SU441645A1 - Pulse generator - Google Patents

Description

one

The invention relates to a high-power pulsed technic and can be used, for example, in an electron injection device of a high-power betatron.

Pulse generators containing a charging device are known, which form a line, the input of which is connected to the output of the charging device, a diode, a first control key in the discharge circuit of the forming line to the load, a second control key in the circuit that shunt the load, the control device first and the second key and the delay line.

A disadvantage of the known generators is that they cannot ensure the steepness of the cut of the pulse being formed, which is greater than the steepness of the current increase in the second key. In addition, in known generators, the rate of increase in direct voltage on the second switch is high during the front of the pulse being formed.

The purpose of the invention is to increase the slope of the cut pulse and reduce the rate of increase of the direct voltage on the second key.

This goal is achieved by the fact that the delay line, made of iLC links with nonlinear inductances, is connected in series with

0 by a second thyristor and a diode into the circuit that shunt the load, the common bus of the delay line is located to the connection point of the load with the second thyristor and the common bus of the forming line, and one of the terminals of the line

5 delays through a resistor connected to the output of the charging device.

The invention is illustrated in the drawing.

Pulse generator contains

0 charging device I forming line 2, diode 3, first control key 4, second control key 5, delay line 6 consisting of LC links with nonlinear

inductance, device. 7 control keys 4 and 5, resistor 8 and load 9,

The output of the charger device I, which can be performed, for example, in the form of a half-wave rectifier that feeds from a 50 Hz network, is connected to the input of the forming line 2 and to the anode of the first thyristor switch 4, which is connected to the circuit discharge of the forming line 2 to the load 9, Line 6 delay is connected in series with the second thyristor switch 5 and .dioEqM 3 to pei, shunt the load 9, The output of the delay line 6 is connected with the cathode of the diode 3, the input with the anode of the thyristor switch 5 and through the resistor 8 with the output of the charging device 1, and the total The delay line is connected to the point of load connection with the cathode of the thyristor switch and the common forming line 2. The other end of the load is the common point of the generator and connected with the anode of diode 3 and the cathode of the thyristor switch 4, the thyristor control electrodes The keys 4 and 5 are connected to the outputs of the control device 7.

The generator works as follows.

In the initial state, both lines 2 and 6 are charged with device I.

When a pulse is formed using the control unit 7, the thyristor switches 4 and 5 are turned on. When the thyristor switch 4 is turned on, line 2 begins to unload through load 9, and the front of the output pulse is formed. Turning on of the thyristor key 5 leads to recharging line 6, with the front / wave propagating in line 6 and having at the beginning a slope determined by the speed of the thyristor key 5 as it moves along line 6 to its end escalates . Until the moment when the wave reaches the end of line b, the processes occurring in the circuit of the thyristor switch 6, line 6, are not reflected in the process

discharge line 2 through the thyristor switch 4 to the load 9. At the moment when the wave arrives at the end of line 6, diode 3 is opened, since the inductance

lines 6 turn out to be saturated, then load 9 is short-circuited with a thyristor switch 5 and diode 3. A cut of the output pulse is formed, and the cutoff slope exceeds the slope,

determined by the speed of the thyristor key 5.

By changing the mutual temporal arrangement of the pulses coming from the outputs of the device 7. on the control electrodes of the thyristor switches 4 and 5, you can adjust the temporal position of the cut-off of the output pulse.

On thyristor keys 4 and 5

during the formation of the output pulse, there are no jumps in the anode voltage.

IMPRESSION

The pulse generator, which contains the charging device, forms a forming line, the input of which is connected to

a charger output, a dial, a first control key in the discharge circuit of the forming line to the load, a second control key in the circuit that shunt the load, a device

control of the first and second keys and the back-up line, characterized in that, in order to increase the steepness of the cut-off impul1c and reduce the speed

direct voltage on the second key, in the generator of the delay line, extracted from the LC links with nonlinear inductances, is switched on after

the second T1pistory and diode In the circuit, shunt the load, the common bus line for the support is connected to the point of load connection with the second thyristor and the common bus forming LIN1Sh, and through a resistor to the output of the charger one of the terminals of the load lynin.