SU978332A2 - High-voltage impulse generator - Google Patents

Description

(5+) HIGH VOLTAGE PULSE GENERATOR

one

The invention relates to a technique for generating high voltage and current pulses of quasi-constant amplitude and can be used to power lasers, accelerators, charged particles and other devices.

According to the main author. St. No, a high voltage pulse generator made according to the Arkadiev-Marx scheme, containing storage capacitors, arresters, charging resistors and a power source, is known, between the storage capacitors and the ground, a correction circuit is connected from at least one capacitor j of the shunting inductance and a discharge capacitor The generator power supply is connected to the connection point of the storage capacitors of the corrective circuit.

The disadvantage of the known generator is that it generates a pulse, the non-uniformity of the amplitude of which even in the area of the quasi-constant amplitude can reach 15-20. This is due to the fact that at the initial moment the current in the correction circuit is less than the current in the circuit of the intelligent circuit, and the correction capacitor instead of discharging, on the contrary, is charged, thus increasing the voltage drop at the beginning of the pulse .

The purpose of the invention is to increase the uniformity of the amplitude of the pulse on the load.

Claims (1)

The goal is achieved by the fact that a high-voltage pulse generator, made according to the Arkadyev-Marx scheme, contains storage capacitors, arresters, charging resistors and a power source, in which a correction circuit of at least one capacitor is connected between the storage capacitors and ground. , shunted by inductance and arrester, the generator power supply is connected to the point of connection of storage capacitors with a correction circuit, a control unit is inserted, the unit is compared and and a current sensor, wherein the control electrodes of the arrester guides correction circuit and a first surge arrestor multiplying circuit connected to outputs of the control unit, via the input of which the comparator is connected to a current sensor included in the correction circuit. The inclusion of a feedback generator, namely a current sensor and a comparator unit, in the control circuit of the generator allows the generator to be connected to the load at the moment when the current in the correction circuit becomes equal to or greater than the expected current in. circuit multiplication circuit. Thereby, the charging mode of the correction capacitor at the beginning of the pulse is eliminated, which means that the amplitude uniformity of the pulse e increases. FIG. 1 given generator circuit; in fig. 2 and 3 are the voltage and current curves in the generator circuit, respectively, with a delay in connecting the generator to the load until the current in the correction circuit is equal to the expected current in the circuit of the multiplication circuit and without delay. The generator contains storage capacitors 1, arresters 2, a correction capacitor 3 is shunted by a chain of inductance k, and a surge voltage 5- The conclusions of the storage and correction capacitors are connected via charging resistors 6 to the power supply 7. The control electrodes of the voltage regulator 5 of the correction circuit and the voltage regulator 2 are connected to the outputs of the control unit 8, the input of which is connected to the sensor 10 tons through the reference unit 9. The output of the generator is connected to the load J 1. The generator works as follows. In comparison unit 9, the expected value of the current in the loop of the multiplication circuit is set. From the power source 7 through the charge resistors 6, the storage capacitors and the correction capacitor 3 are charged with the polarity opposite to the storage capacitors. 2 .4 Then, from the control unit 8, an impulse is issued to start the J arrester of the correction circuit. Fault 5 triggered, a transient in the correction circuit begins. After time tj (Fig. 2), when the current (curve 1) in the correction circuit reaches the value of the expected current (curve 2) in the multiplication circuit and the signal taken from the current sensor becomes equal to the one specified in the comparison unit, the latter gives a pulse to the control unit . The control unit generates a pulse to trigger the arresters 2 of the multiplication circuit, thereby connecting the generator to the load. A pulse (curve 3) is formed on the load, which is the sum of two components: one component is the voltage (curve) generated by the correction capacitor 3, another component is the voltage (curve 2), formed by capacitors 1. It provides the generator with a delay in connecting the load to the high amplitude of the pulse, which is well illustrated by comparing the considered curves x (FIG. 2) with the curves (FIG. 3) when both circuits are driven simultaneously. The performance of the generator according to the proposed scheme as compared with the basic one allows to significantly increase the uniformity of the pulse amplitude. Invention Formula High Voltage Pulse Generator by author. St. No. L403B2, characterized in that, in order to increase the uniformity of the pulse amplitude at the load, a control unit, a comparison unit and a current sensor are inserted into it, and the control electrodes of the correction circuit and the first digit of the multiplication circuit are connected to the outputs of the unit control, the input of which through the comparison unit is connected to the current sensor included in the correction circuit. Sources of information taken into account during the examination 1. USSR Author's Certificate No., cl. H 03 K 3/53, 11.03.76, s t t /one