SU605297A1 - Ac and dc multiplier - Google Patents

Description

FIG. 2 a three-phase current multiplier circuit is proved.

Terminals 18-23, connected to the AC circuit, are the input terminals of three single phase multipliers. The load 15 is connected in parallel with the output of three multipliers.

The current multiplier shown in FIG. 3, contains two circuits of reactors 24, 25 and 26, 27, each of which is connected to one DC power pole to terminals 28 and 29, respectively, through switching elements, such as controllable ventilators 30, 31 and 32, 33.

The connection of the reactor circuits to each other and the load connection are made in the same way as in the multiplier in FIG. one.

The multiplication of the rectified current s of the multiplier (Fig. 1) is carried out as follows.

At a positive half-wave of an alternating current, the current flows from terminal 9 through valve 5, reactor 1, load 15, reactor 4 and valve 8 to terminal 10.

At another half-wave, current flows through similar elements at the same value: valve 7, reactor 2, load 15, reactor 3 and valve 6. But in this case, the current from reactor 1 will additionally flow through valve 11 and current from reactor 4 through the valve 14 and the current in the load is increased several times due to the use of energy stored in the reactors.

The multiplier in FIG. 1 has the property of reversibility, i.e. it can become a current inverter. For this, the DC power supply is connected to terminals 16, 17, and the I-14 valves must be controlled with appropriate switching devices.

The multiplication of current in three-phase multipliers (Fig. 2), as well as the inversion, is carried out in a similar manner. The coefficient of multiplication increases in proportion to the number of phases, which can be any number.

The multiplication of the direct current (E) of the multiplier in FIG. 3 is achieved by the periodic operation of controlled vencles, by means of which current is fed into the reactors to replenish the supply of electromagnetic energy.

The use of a current multiplier ensures that the alternating current is rectified with a several-fold increase in the current in the load compared to the current consumed. For example, the current multiplier shown in FIG. 1, at experimental verification, gave an increase in the current in the load by 3.5 times in the absence of almost current ripple. The multiplication factor of a three-phase device will be 3 times larger. The multiplication with current in the load simplifies the design of converter transformers.

Claims (3)

1. An AC and DC multiplier containing two circuits from reactors connected to the leads for the lithium source and a circuit of counter-connected gates, in the sense that, in order to increase the multiplication factor and reduce the current ripple, it is equipped with a second counter circuit the valves are turned on, and each reactor is connected between the points of connection of the same electrodes of the adjacent valves of each of the circuits formed by the oppositely connected valves. 2. A multiplier according to claim 1, characterized in that, in order to use it to multiply the direct current, each target of the reactors is connected to each outlet for the power source through counter-controlled controlled valves, 3. The multiplier of claim 1, characterized in that, in order to use it as a current inverter, controlled keys are used as gates. Sources of information taken into account in the examination 1. USSR author's certificate №165500, cl. H 02M 7/10, 1962. 2. USSR author's certificate No. 165226, cl. H 02M 7/10, 1963, sisis I