SU928567A1 - Converter of ac voltage to dc voltage with voltage doubling - Google Patents

Description

The invention relates to an electret technique, namely, devices for converting an alternating voltage into a constant voltage and is intended for use in high-voltage sources of a constant voltage power supply,.

A voltage-doubled converter is known, comprising chains of a diode and a capacitor connected in series, which are two connected to each phase of a three-phase power source.

The disadvantage of this device is that it contains a large number of diodes and capacitors, which complicates its design and reduces reliability.

Closest to the invention is a voltage doubled converter containing a rectifying Moct, the AC inputs of which are connected to two phases of the power source, and a third phase connected to the chain of series

Claims (2)

Connected capacitors, the free terminals of which form the outflow of water and are connected to the DC terminals of the rectifying bridge. A disadvantage of the known device is its relatively low reliability. This is due to the fact that during operation on each of the four arms with semiconductor diodes an increased reverse voltage occurs, equal to the sum of the amplitude voltage of the alternating current network and the voltage of one of the arms with a capacitor . Since capacitors can be charged up to a voltage equal to the amplitude value of a linear network voltage, the reverse voltage on each of the arms with diodes reaches a value equal to twice the amplitude of the AC voltage. In the absence of semiconductor diodes with the required reverse voltage, a test connection of several diodes with a lower permissible apparent voltage is widely used, which makes the converter more complicated. The purpose of the invention is to increase reliability by reducing the reverse voltage. The goal is achieved by the fact that the AC voltage-to-DC converter with voltage doubling contains a bridge rectifier whose AC outputs form two input terminals for connecting the two phases of the power supply and connected in parallel to the output terminals a chain of successively connected capacitors , the common point of which is connected to the input terminal for connecting the third phase of the power supply, each of the DC terminals of the bridge rectifier is connected to one of the output terminals through The diode inserted in the forward direction is optional. The drawing shows a schematic diagram of the converter. The circuit consists of a bridge rectifier made on diodes 1-, series-connected capacitors 5 and 6. Phases a, b, c, the power supply are connected to the input of the bridge rectifier and the junction point of capacitors 5 and 6. Combined diode cathodes 1 and 2 are connected to the anode of the additionally introduced diode 7, and the combined anodes of diodes 3 and 4 are connected to the cathode of the additionally introduced diode 8. Free leads of diodes 7 and 8 connected to capacitors 5 and 6 form the output terminals for connecting load 9. The device operates as follows m manner. When a three-phase alternating current is applied, capacitors 5 and 6 are charged up to the amplitude voltage of the supply mains. Capacitor 5 is charged through diodes 1, 3 and 7 during half-periods when the voltage Ufl and U-j is destructive. During these half period diodes 3,., And 8 are locked. After changing the sign of voltages, UQC and diode 3, and 8 are unlocked and capacitor 6 is charged. As a result, capacitors 5 and 6 are charged, during the half-periods not conducting for each charging circuit, the reverse voltage on each series diode connection 1i7,2i7, zi8, + i8 ,, reaches the double amplitude of the line voltage. In connection with the fact that the voltage UQQ and. shifted in phase, then each of the listed diode pairs into non-conducting half-periods form a voltage divider. If the reverse voltages and diode currents are equal, 0 | brother voltage on each of the diode arms does not exceed the amplitude of the line voltage. The inclusion of additional diodes 7 and 8 permits a reverse voltage diode to be used in each of the four arms of the lower class, or it eliminates the need to connect additional diodes in series to each of the arms. Thus, the device has a higher, compared with the known reliability. Claims An alternating voltage-to-voltage converter with double voltage, containing a bridge rectifier, the AC outputs of which form two input terminals for connecting the two phases of the power supply and connected in parallel to the output terminals a chain of "series-connected capacitors whose common point is connected with an input terminal for connecting the third phase of the power supply, characterized in that, in order to increase reliability by reducing the reverse voltage, each of the terminals A direct current bridge rectifier is connected to one of the output pins via an additionally inserted diode connected in the forward direction. Sources of information taken into account during the examination 1. USSR author's certificate No. 506103, cl. H 02 M 7/19, 197. 2. USSR Author's Certificate No. 201518, cl. H 02 M 7/10, 196. with f J i 5-g