SU1441464A1 - Pulsed voltage generator - Google Patents

Abstract

The invention relates to high-voltage impulse technology. The purpose of the invention is to increase the steepness of the leading edge of the pulse. The pulse voltage generator contains a charging device 1, the output of which is connected to an energy storage device made of series-connected storage elements 2, and a multielectrode discharge 3 with series-connected air gaps, through which a load 4 is connected to the energy storage device. Cumulative elements 2 are electrically connected with the electrodes of the discharge 3 with the help of connecting elements (resistors) 5. The storage elements 2 are charged by the charging device 1. Co dinitelnye elements 5 is transmitted uniformly distributed over the storage element voltage at the interelectrode gap surge arrestor 3, wherein okazyvayuts ravnsh voltage. After the breakdown of the gaps of the discharge element 3, the storage elements 2 are discharged to the load 4 and a voltage pulse with a higher amplitude and a shorter leading front, i.e., having a greater leading edge steepness, is generated on it. 3 hp ff, 2 ill. (Oh (L

Description

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The invention relates to high-voltage pulse technology and can be used in pulse voltage generators to obtain

high voltage pulses with a short front.

The purpose of the invention is to increase the steepness of the leading edge of the pulse.

Fig. 1 shows a schematic diagram of a generator of pulsed voltages j in Fig. 2 — the execution will be connected by bHbix elements in the form of flat screens, a general view.

The pulse voltage generator contains a charging device 1, the output of which is connected to an energy storage device J made of series-connected storage elements 2, and a multi-electrode discharge 3 with series-connected air gaps through which the load 4 is connected to the energy accumulator connected to the electrodes of the surge 3 with the help of connecting elements (resistors) 5 which can be made in the form of resistors or flat screens from the resis ivnogo material (e.g., resistive plates or grids recruited from resistors or capacitors)

The pulse voltage generator works as follows.

Accumulation elements 2 are charged by a charger.

The connecting elements 5 through the accumulative elements 2 transmit a uniformly distributed voltage to the interelectrode gaps of the discharge 3, as a result of which the interelectrode gaps of the discharge 3 turn out to be equal voltages. Therefore, the voltage on the arrester as a whole rises to a higher value, as a result of which the load 4 does not pass through the harmful signal that would have occurred if there was a special voltage divider connected to the discharge terminal 3. storage cells 2 are discharged to load 4 and a voltage pulse with a higher voltage is generated on it

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amplitude and less short leading edge, i.e. having a great frontline slope.

When performing the connecting elements 5 in the form of resistors, the generator works in a similar way. But in contrast to the previous version, the premature discharge of the storage elements 2 is prevented by the active resistance of the resistors, and not by the parasitic parameters of the connecting elements (inductance and active resistance).

When performing the connecting elements 5 in the form of flat screens, made of resistive plates, the generator operates as follows. When charging accumulative elements 2, the electric field in the spaces between connecting elements 5 is more uniform, which allows accumulating elements 2 to be charged up to. higher voltages and thereby obtain a higher steepness of the leading edge of the pulse when the storage elements 2 are discharged. to the load 4.

Claims (4)

1. A pulse voltage generator containing a charging device, the output of which is connected to an energy storage device made of successively connected accumulative elements and a multielectrode discharge gap with series-connected interelectrode gaps, characterized in that, in order to increase the steepness of the leading front pulse, accumulative elements are electrically connected to the electrodes of the arrester with the help of connecting elements. 2. The generator according to claim 1, about t l and h a-y y and with the fact that the connecting elements are made in the form of resistors. 3. Generator according to claims 1 and 2, characterized in that the connecting elements are made in the form of flat screens. 4. Generator on PP. and 3, characterized in that the screens are made of resistive material. Fie.2