DE2033849B2 - Adapter for flash guns with light sensing ignition systems - has ignition circuit built around the light sensitive resistance with contra-connected thyristors - Google Patents

Abstract

A servo flash adapter device for electronic flash guns has a light serving element to activate the slave (daughter) flash ignition and has a parallel circuit consisting of two thyristors (Th1, Th2) which are connected in opposition to each other and a light sensitive resistance (R). Both poles of the light sensitive resistance (R), are attached to the two electrodes (A, B) of the attachment cable (K). The control electrodes (St1, St2) of the two opposition connected thyristors (Th1, Th2) are connected to one of the two separate ends of the light sensitive resistance (R). Each end of the light sensitive resistance (R) is coupled to the attachment cable (K) electrodes (A, B) through resistance (R1, R2).

Description

The invention relates to a simple and universal flash adapter device for electronic flash devices for photographic purposes, which are called so-called "daughter devices" regardless of the actuation of the synchronous contact of a camera depending on the The amount of light emitted by the main flash unit ignited by the synchronous contact of the camera is controlled which flash adapter device does not have its own energy source and via a sync cable with connected to the slave flash unit or via a pole shoe contact.

Servo flash units for controlling »daughter flash units« are already known. Such devices have no additional energy source and are exclusively controlled and switched by the voltage generated proportionally to the light by a photo element an auxiliary voltage applied by the daughter flash to ignite the flash tube to the ignition circuit of the Daughter flash unit, which is used for optimal illumination of an object to be photographed in addition to the Main flash unit, which is controlled by the camera via the synchro contact, if there is not enough light gives off a lightning bolt. Such an adapter device is a separate component that has means both for attachment to any Halicrung as well as for attaching an electronic flash unit. The connection between the The electronic flash unit controlled by the adapter device and the adapter can be done once via the fastening shoe with center contact or via a synchro cable. The type of connection depends on the equipment of the secondary flash unit, whether a middle contact is provided on this or not.

In a known arrangement, an auxiliary operating voltage is supplied from the synchro cable to The switching flash unit is tapped and connected to the adapter unit, which auxiliary voltage when it is encountered a flash is switched through to the photo element to ignite the flash tube. So have to but also the connection contacts have a defined polarity, otherwise the flash tube will ignite not happened.

In the case of another subsidiary flash unit, which also has an electronic flash unit that can be switched on tapped voltage works, a photothyristor with cathode and anode is connected to the synchronous connection placed, with a self-induction of such size provided between the cathode and the grid of the thyristor is that the ignition voltage of the thyristor is induced when a flash of light hits. The thyristor serves to switch through an ignition voltage that has been picked up by the electronic flash unit. Other known flash units work with their own energy source to generate the necessary Ignition voltage for the electronic flash unit. Such a flash unit is the subject of DT-PS 12 31 554.

Please note in all of the above explanations that the electrodes of the sync cable connections of the flash units (slave flash units) and the servo flash adapter units have the same polarity. The connections are in their mechanical design standardized, the polarity of the connection contacts is abc; not made uniform for electrical reasons.

The invention is now based on the object of providing a servo flash adapter device in terms of circuit technology build that all flash units can be connected to such an adapter device without in doing so, the polarity of the connection electrodes is respected must be or the actual circuit must be changed to accommodate the connections of the devices in their To adapt polarity to each other.

The object is achieved according to the invention in that the adapter device consists of a parallel connection two thyristors connected in opposite directions and a light-sensitive resistor, both of which Poles are each connected to one of the two electrodes of the connecting cable, and the control electrodes of the two thyristors are each connected to one of the two ends of the light-sensitive resistor are.

Another feature is that the photosensitive resistor has both ends is connected via a resistor to the two connector electrodes of the connecting cable.

The servo flash adapter device according to the invention can also be modified according to the invention so that the parallel connection of the two Thyristors and the light-sensitive resistor by two also connected in parallel in opposite directions Photothyristors is replaced and the control electrodes of the two photothyristors preferably via one Resistance with the two electrodes of the connection

cables are connected

Another embodiment of the device according to the invention provides that the two photothyrisors are replaced by a single triac, the control electrode via a photoresistor or via a series connection of two photo resistors are connected to the two electrodes of the connecting cable. This triac is basically two thyristors connected against one another with one Control electrode that can be switched through in both directions. This embodiment represents represents a simplification of the aforementioned device with photothyristors.

The device according to the invention is described below with reference to the exemplary embodiments shown in the figures explained in more detail. Herein shows

F i g. 1 shows the circuit diagram of a servo flash adapter device according to the invention using two thyristors connected against one another,

2 shows the circuit diagram of a modified device according to FIG. 1, in which two photothyristors are used instead of the two thyristors, and

F i g. 3 shows a further simplification of the device by using a single triac.

According to FIG. 1, the adapter device according to the invention, which is housed in a housing G and represents a closed structural unit, consists of the parallel connection of the two oppositely connected thyristors Th 1 and Th 2 and the light-sensitive resistor R. This parallel connection is with its two poles each with a of the two electrodes A or of the connecting cable K , while the control electrodes St 1 and Si 2 of these two thyristors are each connected to one of the two ends of the light-sensitive contradiction R. The two resistors R 1 and R 2 can be connected upstream of the light-sensitive resistor R , which results in better stabilization of the threshold voltage at the control electrodes of the two thyristors.

The photosensitive resistor R can also be through a. Photo element or replaced by a photodiode.

It can be seen that the entire adapter device is used via the cable K on the electrodes A, B of the plug to connect to the associated flash unit, which is supposed to work as a slave flash unit; in the unexposed state of the resistor R , the thyristors Th 1 and Th 2 are blocked . As soon as flash light falls on this light-sensitive resistor R through any other flash device, its resistance is reduced and the thyristors Th 1 and 777 2 are made conductive accordingly. This closes the ignition circuit of the associated Biitz device via the connector electrodes A, B , and the »daughter flash« is ignited.

There is no additional energy supply for the adapter device, because the energy is supplied from the associated flash device which is connected via the connector electrodes A, B. At the same time, the device is also independent of the consequences of the voltage on these electrodes A, B. In any case, regardless of the polarity of these electrodes, the ignition circuit is closed via one of the two thyristors 7h 1 and Th 2 .

From Fig. 2 shows a further embodiment in which the two thyristors Th 1 and Th 2 from FIG. 1 are replaced by the photothyristors FTh \ and FTh 2 . There is thus a saving in the light-sensitive resistor, since the photothyristors themselves are light-sensitive. These two also oppositely connected Fotothyristoren are fixed in their Arbeiispunkt by the resistors R 3 and R 4 between the control electrodes £ 1, E 2 and the cathodes. The photothyristors themselves are located between the connector electrodes A and B of the sync cable K. through which the connection to the associated flash unit is established. As soon as flash light from another flash unit falls on the photothyristors FTh i and FTh 2 , these become conductive and switch on this ignition circuit of the slave flash unit regardless of the polarity of the ignition circuit, which is connected to electrodes A and B, which causes the slave flash unit to ignite.

A further simplification is provided by the embodiment according to FIG. 3 given. It can be seen that the two photothyristors according to FIG. 2 have now been replaced by a single triac Tr , which is in principle two thyristors connected against one another with a single control electrode ETR , which can be switched through in both directions. This through-connection is dependent on the light-sensitive resistors R 5, Rb. which can also be replaced by a single resistor. It can be seen that with this circuit, too, the secondary flash connected to electrodes A and D is ignited regardless of the polarity at these ignition circuit electrodes as soon as the light-sensitive resistors R5 and /? 6 are influenced by another flash.

The advantage of the device according to the invention is that regardless of the Poiung of the respective Ignition circuit of the slave flash unit this can be ignited. Also an additional source of energy is saved.

1 sheet of drawings

Claims (4)

Patent claims: 1. Servo flash adapter device for electronic flash device with iichtsensiichern element for flash triggering (daughter flash), characterized in that it consists of a parallel connection of two oppositely connected thyristors (Th 1, 77; 2.1 and a light-sensitive resistor (R) , both of which Poles are each connected to one of the two electrodes (A, B) of the connecting cable (K) , and that the control electrodes (St 1, St 2) of the two thyristors (Th 1 and Th 2) are each connected to one of the two ends of the photosensitive resistor (R) are connected. 2. Servo flash adapter device according to claim 1, characterized in that the light-sensitive resistor (R) with its two ends each via a resistor (R i or R 2) with the two connector electrodes (A, B) of the connecting cable (K ) is connected 3. Servo flash adapter device according to claim 1, characterized in that the parallel connection of the two thyristors (Th 1 and Th 2) and the light-sensitive resistor (R) is replaced by two photothyristors (FTh 1 and FTh 2) also connected in parallel in opposite directions the control electrodes (Ei, E2) of the two photothyristors (FTh 1 and FTh 2) are preferably connected to the two electrodes (A, B) of a connecting cable (7 (^) via a resistor each (R 3 or R 4). 4. Servo flash adapter device according to claim 3, characterized in that the two photothyristors (FTh 1, fT / i2 _/ J by a single triac (Tr) are replaced, the control electrodes (ETR) via a photoresistor (R 5) or Via a series connection of two photo resistors (R 5, R 6) with the two electrodes (A, B) of the connecting cable (T (^ are connected. 40