SU953698A2 - Reservoir capacitor charging device - Google Patents

Description

(5) DEVICE FOR CHARGING ACCUMULATING CAPACITOR

The invention relates to a pulse technique and can be used to charge capacitive storage cells periodically discharged to a pulse load.

A device for charging a storage capacitor is known, which contains a three-phase AC source with separate phase windings and a valve-capacitor bridge rectifier-voltage multiplier formed by two circuits consisting of a diode, a capacitor and a corresponding phase winding, while in the first chain one of the capacitor plates is connected to the cathode of the diode through the first phase winding, vu the second string one of the capacitor plates is connected to the diode anode through the second phase winding, three s phase windings is connected between the cathode of the diode. the first chain and the anode of the diode of the second, and the free terminals of the capacitors and Attpd of both chains are connected between themselves and connected through a diode to the storage capacitor P.

The disadvantage of the known device is relatively low.

5 is the magnitude of the corresponding charge voltage on the storage condensate, which reduces the rate of energy transfer to the storage capacitor.

The aim of the invention is to improve the specific mass and size parameters of the device for charging the storage capacitor.

This goal is achieved by the fact that the device for charging a 5-capacity condenser is additionally equipped with two / diodes, with the first additional diode connected by a cathode to the positive plate of the storage capacitor

20 and the anode to the junction point of the capacitor and the first phase winding, the cathode of the second additional diode to the junction point of the capacitor and the third phase winding, and the anode to the negative plate of the storage capacitor. The drawing shows a circuit diagram of a device for charging a storage capacitor. The device contains a three-phase source of alternating current, the phase windings 1-3 of which are made with separate leads, and two chains of the first of which consist of diode k and capacitor 5, and the second from diode 6 and capacitor 7, while in the first chain one of the capacitor plates 5 is connected to the cathode of the diode through the phase winding 2, and in the second chain one of the capacitor plates 7 is connected to the anode of the diode 6 through the phase winding 1, the phase winding 3 is connected between the cathode of the diode and the anode of the diode 6, the storage capacitor 8 through diode 9 subkey n to the common points of the chains. The anode of the second additional diode 10 is connected to the negative plate of the storage capacitor, and the cathode to the junction point of the capacitor 5 and the phase winding -3, the first additional diode 1 1 to the cathode is connected to pos. | tal plate of the storage capacitor | capacitor, and the anode to the point soy.: diyen phase winding 1 and capacitor 7. The device operates as follows. When considering the operation of the device during the charging of the storage capacitor, for the sake of simplification, we will assume that the storage capacitor is fully charged and does not affect the processes in the device, i.e. it can be disconnected from the device. If we accept that at some point in time the linear voltage of phase windings 1 and 3 is zero, and the linear voltage of phase windings 2 and 3 and the total voltage of phase windings is negative, then through 90 electr.degree. the capacitor 7 will be charged (via diode k) to the linear voltage of the phase windings 1 and 3 through 120 al.h. From the origin to the linear voltage of the phase windings 2 and 3 (diode 6), capacitor 5 will be charged, and after another 30 el. hail, the total voltage of the phase windings will be equal to twice the value of the phase voltage. In this case, the condenser is 9 8 7 through the second additional diode 10, and the capacitor 5 through the first additional diode T1 and the phase windings 3,2 and 1 charge to twice the value of the phase voltage. After 180 el.grad. the total voltage of the phase windings will change its polarity and again reach twice the value of the phase voltage and will be added to the voltage of capacitors 5 and 7. The maximum output voltage of the device for charging the storage capacitor will be 6 (the amplitude value of the source voltage of the source ). When connected to the output terminals of the device of a fully discharged storage capacitor 8, the capacitors 5 and 7 give it the energy stored by them earlier. In the process of transferring energy from a three-phase AC source to a storage capacitor, the structure of the transmission channels for this energy changes many times. In the General case, which corresponds to the initial period of the charge, energy can be transferred to the storage capacitor through the following channels: phase winding 3, diode 6, storage capacitor 8, diode 9; phase winding 1, diode 6, storage capacitor 8, diode 9, capacitor 7, phase winding 1; winding 2 sources, capacitor 5 storage capacitor 8, diodes 9 and; phase windings 1-3) capacitor 5, storage capacitor 8, diode 9, capacitor 7. The listed channels transmit the energy of a three-phase source. Nickname of an alternating current operating in a symmetric three-phase mode in the corresponding parts of the period of change of the supply voltage, when the voltage of these channels exceeds the voltage of the storage capacitor. As the storage capacitor is charged, the number of power transmission channels decreases accordingly. Thus, the first channel provides energy transfer until the voltage on the storage capacitor exceeds the amplitude value of the phase voltage. The second and third channels are up to a voltage of 2.73, and on the fourth channel are up to a voltage of 6. In this case, capacitors 5 and 7 transfer to the storage capacitor the energy previously stored by them from the corresponding phase windings. During this transmission, they are connected in series with the phase windings and act as voltage add-ons.

Claims (1)

Invention Formula A device for charging a storage capacitor according to the autom.St. No., characterized in that, in order to improve the specific weight and size parameters, 53698, 6 it is additionally equipped with two diodes, with the first additional diode connected by a cathode to the positive plate of the storage capacitor, and the anode to the connection point of the capacitor and the first phase winding, the cathode of the second additional diode to the connection point of the capacitor and the third phase 10 windings, and the anode - to the negative lining of the storage capacitor. Sources of information taken into account in the examination 15 1. USSR Copyright Certificate № 86k50, 09/28/79. (prototype). Av D " BUT -1-5 ABOUT BUT"