SU813722A1 - Multicascade pulsevoltage generator - Google Patents

Description

(54) MULTISTAGE PULSE GENERATOR

VOLTAGES of stable operation of multigap gaps of the generator. The goal is achieved by the fact that in a multi-stage pulse voltage generator containing a source of charge, a voltage of five, a ignition device, and voltage multiplication stages, each of which includes a storage capacitor, which forms and charges resistors, is controlled by a multi-gap discharge. a bottom, an auxiliary condenser, a voltage regulator and a spiral generator, the input of which is connected to the output of a voltage regulator, and the first output of a spiral generator is connected to a control electric th mnogozazorno- j; The second discharge, the second output through the auxiliary capacitors is connected to the output of the ignition device, while one of the additional inputs of the spiral generator is connected to the first electrode of the multi-discharge discharge and the storage capacitor plate, the second cover of which is connected to the corresponding circuit in series connected forming resistors, voltage regulators are connected to charge capacitor 25 charge circuit, with the second auxiliary input of the spiral generator each This stage is connected to the input of a voltage regulator through a diode. The drawing shows a scheme of a multistage pulse generator voltage and and. The generator circuit contains a source of charge voltage 1, a trigger device 2 and multiplication steps, each of which includes a storage capacitor 3, series-connected forming resistors 4 and 5 and a charging resistor b, controlled by a multi-gap 7, auxiliary capacitor 8, a voltage regulator 9, in parallel with which an additional resistor 10 is turned on, a spiral generator 11, the input of which is connected to the output of voltage regulator 9 and the first output of a spiral io generator 11 is connected to a control The electrode 12 of the multi-gap spark 7, the second output through the auxiliary capacitors 8 is connected to the output of the ignition device 2, with one of the additional inputs of the spiral generator And connected to the first electrode of the multi-gap spark 7 and the plate of the storage capacitor 3, the second plate of which is connected to the circuit in series connected grounding resistors 4 and 5, the input of which is connected to one of the terminals of the charging device I, the second output of which is connected to the input of the circuit in series charging resistors 6 connected via voltage regulators 9 to the first electrodes of multi-gap gaps 7. Voltage stabilizers 9 are connected to the charging circuit of storage capacitors 3, while the second auxiliary input of the spiral generator 11 of each stage is connected to the input of voltage regulator 9 through diode 13. The generator works as follows. The storage capacitors 3 are charged from the source 1 of the charging voltage through charging resistors 6, the stabilizers 9 to the springs with parallel-connected additional resistors Yu and the forming resistors 4 and 5. At the same time, voltage from the stabilizers 9 through the diodes 13 generators 11 to the required voltage level. The diodes 13 exclude the discharge of the spiral generators through additional resistors 10 intended to unload the stabilizers 9 1 Apr current, as the storage capacitors 3 charge. After charging the storage capacitors 3 from the igniter 2 has finished, a pulse is applied to start the first spiral generator 11, which generates two high-voltage pulses, one of which is fed to the control electrode 12 of the multi-gap arrester 7 and causes its operation, and the second next start helical generator 11. Starting other multigap arrester 7 is provided similarly. The application of the proposed device allows for a wider zone of stable operation of the generator, increases the efficiency of charging the device and reduces the charging time of the auxiliary generators, which allows increasing the frequency of operation of the generator. Mula isooretins Multistep-generator of impulse voltage, containing source of voltage, ignition device and voltage multiplication stage / keni, k. ;; yes, of which includes iako; .the rotary capacitor, forming and: ;;; armature resistors, carbon fiber, gapping gage, auxiliary capacitor, voltage regulator, and spiral generator, whose input is connected to the output of the voltage regulator, and the first output of the spiral generator is connected to the control electrode the second output, through the auxiliary capacitors, connect the pins with the output of the ignition device, the ODIs of the additional inputs of the CilH generator are connected to the first electrode of the multi gap discharge capacitor and the capacitor plate, the second one is connected to the corresponding circuit of series-connected forming resistors , characterized in that, in order to increase the efficiency of the charging device and expand the zone of stable operation of multi-gap arresters, dineny in the charging circuit accumulative

The capacitors, in this case, the second additional input of the spiral generator of each stage is connected to the input of a voltage regulator through a diode.

Sources of information taken into account in the examination

1. US patent number 3531739, class. 315-200, 29.12.70.

2. USSR author's certificate for application No. 2623234 / 18-21, 02.06.78.

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Claims (1)

A multistage pulse voltage generator containing a charging voltage source, an ignition device and voltage multiplication steps, each of which includes a storage capacitor, forming and charging resistors, a controlled multi-gap discharger, an auxiliary capacitor, a voltage regulator and a spiral generator, the input of which is connected to the output of the stabilizer voltage, and the first output of the spiral generator is connected to the control electrode of the multi-gap arrester, the second output through auxiliary capacitors are connected to the output of the ignition device, while one of the additional inputs of the spiral generator is connected to the first electrode of the multi-gap spark gap and the lining of the storage capacitor, the second lining of which is connected to the corresponding circuit of series-connected forming resistors, characterized in that, in order to increase the efficiency of the charging devices and expansion of the zone of stable operation of multi-gap arresters, voltage stabilizers are connected to the charging circuit -negative capacitor with the second auxiliary input helical generator of each stage is connected to the input of the voltage regulator through the diode.