SU994191A1 - Pulse generator - Google Patents

Description

The invention relates to the field of electrophysical processing methods and relates to a short-duration pulse generator for electro-radar processing.

A known pulse generator, which is a series thyristor inverter with an oscillatory character of recharging a storage capacitor (in series with a cotrym choke). The erosion gap is connected to the secondary winding of the throttle through the diode. The energy accumulated in the inductor through the diode is given to the erosion gap and to the storage capacitors ClJ. .

The aim of the invention is to increase the energy of current pulses and increase the efficiency of the generator.

The goal is achieved by the fact that, in contrast to the known pulse generator containing a thyristor series inverter with two power sources, two cumulative

capacitors, connected in series, and two transformers with rechargeable storage capacitors included in the circuit, in the secondary windings of which through diodes, an erosion gap is included, in the proposed generator, two thyristors are connected in parallel with the power sources,

10 point which is connected to a common point of storage capacitors.

The drawing shows a diagram of the pulse generator.

The generator circuit is a series thyristor inverter with power supply sources 1, auxiliary resistances 2, power thyristors 3 and. 4, transformers 5 and b, the primary windings of which are included in the transfer circuit of storage capacitors 7 and 8. The secondary winding of each transformer through diodes 9 and 10 is connected to the erosion gap 11. 25 The circuit also contains additional thyristors 12 and 13.

The generator works as follows.

Thyristor pulse generator

thirty

unlocked from the pulses supplied from the autonomous control system (not shown in the diagram). Assume that, due to the preliminary operation of the generator, the storage capacitors 7 are charged to the polarity of the voltage shown in the diagram. A control pulse is applied to the thyristor 3, which is unlocked, creating a recharge circuit for the storage capacitors 7 and 8. This circuit consists of a power supply 1, auxiliary resistances 2, a thyristor 3, the primary winding of the transformer 5. In this case, energy is accumulated in the transformer. As the storage capacitors 7 and 8 are recharged, the voltage across the primary winding decreases. When on storage capacitors the voltage becomes equal to the voltage of the power source, on the windings of the transformer 5 the voltage becomes equal to zero, the current reaches a maximum.

Up to this point in time, the voltage on the secondary winding of the transformer 5 was negative, and diode 9 was locked, the voltage on the erosion gap 11 was absent. From this point in time, the transformer begins to release the accumulated energy and serves as a source, the voltage on it changes sign. At this point in time, a control pulse is applied to the thyristor 12, which is unlocked by applying the voltage of the charged capacitor 7 to the thyristor 3, locking it. A single chain of recoil of the accumulated transformer of energy through the erosion gap is formed. A powerful current pulse is generated. The current pulse of the erosion gap occurs only after the voltage across the transformer winding 5 passes through zero and lasts significantly less than the current pulse through the thyristor. Due to this, it is possible to provide favorable conditions for thyristors and obtain

powerful current impulse through erosion; short span. If the erosion gap is idle (its circuit is broken, the voltage on the windings of transformer 5 increases abruptly and the thyristor 3 does not close. The recharge circuit of the storage capacitors remains the same. The magnitude of the voltage jump is determined by the ratio of the capacities of the storage capacitors 7 and 8. The smaller the capacitance of the storage capacitor 7-, the greater the magnitude of this jump. Thus, by locking the thyristors 3 or 4, only a circuit is formed to return the energy accumulated by the transformers 5 or 6 and erosive gap. This increases the energy generated by the current pulses, the pulser prvpiaet efficiency.

Claims (1)

1. Japanese Patent No. 447639,: class. 12A2213, 1979..