SU1385268A2 - Device for charging powerful pulse generator storing capacitor - Google Patents

Abstract

The invention relates to a pulse technique and can be used to charge a capacitive storage device. The invention makes it possible to increase the stabilization of the charge power while at the same time increasing the efficiency and increasing the voltage by providing an external static characteristic of the device that is close to hyperbolic. The device contains output terminals 1 and 2 for connecting a storage capacitor 3, input terminals 4, 5 and 6 for connection with a three-phase current source, intermediate storage capacitors 7 and 8 and a rectifying unit made on six diodes 9-14, forming three valve cells, two diodes in each. Due to the fact that the initial charge current of capacitor 3 is limited only by the resistance of the charging circuit, and to the degree of charge, by the reactance of intermediate storage capacitors, the external static characteristic of the device is close to hyperbolic, which ensures the stabilization of the charge power and improves the specific performance devices. 1 il. i (L

Description

N)

The invention relates to a pulse technique, can be used, for example, to charge a capacitive storage device and is additional to auth. St. No. 813721.

The aim of the invention is to increase the stabilization of the charge power while simultaneously increasing the efficiency and increasing the voltage by providing an external statistical characteristic of the device that is close to hyperbolic.

The drawing is a schematic electrical diagram of the device.

The device for charging the storage capacitor contains a positive 1 and a negative 2 output terminals for connecting the storage capacitor 3, input terminals 4-6 for connection to a three-phase AC source, intermediate storage capacitors 7 and 8 and a rectifier unit made on six diodes 9 -14, forming three valve cells with two diodes in each, while diodes 9, 10 and 12, 13 in two cells are connected in series, the cathodes of diodes 9, 10 and 12, 13 of these valve cells are connected and form accumulate the output output terminal, to the phase points of both cells are connected one by one to the intermediate storage capacitors 7 and 8, the second lining of the intermediate storage capacitor 7 is connected to the first valve cell, forms the input terminal 4, the other facing of the intermediate storage capacitor connected to the second valve Cell connected to the first input terminal 4, the anodes of the first and second valve cells form the second and third input cells, devices 5 and 6, respectively, one third of the valve cell images Ana are connected in series with a pair of diodes 14 and 11, the anodes of which. form a negative output terminal 2 and the cathodes are connected to the second and third input terminals 5 and 6, respectively, an additional intermediate storage capacitor 15, one plate of which is connected to the negative output terminal 2, and the other - to the input of the second terminal 5.

The device works as follows.

0

five

0

five

0

five

0

five

When considering the electromagnetic processes in the device in order to simplify, let us analyze its operation in the idling mode, when the capacitor 3 is almost charged.

If we assume that at the initial moment of time the magnetic voltage of terminals 6 and 4 is zero, then at this time, under the influence of the magnetic voltage of terminals 5 and 1, diode 13 charges the intermediate storage capacitor 8, the charge of which is completed after 30 el.grad, from the selected reference time, and under the action of the linear voltage of the terminals 5 and 6, the capacitor 15 is charged through diode 11. We assume that it is charged to the amplitude value of the source linear voltage. After 90 el. hail, from the selected reference point through diode 10 to the amplitude value of the linear voltage of the terminals 6 and 1, the capacitor 7 is charged. After 130 zl. hail. from the specified reference point, the line voltage of the terminals 6 and 5 reaches a maximum and is applied to the capacitor 3 by the circuit: terminal 6 - diode 10 - diode 9 - terminal 1 - capacitor 3 - terminal 2 - capacitor 15 - terminal 5 - terminal 6 i.e. at the beginning of the charge cycle, the capacitor 15 discharges to zero voltage on its plates, after which the current passes through diode 14, shunt capacitor 15. If the voltage of capacitor 3 is greater than the linear voltage, then the capacitor 15 discharge to zero is absent. It is only periodically imitated and recharged.

Through 210 el.grad. from the selected reference point, the line voltage at terminals 4 and 5 reaches a maximum and is summed with the voltage of intermediate storage capacitors 8 and 15. As a result, the output amplitude value of the line voltage of the source across the circuit is applied to the output terminals of the device: terminal 5 - terminal 4 - capacitor 8 - diode 12 - terminal 1-- capacitor 3 - terminal 2 - capacitor 15 - terminal 5, and along the circuit: terminal 5 - terminal 6 - terminal 1 - capacitor 7 - diode 9 - terminal 1 - capacitor 3 - terminal 2 - capacitor 15 - terminal 2. Through 270 zl.grad. from the reference point, the line voltage of terminals 4 and 6 reaches a maximum and is summed with the voltage of intermediate capacitor 7. As a result, a double amplitude value of the source line voltage is applied to the output terminals of the device along terminals: terminal 4 - capacitor 7 - diode 9 - terminal 1, capacitor 9 terminal 2 - diode 11 terminal 6 - terminal 4 and terminal 4 - capacitor 7 - diode 9 - terminal 1 - capacitor 3 - terminal 2 - diode 11 - terminal 6 - terminal 5.

 , JQ 52684

current), and not the degree of dose - the reactive resistance of intermediate storage capacitors, the external static characteristic of the device is close to hyperbolic, i.e. stabilization of charge power is provided, which improves the device's specific performance.

Claims (1)

Invention Formula A device for charging the storage capacitor of a generator of powerful pulses according to auth.s. № 813721, t At the end of the discharge of the capacitor jj, it is characterized by the fact that, for about 3, it is discharged into the external circuit. Yes, it is possible to stabilize the charging process of the device and the considered processes run cyclically. power while increasing the efficiency and increasing the voltage, an additional intermediate storage capacitor is inserted in it, one plate of which is connected to the negative output terminal and the other to the second input bus. Due to the fact that the initial charge current of the capacitor 3 is limited only by the resistance of the charging circuit (the sum of the resistances of the three gates and the internal resistance of the phase is caused by the fact that, in order to stabilize the charge power while increasing efficiency and increasing voltage, an additional intermediate storage capacitor is introduced into it, one lining of which is connected to the negative output terminal and the other to the second input bus.