DE2338968A1 - Quench cct. for electronic photoflash - has thyristor bias capacitor to prevent reignition - Google Patents

Abstract

The photoflash circuit incorporates a photocell whose output signal causes the flash to be terminated when a sufficient quantity of light energy has been emitted. The quench circuit uses a series thyristor whose control gate is coupled to the negative side of a capacitor. This capacitor is charged by the photocell's quench signal. The discharge time of the capacitor exceeds the response time of the thyristor by a factor of ten. The negative bias of the thyristor control gate prevents re-ignition particularly during repeated use when the component becomes warm. The biasing arrangement also allows thyristors of a lower rating and widely varying parameters to be used.

Description

New patent application 3o8i BR

BRAUN AG, Frankfurt / Main 23 July 1973

Flashback lock for flash units

The invention relates to an electronic flash device, consisting of a supply part with a flash capacitor, a flash lamp with ignition device and one with the flash lamp connected in series, by a Liehtmesseinrichtung controlled series thyristor for

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Alis c hai lung of the flashlight, being the series thyristor by discharging a capacitor connected in parallel with the series thyristor is de-energized for the duration of the free time.

In electronic flash units of the type indicated, it has already been proposed in To switch a resistor in series with the series thyristor (patent application P 23 27 113.8). This creates a negative bias voltage for the control grid, which supports the switch-off process.

However, this bias is only present as long as the current flows through the series resistor.

It has now been shown that when a flash unit is used heavily, above all also due to the heating of the series thyristor, the release time, i.e. the time is extended, which a thyristor must be de-energized so that the one between its cathode and anode Voltage no longer leads to ignition.

When the thyristor is heated up, the flash lamp is often re-ignited, because by the deletion process, in which a current pulse

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of the length of the Auschill Izei I with reverse Polarity from a quenching capacitor over the series thyristor runs, now neither the deionization time the flashlamp nor the release time of the series thyristor due to the heating can be exceeded.

There is thus the task of providing an arrangement for safely switching off the discharge of a Flash lamp to create also for those cases in which the discharge time of the quenching capacitor is on the limit of the release time of the thyristor and below the deionization time of the flash lamp lies.

The invention solves the problem in that the control grid of the series thyristor during a protective tent exceeding the switch-off time is negatively biased.

The advantage of this invention is that such a backfire lock now creates series thyristors lower power, because the increase in idle time through the The series thyristor is now heated by applying a negative grid voltage for a sufficiently long time can be easily compensated at the thyristor (protective tent). Also the specimen variance

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of thyristors hardly falls due to this mass na lime still weight.

Furthermore, the light output of the flash lamp is increased because of the power-consuming series resistor omitted in the flash lamp circle.

In a further development of the invention, a storage means is provided, which by the discharging process the flash lamp is electrically chargeable, the negative pole of the storage means is connected to the control grid of the series thyristor during the extinguishing process, and the discharge time of the storage means is greater than the release time of the series thyristor.

The advantage of this embodiment of the invention is that the desired tension of the Storage means is only generated by the lightning discharge and thereby automatically and without Continuous power consumption is effective.

In another further development of the invention, the control grid of the series thyristor is also included connected to a storage capacitor, which can be charged by the extinguishing pulse of the light measuring device is, whereby the discharge time of the storage capacitor is longer than the time it is released of the series thyristor.

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The advantage of this embodiment of the invention is that once capacitors as Storage elements are small and cheap, and that the functional connection with the erase pulse a very precise time setting for them negative bias allowed on the control grid of the series thyristor. Another improvement arises from the fact that the discharge time can be changed by a resistor connected in series with the storage capacitor is.

This optimizes the protective tent on the thyristor used in each case and the Flash lamp relieved.

The following drawing shows further details the invention. Show it:

Fig.l a backfire lock according to the invention, Fig.2 a comparison of the time course of a Arrangement with and without backfire lock.

In Fig.l, 1 is a supply part with a flash capacitor 2, to which a series circuit of a flash lamp 3 with a series thyristor 5 is connected in parallel. The flash lamp 3 can be ignited via an ignition system h and is activated by means of a

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Lichtniesse iari cli lung O by j ^ elo'sohl that a pulse passed through a transformer 7 to a switch 8j, for example a thyristor is, the one quenching capacitor 9 via the series thyristor 5 in reverse Stromriehtung discharges. At the same time, part of the voltage of the erase pulse is transmitted via a diode 12 passed to a storage capacitor Io, the via an adjustable resistor 11 the Control grid 51 of the series thyristor 5 is supplied is. By choosing the values of the capacitor Io and the resistor 11, the discharge time, So the protection time can be adjusted to the data of the flash lamp and the thyristor so that the time off is far exceeded.

Fig. 2 shows a comparison of the stresses-UgTh at the control grid of the series thyristor with and without the connection of a storage capacitor. In part a, the blocking threshold voltage TS determines the blocking time TF of the thyristor, which is at least must be equal to the deionization time TD, but is usually much shorter. In part b is the effective blocking time TFe (protection time) increased by means of a storage capacitor because the blocking threshold voltage TS now only intersects the grid voltage later. That’s enough

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the protection line until well past the time of birth TF of the series tliyri s tor and a backfire the flash lamp is safely prevented.

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Claims (1)

PATENT CLAIMS (l ·) Electronic flash device, consisting of a supply part with a flash capacitor, a flash lamp with ignition device and a series thyristor controlled in series with the flash lamp and controlled by a light measuring device for 509807/0568 Shutdown of the flash lamp, whereby the series thyristor by discharging a capacitor connected in parallel with the series thyristor is de-energized for the duration of the free time, thereby identifying, that the control grid of the series thyristor during a protection time that exceeds the switch-off time is negatively biased. 2. Flash device according to claim 1, characterized ic hne t that the protection time is about ten times the free time. 3. Flash device according to claim 1 or 2, characterized in that a storage means is provided which can be electrically charged by the discharging process of the flash lamp is, the negative pole of the storage means with the control grid of the series thyristor is connected during the deletion process and the discharge time of the storage means is greater than the release time of the series thyristor. H. Flash device according to claim 1 or 2, characterized 509807/0568 -lo- I do not mark the control grid of the series thyristor is connected to a storage capacitor, which is caused by the erase pulse of the light measuring device is chargeable, the discharge time of the storage capacitor is greater than the release time of the series thyristor. 5. Flash device according to claim h, characterized in that the discharge time can be changed by a resistor connected in series with the storage capacitor. SO 9807/0568 AA- Blank page