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    • 2. 发明授权
    • Vibration correction apparatus and optical device
    • 振动校正装置及光学装置
    • US06704502B2
    • 2004-03-09
    • US10024421
    • 2001-12-18
    • Tsuyoshi Morofuji
    • Tsuyoshi Morofuji
    • G03B1700
    • G03B5/00G03B2205/0007G03B2205/0053G03B2217/005
    • It is an object of the present invention to obtain optimum driving characteristics by correcting a deterioration in vibration correction characteristics, which is caused by a mechanical degradation such as shaft friction or deformation caused by the temperature and time change of vibration correction unit, or variations caused by the difference between individual devices. In order to achieve this object, a vibration correction apparatus for correcting the movement of an image which is caused by a vibration includes a calibration function by which an angular velocity detected by an angular velocity detection unit is integrated and converted into an angular displacement signal to generate a vibration signal, a variable angle prism (VAP) is driven on the basis of the vibration signal, the offsets of the frequency characteristic, the driving limit, and the initial position are detected from the response characteristics obtained when a predetermined test driving signal is supplied to the VAP, and the offsets are corrected.
    • 本发明的目的是通过校正由振动校正单元的温度和时间变化引起的诸如轴摩擦或变形的机械劣化引起的振动校正特性的变差或引起的变化来获得最佳的驱动特性 由各个设备之间的区别。 为了实现该目的,用于校正由振动引起的图像的移动的振动校正装置包括校正功能,通过该校正功能将由角速度检测单元检测的角速度积分并转换为角位移信号 产生振动信号,基于振动信号驱动可变角度棱镜(VAP),根据当预定的测试驱动信号获得的响应特性来检测频率特性的偏移,驱动极限和初始位置 被提供给VAP,并且偏移被校正。
    • 4. 发明申请
    • Image pickup apparatus
    • 摄像设备
    • US20060170813A1
    • 2006-08-03
    • US11345935
    • 2006-02-01
    • Tsuyoshi Morofuji
    • Tsuyoshi Morofuji
    • H04N5/232
    • H04N5/23212
    • In an image pickup apparatus, information of a distance to an object is acquired according to an image pickup direction such as panning or tilting under a condition where focusing can be conducted, an image pickup direction is detected at a present position due to a panning angle and a tilting angle in the case where focusing cannot be conducted at a low illumination level, the information of distance to an object corresponding to the detected image pickup direction is read out from the memory, and a focus lens is driven at the read position, thereby making it possible to take a photograph even under a condition where the object cannot be focused.
    • 在图像拾取装置中,在可以进行聚焦的条件下,根据诸如平移或倾斜的图像拾取方向获取到对象的距离的信息,由于平移角度在当前位置检测到图像拾取方向 并且在低照度下不能进行聚焦的情况下的倾斜角度,从存储器读出与被检测图像拾取方向相对应的与物体的距离的信息,并且在读取位置驱动聚焦透镜, 从而即使在物体不能聚焦的状态下也可以拍摄照片。
    • 7. 发明授权
    • Imaging apparatus
    • 成像设备
    • US07437065B2
    • 2008-10-14
    • US11436261
    • 2006-05-17
    • Tsuyoshi Morofuji
    • Tsuyoshi Morofuji
    • G03B17/00
    • G03B13/36G02B7/102G03B3/00H04N5/23212
    • At least one exemplary embodiment is directed to an imaging apparatus which includes a rear-focus-type lens system configured to perform autofocusing on the basis of a video signal received from an image pickup device. The imaging apparatus can determine a distance from a subject on the basis of correlation information (cam locus) detailing a correlation between the position of a zoom lens and the focus position of a focus lens, with respect to infrared light and visible light, and selects or calculates and determines a cam locus to be used.
    • 至少一个示例性实施例涉及一种成像装置,其包括被配置为基于从图像拾取装置接收的视频信号执行自动对焦的后焦点型透镜系统。 成像装置可以基于详细说明变焦镜头的位置与聚焦透镜的聚焦位置之间的相关性的相关信息(凸轮轨迹)相对于红外光和可见光来确定与被摄体的距离,并且选择 或者计算并确定要使用的凸轮轨迹。
    • 9. 发明申请
    • Imaging apparatus
    • 成像设备
    • US20060269266A1
    • 2006-11-30
    • US11436261
    • 2006-05-17
    • Tsuyoshi Morofuji
    • Tsuyoshi Morofuji
    • G03B17/00
    • G03B13/36G02B7/102G03B3/00H04N5/23212
    • At least one exemplary embodiment is directed to an imaging apparatus which includes a rear-focus-type lens system configured to perform autofocusing on the basis of a video signal received from an image pickup device. The imaging apparatus can determine a distance from a subject on the basis of correlation information (cam locus) detailing a correlation between the position of a zoom lens and the focus position of a focus lens, with respect to infrared light and visible light, and selects or calculates and determines a cam locus to be used.
    • 至少一个示例性实施例涉及一种成像装置,其包括被配置为基于从图像拾取装置接收的视频信号执行自动对焦的后焦点型透镜系统。 成像装置可以基于详细说明变焦镜头的位置与聚焦透镜的聚焦位置之间的相关性的相关信息(凸轮轨迹)相对于红外光和可见光来确定与被摄体的距离,并且选择 或者计算并确定要使用的凸轮轨迹。