SU534040A1 - High Voltage Pulse Generator - Google Patents

Description

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The invention relates to radio engineering and can be used to power electrical fences used to fence pastures and pens for farm animals.

The known high-voltage pulse generator for supplying the discharge device consists of a low-voltage power source, a comparison circuit on series-connected diodes, one end of which is connected to the base and the other end is connected via a resistor to the emitter of the transistor, the transformer whose secondary winding is connected through a valve to a capacitor, which is connected to the discharge connected to the load 1.

The purpose of the invention is to increase the efficiency of the generator and reduce its size.

This is achieved by the fact that, in the proposed high-voltage pulse generator, the base of the transistor is connected through a current-limiting resistor to the connection point of the newly introduced high-resistance resistor connected to the load and one of the arrester electrodes.

The drawing shows the principal electrical circuit of the proposed generator.

The high voltage pulse generator contains a low voltage power source 1,

comparison circuit on the series-connected diodes 2, 3, 4, one end of which is connected to the base, and the other end through a resistor 5 is connected to the emitter of the transistor 6,

transformer 7, the secondary winding 8 of which is connected through a valve 9 to a capacitor 10, which is connected to the discharge capacitor 11, connected to the load 12. The base of the transistor 6 through the current limiting resistor

13 is connected to the connection point of the newly introduced high-resistance resistor 14 connected to the load 12 and one of the electrodes of the arrester 11.

The primary winding 15 of the transformer 7 is connected to the collector circuit of the transistor 6. The power source 1 is connected to the generator through the switch 16. The high voltage pulse generator operates as follows.

Turning on switch 16 supplies power from source 1 to the generator, which, in the absence of load 12, is in standby mode. The appearance of load 12 in any

the point of the electrical fence leads to the connection of the power source 1 and the transition of the emitter - the base of pnp-transistor 6 to the high-voltage power supply terminals of the electrical fence through a resistor 13. Generator attenuation

occurs starting with a certain amount of load resistance 12, which varies depending on the type of animal.

The opening of the transistor 6 connects the winding 15 of the transformer 7 to the power source 1, a current flows through the winding 15. When the current reaches a set value determined by the comparison circuit, consisting of diodes 2, 3, 4, conditions are created for closing the transistor 6, which leads to current shutdown through the primary winding 15 of the transformer 7.

The formation of a high voltage voltage pulse applied to the storage capacitor 10 occurs due to the energy stored in the primary winding 15 of the transformer 7 and transmitted to the secondary winding 8.

Deep feedback through the resistors 14, 13 and the load 12 acting on the emitter-base junction of the transistor 6 at the time of forming the high-voltage pulse provides reliable energy transfer to the storage capacitor 10.

Upon completion of the energy transfer process to the storage capacitor 10, the transistor 6 reopens when there is a load 12 on the electrical fence, and the cycle of operation is repeated.

When removing the load 12 from the electrical fence, the transistor 6 closes and the generator goes into standby mode.

Claims (1)

1. US patent No. 3655995, CL. 307/132, from 1972 (prototype). 2 3 if Iini