DE2008801A1 - Electronic flash unit with regulated light energy - Google Patents

Description

Berlin, February 19, 1970 2008801 Ka / Tue - P 821

Patent application

Applicant: LOEWE OPTA GMBH, 1 Berlin 46, Teltowkanalstr. 1- Electronic flash unit with regulated light energy

The invention relates to an electronic flash device with controlled flash energy using a tube parallel to the Nutzblitz- μ <lying, conductive becoming a function of the amount of light reflected from the object and then the Nutzblitzröhre shorting shunt circuit. Such devices are known as so-called computer flash devices and work in such a way that a control circuit for automatic lighting, e.g. a photosensitive resistor (sensor) measures the flash light energy reflected by the object to be recorded and, according to the determined value, an electronic switching element connected in parallel to the flash tube, e.g. a thyristor , switches on, whereby the flash discharge in the flash tube is interrupted.

The invention relates to a special design * of the Nebensohlußkreisea to the flash tube and is based on the idea { that a capacitor can be discharged by a second capacitor of suitable capacity depending on the capacity ratio can.

The circuit arrangement for a flash device according to the invention is characterized in that the shunt circuit to the useful flash tube from the series circuit of an electronic through a Hegel circle (computer circle) controlled as a function of the amount of light reflected by the object Switching element, e.g. a controllable thyristor, and one or more auxiliary capacitors, the recording serve for the excess energy from the storage capacitor.

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According to one embodiment of the invention, the or the Auxiliary capacitors so dimensioned that? they only focus on one Charge voltage below the extinguishing voltage of the useful flash tubes.

Furthermore, the auxiliary capacitor can be used. the auxiliary capacitors by mechanical or electronic switches, for example by the ignition contact of the ignition circuit of the Useful flash tube, can be short-circuited.

Another advantageous embodiment of the invention consists in the fact that the electrical energy stored in the auxiliary capacitor or in the auxiliary capacitors for Charging of the battery or the storage capacitor is used »For this purpose it is necessary that the terminals of the Auxiliary capacitors or the auxiliary capacitor are connected to the battery or to the storage capacitor.

The invention is illustrated below using two exemplary embodiments, which are shown in the drawing, n.v. explained. In this drawing represents

Fig. 1 shows a circuit arrangement in which, parallel to the useful flash tube, the series technology of a controllable thyristor and a capacitor is provided and the capacitor by a Switch can be short-circuited, and

Fig. 2 shows a similar circuit arrangement for an electronic flash device, but in which the Series capacitor of the shunt circuit through a current limiter to the battery is placed, whereby the electrical -. 'nenergy the capacitor can be used to charge the battery.

According to FIG. 1, 1 is a conventional DC voltage converter referred to, whose DC voltage is drawn from the battery 2

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will. The storage capacitor 3 is connected to this DC voltage converter 1 in a known manner. Parallel to this storage capacitor 5 is the grooved flash tube 4, which can be ignited in the usual way by closing the ignition contact 7 (synchronous contact) via the ignition circuit 5 by means of the ignition electrode 6 when the capacitor 3 is sufficiently charged.

According to the invention, the series circuit of a controllable thyristor 10 and a capacitor 12 is shunted to the useful flash tube 4. The thyristor 10 can be controlled by means of the control electrode 11, ie it can be made conductive from its blocking state by applying a positive voltage to this control electrode 11, depending on the well-known computer circuit 8, which is made by a photo * 7ider-

and 9j which, when a flash 3 is triggered in the flash tube 4 , is influenced in its resistance value by the light reflected from the object.

When the synchronous contact 7 is closed , an ignition voltage is applied to the ignition electrode 6 via the ignition circuit 5, which can be designed in a known manner , so that the flash light discharge in the flash tube 4, at the main electrodes of which the voltage of the storage capacitor 3 is triggered ™. If the exposure by the flashlight is sufficient, the computer part 8 controls the electronic switch, ie the thyristor 10 via its control electrode 11 in the lei border state, depending on the amount of reflected light that affects the resistance of the photosensitive resistor 9 Since the computer circuit 8 now applies a positive to the control electrode 11. Now is the secondary circuit on the series-connected thyristor 10 and the auxiliary capacitor 1? conductive, and the latter can thus take up the charge of the 3 storage capacitor 3, which is no longer required for the flash exposure. As a result, the useful flash tube M goes out prematurely - depending on the photosensitive

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Resistor 9 in cooperation with the computer circuit 8 -, ■ o that a real light control of the flash light takes place depending on the reflected light amount.

The charge of the auxiliary capacitor 12 can be short-circuited, for example, by a mechanical switch 13, which can also be designed as an electronic switch, so that the capacitor 12 can take up the excess charge of the storage capacitor 3 again for the next recording.

The circuit arrangement shown in Fig. 2 illustrates another Ausführung3beispiel. 3s here is the same flash circuit shown in Fig. 1 is used with the only difference that instead of the short-circuit switch 13 now a line 15 existing on the auxiliary capacitor 12 voltage via a current limiter 14 at the DC-DC converter 1 or the battery 2 back-filled. In this way, the energy of the auxiliary capacitor 12 can be used to charge the battery 2 and thus the energy balance of the overall circuit can be improved. Instead of a current limiter 14, the charging voltage of the auxiliary capacitor 12 can also be fed to the DC voltage converter 1, for example, via a separate oscillating circuit.

In the circuit arrangement according to the invention, one of its capacitors 12 can also be replaced by several capacitors connected in parallel or in series. It can then present on these auxiliary capacitors 12 energy can be supplied at the pitch by a parallel-serial switching directly back to the storage capacitor. 3

ORIGINAL BATHROOM 109839/0 668

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Claims (4)

LOüWE OPTA GMBH Berlin, February 19, 1970 Claims Electronic flash unit with regulated light energy below Use of a parallel to the Hutz flash tube, Depending on the amount of light reflected from the object, the conductive and then the utility flash tube becomes conductive short-circuiting shunt circuit, thereby characterized that this shunt circuit consists of the series connection of an electronic, by a control circuit (computer circuit) controlled depending on the amount of light reflected from the object controllable switching element, e.g. a controllable thyristor, and one or more auxiliary capacitors consists, which serve to absorb the excess energy from the storage capacitor. 2.) Electronic flash device according to claim 1, characterized in that the one or more auxiliary capacitors are dimensioned so that they only focus on one under the erasing voltage of the Charge the useful flash tube when the voltage is present. 3.) electronic flash unit according to claim 1 or 2, characterized overall * denotes that the auxiliary capacitor or the auxiliary capacitor through mechanical or electronic switches, for example, are through the firing contact, short-circuited. 4.) Electronic flash device according to claim 1 or 2, characterized in that that the electrical energy stored in the auxiliary capacitor or in the auxiliary capacitors for Charging the battery or the storage capacitor is used. BATH 109839/0668 Lee r side