DE2128977A1 - Circuit arrangement for an electronic flash unit - Google Patents

Description

PATENT LAWYERS
Dr. rer. nat. DIETER LOUIS

Pipl.-Phys. CLAUS PÖHLAU.

üil-lngiFRANZ LOHRENTZ 11.710 30 / ei

8500 NORNBERQ
KESSLERPLATZ 1

Company KABUSHIKI KAISHA SUNPAK, Tokyo / Japan

Circuit arrangement for an electronic flash unit

The invention relates to a circuit arrangement for a Electronic flash unit with a main capacitor for adjustment a voltage between the electrodes of a discharge tube, with an ignition transformer for the initiation the emission of the discharge tube, as well as with a capacitor of small capacity and a trigger switch, by means of which a supply voltage for the transformer can be switched.

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In such an electronic flash device, the light emission is a discharge tube used as a photographic flash device. ·

While a discharge tube for such a flash device hitherto usually filled with xenon gas v / ar, the invention is concerned with improving the Energy supply for this tube with the aim of achieving a higher degree of ionization of the xenon gas.

In such electronic flash units, it is desirable that the Increase the amount of emissions. The emitted radiant power depends, however, on the distance between the electrodes of the discharge tube, the type of used to increase the Discharge capacity of the filled gas, the arrangement of the k electrode, etc. When a discharge tube with a large distance between the electrodes is used, in order to increase the emitted power, a high voltage is accordingly required between the electrodes to achieve an effective discharge over the distance between the electrodes. Usually used as an energy source a high-voltage dry cell in layer construction, a converter with a low-voltage dry cell as Energy source or the like. Used for energy supply.

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The requirement for a high-voltage energy source to achieve the increased radiation power has led to üa.s.j the dimensions and weight of a shaft-shaped built-up dry cell detrimental to the portability of the device Yjurden. The use of a tension-increasing Converter requires a disadvantageously long charging time to a predetermined state of charge or a final voltage to achieve with a charging and discharging capacitor.

Even if an attempt is made to the fourth of the currently neutralized electrical charge and, as a result, the radiation output by increasing the pressure of the filling gas and improvement of the discharge electrode, the operating voltage must also disadvantageously be higher than before.

With; The invention is now intended to create a flash device with an emission power equal to the power of conventional flash units with a reduced supply voltage is achieved, whereby higher economy and easier portability can be achieved. In which flash device according to the invention would be different when used an energy source with the same voltage as before common devices have an increased output power

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can be achieved.

To solve this problem, according to the invention for an electronic flash device with a circuit arrangement of Initially mentioned type proposed that an additional capacitor is provided, in synchronization with or can be switched in series with the main capacitor at least shortly before the release switch is closed, so that during the initial period of emission between the electrodes of the discharge tube around the voltage of the Additional capacitor increased charging voltage of the main capacitor is applied.

Further features, details and advantages of the invention emerge from the following description in a preferred manner Exemplary embodiments based on the drawing and from the subclaims.

In the drawing show:

Figure 1 is a circuit diagram of an electronic flash device

usual training;
Figure 2 shows the circuit diagram of an embodiment of a

Electronic flash device according to the invention and FIG. 3 shows a circuit diagram of another embodiment

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an electronic flash device according to the invention.

As can be seen from FIG. 1, an electronic flash device of conventional design has an energy source 1, a fixed resistor 2 - and a main capacitor 3, both of which in series with the energy source 1. It is also closed of the energy source 1, the discharge tube 8 is connected in series. Furthermore, a capacitor 5 is a small capacity and a resistor 4 are provided, which are in series with one another and in common parallel to the main capacitor 3. The circuit arrangement also has an ignition transformer 6, the primary winding of which is parallel to the capacitor 5 small capacity with the interposition of the trigger switch 7 is. The secondary winding of the ignition transformer 6 is used to apply a high voltage to an electrode 9 on the side wall of the discharge tube is arranged.

The main capacitor 3 is set according to its capacity charged. However, the discharge or emission of the discharge tube 8 does not take place when the switch 7 is closed when the charging voltage is applied. More precisely, when the switch 7 is closed, the charging voltage of the capacitor 5 small capacitance to the primary

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winding of the ignition transformer 6 arrives, whereby a high voltage develops on its secondary winding. As a result of the application of the high voltage to the trigger electrode 9 of the discharge tube 7, the xenon gas filled into this experiences ionization and the resistance between the electrodes of the discharge tube 8 is considerably reduced.

The discharge tube 8 is charged by the charging voltage of the main capacitor as a result of the aforementioned drop in resistance unload.

In the circuit arrangement according to the invention

2 is connected to the primary winding of the ignition transformer 6 one disposed on the anode side of the discharge tube 8 Additional capacitor 10 connected. The discharge tube 8 is in turn parallel to a main capacitor 3 connected with the interposition of a resistor 11 on the anode side. A switch 7 is on the one hand to the Node between the primary winding of the ignition transformer 6 and the additional capacitor 10 and on the other hand one side of the small capacitance capacitor 5 is turned on to generate a short circuit.

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In this embodiment, a series connection between the main capacitor 3 and the Additional capacitor 10 produced when switch 7 is closed, so that it is possible to temporarily apply the added voltage of the two capacitors 3 and 10 to the Discharge tube 8 to be applied during the start of emission of the discharge tube 8. As a result, the in the discharge tube 8 filled gas by the high voltage of the transformer 6 with application of the addition voltage discharged, so the emission of the discharge tube 8 easily start with decreased electrical resistance can.

According to the invention, the charging voltage of the additional capacitor 10 in addition to the voltage between the electrodes of the discharge tube 8 which is connected to the main capacitor 3 is derived, used to initiate the emission, which means that the energy source 1 is a relatively low output voltage in accordance with the charging terminal voltage of the additional capacitor 10 may have.

However, the embodiment described above is insufficient in view of the fact that the electrical charge of the additional capacitor 10 as a result of the Resistance 11 generated leakage current not with special

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whose effectiveness can be exploited. This disadvantage is extremely advantageously eliminated by the embodiment according to FIG. 3, which practically corresponds to the embodiment " is identical according to FIG. 2, but differs therefrom in that the resistor 11 is replaced by a diode 12. In such an embodiment, the leakage current of the auxiliary capacitor 10 blocked by the diode 12, even if the series connection is established between the main capacitor 3 and the additional capacitor 10 after closing the switch 7, so that the addition voltage of capacitors 3 and 10 completely; on the discharge tube 8 and the electrical Charge of the capacitor 10 is used as such for the emission. The capacitor 10 can be so special be well exploited.

The electronic flash device according to the invention is, as can be seen from the foregoing description, special expedient in view of the facts that an emission performance of the order of magnitude of the usual 'flashlight devices with an energy source of lower voltage than which is achieved with the devices used so far, and that the use of a supply voltage, as is the case with conventional Devices. Is used, -effective the pressure of the

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_ Q -

Increase in the discharge tubes 8 gas filled and as a result, the emission performance would increase.

It has further been found that the discharge tube used in the known device shown in FIG Main capacitor gradually decreases) is 200 V, can be effectively replaced by the discharge tube in which the lower limit of the discharge voltage is 130 V in the embodiment of FIG. 3. It has also been found that if the "pressure of the gas filled in the discharge tube used in the embodiment of Fig. 3 is increased to make the discharge voltage lower limit 200V, the emission power is increased by about 30 % .

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Claims (4)

Claims Circuit arrangement for an electronic flash device with a main capacitor for regulating a voltage between the electrodes of a discharge tube, with an ignition transformer for initiating the emission of the discharge tube, as well as a capacitor small capacity and a trigger switch, by means of whose supply voltage for the transformer can be switched, characterized in that an additional capacitor (10) is provided, which is in synchronization with or at least shortly before the closure of the trigger switch (7) can be switched in series with the main capacitor (3), so that during the initial period of the Emission between the electrodes of the discharge tube (8) around the voltage of the additional capacitor (.1.0) increased charging voltage of the main capacitor (3) is present. 2. Circuit arrangement according to claim 1, characterized in that that the additional capacitor (10) on the one hand to the end connected to the trigger switch (7) 1098 53/1198 . the primary coil of the ignition transformer (6) and on the other hand to one of the main capacitor (3) leading to an electrode of the discharge tube, with the free one Side of the switch connected line is connected with this line between the connection points of additional capacitor and trip switch parallel to the latter an attenuator (11, 12) is switched on. 3. Circuit arrangement according to claim 1 and 2, characterized in that that a resistor (11) is provided as an attenuator. 4. Circuit arrangement according to claim 1 and 2, characterized in that that a diode (12) is used as an attenuator. 10 985 3/1198 Al Blank page