SU930538A1 - Ac-to-dc voltage converter with voltage multiplying - Google Patents

Description

(5) AC VOLTAGE CONVERTER TO PERMANENT WITH MULTIPLICATION VOLTAGE

The invention relates to electrotechnical engineering, in particular, to converter technology, and can be used as a power source in accelerator technology, laser technology and X-ray technology. A voltage-multiplying voltage converter for a three-phase network, containing single-phase, doubles the voltages included in each phase, the outputs of which are connected in parallel through the output diodes in parallel to the output terminals lj. The disadvantage of the transducer is the voltage amplitude, equal to the quadruple value of the input with a sufficiently large number of elements. The closest to the invention is a constant-to-voltage converter with a voltage multiplying for a three-phase network, which allows to obtain a six-fold value of the maximum input voltage. The converter contains valve-capacitor circuits connected to three phases of the mains supply, and the output pins are formed by a chain of capacitors t22 connected in series. A disadvantage of the known converter is a large number of converter elements. The purpose of the invention is to simplify the device while maintaining the maximum output voltage equal to the input's usbore value. The goal is achieved by the fact that in an alternating voltage converter into constant voltage with voltage multiplication, containing valves and three chains of series-connected capacitors, whose common connection points for capacitors are connected to the three corresponding phases of the power supply network, one of the 3 phases is also connected to a chain of valves connected in series and the output terminals are formed by the terminals of the third chain of series-connected capacitors, each one and the terminals of the chain of successively connected The valves are connected to the corresponding output of the first chain in series of capacitors and, through one of the valves connected in the direction coinciding with the direction of the valves of the specified chain, connected to the corresponding output of the second chain of series-connected capacitors, which is connected to the same through another valve of the same direction. from the conclusions of the third chain of series-connected capacitors. The drawing shows a schematic diagram of the converter. The converter contains phases 1, 2 and 3 of the mains. Phase 1 is connected to the first chain of capacitors 4 and 5 connected in series, phase 2 is connected to the second chain of capacitors 6 and 7, phase 3 to the third chain of capacitors 8 and 9 In addition, phase 2 is connected to a chain of series-connected gates. 10 and 11, and the load 12 is connected to the third chain of capacitors 8 and 9. Between the second series of capacitors 6 and 7 and the chain of valves 10 and 11, valves 13 and H are connected, and between the third series to the capacitors 8 and 9 and the second such by the same kidney 6 and 7, valves 1 are turned on and the converter works as follows. In one of the half-periods of the linear voltage, the capacitor is charged, and in the other half-period, the capacitor 5 to the maximum voltage 8 is next to one of the half-period, the voltage of the capacitor C is added with the voltage and the capacitor 6 is charged to double the maximum voltage. Similarly, the voltage of the capacitor 5 is added with a voltage and: j (j in the other half period and the capacitor 7 is also charged to twice the maximum voltage. In parallel, the voltage folds into one of the half periods with the capacitor voltage, and in the 8th half period - with the voltage of the capacitor 5 and the capacitors 8 and 9 are charged up to twice the maximum of 1m; voltage. The voltage Ujj is sco charge condensate B and 9 to triple maximum voltage, As a result, the load voltage increases to six times the maximum voltage. Each gate of the circuit must be designed for twice the maximum voltage. Thus, the proposed device allows to obtain a six-fold value of the maximum output voltage across relation to the input with the minimum number of circuit elements for a three-phase AC network. Claims An alternating voltage converter with a voltage multiplying, containing valves and three chains of successively connected capacitors, in which the common connection points of capacitors are connected to T: repair the corresponding phases of the supply network, and one of the phases is also connected to a chain of series-connected valves, and the output pins are formed by the conclusions of the third chain of series-connected capacitors, which means that, for the purpose of simplification, each of the chain pins series-connected valves are connected to the corresponding output of the first chain of series-connected capacitors, and through one of the valves connected in the direction coinciding with the direction of the valves of the specified chain connected to the corresponding output of the second chain of series-connected capacitors through another gate connected to one of the terminals of the third chain of series-connected capacitors. Sources of information taken into account in the examination 1. The author's certificate of the USSR K 46659, cl. H 02 M 7/10, 1971. 2. Patent ClilA No. 3259830, NKI 321-15, 1966.

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Claims (1)

Claim An AC to DC converter with voltage multiplication, comprising gates and three chains of series-connected capacitors, for which common points of connection of capacitors are connected to three corresponding phases of the supply network, one of the phases being connected to a chain of series-connected valves, and the output the conclusions are formed by the conclusions of the third chain of capacitors connected in series, which is related to the fact that, for the sake of simplification, each of the conclusions of the chain is connected in series of these valves is connected to the corresponding terminal of the first chain of series-connected capacitors and, through one of the valves included in the direction coinciding with the direction of switching on the valves of the specified chain, is connected to the corresponding terminal of the second chain of series-connected capacitors, which is connected through one other valve of the same direction to one from the conclusions. third chain of series-connected capacitors.