SU864464A1 - Ac-to-dc voltage converter - Google Patents

Description

(54) AC VOLTAGE CONVERTER TO PERMANENT

one

The invention relates to a converter technique, namely, devices for reversibly converting alternating current into direct current, and can be used to power DC motors.

A variable-to-constant voltage converter is known, comprising a bridge rectifier and a bridge inverter electrically connected to each other 11.

However, this converter has relatively low energy characteristics with deep regulation.

The closest to the present invention is an AC-to-DC converter, containing a three-phase rectifying bridge, to the DC diagonal of which at least one thyristor breaker is connected, connected to the output terminals of the AC bridge, and a single-phase rectifying bridge with diodes, the diagonal of the alternating current of which is connected to the output terminals, and the diagonal of the direct current is connected to the inverter driven by the network 2.

The disadvantage of this converter is the low energy performance when powering several loads.

The purpose of the invention is to increase the energy performance when feeding two-jsx and more loads.

This goal is achieved by the fact that in the variable transducer

10 DC to DC voltage, containing a three-phase rectifying bridge, to the DC diagonal of which at least one thyristor breaker is connected, made

15 according to a bridge circuit and an ac diagonal bridge connected to the output pins, and a single-phase rectifying bridge on / diodes, the ac diagonal of which

20 is connected to the output terminals, and the DC diagonal is connected to an inverter driven by the network; the poles of the same name of the three-phase and single-phase rectifier bridges are combined.

25

FIG. Figure 1 shows an electrical circuit for converting an alternating voltage into a constant voltage with one chopper; in fig. 2 non 30 how many interrupts.

The converter contains a transformer 1 with three groups of 2,3 and 4 windings, the first group of windings 2 is connected to the input of a bridge rectifier 7, the valve group 8 is connected to the group 9 of inverter valves 6. The DC breaker 10 is reversible with connections 11 load, which can be used as a motor 12 constant current. The capacitor 13 is connected to two groups 8 and 14 of the valves of the rectifier 1, and the second group of 15 valves of the inverter 6 is connected to the output of the reactor 16, the second output of which is connected to the second group of 14 valves of the rectifier 7.

The number of turns of the first group of 2 windings of the transformer 1 is greater than the number of turns of the second group of 3 windings.

The converter of the variable on .gff w ing to a constant works as follows.

Consider two main modes of operation: the mode of energy consumption from the network and the mode of energy release in se

In the network power consumption mode, the chopper 10 maintains a predetermined voltage (or current) at the terminals 11. In this case, the energy supplied from the network to the interrupter 10 through the rectifier 7. Inverter 6 in this mode is closed, since the voltage at the input 5 of the inverter 6 exceeds the voltage of the capacitor 13, In the mode of returning energy to the network, the interrupter 10 supports at the terminals 11 a given current value (or voltage), when energy is supplied from the motor 12 to the capacitor 13, the voltage on the capacitor rises and closes the rectifier 7. With a further increase in the voltage on the capacitor 13, the inverto 6 opens and energy begins to flow into the network. An inverter control circuit (not shown) generates control pulses of the inverter 6 with a minimum advance angle sufficient to switch thyristors (inverter 6 valves. In the converter, control pulses flow to the inverter 6 all the time, because when switching to power consumption mode the inverter 6 is closed by reducing the voltage on the capacitor 13 to the value of the rectified voltage of the rectifier 7. The reactor 16 ensures the operation of the inverter 6 in the continuous current mode, which increases the energy performance of azovatel.

 In the considered modes, the power factor is optimal, since the rectifier does not have phase angle control, and the inverter operates with minimum power.

5 switching capacity angle of incidence.

The most effective application of this device is in installations operating with a large number of inclusive research institutes and powered from a network of limited power.

Claims (2)

1. The patent of England No. 940435, cl. H 02 F, 1963. 2. Authors certificate of the USSR 238656, cl. H 02 M 5/27, 1966.