DE2026990A1 - Circuit arrangement for electron heating devices with regulated light energy - Google Patents

Description

Berlin, May 27, 1970 Ka / Tue - P 827

Patent application

Applicant: LOMiC OPTA GMBH, 1 Berlin 46, Teltowkanals tr. 1-4

Circuit arrangement for electronic flash units with regulated flash light energy

The subject of the invention is a further development of the one described in the main patent ... (patent application P 19 38 869 · 3) Circuit arrangement for electronic flash units whose flash duration depends on that reflected from the photo object Amount of light is regulated, by means of a parallel. Shunt arranged to the useful flash tube, e.g. a Discharge tube or one or more thyristors. The special feature of the main patent ... is that the operating voltage for the control circuit of the shunt supplying the operating voltage for the useful flash tube Circle is taken.

The purpose of the present invention is to provide this circuit arrangement in accordance with the main patent to the effect that they can easily be used, for example, for cameras with fixed Aperture adjustment can be used. When using such cameras with a fixed aperture setting, where so the aperture cannot be changed, it is of course necessary when using different film material DIN sensitivity the sensitivity of the automatic Control circuit for actuating the shunt to the useful flash tube (computer circuit) this different Customize footage.

According to the invention, therefore, the circuit arrangement according to the Main patent designed in such a way that the operating voltage for the control circuit of the shunt is optionally available at different resistors different sizes or, on a potentiometer with

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predetermined resistance characteristic is removable. In this way you can each time for the one in the camera with ... more firmly Aperture setting used film with a certain DIB value select a suitable operating voltage for the actuation of the "computer" circuit.

Otherwise one would have to use films with different DIN sensitivities make a corresponding adjustment of the diaphragm, but in the present case this also occurs when a camera is present fixed aperture setting is not possible.

There is an advantageous embodiment of the inventive concept in that the operating voltage for the control circuit of the computer circuit by means of a step switch in each case from a resistor from a plurality of parallel-connected resistors of different sizes can be tapped.

Furthermore, the resistors connected in parallel or the potentiometer are advantageously used as partial resistances of the in electronic flash units known glow lamp voltage divider switched.

Finally, the circuit arrangement according to the invention also use to switch off the "computer" circuit. this can be realized by the fact that of the various resistors that can be switched on there is also one resistor with such a small Resistance value can be switched on so that the removable operating voltage is below the threshold value of the control circuit ("computer" circuit) remain.

The circuit arrangement according to the invention is explained in more detail below with reference to the exemplary embodiments shown in the figures. Show in it

1 shows a flash unit circuit arrangement with a step switch for the decrease of the operating voltage for the "computer" circuit and instead of the step switch

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Ji ¹ Ig. 2 shows a circuit arrangement with a potentiometer.

In the circuit arrangement shown in accordance with ± ^r ig. 1, the Jutz flash tube 1 receives its operating voltage from the storage or flash capacitor 3, which is charged to the required flash voltage from a power source 2 that works in a known manner, for example as a DC voltage converter. Parallel to the flash capacitor 3 is a voltage divider with resistors 5 »6 and 7 · The glow lamp 4- is used to indicate that the flash is ready when the capacitor 3 is sufficiently charged. The threshold value of this indicator glow lamp 4 is adjustable by ite ^ elun; ^ of the voltage divider resistor 6. The flash lamp i is also parallel to the flash capacitor 3, from which it receives its flash voltage. When the ignition electrode Z receives the ignition voltage via the ignition circuit transformer 9 at the moment the synchronous switch closes, the lightning discharge is triggered in the flash tube 1. The ignition capacitor 11 is charged via the voltage resistors 8 and 10. As soon as the synchronous switch 12 is closed, this capacitor 11 discharges via the ignition transformer 9? in the secondary circuit of which a voltage pulse (ignition pulse) reaches the ignition electrode Z, whereby the flash tube 1 is ignited. The resistors 8 and 8 are yoke-ohmic so that only a small current flows when the contact 12 is closed, so that the contacts of the synchronous switch 12 are not heavily loaded.

The operating voltage for the control circuit of the "computer" circuit with the shunt circuit containing the thyristors 20 and 21 to the flash tube 1 is taken from the flash tube voltage circuit, via the voltage divider 5, 6 and 7 · Between the .V / iderstands 6 and 7, a DC voltage is drawn accordingly and via the diode 13 to charge the Jtilektrolyte capacitor 15 used. This charging voltage on the capacitor 15 serves as the operating voltage for the subsequent control circuit, which closes the flash tube 1 as a function of the Object to cause reflected amount of light. The diode 13 has the purpose of a reverse discharge of this capacitor 15 via

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to prevent the mentioned voltage divider when the voltage at the voltage divider 6, 7 is reduced, which is with long Flash duration could occur.

The charging voltage on the capacitor 15 is used as a switch serving thyristor 16 and photosensor "17 to control the thyristor 20 led to its "gate". The RC element 18, 19 is used to set the time constant of the control circuit with the in Cascade connected thyristors 20 and 21.

The control circuit, consisting of the photo resistor 17, the RC element 18, 19 and the cascaded thyristors 20, 21 is put into operation by the thyristor 16 as soon as it is in Instant of the lightning strike is made conductive. This is done via the line 28, which the control electrode ("gate") 29 of the Thyristor 16 via the diode 14- with the primary ignition circuit 8,9,10, 11 connects the flash tube 1. If the flash tube 1 is ignited by actuating the synchronous contact 12, then at the same time a voltage pulse from the primary ignition circuit is also applied to the "gate" 29 of the thyristor 16 via the diode 4-. So that will this is conductive at the moment the flash is triggered and corresponds to the fourth of the photosensitive resistor or photosensor 17, influenced by the reflected light of the object to be recorded is, a control voltage is applied to the thyristors 20, 21, making them conductive and thereby a shunt for the flash tube 1 form. As soon as this occurs, the useful flash discharge in the flash tube 1 is interrupted, and depending on the state of the photoresistor 17, 'the value of which is different depending on the reflected light during the flashing process. Accordingly, there is also a different one Duration of the useful flash discharge in the flash tube 1, which is known to be the purpose of these so-called "computer flash circuits" is.

The shunt thyristors 20, 21 are located with their sci-protection resistors 25 and 26 in cascade connection also to the flash tube voltage, which is supplied by the flash capacitor 3.

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According to the invention, the circuit shown is designed so that the control voltage that can be taken off at point A of the voltage divider or operating voltage for regulating the shunt circuit to the useful flash tube 1 with the thyristors 20 and 21 can be chosen differently. Parallel to the resistance 7 »which is decisive for the size of the operating voltage for the control circuit (computer circuit) at point A According to the invention, several additional resistors 27 to 36 are connected, which can be switched on optionally by means of the step switch 37 are.

In this way it is possible to choose between different operating voltages decrease at point A for the "computer" circle.

For example, if you have a camera with a fixed aperture Available, by setting the Select step switch 37 to set a different voltage at point A. Thus one can increase the responsiveness the computer circuit when using film material of different DIN sensitivity and one Adjust the camera with a fixed aperture to the film material you are currently using. The different values of the resistances 27 to 36 are the various possible DIN values adapted to the film material and deliver with the appropriate setting of the step switch 37 each one for the DIN sensitivity of the film you are currently using, the appropriate operating voltage at point A for the computer circuit.

In Fig. 2, a further embodiment of the circuit arrangement according to the invention of a flash device is shown. Instead of the step switch 37 used in FIG. 1 with the various resistors 27 to 36, a potentiometer P is now switched on. By shifting the potentiometer tap, the various operating voltages required at point A can be set for the "Computer ^n" circuit of the flash unit. The potentiometer naturally has a corresponding one

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Y / resistance characteristic that allows each required voltage according to the DIlT-um of indness of the currently used film material at point A - to ....-, .. can. The remaining part of the circuit corresponds exactly to the circuit shown in FIG.

The circuit arrangements shown in accordance with If ic ;. 1 and 2 are of course - as in the main patent - not to the example of the cascade connection of the thyristors

20 and 21 bound. Instead of the latter, it is also possible to use a single thyristor or the well-known "^ uenchröhre" in the Shunt circuit for flash tube 1 can be used.

The thyristor 16 works as a switch which is only closed at the moment the flash is ignited in tube 1 and thus also an external lightning security of the control circuit with the photoresistor 17 and the subsequent thyristors 20 and

21 causes.

The diode 23 between the thyristors 20 and 21 is used Purpose, negative in the event of any oscillations that can be caused by switching inductances and switching capacities Keep voltages from the "gate" of the thyristor 21.

The circuit arrangement according to the invention also allows the control or "computer" circuit to be switched off by means of the step switch 37 or the potentiometer P. äs is only necessary because '? one of the resistors that can be switched on by the step switch 37 has such a small value that the threshold value of the control circuit is not reached with the voltage that can be taken off at A, or that when a potentiometer according to FIG. 2 is used, such a low voltage can also be set at point A, that the control or "computer" circuit cannot respond.

The advantage of the circuit arrangement according to the invention is that a "computer" flash unit without adjustment of the Aperture setting of the camera used without further ado

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at Ver'vendun «^ of film materials of different DIN _jmpfindlich.keit can be used. One needs single-Iicii by means of the on-load switch 37 or potentiometer P the proficiency of the Hegel or "computer" chaltion ^ the DIN number of the film material currently being used adjust accordingly.

ilucii can be - as described above - the ßegelbz ¹ '?. Completely switch off "Computer" switching off.

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Claims (4)

LO ^ WE OPTA GMBH Berlin, May 27th, 1970 Claims Circuit arrangement for electronic flash units with a useful flash duration that is regulated as a function of the amount of light reflected by the object to be recorded a shunt arranged parallel to the useful flash ■ tube, e.g. a discharge tube or an or several thyristors, in which the operating voltage for the control circuit of the shunt corresponds to the operating voltage for the useful flash tube supplying circle is taken, according to the main patent ... (patent application P 19 38 869.3) »characterized in that this operating voltage optionally on various resistors of different sizes or on a potentiometer predetermined resistance characteristic is removable. 2. Circuit arrangement according to claim 1, characterized in that this operating voltage in each case by means of a step switch can be tapped off by a resistor made up of a large number of resistors of different sizes connected in parallel is. 3. Circuit arrangement according to claim 1 or 2, characterized in that that the various resistors or the potentiometer as partial resistances of the electronic flash units known glow lamp voltage divider are connected. 4. Circuit arrangement according to claim 1, 2 or 3 »characterized in that for the purpose of switching off the control circuit a resistor with such a small resistance value that the resistor can be removed from this resistor can also be switched on Voltage remains below the threshold of the control circuit. 109 8 49/158? L e r s e i t e