DE1910544A1 - Electronic flash device with flash tube discharge controlled by the brightness of the subject - Google Patents

Description

Dr. Herbert Scholz P.tentanuaU

Applicant: Philips Pafentvery / aliung GmbH.
AHeN-. PHD-124-7

Registration from = February 28, 1969

Philips Patentverwaltung GmbH., Hamburg 1, Mönckebergstr. 7th

"Electronic flash unit with flash tube discharge controlled by the brightness of the subject"

The invention relates to an electronic flash device with a charging capacitor and on the brightness of the subject controlled flash tube discharge, in which a photosensitive Element supplies an auxiliary control voltage to influence the flash tube discharge.

It is known to use a so-called flash tube with a
light-tight coating provided quench tube parallel to
switch, which is ignited with an auxiliary control voltage derived from a photosensitive element and "then takes over the discharge current instead of the flash tube. The charging capacitor is short-circuited and the stored electrical energy is destroyed, so that the flash tube goes out.

The disadvantage of this arrangement is that the
Igniting the quench tube completely discharges the charging capacitor and the only limited energy available
Battery is unnecessarily destroyed. In addition, the recovery time of the flash unit is extended, since the charging capacitor has to be completely recharged after each flash. The predetermined size of the voltage converter also shortens the number of flashes that can be achieved with a battery or a battery etch.

PHD- 1247 (BV-33I8) - 2 -

009 851/08 23 '

The invention avoids these disadvantages by two thyristors connected in parallel in the circuit of the flash tube, each of which are connected to a charging capacitor of different capacities, and one of which together with the ignition pulse of the flash tube and the other opened by the auxiliary control voltage dependent on the photosensitive element will.

The current flow to the flash tube is not interrupted by destroying the capacitor charge, but by switching off the Energy supply. The invention has the advantage that because of the reduced power surges occurring in the device Discharge capacitor lower requirements can be made.

Investigations on an electronic flash unit with a guide number of 20 have a maximum value of the current through the flash tube of approx. 250 300 A, while the maximum value of the current through a quench tube is approx. 800 .... 1000 A amounts to.

In heavy current engineering, switchable rectifiers or semiconductors are used for powerless power shutdown, but for the interruption of short-term capacitor discharge for gas discharge lamps or the like. They are not known.

The figure of the drawing shows an embodiment. The capacitor C 1 charged via the voltage converter - of which only the transformer TrI is shown - and the diode D 1 in the specified polarity is connected to the flash tube Rö i via a switchable semiconductor rectifier, for example a thyristor T 1. By operating the switch s, the flash tube Rö 1 and the thyristor T 1 are ignited. Of the

009851/0823

The exposure process begins. The photoelectric circuit, of which only the photosensitive element R 1 serving as a measuring sensor is shown, emits a pulse via a transformer Tr 2 after reaching the required amount of light or the sufficient brightness of the object being photographed, which a controllable semiconductor rectifier, e.g. a thyristor T 2, ignites. This is connected to a capacitor C 2, which was charged from a second winding W 2 of the voltage converter transformer Tr 1 via a diode D 2 in the specified polarity Voltage converter transformer with a secondary winding is used. Due to the higher potential, the thyristor T 2 takes over the current that previously flowed through the thyristor T 1 through the flash tube. If the current flow time through the thyristor T 2 is greater than the release time of the thyristor T 1, which is approx. 10 ... 20yUs, it is blocked and the direct current flow to the flash tube Rö 1 from the capacitor C 1 is interrupted. The capacitance and thus the volume of the capacitor G 2 can be approximately 10 ... 30 / ui ¹ many times less than that of the capacitor C 1, the typical value of which is approximately 500 AXF . As a result of the switch-off process, the flash tube Rö 1 is supplied with the energy stored in the capacitor C 2, which initially results in a certain increase in the brightness of the flash. However, this amount of energy is only small and almost constant, so that it can be taken into account when calibrating the measuring transducer. The thyristors T 1 and T 2 only carry the maximum current of the flash tube.

Claim:

^ 4 009851/0823

Claims (1)

.Ί9.Τ0544 Claim Electronic flash unit with charging capacitor and flash tube discharge controlled by the brightness of the subject, in which a photosensitive member is an auxiliary control voltage for influencing the flash tube discharge, characterized by two in the flash tube circuit thyristors connected in parallel, each connected to a charging capacitor of different capacitance are, and of which the one together with the ignition pulse of the flash tube and the other by that of the photosensitive Element-dependent auxiliary control voltage is opened. 009851/0823