SU389642A1 - DEVICE FOR FOOD OF TWO GROUPS OF PULSE DISCHARGE LAMP - Google Patents

Description

one

The invention relates to the field of electrical engineering and can be used in laser technology for the synchronous operation of a high-power ontic quantum oscillator (laser) and an optical quantum amplifier (CCA) with identical optical pumping systems.

Devices are known for parallelly connecting two pump lamps to the same power source (accumulative line), based on the use of a double bifillary coil connecting two lamps with a common source for them. The beginning and end of the various windings of such a beefed coil are connected together and connected to the output of the storage line, and the end and the beginning of the same windings are connected to the corresponding pump lamps. This helps to improve the synchronism of the pumping lamps, as well as to reduce the adverse effect of the shock wave during discharge development in lamps, since some imbalance of discharge currents in the lamina leads to unbalanced equivalent inductances of the coil with a bi-filar winding, which is on one side leads to the excitation of additional EFS in them, leveling the discharge currents, and on the other hand, the front of the pulses of the discharge current somewhat.

The disadvantage of the known devices in the case of

powerful QCG-O, CG systems is the need to use one common for the CGR and for the CMC storage, which in this case represents an increased risk

for maintenance personnel and safety equipment.

The purpose of the invention is to reduce the danger of an explosion in the cumulative line of powerful OKG-OKU.

This is achieved by the fact that the device is equipped with a second rectifier and a second cumulative line, to which the beginning of the second coil of the inductive bifilary equalizer is connected.

The drawing shows a schematic diagram of the proposed device.

The device contains a power source from a transformer 1 connected to an AC network through switch 2, a fuse 3 and a damping resistance 4. At the phase auxiliary secondary winding of the transformer - / connected through power diodes 5 and 6 with two separate accumulative lines on the capacitors 7-14 and coils inductance 15-18. In addition, the transformer secondary has a tap connected through limiting resistance 19 to the ignition circuits 20 and 21. Last contains a doubling scheme

the voltages on the capacitors 22 and 23, the switching bit switch 24 and the pulse transformer 25 with balanced windings. The storage lines are connected to the pump lamps 26-33 through two coils 34 and 35, the windings of which are made bif.The proposed device operates as follows. In a similar state, the line capacitors are charged by an exponentially falling charging current of the power supply circuit, the amplitude of which is limited by the damping resistance 4. At the same time, the capacitors 22 and 23 of the ignition circuit are charged. The highest voltage up to which each of the storage lines is charged is equal to the amplitude of the voltage acting on the secondary winding (half of it) in the idling mode. This voltage is lower than the voltage of the self-test lamp groups of four lamps in each group (as indicated in the drawing in this case), and therefore the self-discharge of lines does not occur. For ignition, the key 24 is pressed. In this case, a high voltage pulse (high-voltage) is excited in the secondary winding of the pulse transformer 25. For the organization of a symmetrical output of a pulse transformer, an ignition circuit with voltage doubling was applied, i.e., without using the grounding of one of the ends of the transformer primary winding 25. When an ignition pulse is applied to the lamps 26–33, four of the eight lamps break through two lamps in each group of four. This leads to the emergence of a self-test for the remaining non-pierced by the igniting pulse. The lamps applied to them are strung by the storage lines (the voltage of the self-test of two series-connected lamps is lower than the voltage on the storage line). The limiting resistance 19 reduces the current flowing through the capacitor; s. 22 1 and 23 and valves 20 and 21 with a closed key 24. - Since the groups of lamps are connected to storage lines through magnetically coupled coils 34 and 35 with bifilically made windings and the magnetic fields formed in them are directed opposite to each other, all changes in the discharge current in one of the coils lead to the excitation of a. d. in the other, the sign of which coincides with the sign of the pole. The storage line associated with it (the total potential on the lamps associated with such a coil increases), which accordingly increases the discharge current in the second coil. This, in turn, causes an additional emf in the first coil. with. and so on. As a result, the interaction of the discharge currents through the coils 34 and 36, the discharge currents in the lamps 26-33 rapidly increase and remain almost the same, thereby ensuring self-synchronization of the pumping process of the laser and the CCA. In the case of unsteady discharge formation in lamps (with a difference in discharge currents at the initial times of formation of discharge pulses), the inductances of coils 34 and 35 are mutually unbalanced, which somewhat slows down the value of the front of the discharge pulse. This reduces the destructive effect of the shock wave in the pump lamps, and damps the shock wave. The damping of the shock wave makes it possible to increase the radiation energy in the pump lamps, and, consequently, to increase the power (energy) of the radiation of the CG – OKA system and the efficiency of such a system. .., Subject of the Invention A device for powering two groups of pulsed gas discharge lamps designed to pump active substances, respectively, of an optical quantum generator and optical quantum amplifier, comprising an iodine unit, a rectifier, a storage line and a two-core inductive bifillary equalizer, to the ends of which coils groups of lamps are connected, and the beginning of one of which is connected to a storage line, characterized in that, in order to reduce the danger of a storage line explosion, A second rectifier and a second accumulator line, to which the beginning of the second coil of the specified equalizer is connected.