DE2248210A1 - ELECTRONIC FLASHLIGHT DEVICE - Google Patents

Description

Electronic flashlight device The invention relates to an electronic device Flash device with a main capacitor, a flash tube, one with the flash tube series-connected main thyristor, a photosensor, e.g. B. with a phototransistor and a control capacitor fed by the phototransistor, one of the control capacitor controllable auxiliary thyristor and an effective via the auxiliary thyristor, clearing the main thyristor Auxiliary capacitor.

Electronic flash units of the type described above work essentially as follows: First of all, it is ensured or must be ensured that the main capacitor is charged. If a flash is to be triggered now, z. B. in connection with a camera, then, for. B. by the shutter release of the camera controlled, at the same time to the flash tube the ignition pulse and to the control grid of the main thyristor a control voltage which causes the main thyristor to ignite placed. That reflected off the subject of the flash when the flash was triggered Light affects the photosensor, e.g. B. on a phototransistor. The phototransistor feeds the control capacitor depending on the incident light, so that the at the control capacitor the voltage reflected from the subject Light is proportional. Reaches the voltage on the control capacitor that acts as the extinction voltage is connected to the control grid of the auxiliary thyristor, a predetermined value, so the eleven thyristor ignites, with an auxiliary capacitor quenching the main thyristor takes effect. This auxiliary capacitor is on the one hand to the connection between the flash tube and the main thyristor, d. H. to the cathode of the flash tube and the Anode of the main thyristor, on the other hand connected to the anode of the auxiliary thyristor. The anode of the auxiliary thyristor is also connected via a first auxiliary resistor connected to the anode of the flash tube, while the connection point between the cathode the flash tube, the anode of the main thyristor and the auxiliary capacitor via one second eleven resistor with negative potential, d. H. the cathodes of the main and of the auxiliary thyristor connected is. This circuit leads to that the auxiliary capacitor moves through the auxiliary resistors before the flash is triggered has been able to charge. If the auxiliary thyristor ignites, it becomes the auxiliary capacitor connected in parallel to the main thyristor, with the anode of the main thyristor opposite whose cathode receives a negative potential, so that the main thyristor - as intended - clears. However, the circuit has the following undesirable side effect: The Connecting the auxiliary capacitor in parallel to the main thyristor means that for the Flash tube a series connection of the main capacitor and the auxiliary capacitor takes effect. In other words, the auxiliary capacitor discharges through the flash tube, so that at the moment when the luminous flux of the flash tube again approaches zero should go, initially an increase in the luminous flux occurs. The one with the photo sensor The control of the exposure carried out is therefore incorrect.

The invention is therefore based on the object described at the outset to design and develop electronic flashlight so that the previously explained, undesired side effect does not occur.

The inventive electronic flash device, in which this The problem is solved is essentially characterized by one of the series connection from the flash tube and the main thyristor when the main thyristor is extinguished in parallel switchable storage capacitor. According to the invention, the series circuit from the Flash tube and the main thyristor when extinguishing of the main thyristor parallel switchable storage capacitor, which is activated at the moment the main thyristor is cleared is discharged, charges up after the main tllyristor has been cleared, so it doesn’t the electrical energy stored in the auxiliary capacitor, so that it is after Extinguishing the main thyristor no longer increases the luminous flux of the flash tube comes.

In detail, there are different ways of the invention to design and train electronic flashlight devices.

The implementation of the inventive teaching "parallel connection of a Speichererkor.densators "can first of all geschchen in such a way that the series connection from the flash tube and the main thyristor the series connection from one side dor Parallel connection of the storage capacitor and a discharge resistor on the other hand connected in parallel to an additional thyristor which can be controlled with the @ il @ sthyristor is, is another possibility, the inventive Lehir "parallel connection of a To realize storage capacitor "is characterized in that the series connection from the blit tube and the main thyristor the line circuit from one side of the Parallel connection of the storage capacitor and an auxiliary resistor iitod on the other hand connected in parallel to the auxiliary thyristor. This embodiment is opposite the embodiment described above is simpler than an additional one Discharge resistor and the additional thyristor can be omitted.

Finally, it is advisable to choose between the main icondenatoi and the flash tube or the main thyristor to provide an indu @@ i @ ität.

In the following the invention is based on a mere exemplary embodiment Illustrative drawing explained in more detail; 1 shows a first embodiment of an electronic flashlight device according to the invention, FIG. 2 is a graphic Representation of the luminous flux as a function of time in a known electronic Flash light device, Fig. 3 is a graphic representation of the luminous flux as a function from the time with an electronic bit light device according to the invention and Fig. 4 shows a further embodiment of an electronic flashlight device according to the invention The electronic shown in Figs. 1 and 4 in the form of their circuit diagrams In their basic structure, flash units consist of a main capacitor Co, a flash tube FL, a main thyristor connected in series with the flash tube FL SCRl, a photo sensor with a photo transistor PhTr and one through the photo transistor PhTr fed control capacitor Cs, one of the control capacitor Cs controllable Auxiliary thyristor SCR2 and one that becomes effective via the auxiliary thyristor SCR2 Main thyristor SCR1 quenching 5CR1 auxiliary capacitor Ct.

The electronic flashlight device described above and known in this respect initially works as follows: is about measures not shown ensures or ensures that the main capacitor Co is charged. If a flash should now be triggered, e.g. B. in connection with a camera, z. B. controlled by the shutter release of this camera, at the same time to the flash tube FL the ignition pulse Vt: and one to the control grid of the main thyristor SCR1 Main thyristor SCR1 applied to trigger control voltage Vg.

That after the triggering of the flash from the object not shown reflected light affects the photosensor, which is only partially shown, falls namely on the phototransistor PhTr. The phototransistor whTr feeds in dependence from the incident light the control capacitor Cs, so that the on the control capacitor The voltage present is proportional to the light reflected from the subject is. Reaches the voltage on the control capacitor Cs, which acts as the erase voltage Vf since the control grid of the auxiliary thyristor SCR2 is connected, a predetermined value, the auxiliary thyristor SCR2 ignites, the auxiliary capacitor Ct becoming effective. Of the Auxiliary capacitor Ct is on the one hand at the connection between the flash tube FL and the main thyristor SCR1, i. H. to the cathode of the flash tube FL and the anode of the main thyristor SCR1, on the other hand connected to the anode of the auxiliary thyristor ScIt2. The anode of the auxiliary thyristor SCR2 is otherwise via a first auxiliary resistor r1 is connected to the anode of the flash tube FL, while the connection point between the cathode of the flash tube FL, the anode of the main thyristor SCRl and the auxiliary capacitor Ct via a second auxiliary resistor r2 to the negative potential, d. H. the cathodes of the main thyristor SCRl and the auxiliary thyristor SCR2 is connected. This circuit leads to the fact that the auxiliary capacitor Ct before the triggering of the flash on the Auxiliary resistors rl, r2 was able to charge. Now ignites the Auxiliary thyristor SCR2, so; the auxiliary capacitor Ct is connected in parallel to the main thyristor SCR1, the anode of the main thyristor SCR1 being negative with respect to its cathode Receives potential, so that the main thyristor SCR1 - as intended - clears.

Would be with the electronic flash unit described so far the measures according to the invention, not yet described, are not implemented, so The following undesirable side effect would occur: The parallel connection of the auxiliary capacitor Ct to the main thyrist @ SCR1 would result in a series connection for the flash tube FL from the main capacitor Co and the auxiliary @ ondensator Ct would be effective. With others Words would discharge the auxiliary capacitor Ct through the flash tube IL, so that at the moment when the luminous flux of the flash tube FL goes back to zero should, initially an increase in the @ichtiromes would occur. I) ie with the The control of the exposure realized by the photo sensor would be faulty.

In order to avoid the undesirable effect explained above, is now according to the invention, a storage capacitor CP is provided which is made up of the series circuit the flash tube FL and the main thyristor SCR1 when the main thyristor SCR1 is cleared can be switched in parallel.

lni embodiment of Fig. 1 is the series circuit from del Blitzröhre @L and the main thyristor SCR1 the series circuit BPC on the one hand the parallel connection of the storage capacitor CP and a discharge resistor r3 and, on the other hand, one that can be controlled simultaneously with the auxiliary thyristor SCR2 Additional thyristor SCR3 connected in parallel. In the embodiment according to FIG the series connection of the blitar tube PL and the main thyristor SCR1 is the series connection on the one hand, the parallel connection of the storage capacitor CP and the auxiliary resistor rl and on the other hand the llilfsthyristor SCR2 connected in parallel. In this embodiment are therefore the two components provided in the exemplary embodiment according to FIG Discharge resistor @ 3 and additional thyristor SCR3 not required.

In the electronic flashlight device according to the invention, the Undesirable side effect explained further above and addressed in FIG. 2 prevented as follows: In the embodiment of Fig. 1 is at the moment in which the auxiliary thyristor SCR2 ignites and thus the main thyristor SCR1 is extinguished is also ignited the additional thyristor SCR3, so that the uncharged storage capacitor CP of the series connection of the flash tube FT and the main thyristor SCR1 or the Series connection of the flash tube FL, the auxiliary capacitor Ct and the auxiliary thyristor SCR2 or the main capacitor Co is connected in parallel. The ones in the auxiliary capacitor Ct yesstored electrical energy can be used without increasing the luminous flux the flash tube FL to be taken up by the storage capacitor CP.

In the embodiment of FIG. 4 is at the moment in which the auxiliary thyristor SCR2 ignites and thus the main thyristor SCR1 is extinguished, the saliva capacitor CP via the ignited auxiliary thyristor SCR2 the series connection of the flash tube FL and the Ilauptthyristor SCRl or the Main capacitor Co connected in parallel. This time too, in the moment in which the main thyristor SCR1 is cleared, the stored in the auxiliary capacitor Ct electrical energy - without increasing the luminous flux of the flash tube FL to lead - be taken over by the storage capacitor CP.

Otherwise, in the exemplary embodiment according to FIG. 4, there is between the main capacitor Co and the flashlight FL an inductance L is also provided, thereby switching off the flash tube FL is even easier.

In a practical embodiment, the components used have the following values: main capacitor Co .......... 500 / u F auxiliary capacitor Ct .......... 3.3'µ F storage capacitor CP .... 10 µ F auxiliary resistor r1 ......... 47 k # auxiliary resistor r2 33 k inductivity L .......... 70 / u H main thyristor SCR1 .......... CR ... lOB (MITSUBISHI) auxiliary thyristor SCR2 ......... CR ... 3D (MITSUBISHI)

Claims (4)

P a t e n t a n s p r ü c h e: Electronic flash unit with a main capacitor, a flash tube, one connected in series with the flash tube Main thyristor, a photosensor, e.g. B. with a phototransistor and a through the phototransistor-fed control capacitor, one of the control capacitor controllable auxiliary thyristor and an effective via the auxiliary thyristor, the main thyristor-quenching auxiliary capacitor, g e -k e n n z e i c h n e t one of the series connection atis of the flash tube (FL) and the main thyristor (SCR1) when clearing the main thyristor (SCR1) storage capacitor that can be switched in parallel (CP). 2. Electronic flashlight device according to claim 1, characterized in that that the series connection of the flash tube (FL) and the main thyristor (SCR1) the Series connection (BPC) consisting of, on the one hand, the parallel connection of the storage capacitor (CP) and a discharge resistor (r3) and on the other hand one with the auxiliary thyristor (SCR2) controllable additional thyristor (SCR3) is connected in parallel. 3. Electronic flashlight device according to claim 1, characterized in that that the series connection of the flash tube (FL) and the main thyristor (SCR1) the Series connection from one side of the parallel connection of the storage capacitor (CP) and an auxiliary resistor (r1) and on the other hand the auxiliary thyristor (SCR2) connected in parallel is. 4. Electronic flash unit according to one of claims 1 to 3, characterized in that between the main capacitor (co) and the flash tube (FL) or the main thyristor (SCR1) an inductance (L) is provided.