SU1037419A1 - Current pulse generator - Google Patents

Abstract

1. A PULSE CURRENT GENERATOR containing a source of direct current connected through a first switch shunted by a resistor to a partitioned primary winding of a two-winding inductive storage device, the secondary winding of which is connected to an active-inductive load, with the primary winding section of a two-winding inductive storage device connected in series with each other Corresponding second switches, shunted by resistors, control units, are used in order to form apetseidalnogo pulse DC source configured reversion weave. In the load circuit, a current sensor is connected, the output of which is connected to the input of the first control unit, whose outputs are connected to the corresponding control inputs of the first and second switches and the input of the second control unit, whose output is connected to the control input of the direct current source. 2. The generator according to claim 1, characterized in that, in order to increase the efficiency by matching the parameters of the DC source with the load parameters in the interval of the impulse area, between the beginnings of each previous and each subsequent sections of the primary winding of a two-winding inductive heater, between the end of T and each previous and each subsequent sections of the primary winding of a two-winding inductive drive, additional switches are included, the control inputs of which are connected to the additional outputs first control unit. 00 4 ;: CO

Description

The invention relates to sources of windings of electromagnetic systems of plasma installations.

In order to power the windings of electromagnetic systems of what kind of Camacomac type, sources generating, in active-inductive load, trapezoidal current pulses are generated.

A known circuit for generating powerful current pulses, using an inductive drive with a circuit connected to it, consisting of series-connected cells, each of which is resistive, shunted. switch 1.15

This scheme has several drawbacks: the energy stored in the inductive storage device must exceed, allocated in the load significantly, more than 4 times due to the loss of 20 active resistances in the time interval of the whole pulse; there is no possibility of matching the parameters of switches and direct current sources of thyristor converters with the load; switches. DC source and accumulator should be calculated cha-current. more than two times greater than the load current, the insulation of the winding of the power cable to the ground must be designed for the maximum load voltage of the insulation of the switches and their shunt resistances of all cells relative to the earth, except for the cell connected to earth, must be designed for a voltage greater than the switched.

The DC source that charges the inductive drive should be designed for high power. j

A current pulse generator is known, which contains a DC source, a two-winding inductive drive 45 with a partitioned primary winding; This section is connected in a series-sequential scheme with active resistances, shunted switches with control-back blocks, and the secondary winding is connected to the load 2.

This scheme makes it possible to match the parameters of the switches and. DC source with load due to the choice of the appropriate ratio of turns of both windings and the number of sections. The voltage of the primary winding sections, switches and their active resistances shunt relative to the ground - 60 are the same and equal to the switched voltage.

The disadvantage of this power source is that it provides in the load a current rise, but not 65

bakes the formation of trapezoidal impulse.

The purpose of the invention is the formation of a trapezoidal current pulse, as well as an increase in efficiency by matching the parameters of the DC source with the parameters of the load in the interval of the imdulse site.

For this, in a pulse current generator, containing a direct current source, connected via a first switch, shunted by a resistor to a partitioned primary winding of a two-winding inductive drive, the secondary winding of which is connected to an active-inductive load successively through the corresponding second switches, shunted by resistors, control units, the DC source is reversible m, is included in a contour load current sensor, whose output is connected to the input of the first control unit which outputs are connected to respective inputs of the gate of the first and second switches, and the input of the second control unit, the output of which is connected to the control input of the DC source; between the beginnings of each previous and each subsequent sections of the primary dual-winding inductive accumulator, as well as between the ends of each previous and each subsequent sections of the primary winding of the Double-winding inductive accumulator, the AO switches are connected, each of which has a single output connectors connected to the additional output of the first switch of the first inverter with the primary switches. . ; . . ,, ...

Figure 1 shows the electrical circuit of the generator of current pulses for the case when the parameters of the DC source correspond to the parameters of the load; Fig.2 shows an electrical circuit of the generator for the case when it is necessary to coordinate the parameters of the source of the i-constant current and the load.

 The current pulse generator contains a reversible source 1 of direct current, section .2 of the primary winding of a two-winding inductive storage device, the first switch 3, shunted by resistor 4, the second switch 5, shunted by resistor b,; the secondary winding 7 of the drive, current sensor 8, the first and second control blocks 9 and 10, additional switches 11, active-inductive load 12,

Claims (2)

1. CURRENT PULSE GENERATOR, comprising a direct current source connected via a first switch shunted by a resistor to a partitioned primary winding of a two-winding inductive drive, the secondary winding of which is connected to an active-inductive load, and the primary winding sections of the two-winding inductive drive are connected in series through the corresponding the second switches shunted by resistors, control units, with the fact that, in order to form a trapezoid of the current pulse, the DC source is reversible, a current sensor is included in the load circuit, the output of which is connected to the input of the first control unit, the output of which is connected to the corresponding control inputs of the first and second switches and the input of the second control unit, the output of which is connected to the control input of the source direct current. 2. The generator according to claim 1, characterized in that, in order to increase the efficiency by matching the parameters of the direct current source with the load parameters in the interval of the pulse platform, between the beginnings of each previous and each subsequent sections of the primary winding of a two-winding inductive drive, as well as between the ends of each of the previous and each subsequent section of the primary winding of a two-winding inductive drive, additional switches are included, the control inputs of which are connected to additional outputs of the first block management. "Exhibition Center" "1037419