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    • 81. 发明授权
    • Zoom lens system
    • 变焦镜头系统
    • US07706081B2
    • 2010-04-27
    • US12025122
    • 2008-02-04
    • Yu-Min Chang
    • Yu-Min Chang
    • G02B15/14
    • G02B15/173G02B13/0045G02B13/006G02B13/009
    • A zoom lens system includes a first lens group, a second lens group, a third lens group, a fourth lens group, and an aperture stop, from an object side to an image side on an optical axis. The zoom lens system satisfies the following condition: Y × L 2 × f W × f T ≤ 1.06 where Y is a maximum diagonal length of the image side 170, L is a total track length of the zoom lens system 100, fW is a focal length of the zoom lens system 100 at a wide status, fT is a focal length of the zoom lens system 100 at a telephoto status.
    • 变焦透镜系统包括从物体侧到光轴上的像侧的第一透镜组,第二透镜组,第三透镜​​组,第四透镜组和孔径光阑。 变焦透镜系统满足以下条件:Y×L 2×f W×f T≤1.06其中Y是像侧170的最大对角线长度,L是变焦透镜系统100的总轨迹长度,fW是 变焦镜头系统100的焦距处于宽状态,fT是变焦镜头系统100在远摄状态下的焦距。
    • 82. 发明授权
    • Method and system for automatic exposure compensation
    • 自动曝光补偿的方法和系统
    • US07684690B2
    • 2010-03-23
    • US11759301
    • 2007-06-07
    • Yueh-Ju Lee
    • Yueh-Ju Lee
    • G03B7/00G03B7/083H04N5/235
    • G03B7/093
    • A method for automatic exposure compensation is disclosed. A shutter is activated and the environmental brightness is detected using a sensor. An exposure value is calculated according to the detection result to obtain a default exposure time. It is determined whether the exposure value is equal to a normal value. If not, a compensation value is calculated based on a shutter-closing curve and a compensation operation is thus executed. Thus, an exposure signal is generated by advancing a first predefined time or postponing a second predefined time, enabling the amount of exposure time to be equal to the addition or subtraction of the default exposure time and the first predefined time.
    • 公开了一种自动曝光补偿方法。 激活快门,并使用传感器检测环境亮度。 根据检测结果计算曝光值以获得默认曝光时间。 确定曝光值是否等于正常值。 如果不是,则基于快门关闭曲线计算补偿值,由此执行补偿操作。 因此,通过前进第一预定时间或延迟第二预定义时间来产生曝光信号,使得曝光时间量等于默认曝光时间和第一预定时间的相加或减去。
    • 83. 发明授权
    • Lens device
    • 镜头设备
    • US07684130B2
    • 2010-03-23
    • US12107823
    • 2008-04-23
    • Chun-Hung Huang
    • Chun-Hung Huang
    • G02B7/02G02B15/14
    • G02B7/08G02B7/102
    • A lens device includes a seat unit, a swingable lens module having a guide member, a rotatable cam unit, first and second biasing components, and a first lens module. The swingable lens module is movable relative to the seat unit along an optical axis while the guide member is biased by the first biasing component to abut against a spiral guide surface of the rotatable cam unit. The swingable lens module is pivotable relative to the seat unit about a pivot pin that extends parallel to the optical axis with the guide member being pushed by a pushing surface of the rotatable cam unit to a retreating position, and is biased by a second biasing component toward a retracting position. The first lens module is disposed at one side of the swingable lens module opposite to the seat unit along the optical axis.
    • 透镜装置包括座单元,具有引导构件的可摆动透镜模块,可旋转凸轮单元,第一和第二偏压构件以及第一透镜模块。 可摆动透镜模块可以沿着光轴相对于座椅单元移动,同时引导构件被第一偏压部件偏置以抵靠可旋转凸轮单元的螺旋引导表面。 所述可摆动透镜模块可相对于所述座单元围绕平行于所述光轴延伸的枢轴销枢转,其中所述引导构件被所述可旋转凸轮单元的推动表面推动到后退位置,并且被所述第二偏置构件 朝向收回位置 第一透镜模块沿着光轴设置在与座椅单元相对的可摆动透镜模块的一侧。
    • 84. 发明申请
    • CONTROL SYSTEM AND METHOD FOR COMPENSATING FOR IMAGE SHAKE OF IMAGE CAPTURE DEVICE
    • 用于补偿图像捕获设备的图像抖动的控制系统和方法
    • US20100067888A1
    • 2010-03-18
    • US12430958
    • 2009-04-28
    • Yi-Chang Lin
    • Yi-Chang Lin
    • G03B17/00
    • G03B17/00
    • A control system for compensating for image shake of an image capture device is provided, including a shake compensating module, a shake compensating switch, a control unit, and a shutter control element operated between a first operating stage and a second operating stage. The shake compensating switch is switched between an active state to enable the shake compensating module and an inactive state to disable the shake compensating module. The control unit enables the shake compensating module when the shake compensating switch is in the active state. The control unit produces a reset signal to disable the shake compensating module when the shutter control element is in the second operating stage before the shake compensating switch is switched to the inactive state. The control unit enables the shake compensating module after a specific period of time from when the shake compensating module was disabled.
    • 提供了一种用于补偿图像拍摄装置的图像抖动的控制系统,包括在第一操作级和第二操作级之间操作的抖动补偿模块,抖动补偿开关,控制单元和快门控制元件。 抖动补偿开关在激活状态之间切换以启用抖动补偿模块和非活动状态以禁用抖动补偿模块。 当抖动补偿开关处于活动状态时,控制单元启用抖动补偿模块。 控制单元产生复位信号,以在快门控制元件处于第二操作阶段之前将抖动补偿模块切换到无效状态之前禁用抖动补偿模块。 在从抖动补偿模块被禁用的特定时间段之后,控制单元使能抖动补偿模块。
    • 85. 发明申请
    • FILTER DEVICE AND MANUFACTURING METHOD THEREOF
    • 过滤装置及其制造方法
    • US20100067851A1
    • 2010-03-18
    • US12409703
    • 2009-03-24
    • Ching-Shiang Wang
    • Ching-Shiang Wang
    • G02B6/26B32B38/10G02B6/255
    • G02B6/2937G02B6/29368G02B6/29389
    • A filter device is provided, including a first and second conductor tube and an outside tube. The first light conductor tube includes a first end for light input, a second end including a first slanted assembled end surface coated with a filter, a first tube, and a first light conductor inserted into the first capillary. The second light conductor tube includes a third end for light output, a fourth end including a second slanted assembled end surface, a second capillary, and a second light conductor inserted into the second capillary. The second assembled end of the fourth end is disposed next to and parallel to the first slanted assembled end surface of the second end of the first light conductor tube to coaxially couple to the first light conductor tube. The outside tube is jacketed outside of the first and second light conductor tubes.
    • 提供一种过滤装置,包括第一和第二导体管和外管。 第一导光管包括用于光输入的第一端,第二端包括涂覆有过滤器的第一倾斜组装端表面,第一管和插入第一毛细管中的第一光导体。 第二导光管包括用于光输出的第三端,包括第二倾斜组装端表面的第四端,第二毛细管和插入第二毛细管中的第二光导体。 第四端的第二组装端设置在第一光导体管的第二端的第一倾斜组装端表面附近并平行,以同轴地耦合到第一光导管。 外管被夹套在第一和第二导光管的外部。
    • 87. 发明申请
    • LENS ASSEMBLY WITH A FITTING STRUCTURE
    • 镜头组件与配件结构
    • US20100039716A1
    • 2010-02-18
    • US12475649
    • 2009-06-01
    • Chien-Chou Chen
    • Chien-Chou Chen
    • G02B7/02
    • G02B7/022G02B7/021G02B13/0015
    • A lens assembly includes a first lens and a second lens. The first lens includes a first inner end surface, a first outer end surface and slots. The slots formed on the first inner end surface extends toward the first outer end surface, and each slot includes a trough and an inner engaging side portion. The second lens includes a second inner end surface, a second outer end surface and engaging blocks. The engaging blocks formed on the second inner end surface extends toward the first inner end surface of the first lens, and each engaging block includes a crest portion disposed next to the first inner end surface of the first lens and an inner engaging protrusion. A slit is defined by the inner engaging side portion and the trough portion of the slot and the inner engaging protrusion and the crest portion of the engaging block.
    • 透镜组件包括第一透镜和第二透镜。 第一透镜包括第一内端表面,第一外端表面和狭槽。 形成在第一内端表面上的槽朝向第一外端表面延伸,并且每个槽包括槽和内接合侧部。 第二透镜包括第二内端表面,第二外端表面和接合块。 形成在第二内端表面上的接合块朝向第一透镜的第一内端表面延伸,并且每个接合块包括靠近第一透镜的第一内端表面设置的波峰部分和内接合突起。 狭缝由槽的内接合侧部分和槽部分以及接合块的内接合突起和顶部限定。
    • 88. 发明申请
    • IMAGE RECOGNITION AND DISTANCE CALCULATION METHODS AND DEVICES
    • 图像识别和距离计算方法和设备
    • US20100034467A1
    • 2010-02-11
    • US12332377
    • 2008-12-11
    • Fei-Xing YuXiang-Zhe Kang
    • Fei-Xing YuXiang-Zhe Kang
    • G06K9/52
    • G06T7/70
    • Image recognition and distance calculation methods and devices are provided. First, an image corresponding to a level ruler is obtained, wherein the image includes a first predefined scale and a second predefined scale projected on the level ruler. Then, a baseline height of a baseline mark in the level ruler is determined according to the image. The heights of the first predefined scale and the second predefined scale are calculated according to the baseline height of the baseline mark, the position of the baseline mark in the image, and the positions of the first predefined scale and the second predefined scale in the image. Thereafter, a distance to the level ruler is calculated according to a height difference between the heights of the first predefined scale and the second predefined scale.
    • 提供图像识别和距离计算方法和设备。 首先,获得与水平尺相对应的图像,其中图像包括投影在水平尺上的第一预定尺度和第二预定尺度。 然后,根据图像确定水平尺中的基线标记的基线高度。 根据基准标记的基线高度,图像中基线标记的位置以及图像中的第一预定义比例尺和第二预定比例尺的位置来计算第一预定义比例尺和第二预定比例尺的高度 。 此后,根据第一预定义刻度的高度与第二预定义刻度之间的高度差来计算到水平尺的距离。
    • 89. 发明申请
    • POWER MANAGEMENT APPARATUS AND METHODS
    • 电力管理装置和方法
    • US20100017639A1
    • 2010-01-21
    • US12360124
    • 2009-01-27
    • Yen-Chao ChenJung-Ching Wang
    • Yen-Chao ChenJung-Ching Wang
    • G06F1/28
    • G06F1/28G06F1/30
    • A power management apparatus including power supply circuit and control unit is disclosed. The power supply circuit receives input voltage having voltage value, and converts voltage value into a first converted signal having a first voltage value and a second converted signal having a second voltage value through first and second converters, respectively. The first and second converters are reset according to first and second reset signals, respectively. The control unit receives the first and second converted signals, and compares the first and second voltage values with first and second reference ranges, respectively. The control unit further issues first reset signal when first voltage value is not within first reference range and second voltage value is within second reference range, and issues second reset signal when first voltage value is within first reference range and second voltage value is not within second reference range.
    • 公开了一种包括电源电路和控制单元的电源管理装置。 电源电路接收具有电压值的输入电压,分别通过第一和第二转换器将电压值转换为具有第一电压值的第一转换信号和具有第二电压值的第二转换信号。 第一和第二转换器分别根据第一和第二复位信号复位。 控制单元接收第一和第二转换信号,并分别将第一和第二电压值与第一和第二参考范围进行比较。 当第一电压值不在第一参考范围内且第二电压值在第二参考范围内时,控制单元还发出第一复位信号,并且当第一电压值在第一参考范围内且第二电压值不在第二参考范围内时,控制单元发出第二复位信号 参考范围。
    • 90. 发明授权
    • Retractable lens and slidable lens retracting device thereof
    • 伸缩透镜及其可滑动透镜缩回装置
    • US07633693B2
    • 2009-12-15
    • US12180414
    • 2008-07-25
    • Tun-kuei HungRueyder Wu
    • Tun-kuei HungRueyder Wu
    • G02B7/02G03B17/00
    • G02B7/005G02B7/021
    • A slidable lens retracting device is provided for retracting a lens system that include lens group units all positioned on a common optical axis when the lens system is in an operational state. At least one lens group unit is retracted from the on-axis position on the optical axis to an off-axis space radially off the optical axis by the slidable lens retracting device when the lens system is moved to a retracted state. The slidable lens retracting device includes slides mounted to the lens group unit and fixed support members forming inclined surfaces with which the slides are engageable. The control tracks receive the slides therein and are movable along the optical axis to bring the lens system to the retracted position to cause the slides to engage and slide along the inclined surfaces and thus moving the lens group unit to the off-axis space.
    • 提供了一种可滑动的透镜缩回装置,用于当透镜系统处于操作状态时缩回包括全部位于公共光轴上的透镜组单元的透镜系统。 当透镜系统移动到缩回状态时,至少一个透镜组单元从光轴上的轴上位置缩回到通过可滑动透镜缩回装置径向离开光轴的离轴空间。 滑动透镜回缩装置包括安装到透镜组单元的滑块和形成倾斜表面的固定支撑构件,滑块可与该固定支撑构件接合。 控制轨道在其中容纳滑块并且可沿光轴移动,以使透镜系统进入缩回位置,以使滑动件沿着倾斜表面接合和滑动,从而将透镜组单元移动到离轴空间。