DE2019721A1 - Circuit arrangement for electronic flash units with regulated flash duration - Google Patents

Description

Circuit arrangement for electronic flash units with controlled flash duration (Addition to patent application P 19 38 869.3) The invention is directed to a circuit arrangement for electronic flash units with controlled flash duration, where the flash duration is in Depending on the amount of light reflected by the photo object is regulated. Such Flash units are commonly known as so-called "computer flash units".

The purpose of the invention is the further development of the main application P 19 38 869.3 described circuit arrangement, by -the cheaper and increased extraneous lightning security is achieved.

The subject of this main application is a circuit arrangement with depending on the amount of light reflected from the object to be recorded Useful flash duration by means of a shunt arranged parallel to the useful flash tube, e.g.

a discharge tube or one or more thyristors with the Indicates that the operating voltage for the control circuit of the shunt is the the operating voltage for the useful flash tube supplying circuit is taken. at this circuit arrangement according to the main patent is also the control circuit of the shunt provided with a controllable thyristor, whose oteuerelectrode (t? gaterl) via a forward-connected diode by supplying a corresponding control voltage at the moment of actuation of the flash ignition circuit is opened so that the control of the shunt circuit by the object reflected amount of light is put into operation.

This circuit arrangement according to the main patent is in the enclosed ig. 1 shown.

The present invention is now a development of the mentioned circuit arrangement of the main patent to the effect that the control electrode of the mentioned thyristor for commissioning the control circuit of the shunt to the flash tube instead of the ignition circuit now with the main circuit of the Useful flash tube is connected. The circuit arrangement of the present invention is characterized in that the control voltage for the control electrode ("gate") of the thyristor in the control circuit of the shunt from the main circuit is taken from the useful flash tube via a coupling transformer. Accordingly becomes the at the two poles a and b of the control circuit for the shunt to the useful flash tube connected secondary circuit of the coupling transformer with the control electrode of the thyristor connected, and the peripheral winding of this coupling transformer is located in the circuit of the lightning discharge path of the useful flash tube.

The advantage of such a circuit arrangement over that of the main patent is that a through-connection of the control circuit for the shunt to Useful flash tube by means of the controllable thyristor can only take place when the lightning discharge actually takes place in the flash tube. When switching according to the main patent, in which the switching of this controllable thyristor takes place from the ignition circuit, i.e. at the moment of ignition, is the shunt to the useful flash tube already switched on at the moment of ignition and remains so, even if the ßlitzröhre would not ignite due to some defect, what corresponds to a reduced security against external lightning strikes Circuit also achieved a cheaper price, since the circuit of the main patent used diode 14 is more expensive than a coupling transformer, which can be ironless and is used in the circuit of the present invention.

The invention is based on the exemplary embodiments shown in the figures explained in more detail. In these show i. 1 the one already proposed Circuit arrangement according to the main data and ig. 2 the circuit arrangement for a flash device according to the present invention.

According to the circuit arrangement of the main patent shown in FIG the useful flash tube 1 receives its operating voltage from the storage or flash capacitor 3, from the power source 2, which in a known manner, for example as DC-DC converter works, charged to the required lightning voltage will. A voltage divider with the resistors is located parallel to the lightning capacitor 3 5, 6 and 7. The glow lamp 4 is used to display the full charging voltage of the flash capacitor 3. The threshold value of this indicator glow lamp is controlled by resistor 6 adjustable.

The flash lamp 1, which is connected in parallel to the flash capacitor 3, receives its lightning voltage from this capacitor 3. A lightning discharge is triggered inside the flash tube 1 takes place at the moment in which by closing the Synchronous switch 12, which, as is known, can be attached to the camera, the ignition electrode Z receives an ignition voltage via the ignition transformer 9. About the .'Jiderstulde 8 and 10, the ignition capacitor 11 charges up, and soon the synchronous switch 12 is closed, this capacitor 11 discharges via the ignition transformer 9, in its secondary circuit a voltage pulse (ignition pulse) to the ignition electrode which causes the flash tube to ignite. The resistors 8 and 10 are high resistance, so that when contact 12 is closed, only a small current flows to the contacts of the synchronous switch 12 not to be heavily loaded.

The operating voltage for the control circuit of the thyristors 20 and 21 containing shunt circuit to flash tube 1 is from the flash tube voltage circuit taken, via the voltage divider 5, 6 and 7. As -jird between the resistors 6 and 7 a DC voltage is taken and via the diode 13 to charge the electrolytic capacitor 15 used. This charging voltage at the capacitor 15 is used as an operating voltage for the connect-ie Regulation or control voltage, which the shunt to cause the flash tube 1 depending on the amount of reflected light.

The diode 13 serves the purpose of a reverse discharge of the Capacitor 15 across the voltage divider 6, 7 to prevent when the voltage at the voltage divider 6, 7 is reduced, which could occur with a long flash duration.

The charging voltage at the capacitor 15 is generated via the switching thyristor 16 and photosensor 17 for controlling the thyristor 20 at its control electrode or gaze ". The RC element 18, 19 is used to set the time constant of the control circuit with the thyristors 20 and 21 connected in cascade.

The subsequent control circuit, consisting of the photo resistor 17, the RC element 18, 19 and the cascaded thyristors 20, 21 is through this switching thyristor 16 is put into operation as soon as it is triggered at the moment of the flash in the tube 1 is made conductive. This is done via line 28, which is the control electrode ("gate) 29 of the thyristor 16 via the diode 14 to the primary ignition circuit 8, 9, 10 and 11 of the flash tube 1 connects. When the ignition of the flash tube 1 by actuation of the synchronous contact 12 takes place, a voltage pulse is also off at the same time The primary ignition circuit is connected to the "gauze" 29 of the thyristor 16 via diode 14. In order to this becomes conductive at the moment the lightning is ignited, and according to the value of the photosensitive resistor or photosensor 17, which is from the reflection light of the on As the object increases, a control voltage is applied to the thyristors 20 and 21 placed, making them conductive and thus a shunt for the Form flash tube 1.

As soon as this occurs, the useful flash discharge is inside the flash tube 1 interrupted, depending on the state of the photo resistor 17, its The value is different depending on the reflected light during the bitching process. Correspondingly, there is also a different duration of the groove lightning discharge in the tube 1, which is known to be the purpose of these so-called computer "litz circuits is.

The two shunt thyristors 20, 21 are protective resistors 25 and 26 upstream.

The circuit arrangement shown in Fig. 2 according to the present The invention differs from the circuit arrangement described above the main application according to FIG. 1 in that the switching thyristor 16 with its control electrode or "gate" 29 is switched differently. Instead of this control electrode 29 via the Line 28 and the diode 14 to be connected to the voltage of the primary ignition circuit now according to the invention this electrode 29 via the coupling transformer 27 connected to the main circuit of the flash tube 1 and thus receives its control voltage from the secondary circuit of this coupling transformer 27, which is made up of the secondary pulse 28 'and the resistor 28, which is connected to the poles a and b of the control circuit for the shunt to the useful flash tube with the Uhyristors 20 and 21 is performed.

It can be seen without further ado that the switching thyristor 16 has its switching voltage is only received via the electrode 29 when the main circuit of the flash tube 1 is in operation, i.e. when the lightning discharge actually takes place in the flash tube 1.

This ensures that the control circuit for the shunt to the flash tube 1 with the thyristors 20 and 21 is only activated, when the lightning discharge actually takes place. This results in increased security against external lightning compared to the circuit arrangement of the main patent.

Because it could be possible that with the last-mentioned circuit arrangement the control circuit for shunting the thyristors 20 and 21 with the actuation of the ignition circuit is controlled, the lightning discharge within the tube 1 itself but does not take place as a result of some defect in the flash tube 1.

On the other hand, it should be noted that the coupling transformer 27, which can be ironless, is cheaper than the one used for the main application Diode 14.

The shunt to the flash tube via the thyristors 20 and 21 can so in the case of the circuit arrangement according to the present invention (see FIG. 2) only then put into action when the lightning discharge in the flash tube 1 also really happened.

In the circuit arrangement according to FIG. 2, the same switching elements are present provided with the same reference numerals as in FIG. 1.

The difference compared to the circuit arrangement according to FIG. 1 exists - as already described - only in the connection of the coupling transformer 27 with the primary winding 28 and the secondary winding 28 'and the gate resistor 30, which instead of the line 28 and the diode 14, which has now been omitted, (see Fig. 1) kick.

The function of the circuit arrangement according to FIG. 2 is otherwise the same as described in connection with FIG. Furthermore, in the invention The circuit arrangement according to FIG. 2 also has a Zener diode 31 connected in front of the thyristor 20. This Zener diode serves to limit the “gate” voltage of this thyristor 20.

The diode 23 between the thyristors 20 and 21 serves the purpose at possible oscillations caused by switching inductances and capacitances can be to keep negative voltages from the "gate" of the subsequent thyristor 21. The resistor 24 is used to generate the bias voltage of the gate of the second thyristor 21.

Claims (2)

Claims 1.)) Circuit arrangement for electronic flash units with depending useful flash duration regulated by the amount of light reflected by the object to be recorded by means of a shunt arranged parallel to the useful flash tube, e.g. a Discharge tube or one or more thyristors at which the operating voltage for the control circuit of the shunt from which the operating voltage for the useful flash tube supplying circuit is taken and the control circuit of the shunt a controllable Contains thyristor, according to the main patent (patent application P 19 38 869.3), d & a d u r c h g e -k e n n n z e i c h n e t that the control voltage for the control electrode (29) of the thyristor (16) in the control circuit of the shunt from the main circuit the useful flash tube (1) is removed via a coupling transformer (27). 2.) Circuit arrangement for electronic flash units according to claim 1, characterized in that the to the two poles (a and b) of the control circuit for the secondary circuit of the coupling transformer connected to the useful flash tube (27) is connected to the control electrode (29) of the thyristor (16) and the primary winding (28) this coupling transformer (27) in the circuit of the lightning discharge path the useful flash tube (1) is located.