DE2462512C2 - Electronic lock - Google Patents

Description

The invention relates to an electronic shutter for a single-lens reflex camera with a 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 in the viewfinder of the camera, where the light-emitting display device and the amplifier operated intermittently by a common pulse train, so that the light measurement and the Display alternately, according to DE patent 24 41 620.4.

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 shutter to affect the accuracy of the To avoid exposure measurement by the stray light falling through the viewfinder (DE-OS 22 58 219). For this purpose, the penetrating through the lens and striking the photoelectric components or the light incident through the viewfinder is periodically interrupted by means of a device which, for example can be formed by a rotating disk with sector-shaped recesses. This contains the electrical output signal emitted by the photoelectric components is one of the interruption of the beam path corresponding alternating component as well as one of the uninterrupted beam path corresponding direct current component, the electrical component corresponding to the object beams filtered out by electrical screen means and, for example, a display device or a control device for the exposure value.

In the case of an electronic shutter for a single-lens reflex camera, this can be done by the display device emitted light fall on the photoelectric components, which is also the result of the Exposure metering would be falsified. Another difficulty arises when taking shots to be made in a room where a fluorescent tube is used as a light source. Because the light emitted by such a light source changes periodically with a frequency of 50 Hz. With an exact exposure measurement, as it is for the display of the exposure time in small steps is required, this periodic fluctuation must be taken into account in order to obtain a stable display obtain.

There is a way of solving this problem, thus avoiding the influence of a periodic Fluctuation radiating light source on the measurement result of the exposure measurement, known in which two Measuring circuits are provided, each of which has a photoelectric component in optically equivalent positions and their electrical output signals in the case of object lighting that is not flicker-free (e.g. by Neon luminous bodies) contain an alternating component in addition to a direct component (DE-OS 22 58 218); the Alternating portion of the output signals from both measuring circuits are linked to one another by switching means in such a way that they compensate one another.

In this known arrangement, two Meßstromkrei ^r e are required, each having a photoelectric component in optically equivalent positions; a complex circuit is therefore required to eliminate the influence of a periodically emitted light source. In addition, various switching devices are required in order to determine the correct exposure value from the output signals of the measuring circuits. And finally, with this arrangement too, the light emitted by the display device can influence the exposure measurement.

The invention is based on the object of an electronic shutter for a single-lens reflex camera of the specified genus, in which the intermittent area of the light-emitting Display device and the amplifier by the common pulse train on extremely constructive easy way to be done.

This is achieved according to the invention in that two complementary transistors are provided, through which the clock pulse train is fed to the input stage of the amplifier.

According to a preferred embodiment, a circuit for forming the mean value is provided which one between the output and the input of the amplifier, integrating negative feedback circuit and one with the input stage of the Amplifier has connected resistance.

The advantages achieved with the invention are based on the following mode of operation: The clock pulses of a Pulse sequences are sent simultaneously to the display device, which shows the result of the exposure measurement, and applied to the base of a transistor which is connected to the non-inverting input of an amplifier is. When the transistor becomes conductive due to the clock pulses, the non-inverting input of the Amplifier short-circuited to one terminal, so that no exposure measurement is carried out. During this line span controlled by the clock pulses, the result is displayed in the display device the exposure measurement, which is obtained via appropriate components. So this can the exposure measurement can be timed precisely so that any waviness of the

Input signal is eliminated and becomes stable Display results Furthermore, the exposure measurement is only carried out in the time intervals in which the Display device is not in operation, so that the amount of light emitted by the display device the Can not influence the result of the exposure measurement. And finally, only one is photoelectric Component required in order to eliminate both the influence of a periodically radiating light source as well as to avoid a falsification of the measurement result by the 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 arrangements.

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

F i g. 1 shows the circuit structure of the electronic shutter according to the present invention, and FIG

2a to 2c are graphic representations for explanation the mode of operation of the circuit arrangement according to FIG. 1, wherein in FIG. 2 (a) the waveform of a Input signal, in Fig. 2 (b) the waveform of a amplified output signal and Fig. 2 (c) shows the waveform of an output signal which was smoothed by means of a capacitor.

In Fig. 1, a circuit arrangement is shown, with both the influence of a frequency of 50 Hz flashing fluorescent tube also eliminates the measurement error that can be avoided by the light of the display device usually provided in a reflex camera.

An input voltage Vin from a photoelectric component used for exposure measurement, such as a solar cell, is amplified by means of an amplifier 34 To perform exposure measurement. This pulse train Γ is applied to the base of a transistor 77? 1 applied, which is connected complementarily to a further transistor TR 2 .

With this circuit arrangement, the input signal of the exposure meter has a waveform as shown in FIG. Fig. 2 (a) is amplified into a pulsating current with a waveform as can be seen in Fig. 2 (b) before it is integrated by means of a capacitor C to form the mean value; in this way an output voltage Voul is generated as shown in FIG. 2 (c).

A specific output signal is obtained by multiplying this mean value by 1 / duty cycle or 2 in obtained the embodiment shown.

In this embodiment, the time interval is from the switching on of the circuit arrangement to the The point in time at which a certain voltage is obtained is relatively long; on the other hand, however, can be a achieve greater accuracy than using a peak detector.

1 sheet of drawings

Claims (2)

Patent claims: 1. Electronic shutter for a single-lens reflex camera with a photoelectric component connected to an amplifier in the beam path of the lens for exposure measurement and with a light-emitting display device for the determined exposure value in the viewfinder of the camera, in which the light-emitting display device and the amplifier through a common pulse train operated intermittently so that the light measurement and the display take place alternately, according to DE patent 24 41 620.4 characterized in that two complementary transistors (TRu TR2) are provided through which the clock pulse trains are fed to the input stage of the amplifier (OP) . 2. Electronic lock according to claim 1, characterized in that a circuit for forming the mean value is provided which has an integrating negative feedback circuit (C, R]) located between the output and the input of the amplifier (OP ) and one with the input stage of the Amplifier (OP) connected resistor (7? 2) has.