CS243664B1 - Electronic Trigger Trigger Circuit Connection - Google Patents

Abstract

The aim of the solution is to create a simple trigger circuit for an electronic flash device, operating reliably and eliminating the sunburn of the synchronization contact of the photographic camera. The stated goal is achieved by connecting with a thyristor and protective diodes, in which the first input terminal is connected to one terminal of the primary winding of the transformer, the second terminal of the primary winding of the transformer is connected via a limiting resistor to the anode of the thyristors, to the cathode of the first protective diode and to the positive output terminal. The second input terminal is connected to one terminal of the secondary winding of the transformer, to one terminal of the load resistor, to the anode of the second protective diode, to the cathode of the thyristors, to the anode of the first protective diode and to the negative output terminal. The second terminal of the secondary winding of the transformer is connected to the second terminal of the load resistor, to the cathode of the second protective diode and to the control electrode of the thyristors. The solution can be used as a trigger circuit for electronic flash devices.

Description

(54) Wiring the electronic flash circuit trigger

The aim of the solution is to create a simple trigger circuit for the electronic flash device, working reliably and eliminating the tanning of the synchronization contact of the camera. This object is achieved by a thyristor and protective diode wiring in which the first input terminal is connected to one terminal of the primary winding of the transformer, the second terminal of the primary winding of the transformer is connected via a limiting resistor to the thyristor anode, cathode of the first protective diode and positive output terminal. The second input terminal is connected to one terminal of the secondary winding of the transformer, one terminal of the load resistor, the anode of the second protective diode, the cathode of the thyristors, the anode of the first protective diode, and the negative output terminal. The second terminal of the transformer secondary winding is connected to the second terminal of the load resistor, the cathode of the second protective diode, and the control electrode of the thyristors. The solution can be used as a trigger for electronic flash devices.

Giant. 1

The invention relates to a trigger circuit for electronic flash devices.

In electronic flash devices, ignition of the discharge in the lamp is solved by creating a high voltage surge applied to the ignition electrode by means of an ignition transformer into which the ignition capacitor discharges through the synchronization contact of the photographic apparatus.

The synchronization contact is subject to a considerable current load when it is switched on and the spark arises greatly, which leads first to a deterioration in the reliability of the flash synchronization and eventually to damage of the synchronization contact requiring its repair.

These disadvantages are overcome by the connection of the trigger circuit for the electronic flash device according to the invention, which is based on the fact that the first input is connected to one terminal of the transformer primary winding, the other terminal of transformer primary winding is connected via a limiting resistor to the thyristor anode, cathode of the first protective diode; to the positive output terminal, the second input terminal is connected to one terminal of the transformer secondary winding, to one load resistor terminal, to the second protective diode anode, to the thyristor cathode, to the first protective diode anode and to the negative output terminal, connected to the second terminal of the load resistor, to the cathode of the second protective diode, and to the control electrode of the thyristors.

The advantage of connecting the trigger circuit for the electronic flash device according to the invention is its simplicity, reliability, elimination of the burn-in of the synchronization contact and thus increase the reliability of the flash synchronization. An optical synchronization device with its flash devices can be easily connected to the wiring input.

An example of a trigger circuit for an electronic flash device is shown in the accompanying drawing, in which Fig. 1 is a detailed circuit diagram and Fig. 2 is a timing diagram of the circuit function.

The first input terminal i for connection to one side of the photographic synchronization contact (not shown) is connected to one terminal of the primary winding of the transformer X (Fig. 1).

The second terminal of the transformer primary winding X is connected via a limiting resistor 6 to the anode of the thyristors 2, ⁿ and the cathode of the first diode 6 and to the positive output terminal X for connection n, and the positive pole of the flashing sync input.

The second input terminal 6 for connection to the other side of the synchronization contact of the camera is connected to one terminal of the secondary winding of transformer X, one terminal of the load resistor 6, the anode of the second protective diode 6, the cathode of thyristors 2 an output terminal 44 for connecting to the negative pole of the flash sync input (not shown).

A second terminal of the transformer secondary X is connected to the second terminal of the load resistor X, the cathode of the second protective diode £ and the gate electrode of the thyristors 2 · ^{For the} proper function of the circuit is necessary to ensure that, in order to respect the orientation of the transformer windings X, as indicated in Fig. 1.

In the idle state, the high resistance ¹¹¹⁰ between the input terminals 10 and 6 is high. Only a slight residual current flows through the thyristor 2 at standstill.

After turning the synchronizing contact starts to rise current i _ _2, flowing the primary winding of the transformer J. The final size is limited by the limiting resistor £, and the rate of its growth is limited by the inductance of the transformer J. Upon reaching the threshold voltage at the secondary winding of the transformer X will start flowing through the control electrode thyristor χ current, which causes opening of the main thyristor path χ.

This allows the large current required to start the flash device between the positive output terminal 2 and the negative output terminal χθ. After the current has dropped between the positive output terminal 2 and the negative output terminal 11, the thyristor X automatically restores to a standstill.

The first protective diode 2 and the second protective diode 2 together with the load resistor 2 protect the thyristor X from flicker effects. The operation of the wiring is further evident from the time diagram of the function of FIG. 2.

The current flowing through the synchronization contact is relatively small so that it does not cause it to burn. The waveform θ shows the voltage at the output terminals of the wiring.

The invention can be used as a trigger circuit for an electronic flash device.

Claims (1)

SUBJECT OF THE INVENTION Trigger circuit for electronic flashing device, with thyristor and protective diodes, characterized in that the first input terminal (1) is connected to one transformer primary winding terminal (3), the second transformer primary winding terminal (3) is connected via a limiting resistor ( 4) on the thyristor anode (7), on the cathode of the first protective diode (8) and on the positive output terminal (9), the second input terminal (2) is connected to one transformer secondary winding (3), one load resistance terminal ( 5), on the anode of the second protective diode (6), on the cathode of the thyristor (7), on the anode of the first protective diode (8) and on the negative output terminal (10), the second terminal of the transformer secondary winding (3) is connected to the second terminal a resistor (5), a cathode of the second protective diode (6) and a thyristor control electrode (7).