DE2008801B2 - ELECTRON FLASH DEVICE WITH REGULATED LIGHT ENERGY - Google Patents

Description

The invention relates to an electronic flash device with controlled light energy using a parallel to the Nui zblit / tube lying shunt SCS with a controllable switching element, ζ. Β. a thyristor that depends on a control loop of the amount of light reflected by the object switches conductive, whereby the useful flash tube short-circuited and goes out, with which switching element a capacitor is arranged in series.

Such devices are known as so-called computer flash units and work in such a way that a control loop for automatic light metering, e.g. B. a photosensitive resistor from the object to be photographed Measures reflected flash light energy and shunts the current gate via a threshold switch through which the short-circuited flash tube goes out.

From US-PS 37 16 753 is a computer flash unit known in which a capacitor is arranged in series with the shunted thyristor which is charged via the thyristor as soon as it passes through the photosensitive control circuit in Dependence on the light energy reflected from the illuminated object is triggered.

The capacitor in the shunt is charged until the state of charge equals that of itself discharging capacitor that delivers the flash light energy.

Is a, naralleleeschalteten for now blocking thyristor diode circuit a corresponding thereto voltage component at the anode of BHtdictaröhre With appropriate design of Kondensar ^ L shunt and Eniladestromkreises jst H _e? Sun ™ nnuSfall at the anode of the flash tube so SfdSdSe ignited remains until the voltage at fineangsseitig provided Spe.cherkondensator and Tm capacitor so far herabgesun- in shunt ^ _n Tije ignition voltage of the BlitzHchtröhre SrSnSn and these will be extinguished by this sSakungsmaßnahme a longer stimulation time is ensured of the object and enables still e.ne l.chtabhängiee control.

The invention is based on the Au issues Computer flash unit with a shunted one To supplement the capacitor by suitable circuit measures in such a way that d.e .m tributary Stored energy is not used to further illuminate the flash tube, but the energy source airfldcleit w.rd

The object is achieved in that the be. Through control or short circuit of the switching element * in the shunt circuit above this flowing energy in the Capacitor is stored that d.eser capacitor mi, the Banene or the charging circuit of the charging capacitor connected for the lightning discharge. and that stored energy can be used to recharge the battery or the charging capacitor fed back w.rd.

An advantageous development .st in claim 2

"" "οι invention is shown below in an exemplary embodiment explained in more detail with reference to the Fieur shown in the drawing. .

In the figure, mil 1 is a common DC-DC converter denotes whose DC voltage is drawn from the battery 2. To this DC / DC converter 1, a Spe.cherkondensator 3 is connected in a known manner. In parallel with this Spe.cherkondensator 3 reads a useful flash tube 4. d.e in the usual way by closing the ignition contact 7 (synchronous contact) via the ignition circuit 5 by means of the ignition electrode 6 if the capacitor 3 is sufficiently charged, it is scaled can be. According to the invention, the series connection of a controllable one is in the shunt to the flashing tube Thyristor 10 and a capacitor 12. The thyristor 10 is connected by means of the control electrode 11 controllable d. H. it can be released from its blocking state by applying a positive voltage to the control electrode 11 can be made conductive, in dependence of the known computer circuit 8 which is controlled by a photoresistor 9 at the Triggering of a flash in the flash tube 4 by the light reflected from the object in its resistance value being affected.

So if the synchronous contact 7 is closed, so w.rd an ignition voltage to d.e via the ignition circuit 5. which can be designed in a known manner Ignition electrode 6 placed so that the Blitzent discharge in the Flash tube 4, on the main electrodes of which the voltage of the storage capacitor 3 is applied, triggered If the exposure by the flash light is sufficient, the computer circuit 8 controls as a function of the amount of light reflected, which is the resistance value of the photosensitive resistor 9, the electronic switch, d. H. so the thyristor 10, over its control electrode 11 in the conductive state, since now from the computer circuit 8 a positive Voltage is applied to the control electrode 11 of the thyristor. Now the shunt is in series across the

switched thyristor 10 and the capacitor conductive, and the latter can thus absorb the charge of the storage capacitor 3 that is no longer required for the flash exposure. As a result, the Natz flash tube 4 goes out early - depending on the photosensitive resistor 9 in cooperation with the computer circuit 8 - so that a real light control of the flashlight takes place depending on the reflel based amount of light the conductive thyristor 10, so that when the storage capacitor 3 is recharged, the capacitor 12 arranged in the shunt is no longer additionally charged. The charged capacitor 12 is connected to the DC voltage converter 1 or the battery 2 via a line 15 and a current limiter 14. The energy temporarily stored in the capacitor 12 is fed back to the battery or the DC voltage converter 1 via the current limiter 14. In known Schaltungsausfüh ^r Ungen part of this energy is dissipated by the condenser arranged in the shunt is removed. By this energy return, a more favorable energy balance of the overall circuit is achieved, so that a significantly higher number of flashes is emitted with a rechargeable battery once it has been charged. Instead of a current limiter 14, the charging voltage of the auxiliary capacitor 12 can also be fed to the DC voltage converter 1 via a separate oscillation circuit and thus used directly to charge the storage capacitor 3.

Instead of the capacitor 12 provided in the shunt, several capacitors in Parallel or series connection can be used. Through such measures of conduct it is possible to prevent the Intermediate stored energy through a parallel / serial reversal lead directly back to the storage condenser 3 / u /.

1 sheet of drawings

Claims (4)

Patent claims: 1. Electronic flash device with regulated light energy using a parallel to the Nutzbütz tube lying shunt circuit with a controllable switching element ζ. Β. a thyristor that switched conductive by a control circuit depending on the amount of light reflected from the object, whereby the useful flash tube is short-circuited and goes out, with which switching element in series Capacitor arranged is characterized. that the when through control or short circuit of the switching element (10) in the shunt circuit energy flowing through this is stored in the capacitor (12) that this Capacitor with the battery (2) or the charging circuit of the charging capacitor (3) for the Lightning discharge is connected, and that the stored energy for recharging the battery (2) or of the charging capacitor is fed back. 2. Electronic flash device according to claim 1, characterized in that the lead between the Battery (2) and the capacitor (12) a current limiter (14) is connected. 3. Electronic flash device according to claim 1, characterized in that the capacitor (12) has a separate oscillating circuit with a DC voltage converter for charging batteries connected is. 4. Electronic flash device according to one of the preceding claims, characterized in that the capacitor (12) is dimensioned so that it is only to one below the extinction voltage of the useful flash tube charges lying voltage.