DE2512571C3 - Exposure control circuit for a photographic camera - Google Patents

Description

The invention relates to an exposure control circuit for a photographic camera having a photoelectric converter that adjusts the opening time of the camera shutter according to the brightness of the the subject to be photographed controls, and a luminance adjustable light source that controls the photoelectric converter illuminated.

In a known exposure control circuit of this type (DT-AS 20 25 859) is in the Exposure control circuit provided light source only effective when with artificial light, i. H. an additional light source, is photographed. Those in the exposure control circuit provided light source is switched so that it in this case at the beginning of an exposure process is briefly switched on to condition the photoelectric converter. If that from the auxiliary light source The amount of light emitted is too weak to cause the shutter to close, the light source provided in the exposure control circuit after a predetermined exposure time, for example 1/30 seconds, switched on again briefly to close the shutter by sufficient Close illuminating the photoelectric converter. The purpose of the exposure control circuitry known in this provided light source is to ensure a limited exposure time to a Avoid blurring when photographing hand-held.

Is a camera equipped with the known exposure control circuit without an additional light source used, so there is a risk that the photoelectric converter so is dimly lit so that it does not respond, so that the exposure control sound is the manually opened one Shutter of the camera no longer closes This leads to a rapid exhaustion of the in the Exposure control circuit, so that subsequent photography is impossible. This insufficient exposure of the photoelectric converter and the resulting possibility of Rapid battery depletion is also important when watching a movie in a darkened location is inserted into the camera: In order to make the camera ready for use, it is necessary to first to transport two or three images as empty images. With a self-tensioning camera there is a film transport only after a complete locking operation, i.e. opening and closing of the lock, possible. Because, as explained above, this is not possible in a darkened area, a Transport of the first images as empty images and thus preventing the camera from operating.

Exposure control circuits are disclosed in DT-PS 12 88 424, DT-AS 12 59 697 and DT-AS 29 52 848 known in which the shutter opening in the event of insufficient exposure by an electronic time constant circuit is ended after a predetermined opening period. This is done with the help of additional Components such as R-C circuits or flip-flops, etc., which complicate the exposure control circuits and make them relatively expensive. There is also a peculiarity of these known exposure control circuits in that the setting of the electronic time constant circuit to the sensitivity of each in must be adapted to the film used in the camera.

The invention is based on the object of providing an exposure control circuit which is simple in structure create that under all circumstances ensures that the shutter of a photographic camera is weak Brightness of a subject to be photographed does not remain indefinitely and the thus ensures, that the source of electrical energy holding the shutter open is not prematurely exhausted.

This object is achieved according to the invention with an exposure control circuit of the type described at the beginning solved in that the light source is connected in such a way that it uses the photoelectric converter during the entire shutter opening period with at least that for the response of the photoelectric Illuminated converter to control the shutter opening time minimum required illuminance.

Thus, in the exposure control circuit of the present invention, the photoelectric converter becomes among all Illuminated circumstances during the entire shutter opening period. The resulting illuminance of the photoelectric converter is chosen so that the shutter after the longest, automatically closes for a predetermined opening period. In this way it is ensured that the lock does not can be left open for an indefinite period of time, resulting in premature exhaustion of the exposure control circuitry intended battery. Those in the exposure control circuit according to the invention switched additional light source makes the exposure control circuit hardly more expensive. Another, by the constant additional lighting of the photoelectric converter during the opening of the shutter The advantage achieved is that this converter, for example a photodiode, is certainly in one

Area operated in which the thermal Noise-related fluctuations in its resistance or its leakage current are reduced, whereby the The accuracy of the exposure control circuit is positively influenced.

The exposure control circuit according to the invention can be used when photographing objects that even have a brightness to which the photoelectric converter just responds, as a result of the additional Illumination of the foloelectric transducer by the Uchtqeulle during the opening of the shutter lead to that these objects are underexposed. In practice, however, this underexposure does not play a role, since the brightness of normally recorded objects is far above this minimum brightness Cherishes.

If the exposure control circuit in a known manner so constructed that the photoelectric Converter is connected in series with a capacitor, it is advantageously characterized in that a series connection of the light source and resistors in parallel with the series connection of photoelectric Converter and capacitor is connected.

Different resistors are advantageously connected in series with the light source via a changeover switch optionally switchable so that the resulting maximum exposure time can be preset.

In a preferred embodiment of the exposure control circuit the light source is eiv> e luminescent diode with low power consumption.

The invention is illustrated below with reference to schematic drawings, for example and with others Details explained. It shows

Fig. 1 is a circuit diagram of an exposure control circuit for the shutter of a camera;

Fig. 2 is a circuit diagram of a modified embodiment the exposure control circuit,

3 shows a circuit diagram shown in perspective another embodiment of the exposure control circuit.

In Fig. 1 is a battery 1 as a power source 1, over a main switch 2 having an electric shutter control circuit 3 and a pre-exposure circuit 4 connected. The shutter control circuit 3 has a photodiode as a photoelectric converter 5, which Light 30 coming from a photographed object responds to the brightness of the object ascertain. The photoelectric converter 5 is connected in series with a capacitor 6, so that a Time constant circuit 7 is formed, which is connected via the battery 1 and the main switch 2. The junction between the photoelectric converter 5 and the capacitor 6 of the time constant circuit 7 is connected to a gate electrode of an N-type field effect transistor 8, the Source electrode is connected to a wiper of a potentiometer 9 and its drain electrode with the base of a PNP transistor 10 is connected. The Potentiometer 9 is connected via battery 1 and main switch 2.

In parallel with the capacitor 6 is a shutter switch 11 which is opened when a shutter assembly is opened. A solenoid 12 which prevents the shutter assembly from closing as soon as a Beiichtungiichtweg is open is connected in series with an NPN transistor 13 and this A series connection formed in this way is via the battery 1 and the main switch 2 as well as another Series connection with an NPN transistor 14 and a resistor 19 connected. The basis of the Transistor 13 is connected to the collector of transistor J4, the base of which is connected via a coupling resistor 17 is connected to the collector of transistor 10. The collector of transistor 10 is also over a resistor 18 is connected to the emitter of transistor 14.

The pre-exposure circuit 4 has as a light source

ίο 15 a light emitting diode with low power consumption which is connected in series with a resistor 16, which is emitted by the light source Amount of light determined. This series connection is also via the battery 1 and the main switch 2 connected. The light source 15 is arranged so that it emits light on the photoelectric Converter 5 of the shutter control circuit 3 falls, causing it to illuminate with low illuminance will.

The cooperating with the electrical shutter control circuit 3 shutter assembly is through a film transport operation of the camera is tensioned so that it is ready for operation and is pressed down a shutter button released or opened, whereupon the shutter, which releases an exposure path, is opened. If the exposure path is clear, the light measurement begins and occurs after a correct exposure the shutter control circuit 3 in action in order to no longer energize the magnetic coil 12 gen, so that the shutter closes and blocks the exposure path.

The main switch 2 is actuated coupled with the actuation of a shutter release button of the camera and is closed before the shutter is activated.

In operation, after the film has been transported in the camera, actuating the shutter initially closes the main switch 2 whereby the shutter control circuit 3 and the pre-exposure circuit 4 are both connected to the battery 1 be connected and take action, the light source 1 lights up. Because the shutter switch 11 remains closed at this time, the field effect transistor 8 remains as well as the transistors 10 and 14 locked. This means that the transistor 13 is permeable and the magnetic coil 12 with current applied, whereby the closing of the shutter is prevented. During the last part of the shutter actuation the shutter is opened and gives; the exposure path free. Closing the shutter however, is prevented by the magnetic coil 12, whereby the exposure path is kept open.

The locking switch ti is used to open the Shutter coupled open, whereby the capacitor 6 in the time constant circuit 7 is charged.

The gate potential of the field effect transistor 8 increases then with a through the resistor of the photodiode 5 and the capacitance of the capacitor 6 given time constant, and once it reaches a certain value, the field effect transistor 8 is translucent, whereby a the transistors 10 and 14 are permeable will. In this way, the transistor 13 is blocked, the current flow through the magnetic coil 12 ceases, so that the blocking of a component closing the shutter is omitted and the exposure path is blocked. In this way, the shutter is open for a period determined by the time constant given by the time constant circuit 7 of the shutter control circuit 3, and

will be closed afterwards.

When the brightness of a photographed object falls below a certain value, that is Shutter control circuit 3 is no longer able to determine a shutter opening time that the Brightness of the photographed object as determined by the photoelectric converter 5, is equivalent to. The same applies if the camera is placed in a container so that the incidence of Light on the photoelectric converter is interrupted. In these cases, the lighting represents weak of the photoelectric converter 5 with the light source 15 ensures that the time constant sound 7 a through this lighting has a given time constant, which is also determined by this additional lighting is.

The size of the resistor 16 is set to a value at which the illuminance of the photoelectric Converter 15 is roughly comparable to the illuminance from the lowest possible graphed object is comparable to which the lock control device 3 can respond. So is a certain shutter opening period is ensured when the incidence of light from a photographed person Object forth on the photoelectric converter 5 is interrupted. Because the light source 15 emitted light intensity over a wide range by simply adjusting the size of the resistor 16 is adjustable. can that of the shutter control circuit 3 depending on this light intensity certain shutter opening times can be set very easily and precisely over a large area. A additional, resulting from the use of the pre-exposure circuit 4 advantage is that a higher reliability and stability of the shutter control circuit 3 is achieved because the photoelectric Converter 5 is operated by the additional lighting in a more stable work area, in particular, when the light from the subject to be photographed is very weak.

In the in F i g. 1 illustrated embodiment is a only resistor 16 connected in series with the photoelectric converter 15, so that the through the Pre-exposure certain shutter opening time can only assume a single value. When a such shutter opening time is preset to a value of the order of one minute, becomes the shutter assembly regardless of the light emanating from a photographed object automatically closed, even if a required exposure time is one minute since the shutter was released exceeds. This would extend the area of use of a circuit provided with the circuit according to the invention Restrict camera. A photograph that takes more than a minute, such as a photograph a starry night or fireworks is prevented in this way because the shutter assembly is closed as a result of the light from the light emitting diode. This disadvantage is compounded with the Embodiment according to FIG. 2 avoided.

The pre-exposure circuit according to FIG. 2 has a pair of resistors 20 and 21 alternating in FIG the circuit with the photoelectric converter 15 for changing the amount of the output from it Light can be switched. The movable contact 22a of a changeover switch 22 is connected to the negative pole of Battery 1 connected, while its fixed contacts 22b and 22c each with one end of the resistors 20 and 21 are connected. The other end of these resistors is formed with the cathode of the light emitting diode Light source 15 connected, the anode of which via the main switch 2 to the positive terminal of the battery 1 is connected. The resistor 20 is relatively small in size so that a shutter opening period of, for example, half a second is achieved when the resistor 20 is switched into the Stror.ikreis is. The other resistor 21 has a higher value, so that a shutter opening duration of, for example ten minutes is achieved when this resistor is in the circuit. When performing a photographic recording requires an extended exposure time, the switch 22 is set to Fixed contact 22c switched, so that the resistor 21 is effective and an exposure time of ten Minutes is possible. After ten minutes have elapsed, the locking control circuit takes effect and closes the shutter. When the camera is used during the day, the toggle switch 22 is on the fixed contact 22b switched to make the resistor 20 effective, whereby the maximum Shutter opening time is limited to half a second, so that it does the following does not prevent photographic recordings.

The F i g. 3 shows a modification of the embodiment according to FIG. 2, which consists in that at Connection of the resistor 21 in the circuit of this resistor 21 at the same time in series with the resistor 20 is switched. In this embodiment, the movable contact 22a of the switch 22 of a cam 23 actuated, which in turn actuates a button 24 provided on the outside of the camera will. The movable contact 22a and the fixed contacts 22b and 22c of the changeover switch 22 and the Cams 23 are mounted on a printed circuit board 25. By turning knob 24 90 ° in Counterclockwise (according to Figure 3) around his Axis 22, the cam 23 brings the movable contact 22a into engagement with the fixed contact 22c, whereby the two resistors 20, 21 are connected in series with one another. By turning the knob 24 around his Axis 26 through 90 ° in the clockwise direction brings the cam 23 into engagement with the movable contact 22a the fixed contact 22b, so that only the resistor 20 is connected in the circuit. While in the Embodiments according to FIGS. 2 and 3 for producing a relatively long and a relatively short one Shutter opening time a pair of resistors were used, the number of used! Resistances are also increased so that below a plurality of predetermined shutter opening times there is free choice.

1 sheet of drawings

Claims (4)

Patent claims: 1. Exposure control circuit for a photographic camera having a photoelectric Converter that adjusts the opening time of the camera shutter according to the brightness of the to the object to be photographed, and a light source adjustable in its luminance, which illuminates the photoelectric converter, characterized in that the light source (15) is connected in such a way that it has the photoelectric converter (5) during the entire shutter opening period with at least the for the response of the phoealistic transducer to control the shutter opening time is minimal Illuminance illuminated. 2. Exposure control circuit according to claim I, wherein the photoelectric converter in series with is connected to a capacitor, characterized in that a series connection of the light source (15) and resistors (16, 20, 21) parallel to the series connection of photoelectric converter (5) and capacitor (6) is connected. 3. Exposure control circuit according to claim 2, characterized in that in series with the Light source (15) different resistors (20, 21) optionally switchable via a changeover switch (22) so that the resulting maximum exposure time can be put in front. 4. Exposure control circuit according to one of claims 1 to 3, characterized in that the The light source (15) is a light emitting diode with low power consumption. 35