DE2441620B2 - ELECTRONIC LOCK - Google Patents

Description

30th

The invention relates to an electronic shutter for a single-lens reflex camera in the preamble of claim 1 specified genus.

It is known, light-emitting diodes for displaying exposure values in a single-lens reflex camera to be used (Electronics 1972, No. 11, pages 369 to 388).

It is also known for an electronic lock of the specified type to be an influencing factor the accuracy of the exposure metering due to the stray light falling through the viewfinder (DT-OS 2 58 219). This is done by entering through the lens and onto the photoelectric components incident light or the incident light through the viewfinder periodically interrupted by means of a device, which are formed, for example, by a rotating disk with sector-shaped recesses can. This contains the electrical output signal emitted by the photoelectric components an alternating component corresponding to the interruption of the beam path and one not interrupted beam path corresponding direct current component, the electrical component, the corresponds to the object beams can be filtered out by electrical screen means and, for example, a Display device or a control device for the exposure value are fed.

In the case of an electronic shutter for a one-eyed Single-lens reflex cameras of the specified type can display the light emitted by the display device the photoelectric components fall, which also falsifies the result of the exposure measurement would be. Another difficulty arises when recordings are made in a room by using a fluorescent tube as the light source. Because that of such a

ι, chtauelle emitted light changes periodically with light source dug _B . _{an exact Be} | _i

Sm si w "You? For the display of the exposure * eU ^g S required .st. This periodic fluctuation must be taken into account in order to obtain a stable display.

FV £ t a way to solve this problem, so to Avoidance of the influence of a light source radiating with a periodic fluctuation on the measurement result the exposure metering, known in which two Measuring circuits are provided, each em photoelectronic Component in optically equivalent positions and their electrical output signals Object lighting that is not flicker-free (for example ri Sch neon light sources) next to a common edge 2öh contain a change portion (DT-OS 22 58 218); dfeΓ AC components of the output signals of both measuring circuits are linked to one another by switching means in such a way that they compensate one another

In this known arrangement, there are two Measuring circuits required, each of which has a photoelectric « Have the component in optically equivalent positions to eliminate the influence e.ner periodically A complex circuit is therefore required for the radiating light source. In addition, there are various Switching means required to obtain the correct attention value from the output signals of the measuring circuits to investigate. And finally, with this arrangement, too, the emitted from the display device Light affect the exposure metering.

The invention is therefore based on the object of an electronic lock for a one-eyed To create single-lens reflex cameras of the type specified in the one with a single bioelectric Component eliminates both the influence of periodically fluctuating radiation from the light source the measurement error which can result from the light of the display device is also avoided.

This object is achieved according to the invention by the im characterizing part of claim 1 specified Meikmale solved.

The advantages achieved with the invention are based in particular on the following mode of operation: The clock pulses a pulse train are simultaneously sent to the display device showing the result of the observation measurement and applied to the base of a transistor connected to the non-inverting input connected to an amplifier. If the transistor becomes conductive due to the clock pulses, it will not inverting input of the amplifier short-circuited with a terminal, so that no exposure measurement is carried out. During this, through the Clock pulses controlled period of time is in the display device that result of the exposure measurement shown, which is obtained via appropriate components. This enables exposure metering be timed precisely so that any ripple present in the input signal is eliminated and a stable display is obtained. Furthermore, the exposure metering is only in the Performed time intervals in which the display device is not in operation, so that the The amount of light emitted by the display device cannot influence the result of the exposure measurement. And finally, only a single photoelectric component is required in order to have both the influence of a To eliminate periodically radiating light source as well as a falsification of the measurement result by the

To avoid light from the display device, so that the exposure meter itself and also the electrical one used to process its output signals Circuit have a much simpler structure than the known arrangement.

The invention is illustrated below on the basis of exemplary embodiments with reference to schematic drawings explained in more detail.

It shows

Fig. 1 is a graphical representation of the temporal change in the light emitted by a 50 Hz operated fluorescent tube is released,

Fig. 2 shows the circuit structure of the electronic shutter according to the invention and

3 (a) to (c) are graphic representations for explaining the mode of operation of the circuit arrangement according to Fig.2, wherein in Fig.3 (a) the waveform of an input signal, in Fig. 3 (b) the waveform of an amplified output signal and in Fig. 3 (c) the Waveform of an output signal are shown, which is smoothed by means of a capacitor.

In Fig. 1, the time course of the light is shown, which is operated by a 50 Hz Fluorescent tube is emitted. Experiments have shown that the maximum exposure error with an optimal exposure (i.e. an exposure aimed at an average value) in one Range is from ± 0.2 EV to 0.35 EV (error voltage) when a picture is taken in a room which is illuminated with the help of a fluorescent tube; the mistake made can be neglected when the total latitude of the film is taken into account. However, should the determined and if necessary, automatically set exposure value, in particular the exposure time, in small Steps, for example in steps of 1/3 EV, are determined and displayed, so the influences the above-mentioned error the exposure measurement in a way that can no longer be neglected.

2 shows a circuit arrangement with which both the influence of such a fluorescent tube eliminated and the measurement error can be avoided, which is caused by the light usually in the single-lens reflex camera provided display device originates.

An input voltage Viη from a photoelectric component used for exposure measurement, such as a solar cell, is amplified by means of an amplifier 34 and passed through a diode 35 so that a capacitor C can be charged and an output voltage Vout is generated. A pulse sequence is applied to an input T of this circuit arrangement, whereby, on the one hand, a display device LED for displaying the exposure values is excited and lights up; at the same time this pulse train is applied to the base of a transistor TR so that it becomes conductive. As a result, the non-inverting input of the amplifier 34 is short-circuited to a further terminal -V, so that the exposure meter output is switched off. The amplifier 34 thus generates an amplified signal as shown in FIG. 3 (b). If the output signal of the amplifier 34 is rectified by means of the diode 35 and smoothed by means of the capacitor C, the result is an output signal Vout as shown in FIG. 3 (c). With this circuit arrangement, the exposure measurement can be precisely timed, while the ripple of the input signal, which is caused by the above-explained light source with fluctuating intensity, is eliminated; In this way, the measured and set exposure value can be displayed stably in the display device LED. In the circuit arrangement shown, the diode 35 is operated in the forward direction when the capacitor C is charged, as a result of which the time interval from the switching on of the circuit to the point in time at which a predetermined voltage is obtained is shortened to a period of the order of magnitude of approximately 4 msec is.

Although there is a deviation from the mean value of the low-frequency output signal (this mean value representing the optimal exposure), this error remains with the circuit arrangement according to the present invention in a range of + 0.3EV and is in consideration of the The exposure latitude is negligible if a single lens reflex camera is equipped with one electronic shutter is used in a room lit by a fluorescent tube.

This is achieved in that the exposure value is not displayed during the exposure measurement occurs while the exposure meter output is turned off during a display. The first half of the amplifier characteristic good responsiveness, to ensure accurate timing of the display and exposure measurement phases, while the second half of the amplifier characteristic has decreased responsiveness; in this area will be the most chopped up Waveform for the timing and the output signal of the photoelectric component, which is due to the Influence of the light source radiating at a low frequency has a pulse shape, by means of a capacitor can be smoothed, whereby the total fluctuation of the output signal is limited to, for example, ± 1/6 EV can be.

1 sheet of drawings

Claims (4)

Patent claims: 1. Electronic shutter for a single lens reflex camera with an amplifier connected photoelectric component in the beam path of the lens for exposure measurement and with a light-emitting display device for the determined exposure value im Viewfinder of the camera, characterized that the light emitting display device and the amplifier (34) through a common Pulse train operated intermittently, so that the light measurement and the display alternate take place. 2. Electronic lock according to claim 1, characterized in that means (Q for smoothing the output signal of the amplifier (34) are provided. 3. Electronic lock according to one of claims 1 or 2, characterized by a diode (35) or a capacitor (C) for rectifying or smoothing the output signal of the amplifier (34). 4. Electronic lock according to one of claims 1 to 3, characterized in that the amplifier (34) is operated intermittently by means of a transistor (TR) to which the pulse train is applied.