14G01R19/00
    • G01P3/366G01P21/02
    • A Doppler velocimeter determines a state of noise generation in a detection signal including a Doppler signal component based on comparison by a preceding/succeeding-signal comparator for comparing the detection signals before and after passing through a band-pass filter for cutting noise adjusted to the frequency of the detection signal, and/or includes a filter circuit for determining passage/interruption of the detection signal after passing through the band-pass filter from a relationship between the count value of a first counter, in which the output of a first frequency multiplier for multiplying the frequency of the detection signal by N is made to be a clock signal and a leading edge in the detection signal is made to be a reset trigger, and a leading edge in the detection signal, and/or includes an error signal generator for generating an error detection signal by detecting a periodic error in the detection signal after passing through the band-pass filter from a relationship between the count value of a second counter, in which the output of a second frequency multiplier for multiplying the frequency of the detection signal by N and a leading edge in the detection signal is made to be a reset trigger, and a leading edge in the detection signal after passing through the band-pass filter, and/or includes a phase comparator for generating a control signal by comparing the phase of the detection signal with the phase of a comparison signal to be compared, an oscillator for controlling the frequency of its output signal in accordance with the control signal from the phase comparator, and a comparison-signal generation unit for generating a comparison signal based on the output of the oscillator. When an error has been detected, a switching unit interrupts the control signal and the phase comparator is reset and stops comparison, and when the error has ended, the switching unit communicates the control signal, the phase comparator starts comparison, and the comparison-signal generation unit generates a comparison signal whose phase coincides with the phase of the detection signal.
    • 9. 发明授权
    • Frequency tracking method and apparatus, and Doppler velocity meter
using the same
    • 频率跟踪方法和装置,以及使用相同的多普勒测速仪
    • US5696578A
    • 1997-12-09
    • US60533
    • 1993-05-13
    • Yasuhiko IshidaHidejiro KadowakiMakoto TakamiyaJun AshiwaShigeki KatoShinji Ueda
    • Yasuhiko IshidaHidejiro KadowakiMakoto TakamiyaJun AshiwaShigeki KatoShinji Ueda
    • G01P3/36G01S7/491G01S17/58H03B1/00
    • G01S17/58G01P3/366G01S7/4917
    • This invention has as its object to provide a frequency tracking method, a frequency control apparatus (tracking apparatus) using this method, and a Doppler velocity meter using the same, which easily and quickly allow the center frequency of a band pass filter to coincide with the frequency of an input signal even when an input signal suffers from a large level drift. A tracking method for a center frequency of a band-pass filter relates to a method including the deviation information detection step of detecting deviation information of the frequency of a signal to be input to the band-pass filter or a signal output from the band-pass filter with respect to the center frequency of the band-pass filter, the deviation information detection step including at least the step of detecting the deviation direction, and the changing step of changing the center frequency of the band-pass filter on the basis of a detection result in the detection step of detecting the deviation information including the deviation direction, thereby adjusting the center frequency of the band-pass filter to coincide with the frequency of a signal to be filtered through the band-pass filter.
    • 本发明的目的是提供一种频率跟踪方法,使用该方法的频率控制装置(跟踪装置)和使用该方法的多普勒速度计,其容易且快速地使带通滤波器的中心频率与 输入信号的频率即使当输入信号具有大的电平漂移时也是如此。 用于带通滤波器的中心频率的跟踪方法涉及一种方法,包括:偏差信息检测步骤,用于检测要输入到带通滤波器的信号的频率的偏差信息或从带通滤波器输出的信号, 相对于带通滤波器的中心频率的通过滤波器,偏差信息检测步骤至少包括检测偏差方向的步骤,以及基于带通滤波器的中心频率改变的改变步骤 在检测步骤中检测包括偏差方向的偏差信息,从而调节带通滤波器的中心频率与通过带通滤波器滤波的信号的频率一致的检测结果。