DE1051404B - Circuit arrangement for electronic flash units with storage capacitor and at least two flash tubes - Google Patents

Description

The invention relates to electronic flash units with at least one additional flash tube, like them be used to achieve special lighting effects, and relates to a simplified ignition device for the additional flash tube. This is primarily thought of such additional flash tubes that do not have their own power supply sources. The invention can also be used in the same way for so-called Daughter flash units are used that have their own power supply source and electronic flash tube are equipped.

In the previously known circuit arrangements, the additional flash tube is complete with its own The ignition device and the main flash tube are ignited via a second connection on the camera contact. The disadvantage here is that double camera contact cables and a corresponding adapter plug are needed and the already easily overloaded camera contact is even more stressed will. In addition, different camera contact voltages occur on the main and auxiliary flash tubes inevitably interference. Finally, such ignition devices are relatively expensive because for the additional flash tube all switching elements are required as with the main flash tube, namely Voltage divider for the camera contact voltage, indicator and stabilization lamp and ignition capacitor.

Another known circuit arrangement in which the additional flash tube does not require any is less complex complete ignition circuit, but only one ignition transformer. The additional flash tube is here due to the current pulse that occurs when the capacitor is discharged through the main flash tube, ignited in such a way that this discharge current via a line and the primary winding of the ignition transformer of the additional flash tube is performed, on the secondary side as a result of the sudden current surge a if dimensioned accordingly, sufficient, relatively high ignition voltage is induced. This circuit but has the other disadvantage that the connecting line and the contacts for the high voltage and Amperage of the pulse must be designed and the discharge circuit unavoidable with the resistance and the capacitance of this line is loaded, whereby a flattening of the impulse, thus a reaction on the discharge process in the controlling flash tube.

This disadvantage is avoided in a circuit arrangement with storage capacitor and at least two flash tubes, each with an ignition circuit with ignition transformer according to the invention by a pulse transformer connected to the discharge circuit of the first flash tube, the secondary side of which is connected to the ignition circuit arrangement via a line
for electronic flash units
with storage capacitor
and at least two flash tubes

Applicant:

Max Braun,
Frankfurt / M., Rüsselsheimer Str, 22

transformer of the downstream tube is connected. The discharge current of the main flash tube must so no longer flow through the connection line to the downstream flash tube. So can normal connection lines with simple insulation and of considerably greater length between the Devices are used, which benefits the mobility of the additional flash light devices.

The invention can be applied in an advantageous manner to a circuit arrangement known per se, in which there is a switching tube in the ignition circuit of the following tube (11) , the control electrode of which receives the ignition pulse derived from the discharge circuit of the preceding tube, in such a way that in Circuit of the first flash tube instead of the pulse transformer there is a resistor, to which the switching tube with its control path (grid - cathode) is connected in parallel. In the known circuit it has been found to be disadvantageous that a part of the energy has to be removed from the storage capacitor before the switching tube connected to a voltage divider parallel to this capacitor with its control grid is unlocked and the additional flash tube is triggered. With the improvement according to the invention, the ignition delay is avoided in a simple manner.

In the drawing are further possible details of the circuit arrangement according to the invention explained. Here means

1 shows a known circuit for igniting the additional flash tube,

2 shows a circuit with a pulse transformer,

809 767/235

Claims (3)

3 shows a circuit in which a control pulse is derived from the discharge current via a resistor and fed to a switching tube for igniting the additional flash tube, FIG. 4 shows a schematic representation of the plug contacts expediently used in the circuit arrangement according to the invention. In the arrangement corresponding to the known prior art with the above-mentioned disadvantages (Fig the secondary side leads to the ignition electrode of the additional flash tube 3. When the discharge current starts in the main flash tube 2, the current pulse flowing through the primary side of the ignition coil 5 causes a correspondingly high ignition voltage in the secondary side, which leads to the ignition of the additional flash tube 3 According to the invention (FIG. 2), a pulse transformer 6 is added to the switching elements known from FIG operate. This arrangement has the advantage that the discharge current of the main flash tube 2 does not have to flow to the additional flash tube 3 via the possibly long cable line. In the case of longer cables, a voltage drop occurs, which results in a loss of energy. In the circuit according to FIG. 2, the connecting line from the pulse transformer, which is expediently accommodated in the lamp rod connector, to the ignition coil 5 of the additional flash tube 3 can have a small cross section. In the arrangement according to FIG. 3, instead of the pulse transformer, an ohmic resistor 7 is used in the circuit of the main flash tube 2 and a switching tube 8 known per se, for example a gas-filled triode with a cold cathode. Here, the low DC voltage picked up at the resistor 7 is used via the switching tube 8 to control the ignition coil 5. Instead of a special cable otherwise required to connect the main flash tube 2 and additional flash tube 3, a simplified feed line is sufficient in this case. It has proven particularly expedient to accommodate the circuit arrangements in movable connectors. 4, the auxiliary flash tube 3 is connected to the power supply part of the electronic flash device by means of an adapter plug 9 and the main flash tube 2 is connected to the adapter plug by a plug. The pulse transformer or resistor required to derive the ignition pulse in the circuit arrangement according to the invention is not indicated in FIG. 4 for the sake of clarity. When the device is operated without an additional flash tube, the plug 10 is connected directly to the power supply unit. These plug-in devices allow several additional flash tubes to be attached at the same time by plugging the corresponding adapter plugs onto one another and attaching the main flash tube to the upper end. Patent claims: 1.Circuit arrangement for electronic flash units with storage capacitor and at least two flash tubes, each with an ignition circuit with ignition transformer, in which the capacitor discharge via a tube supplies the ignition pulse for the following tube, characterized by a pulse transformer (6) connected to the discharge circuit of the first flash tube (2) , the secondary side of the subsequent flash tube (3) is connected via a pipe to the ignition transformer (5). 2. Circuit arrangement according to claim 1 with a switching tube which is in the ignition circuit of the second flash tube and whose control electrode receives the ignition pulse derived from the discharge current of the first tube, characterized in that a resistor (7) is located in the circuit of the first flash tube instead of the pulse transformer , to which the interrupter (8) is connected in parallel with its control path (grid - cathode). 3. Execution of a circuit arrangement according to claim 2 in separate housings for each flash tube and its ignition circuit, which are connected to the common power supply part via electrical lines and connecting plugs, characterized in that the additional devices (3, 5) are connected via adapter plugs (9) , which contain the circuitry required to loop in their circuits. Considered publications:
German Patent Nos. 864 805, 884 910, 189; German utility model 1 631 908;
U.S. Patent Nos. 2,408,764, 2,469,913, 478,902, 2,509,005; British Patent No. 641 229. For this purpose, 1 sheet of drawings © 809 767/235 2.59