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    • 1. 发明授权
    • Motion picture camera
    • 电影摄影机
    • US4200364A
    • 1980-04-29
    • US928060
    • 1978-07-26
    • Kurt BorowskiIstvan CocronTheodor Huber
    • Kurt BorowskiIstvan CocronTheodor Huber
    • G03B19/18G03B7/095G03B7/08
    • G03B7/095
    • A motion picture camera wherein the diaphragm is adjusted in automatic response to signals from two outputs of a digital comparator which receives a first set of signals during each revolution of the shutter at a frequency varying as a function of changes of shutter speed and of changes of scene brightness. The comparator further receives a set of reference signals from a digital selector circuit during normal operation of the camera or from a binary counter when the camera is set for making exposures with fade-in, fade-out or lap dissolve. The counter forms part of a program circuit.
    • 一种动态影像摄像机,其中自动响应于来自数字比较器的两个输出的信号进行调节,该数字比较器在快门的每次旋转期间以随着快门速度的变化和变化的变化而变化的频率接收第一组信号 场景亮度 比较器进一步在摄像机的正常操作期间从数字选择器电路接收一组参考信号,或者当相机被设置为用于进行渐隐,淡出或叠加的曝光时,从二进制计数器接收一组参考信号。 计数器构成程序电路的一部分。
    • 2. 发明授权
    • Focussing system with automatic control of emitted radiant power
    • 具有自动控制发射辐射功率的聚焦系统
    • US4313655A
    • 1982-02-02
    • US28493
    • 1979-04-09
    • August HellKurt BorowskiIstvan CocronTheodor Huber
    • August HellKurt BorowskiIstvan CocronTheodor Huber
    • G03B13/36G01S7/497G02B7/32G03B3/00G03B3/10
    • G01S7/497G02B7/32
    • A focussing system of the type which emits radiation from the camera towards the subject, with the radiation reflected from the subject being incident upon a receiving transducer generating an electrical signal from which focus-control information is derived. The emitted radiant-power level is automatically controlled in dependence upon camera-to-subject distance, preferably in dependence upon the power level of the reflected-back radiation incident upon the receiving transducer, even when the focus-control information required for primary system operation is independent of such power level. This makes possible various important improvements, including: automatic lowering of the emitted-power level in close-up contexts, especially where a danger of eye damage might exist; more generally, automatic matching of emitted-power level to the needs of the signal-processing circuitry, permitting signal-processing stages of narrower operative range to be employed on account of the narrower variations in power level of the signal produced by the receiving transducer; and lowered power consumption. Preferably, when a focussing operation is initiated, the emitted power level is initially low or zero and is progressively increased to an automatically selected value without overshoot.
    • 这种类型的聚焦系统从照相机向被摄体发射辐射,其中从被摄体反射的辐射入射到产生电信号的接收换能器上,从该信号中导出聚焦控制信息。 发射的辐射功率电平根据照相机到被摄体的距离而自动控制,优选地依赖于入射到接收换能器上的反射辐射的功率电平,即使主要系统操作所需的聚焦控制信息 独立于这种功率级别。 这使得可能有各种重要的改进,包括:在特写情况下自动降低发射功率水平,特别是在可能存在眼睛损伤危险的地方; 更通常地,发射功率电平与信号处理电路的需要自动匹配,允许由于接收换能器产生的信号的功率电平的较窄变化而采用更窄的操作范围的信号处理级; 并降低功耗。 优选地,当开始聚焦操作时,所发射的功率电平初始为低或为零,并且逐渐增加到自动选择的值而没有过冲。
    • 5. 发明授权
    • Focussing system for cameras
    • 照相机聚焦系统
    • US4251145A
    • 1981-02-17
    • US59207
    • 1979-07-19
    • Istvan CocronTheodor Huber
    • Istvan CocronTheodor Huber
    • G03B13/36G01S7/486G02B7/28G02B7/32G03B3/00G01J1/42G03B13/18
    • G01S7/486G02B7/32
    • First and second photodetector signals, whose relative amplitudes depend upon focus error, are integrated to form respective first and second integral signals whose relative rates of change are dependent upon focus error. Each integral signal is applied to two comparators, one whose threshold level is reached first and the other having a threshold level which would be reached second. When one or the other of the two integral signals reaches its first-reached threshold level, this applies a corresponding signal to the data input of a respective flip-flop, and when this faster-changing integral signal then reaches its second-reached threshold level this clocks both such flip-flops. The time elapsing between the faster-changing integral signal reaching its first-reached and then its second-reached threshold level constitutes a tolerance interval, during which the slower-changing integral signal is given an opportunity to try to reach its respective first-reached threshold level. If the slower-changing integral signal reaches its first-reached threshold level within the tolerance interval, then a corresponding signal is applied to the data input of its associated flip-flop as well before the two flip-flops are clocked, with the result that the states of the two flip-flops are the same as if both integral signals had indentical rates of change of value.
    • 其相对幅度取决于聚焦误差的第一和第二光电检测器信号被积分以形成相对的第一和第二积分信号,其相对变化率取决于聚焦误差。 每个积分信号被施加到两个比较器,其阈值电平首先达到,另一个具有将达到第二阈值电平。 当两个积分信号中的一个或另一个达到其第一达到的阈值电平时,这将相应的信号施加到相应触发器的数据输入端,并且当该更快的变化的积分信号然后达到其第二达到的阈值电平 这样就会使这两个触发器同时进行。 在快速变化的积分信号达到其首次达到阈值水平之间经过的时间构成了容限间隔,在此期间,较慢变化的积分信号被给予尝试达到其相应的第一达到阈值的机会 水平。 如果较慢变化的积分信号在公差范围内达到其首次达到的阈值电平,则在两个触发器被计时之前,相应的信号被施加到其相关联的触发器的数据输入端,结果是 两个触发器的状态与两个积分信号具有不同的价值变化率相同。
    • 6. 发明授权
    • Circuit for indicating the condition of the battery in a photographic
camera
    • 用于指示照相机中电池状态的电路
    • US4338596A
    • 1982-07-06
    • US112562
    • 1980-01-14
    • Theodor HuberKurt BorowskiGerhard Egger
    • Theodor HuberKurt BorowskiGerhard Egger
    • G03B17/18G03B43/00G08B21/00
    • G03B43/00G03B17/18
    • When the battery voltage is sufficient, and not nearing the point of insufficiency, a light-emitting diode is steadily illuminated. As the battery voltage decreases, the steady component of illumination decreases and also, when the decrease has proceeded to a certain extent, a superimposed pulsating component of illumination is introduced, causing the illuminated LED to begin to flicker, informing the user that the battery voltage is nearing insufficient values. As battery voltage drops further, the steady component of illumination ceases altogether, and the flicker converts to on-off blinking, indicating that the battery voltage is at the verge of an insufficient value. When the battery voltage drops fruther, the LED ceases to be illuminated. During part or all of the flicker phase, and/or during part or all of the blinking phase, the frequency of the pulsating component of illumination progressively increases with decreasing battery voltage, to create an effect of increasing urgency. In addition, or alternatively, at a certain point during pulsating illumination the frequency of the pulsating component is abruptly increased, likewise to create an effect of urgency.
    • 当电池电压足够且不接近不足点时,发光二极管稳定地点亮。 随着电池电压降低,照明的稳定分量减小,并且当减小进行到一定程度时,引入照明的叠加的脉动分量,导致照明的LED开始闪烁,通知用户电池电压 价值不足。 随着电池电压进一步下降,照明的稳定分量完全停止,闪烁转换为开关闪烁,表示电池电压处于不足的边缘。 当电池电压降低时,LED不再亮起。 在闪烁阶段的部分或全部期间和/或部分或全部闪烁阶段期间,随着电池电压降低,照明脉动分量的频率逐渐增加,从而产生增加紧急度的效果。 另外或者可选地,在脉动照明期间的某一点,脉动分量的频率突然增加,同样产生紧急效果。
    • 7. 发明授权
    • Circuit for indicating the condition of the battery in a _photographic
camera
    • 用于指示摄像机中电池状态的电路
    • US4211478A
    • 1980-07-08
    • US898314
    • 1978-04-19
    • Theodor HuberKurt BorowskiGerhard Egger
    • Theodor HuberKurt BorowskiGerhard Egger
    • G03B17/18G03B43/00
    • G03B43/00G03B17/18
    • When the battery voltage is sufficient, and not nearing the point of insufficiency, a light-emitting diode is steadily illuminated. As the battery voltage decreases, the steady component of illumination decreases and also, when the decrease has proceeded to a certain extent, a superimposed pulsating component of illumination is introduced, causing the illuminated LED to begin to flicker, informing the user that the battery voltage is nearing insufficient values. As battery voltage drops further, the steady component of illumination ceases altogether, and the flicker converts to on-off blinking, indicating that the battery voltage is at the verge of an insufficient value. When the battery voltage drops further, the LED ceases to be illuminated. During part or all of the flicker phase, and/or during part or all of the blinking phase, the frequency of the pulsating component of illumination progressively increases with decreasing battery voltage, to create an effect of increasing urgency. In addition, or alternatively, at a certain point during pulsating illumination the frequency of the pulsating component is abruptly increased, likewise to create an effect of urgency.
    • 当电池电压足够且不接近不足点时,发光二极管稳定地点亮。 随着电池电压降低,照明的稳定分量减小,并且当减小进行到一定程度时,引入照明的叠加的脉动分量,导致照明的LED开始闪烁,通知用户电池电压 价值不足。 随着电池电压进一步下降,照明的稳定分量完全停止,闪烁转换为开关闪烁,表示电池电压处于不足的边缘。 当电池电压进一步下降时,LED不再亮起。 在闪烁阶段的部分或全部期间和/或部分或全部闪烁阶段期间,随着电池电压降低,照明脉动分量的频率逐渐增加,从而产生增加紧急度的效果。 另外或者可选地,在脉动照明期间的某一点,脉动分量的频率突然增加,同样产生紧急效果。
    • 8. 发明授权
    • Altered negative-feedback diaphragm control during implementation of
image fadeover in a motion-picture camera
    • 在运动图像摄像机中实现图像淡出时,改变了负反馈光圈控制
    • US4153352A
    • 1979-05-08
    • US904554
    • 1978-05-10
    • Kurt BorowskiFriedrich StumpfTheodor Huber
    • Kurt BorowskiFriedrich StumpfTheodor Huber
    • G03B7/085G03B21/36
    • G03B7/085
    • Normally, the negative-feedback diaphragm control system of the motion-picture camera works off a through-the-lens photosensitive element. However, when an image fadeover is to be effected, the lower than normal-operation aperture size commanded for the diaphragm results in a decrease in the light incident on the through-the-lens photosensitive element creating problems if the diaphragm control system is to continue to respond to scene-light changes during the lower than normal-operation aperture-size situation. Accordingly, the through-the-lens photosensitive element is switched out of the control system, and a second photosensitive element is switched in. The second photosensitive element does not operate through-the-lens, but instead is positioned behind an auxiliary light attenuator the front of which is exposed to ambient scene light. The auxiliary light attenuator is coupled to the diaphragm and diaphragm-adjusting motor. When the second photosensitive element is switched in, also switched in is a corrective unit which redefines what the equilibrium state of the negative-feedback diaphragm control system is to be, to take into account the difference in light incident upon the second as opposed to the first photosensitive element.
    • 通常,运动图像摄像机的负反馈光圈控制系统通过透镜感光元件工作。 然而,当要实现图像淡出时,为隔膜指令的低于正常操作的光圈大小导致入射到透镜感光元件上的光的减小,如果光阑控制系统要继续 在低于正常操作的光圈尺寸情况下响应场景光的变化。 因此,通过透镜的感光元件被切换出控制系统,并且第二感光元件被切换。第二感光元件不通过透镜操作,而是位于辅助光衰减器的后面 其前面暴露于环境场景光。 辅助光衰减器耦合到隔膜和隔膜调节电机。 当第二感光元件被接通时,也被切换的校正单元重新定义负反馈光阑控制系统的平衡状态是什么,考虑到与第二光敏元件相反的光的差异 第一感光元件。
    • 9. 发明授权
    • Motion picture camera operable by a single operating switch
    • 运动照相机可由单个操作开关操作
    • US4050795A
    • 1977-09-27
    • US663814
    • 1976-03-04
    • Eduard WagensonnerTheodor HuberBernhard VON Fischern
    • Eduard WagensonnerTheodor HuberBernhard VON Fischern
    • G03B7/085G03B7/10G03B19/18G03B7/08
    • G03B7/085G03B19/18
    • A single operating switch replaces the main switch connecting the diaphragm control means to the battery and the release switch activating the film transport. All camera circuits are directly connected to the battery when the main operating switch is closed. An electronic switch is connected in series with the film transport motor and is closed only upon receipt of a control signal. In a first embodiment the control signal is furnished by a timing circuit after a predetermined time interval following the activation of the main operating switch. In a second embodiment the control signal is furnished by a NAND-gate which has a first input which receives a "1" signal while the diaphragm is being adjusted and a second input which receives a "1" signal while the electronic switch is open. The NAND-gate thus furnishes a "1" signal to the electronic switch causing it to be conductive at all times except when the initial adjustment of the diaphragm takes place.
    • 单个操作开关代替将隔膜控制装置连接到电池的主开关和启动胶片传输的释放开关。 当主操作开关关闭时,所有相机电路都直接连接到电池。 电子开关与胶片传送电机串联连接,仅在接收到控制信号时才关闭。 在第一实施例中,在主操作开关激活之后的预定时间间隔之后,控制信号由定时电路提供。 在第二实施例中,控制信号由NAND门提供,该NAND门具有在调节隔膜时接收“1”信号的第一输入端和在电子开关断开时接收“1”信号的第二输入端。 因此,NAND门因此向电子开关提供“1”信号,导致其始终是导电的,除了当膜片的初始调节发生时。