SU447816A1 - Current pulse generator - Google Patents

Description

The invention relates to the generation of periodically repetitive current pulses with the help of direct discharge devices and can be used in electrophysical installations that require asymmetric triangular current pulses.

Generators of triangular current pulses are known, consisting of an oscillatory circuit, the capacitance and inductance of which are connected by key devices assembled according to a full-wave rectifier circuit. In the latter, the artificial transfer of current from one group of valves to another is carried out by switching capacitors connected through auxiliary valves in parallel with the main key elements.

However, these oscillators of constant capacitance of the oscillating circuit do not allow to obtain asymmetrical triangular current pulses.

The purpose of the invention is to obtain

asymmetrical, for example sawtooth, current pulses.

This is achieved by the fact that the capacitance of the oscillating circuit consists of several capacitors connected by means of diodes so that the capacitors are connected in series with current flowing in one direction and parallel with current flowing in the opposite direction.

The drawing shows a diagram of the proposed generator of current pulses.

In this circuit, the inductance 1, which is connected to the load, is connected to the capacitance of the oscillating circuit, consisting of capacitors 6–8, connected by diodes 9–14 by means of controlled valves 2.3 and diodes 4.5.

The switching of the current from the valves to the diodes is carried out by means of damping valves 15 and 16 and switching capacitors 17 and 18, which are recharged by inductive circuits 19 and 20 and

through the diodes dl ja 22.

To cover the losses in the load and in the circuit elements, the power source 23 is connected to the generator through a limiting resistor 24

The current pulse generator works as follows. The capacitor b, precharged from the power source 23, when the controlled valves 2 and 3 are turned on, begins to discharge to inductance 1 through diodes 9 and 10. After a time less than a quarter of the period of the natural frequency of the circuit formed by capacitor 6 and inductive load 1, valves 15 and 16, using capacitors 17 with the help of capacitors

18, the current is switched to diodes 4 and 5. After switching, the current in the inductance 1 begins. At the same time, due to the change in the direction of the current in the capacitance of the oscillating circuit, the capacitors 6-8 through the diodes 13 and 14 are connected in series, which causes a faster current drop in the load. The current flowing through the capacitors 6-8 is recharged to the capacitor 6 and the charging of the capacitors 7 and 8. After the current drops to zero, the diodes 4,5,13 and 14 close. Simultaneously with the current decay in inductance 1 through inductance

19 and the diode 21 is recharged by the switching capacitor 17, and through the inductance 20 and the diode 22 is recharged by the capacitor 18.

When the controlled valves 2 and 3 are turned on to the inductance 1, one of the capacitors 6.7 or 8, which has a higher potential, is first connected. Then, as this capacitor is discharged, capacitors having a lower initial voltage are connected to inductance 1. After transfer of current to diodes 4 and 5

capacitors 6-8 through diodes 13 and 14 are again connected in series, recharging capacitors with load current occurs again.

After several cycles, a steady state occurs, which is characteristic of the fact that the initial voltage across the capacitors 6-8 is the same because immediately after switching on the controlled valves 2 and 3, the indicated capacitors through the diodes 9-12 turn out to be connected in parallel. At the same time, the current growth rate in the inductance, which is the load, with a three-stage generator circuit is approximately three times lower than the current decay rate.

SUMMARY OF THE INVENTION A current pulse generator comprising an oscillating circuit whose inductance is a load, and key elements, characterized in that, in order to obtain unbalanced current pulses, the capacitance of the oscillating circuit is made in the form of several capacitors, the upper and lower plates of the first relatively input the capacitor terminals are connected to the anodes of the diodes, the upper and lower plates of each subsequent capacitor are connected to the junction points of the previous cathodes and the anodes of the subsequent The top and bottom plates of the last capacitor are connected to the cathodes of the previous diodes, each top plate of the previous capacitor through the diode in the opposite direction is connected to the bottom plate of the next capacitor, and the top plate of the last capacitor and the bottom plate of the first capacitor are connected to control valves and diodes specified inductance.

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