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    • 1. 发明授权
    • Variable focal lens and imaging apparatus
    • 可变焦距镜头和成像装置
    • US08068286B2
    • 2011-11-29
    • US12293073
    • 2007-03-16
    • Shuichi HoriguchiGentarou IrisawaYuichiro MoriMasafumi MizunoYasuji Nakamura
    • Shuichi HoriguchiGentarou IrisawaYuichiro MoriMasafumi MizunoYasuji Nakamura
    • G02B15/14G02B21/00G03B17/00G03B27/52
    • G02B7/102G03B13/36H04N5/23212
    • A variable focal lens which does not require a reduction of a zoom factor and eliminates an origin sensor is provided. A microcomputer 15 functions as a focus adjustment section which controls a stepper motor 13 to move a focusing ring 5 for a focus adjustment. The microcomputer 15 causes the focusing ring 5 to move by a first moving distance in a first moving direction toward one of a FAR side and a NEAR side, and then to move the focusing ring 5 by a second moving distance in a second moving direction opposite to the first moving direction, and set the point where the focusing ring reaches after the movement in the second moving direction as a reference point for adjustment, and the microcomputer 15 causes the focusing ring 5 to move from the reference point for adjustment in the first moving direction within a range equal to or less than the second moving distance to carry out the focus adjustment. This configuration eliminates margins provided by software at ends of the movement range of the focusing ring 5.
    • 提供了不需要减小缩放因子并消除原点传感器的可变焦距透镜。 微型计算机15用作焦点调节部分,其控制步进电机13移动用于聚焦调节的聚焦环5。 微型计算机15使聚焦环5沿着第一移动方向朝着FAR侧和近侧移动第一移动距离,然后使聚焦环5在相反的第二移动方向上移动第二移动距离 并且将第二移动方向上的移动后聚焦环到达的点设定为调整基准点,微型计算机15使聚焦环5从第一移动方向的基准点移动到基准点 在等于或小于第二移动距离的范围内的移动方向进行聚焦调整。 该配置消除了在聚焦环5的移动范围的端部由软件提供的边缘。
    • 2. 发明申请
    • VARIABLE FOCAL LENS AND IMAGING APPARATUS
    • 可变焦镜头和成像装置
    • US20090086336A1
    • 2009-04-02
    • US12293073
    • 2007-03-16
    • Shuichi HoriguchiGentarou IrisawaYuichiro MoriMasafumi MizunoYasuji Nakamura
    • Shuichi HoriguchiGentarou IrisawaYuichiro MoriMasafumi MizunoYasuji Nakamura
    • G02B7/09G02B7/04
    • G02B7/102G03B13/36H04N5/23212
    • A variable focal lens which does not require a reduction of a zoom factor and eliminates an origin sensor is provided. A microcomputer 15 functions as a focus adjustment section which controls a stepper motor 13 to move a focusing ring 5 for a focus adjustment. The microcomputer 15 causes the focusing ring 5 to move by a first moving distance in a first moving direction toward one of a FAR side and a NEAR side, and then to move the focusing ring 5 by a second moving distance in a second moving direction opposite to the first moving direction, and set the point where the focusing ring reaches after the movement in the second moving direction as a reference point for adjustment, and the microcomputer 15 causes the focusing ring 5 to move from the reference point for adjustment in the first moving direction within a range equal to or less than the second moving distance to carry out the focus adjustment. This configuration eliminates margins provided by software at ends of the movement range of the focusing ring 5.
    • 提供了不需要减小缩放因子并消除原点传感器的可变焦距透镜。 微型计算机15用作焦点调节部分,其控制步进电机13移动用于聚焦调节的聚焦环5。 微型计算机15使聚焦环5沿着第一移动方向朝着FAR侧和近侧移动第一移动距离,然后使聚焦环5在相反的第二移动方向上移动第二移动距离 并且将第二移动方向上的移动后聚焦环到达的点设定为调整基准点,微型计算机15使聚焦环5从第一移动方向的基准点移动到基准点 在等于或小于第二移动距离的范围内的移动方向进行聚焦调整。 该配置消除了在聚焦环5的移动范围的端部由软件提供的边缘。
    • 5. 发明授权
    • Camera device with rotary base
    • 带旋转底座的相机装置
    • US09091904B2
    • 2015-07-28
    • US13322288
    • 2010-03-02
    • Toshihiko YamahataYasuji NakamuraYuichiro Mori
    • Toshihiko YamahataYasuji NakamuraYuichiro Mori
    • G03B15/00G01S3/786H04N5/232H04N7/18
    • G03B15/00G01S3/7864H04N5/232H04N5/23248H04N7/188
    • A camera device with a rotary base has an automatic panning function of imaging a predetermined zone while reciprocating in a preset panning direction. The camera device includes: an imaging unit configured to image a subject and output a video signal; a rotary base configured to cause the imaging unit to rotate in a panning direction and a tilting direction; a motion and face detecting unit configured to detect the motion or face of the subject based on the video signal output from the imaging unit; and a tilt control instruction creating unit configured to create a tilt control instruction based on the detection result from the motion and face detecting unit and give the tilt control instruction to the rotary base to cause the imaging unit to rotate in the tilting direction.
    • 具有旋转底座的相机装置具有在预设的摇摄方向上往复运动时对预定区域进行成像的自动平移功能。 相机装置包括:成像单元,被配置为对被摄体进行成像并输出视频信号; 旋转基座,其构造成使所述摄像单元在俯仰方向和倾斜方向上旋转; 运动和面部检测单元,被配置为基于从所述成像单元输出的视频信号来检测所述对象的运动或面部; 以及倾斜控制指示生成单元,被配置为基于来自运动和面部检测单元的检测结果创建倾斜控制指令,并且向旋转底座给出倾斜控制指令以使成像单元沿倾斜方向旋转。
    • 7. 发明申请
    • CAMERA DEVICE, EXPOSURE CONTROL METHOD, AND PROGRAM
    • 相机装置,曝光控制方法和程序
    • US20120113297A1
    • 2012-05-10
    • US13321991
    • 2010-05-07
    • Yuichiro MoriShoji HattaKosuke HosoiYasuji NakamuraRyoko Kato
    • Yuichiro MoriShoji HattaKosuke HosoiYasuji NakamuraRyoko Kato
    • H04N9/68
    • H04N5/335H04N5/23219H04N5/2357H04N5/35581
    • A camera device (1) includes an imaging unit (2) which outputs a long exposure signal and a short exposure signal in one field period. A face detection unit (8) detects a face area from an image captured by the imaging unit (2). The weighting processing unit (12) applies a weighting process to luminance data of the long exposure signal in the detected face area using a weighting constant for reducing the luminance level of the long exposure signal. If the luminance level of the weighting-processed long exposure signal rises to a predetermined saturation level or higher, an exposure control unit (15) performs exposure control using the long exposure signal and the short exposure signal. This can suppress occurrence of a noise due to a short exposure signal (flickering) in the face area, thereby improving visibility in the face area.
    • 相机装置(1)包括在一个场周期中输出长曝光信号和短曝光信号的成像单元(2)。 面部检测单元(8)从由摄像单元(2)捕获的图像检测面部区域。 加权处理单元(12)使用用于降低长曝光信号的亮度水平的加权常数对检测到的面部区域中的长曝光信号的亮度数据进行加权处理。 如果加权处理的长曝光信号的亮度水平上升到预定的饱和水平或更高,则曝光控制单元(15)使用长曝光信号和短曝光信号进行曝光控制。 这可以抑制由于面部区域中的短曝光信号(闪烁)引起的噪声的发生,从而提高面部区域的可视性。
    • 8. 发明申请
    • CAMERA DEVICE WITH ROTARY BASE
    • 具有旋转基座的相机设备
    • US20120069223A1
    • 2012-03-22
    • US13322288
    • 2010-03-02
    • Toshihiko YamahataYasuji NakamuraYuichiro Mori
    • Toshihiko YamahataYasuji NakamuraYuichiro Mori
    • H04N5/262H04N5/225
    • G03B15/00G01S3/7864H04N5/232H04N5/23248H04N7/188
    • A camera device with a rotary base has an automatic panning function of imaging a predetermined zone while reciprocating in a preset panning direction. The camera device includes: an imaging unit configured to image a subject and output a video signal; a rotary base configured to cause the imaging unit to rotate in a panning direction and a tilting direction; a motion and face detecting unit configured to detect the motion or face of the subject based on the video signal output from the imaging unit; and a tilt control instruction creating unit configured to create a tilt control instruction based on the detection result from the motion and face detecting unit and give the tilt control instruction to the rotary base to cause the imaging unit to rotate in the tilting direction.
    • 具有旋转底座的相机装置具有在预设的摇摄方向上往复运动时对预定区域进行成像的自动平移功能。 相机装置包括:成像单元,被配置为对被摄体进行成像并输出视频信号; 旋转基座,其构造成使所述摄像单元在俯仰方向和倾斜方向上旋转; 运动和面部检测单元,被配置为基于从所述成像单元输出的视频信号来检测所述对象的运动或面部; 以及倾斜控制指示生成单元,被配置为基于来自运动和面部检测单元的检测结果创建倾斜控制指令,并且向旋转底座给出倾斜控制指令以使成像单元沿倾斜方向旋转。
    • 10. 发明授权
    • Electronic device, battery charger, and electronic device battery-charging system
    • 电子设备,电池充电器和电子设备电池充电系统
    • US08810195B2
    • 2014-08-19
    • US12935462
    • 2008-11-25
    • Norihito MochidaYasuji NakamuraMasanori OshimiHirohiko YoshidaAkihiko SekiguchiEiji Machii
    • Norihito MochidaYasuji NakamuraMasanori OshimiHirohiko YoshidaAkihiko SekiguchiEiji Machii
    • H02J7/00G06K19/07H04B5/00H01M10/44H02J7/02H01M10/42
    • H01M10/44G06K19/0701H01M10/425H02J7/025H02J50/10H02J50/60H02J50/80H04B5/0037H04B5/0093Y02E60/12
    • An object of the present invention is to provide an electronic device capable of receiving payment of a charge required for a charging process even though a secondary battery of the electronic device ran into an overdischarge state and also extricating itself from the overdischarge state, and a charger used for the same. A charger (3) executes a power transmission before it conducts a proximity noncontact communication with an electronic device (2), continues this power transmission until a preliminary charging stop notification signal is sent from the electronic device (2), and conducts the proximity noncontact communication regarding to a billing process with the electronic device (2) when the preliminary charging stop notification signal is sent. After the communication regarding to the billing process is ended, the charger (3) gives a charge of electricity to the electronic device (2) again. The electronic device (2) charges a secondary battery (28) by using the power transmission, then executes the charging up to a level at which the proximity noncontact communication regarding to the billing process can be conducted, then conducts the proximity noncontact communication regarding to the billing process with the charger (3), and then restarts the power transmission from the charger (3) to execute the charging until the secondary battery (28) is fully charged. In this manner, the noncontact charging and the proximity noncontact communication are executed between the electronic device (2) and the charger (3) in a time-division system.
    • 本发明的目的是提供一种电子设备,即使电子设备的二次电池处于过放电状态并且也使其自身处于过放电状态而能够接收对充电过程所需的充电的支付,并且充电器 用于相同。 充电器(3)在与电子设备(2)进行接近非接触通信之前执行电力传输,继续该电力传输,直到从电子设备(2)发送初步充电停止通知信号,并进行接近非接触 当发送初步充电停止通知信号时,关于电子设备(2)的计费处理的通信。 在关于计费处理的通信结束之后,充电器(3)再次向电子设备(2)发送电力。 电子设备(2)通过使用电力传输对二次电池(28)充电,然后执行充电至可以进行关于计费处理的接近非接触通信的级别,然后进行关于 充电器(3)的计费处理,然后从充电器(3)重新开始电力传输,以执行充电直到二次电池(28)充满电。 以这种方式,在时分系统中,在电子设备(2)和充电器(3)之间执行非接触充电和接近非接触通信。