DE2545731C3 - Adapter for electrically ignitable combustion flash lamps - Google Patents

Description

The invention relates to an adapter for connecting electrically ignitable combustion flash lamps, a synchronous contact, a camera with electrical power supply, the one via the Synchronous contact with the camera energy chargeable capacitor and one in series with the capacitor and the flashlight, which can be triggered when the synchronous contact closes, for discharging of the capacitor via the flashlamp.

In a known adapter of this type, by attaching the adapter to the synchronous contact, the Camera the positive plate of the capacitor via a resistor to the positive pole of the camera battery connected. A combustion flash lamp or a combustion flash cube is inserted into the adapter in a known manner plugged in, causing the negative plate of the capacitor to use the combustion flash lamp is connected to the part of the two-pole synchronous contact that is connected to zero potential.

As soon as the power supply to the camera is switched on, the capacitor charges through the Combustion flash lamp on. The charging time is determined by the size of the battery between the camera and the capacitor lying resistor. In order to achieve very short charging times, one is tries to keep this resistance as small as possible. But this finds its limit in the fact that with leading The thyristor in the circuit of the capacitor and the flashlamp draws a current from the camera battery through the Resistance and the thyristor flows to zero potential. So after the capacitor has discharged, the thyristor can delete, this current must be less than the holding current of the thyristor. As a result, the Charging time of the capacitor can not be made arbitrarily small and longer waiting times for Recharging the capacitor must be accepted.

The invention is therefore based on the object of such an adapter with an ignition and extinguishing device for the thyristor to be provided, which is a dimensioning of the between the camera battery and the capacitor lying resistance within certain limits regardless of the type-specific holding current of the Thyristor permitted and thus extremely short flash sequences- <"s times made possible without the functional reliability of the adapter circuit suffering.

This object is achieved according to the present invention in that the cathode of the thyristor has a series circuit of two resistors connected to the zero potential of the synchronous contact and the control electrode of the thyristor is connected to the junction of the two resistors.

This ensures that the thyristor it ignites safely when the synchronous contact is closed and just as reliably after the capacitor is discharged locks.

Of course, the resistance between the camera battery and the capacitor cannot be arbitrarily small can be selected, for example zero, but a lower limit must also be observed here. The one from the Camera battery through the resistor and the thyristor current flowing must be close to the holding current of the thyristor, but does not need to be smaller than this so that the thyristor blocks reliably. With With this circuit arrangement, flash cycle times of less than one second can be achieved, which are sufficient to a quick follow; to perform flash photography.

An embodiment of the invention is shown in the drawing, only for understanding of the invention required switching elements in the camera and adapter reproduced by means of a circuit diagram are. The switching elements shown to the left of the dash-dotted lines denoted by 1 are in Camera housing housed, while those drawn between the dash-dotted lines 1 and 2 Switching elements are located in the adapter housing. A flash lamp or a flash cube 3 is attached to the adapter attached, with electrical contact being made to the circuit in the adapter at the same time.

The camera battery 4 has its negative pole connected to the zero potential of the circuit and its positive pole Pole via a high-resistance resistor 5 with the synchronous switch 6, which can be closed by the camera shutter tied together. The other terminal of the synchronous switch 6 is also connected to zero potential. Parallel to the high resistance is the series connection of a low resistance 7 and one Capacitor 8. The connection point between resistor 7 and capacitor 8 is at the positive pole of the Two-pole synchronous contact 9 connected, while the other pole with the zero potential of the Circuit is connected.

When the adapter housing is plugged onto the camera, the electrical contact between the Camera circuit and the adapter circuit made. This is the positive plate of a capacitor 10 connected to the positive pole of the synchronous contact 9. The series connection is parallel to the synchronous contact 9 a thyristor 11 and two resistors

12 and 13. The control electrode of the thyristor 11 is at the connection point of the two resistors 12 and

13 connected. The cathode of the thyristor is ir.it connected to the one flash cube connection contact 146, while the other flash cube contact 14a to the negative plate of the capacitor 10 is connected. The flash lamp or the flash cube is in the Lightning cube contact 14 of the adapter plugged in.

The circuit according to the invention works as follows:

The capacitor 10 is charged via the resistor 7. Is now in a known manner the Synchronous switch 6 closed by the shutter, the positive plate of the capacitor 10 is briefly placed at zero potential. As a result, the resistance

FIGS. 12 and 13 show a voltage drop, the potential at resistor 13 being more positive than at the Cathode of thyristor 11 isL So that the potential of the control electrode of thyristor 11 is around the The voltage drop across the resistor 12 is more positive than the cathode potential of the thyristor and the thyristor ignites As soon as the thyristor ignites, the capacitor 10 discharges through the thyristor and the Combustion flash lamp 3, whereby the latter is ignited. As soon as the capacitor 10 is discharged, a Current from drr battery 4 through resistor 7, thyristor 11 and resistors 12 and 13 to Zero potential flow. This current causes a voltage drop across resistors 12 and 13 and although from the cathode of the thyristor 11 in the direction of zero potential. As a result, the control electrode potential is present of the thyristor 11 by the voltage drop across the resistor 12 is more negative than the cathode potential of the Thyristor, This negative control of the control electrode read thyristor is sufficient. around at a stream of the camera battery 4 through the thyristor 11, which is greater than the holding current of the thyristor, but about is of the same order of magnitude, the thyristor 11 E.g. lock. With blocked thyristor and new If the combustion flash lamp 3 is inserted, the capacitor charges up again in a short time, and so does the camera is ready for the next flash exposure.

1 sheet of drawings

Claims (1)

Claim: Adapter for connecting electrically ignitable combustion flash lamps to the synchronous contact a camera with electrical power supply, one via the synchronous contact with the Camera energy rechargeable capacitor and one in series with the capacitor and the flash lamp lying, with closing of the synchronous contact 'o triggerable thyristor for discharging the capacitor via the flashlamp contains, thereby characterized in that the cathode of the thyristor (11) via a series connection of two Resistors (12, 13) is connected to the zero potential of the '5 synchronous contact (6), while the Control electrode of the thyristor is connected to the connection point of the two resistors.