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    • 1. 发明授权
    • Battery voltage checking device for cameras
    • 相机电池电压检测装置
    • US4522480A
    • 1985-06-11
    • US599210
    • 1984-04-12
    • Takashi KawabataNobuhiko ShinodaShinji Sakai
    • Takashi KawabataNobuhiko ShinodaShinji Sakai
    • H02M3/28G03B7/26G03B43/00G03B17/18
    • G03B7/26
    • A battery checking device for cameras of the type having a booster circuit the output of which is fed as electrical power to a load is disclosed. In the case of the camera of the type described, when the battery voltage is checked at the output of the booster circuit, an accurate checking operation cannot be carried out. The present invention, therefore allows the voltage at the input of the booster circuit to be checked. Since another problem is that the booster circuit, after having been actuated, takes a predetermined time before its operation is stabilized, and the value of voltage as sensed during this time does not provide an accurate representation, the present invention provides that checking of that input voltage begins after the elapse of a predetermined time from the actuation of the booster circuit when the operation of the booster circuit becomes stable. Accordingly, it is made possible to achieve always an accurate and reliable battery checking operation.
    • 公开了一种具有升压电路类型的照相机的电池检查装置,该升压电路的输出作为电力被馈送到负载。 在所述类型的照相机的情况下,当在升压电路的输出端检查电池电压时,不能进行精确的检查操作。 因此,本发明允许检查升压电路输入端的电压。 由于另一个问题是升压电路在被致动之后在其操作稳定之前需要预定的时间,并且在此期间感测到的电压值不能提供准确的表示,本发明提供了对该输入的检查 当升压电路的运行变得稳定时,从升压电路的启动经过预定时间后开始电压。 因此,可以实现总是精确可靠的电池检查操作。
    • 2. 发明授权
    • Image sharpness detecting system
    • 图像清晰度检测系统
    • US4377742A
    • 1983-03-22
    • US151703
    • 1980-05-20
    • Takashi KawabataKazuya HosoeNobuhiko ShinodaShinji SakaiTakao Kinoshita
    • Takashi KawabataKazuya HosoeNobuhiko ShinodaShinji SakaiTakao Kinoshita
    • G02B7/28G03B3/00G01J1/36
    • G02B7/28G03B3/00
    • Disclosed is an image sharpness detecting system in which an image formed by an image forming optical system is received by an array of a plurality of optical-electronic transducer elements, and an illumination difference in each individual minute compartment of the above-described image is detected on the basis of the concurrently obtained output signal from a corresponding one of the optical-electronic transducer elements, while all the illumination differences are summed up over the entire area of a sensing region of the above-described image, whereby is obtained a signal representing the degree of sharpness of the image on the above-described array of optical-electronic transducer elements. In this system, the signal representative of the illumination difference in each individual minute compartment of the above-described image is at least non-linearly transformed by utilizing the non-linear characteristics for output versus input of a semiconductor element such as a transistor, and the signal representative of the degree of sharpness of the above-described image is obtained on the basis of the non-linearly transformed signal.
    • 公开了一种图像清晰度检测系统,其中通过多个光电子换能器元件的阵列接收由图像形成光学系统形成的图像,并且检测到上述图像的每个单独的分隔室中的照明差异 基于来自相应的一个光电换能器元件的同时获得的输出信号,同时在上述图像的感测区域的整个区域上将所有的照明差值相加,从而获得表示 上述光电换能器阵列阵列上的图像的清晰度。 在该系统中,通过利用诸如晶体管的半导体元件的输出与输入的非线性特性,表示上述图像的每个单独分隔室中的照明差异的信号至少被非线性变换,以及 基于非线性变换信号获得表示上述图像的清晰度的信号。
    • 8. 发明授权
    • Focus detecting device with varying pitch cylindrical lens element
    • 具有变化间距的柱面透镜元件的聚焦检测装置
    • US4419574A
    • 1983-12-06
    • US282605
    • 1981-07-13
    • Takashi KawabataNobuhiko ShinodaShinji SakaiTakao Kinoshita
    • Takashi KawabataNobuhiko ShinodaShinji SakaiTakao Kinoshita
    • G02B3/00G02B7/28G02B7/34G03B7/099G03B7/0997G03B13/36G01J1/36
    • G02B3/06G02B3/0043G02B7/346
    • In the disclosed focus detecting system, the focusing condition of an objective lens relative to an object is determined by a number of pairs of radiation sensitive elements arranged in a linear array, and a number of lens elements arranged in a linear array corresponding to the linear array of the pairs of radiation sensitive elements. Each lens element is disposed so that one radiation sensitive element in each pair of radiation sensitive elements is arranged to cause one radiation sensitive element in each pair of radiation sensitive elements to receive radiation from a first portion of the objective lens and to cause the other radiation sensitive element to receive radiation from a second portion of the objective lens. The plural lens elements assume the form of a plurality of cylindrical lens elements arranged in a linear array corresponding to the linear array of the pairs of radiation sensitive elements with each of the pitches between successive cylindrical lens elements varying along the longitudinal direction of the cylindrical lens element.
    • 在所公开的焦点检测系统中,物镜相对于物体的聚焦条件由排列成线性阵列的多个辐射敏感元件决定,并且多个透镜元件排列成与线性对应的线性阵列 数组辐射敏感元件对。 每个透镜元件设置成使得每对辐射敏感元件中的一个辐射敏感元件被布置成使得每对辐射敏感元件中的一个辐射敏感元件接收来自物镜的第一部分的辐射并且引起另一辐射 以接收来自物镜的第二部分的辐射。 多个透镜元件采取多个圆柱形透镜元件的形式,该多个柱面透镜元件布置成对应于成对的辐射敏感元件的线性阵列的线性阵列,其中连续柱面透镜元件之间的每个间距在柱面透镜的纵向方向上变化 元件。
    • 9. 发明授权
    • Photoelectric transducer device
    • 光电传感器装置
    • US4415924A
    • 1983-11-15
    • US245349
    • 1981-03-19
    • Takashi KawabataTakao KinoshitaNobuhiko ShinodaShinji SakaiKazuya Hosoe
    • Takashi KawabataTakao KinoshitaNobuhiko ShinodaShinji SakaiKazuya Hosoe
    • G02B7/30H01L27/146H04N1/028H04N5/335H04N5/357H04N9/04H04N9/09
    • G02B7/30H04N3/15H04N9/04H04N9/045
    • In a photoelectric transducer device such as a solid state image pick-up device or sensor having a great number of minute photoelectric transducer elements with their image-receiving surfaces of certain shape arranged in a one-dimensional or two-dimensional manner so that brightness informations of the various individual sections of the object image are sensed by the respective photoelectric transducer elements which then produce outputs in the form of time-sequential signals, the above-described shape of the image-receiving surface area of each of the minute photoelectric transducer elements is made to be such that, as the distance from the center of the image receiving area toward the margin increases, the proportion of the area of a progressively farther concentric zone of the same width is decreased. The shape takes such a form or such characteristics as to be represented by a sampling function or other analogous functions with respect to the scanning direction of the image pick-up device.
    • 在诸如具有大量微小光电元件的固态摄像装置或传感器的光电传感器装置中,其一维或二维方式布置有某些形状的图像接收表面,使得亮度信息 目标图像的各个单独部分的各个光电传感器元件由各自的光电转换器元件感测,其然后以时间顺序信号的形式产生输出,每个微型光电换能器元件的图像接收表面积的上述形状 使得当从图像接收区域的中心到边缘的距离增加时,相同宽度的逐渐更远的同心区域的面积的比例减小。 该形状采取这样的形式或这样的特征,以便通过采样功能或与摄像装置的扫描方向相关的其他类似功能来表示。