SU560307A1 - Three phase voltage doubled rectifier - Google Patents

Description

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The proposed three-phase voltage doubled rectifier is designed to convert AC to constant and can be used to power various devices, in particular, to power high and low pressure arc lamps.

Known rectifiers with voltage doubling, designed to power various devices.

Of the known voltage doubling rectifiers, the closest in technical sushi is the three-phase voltage doubling rectifier, containing two parallel-connected circuits in the casing phase, each of which consists of a capacitor and a diode connected with opposite polarity to another chain, with the junction points of the capacitor and the diode of the corresponding chains of each phase being interconnected through opposite-connected additional diodes, the common points of which are connected to the output pins.

The proposed device differs from the known fact that the points of connection of the diodes and capacitors of the chains of each phase are connected through the choke with the corresponding points of connection of the diodes and capacitors of the chains of the other phase, and the inductance of each throttle is greater than the inductance satisfying the resonance condition in the circuit formed by the choke and capacitor.

This difference allows an increase in the power factor of the device.

The drawing shows a rectifier circuit.

A voltage doubled rectifier contains capacitors 1, 2, 3, 4, 5, 6, which form three pairs of series-connected capacitors, the common points of which are connected to the three phases of the mains voltage 7, 8, 9. Parallel to the three pairs of series-connected capacitors 1 and 2, 3 and 4, 5 and 6 are connected three pairs of series-connected diodes 10 and 11, 12 and 13, 14 and 15. Points of connection of capacitor 1 with diode 10, capacitor 2 with diode 11, capacitor 3 with diode 12, capacitor 4 with a bottom 13, a capacitor 5 with a diode 14 and a capacitor 6

diode 15 is connected to the corresponding terminals of the load 16 via diodes 17, 18, 19, 20, 21, 22, connected in such a way that their polarity at the points of connection with capacitors 1, 2, 3, 4, 5, 6 is opposite to polarity diodes 10, 11, 12, 13, 14, 15 connected to the same points, and the same output of the load 16 are connected to the diodes of only one polarity. The common points of the capacitors 1 and 2, 3 and 4, 5 and 6 are interconnected through the chokes 23, 24, 25, and the common points

diodes 10 and 11, 12 and 13, 14 and 15 are interconnected via chokes 26, 27, 28.

In the positive half-period between phases 7 II and 8, diodes 10 and 13 are opened, and capacitors 1 and 4 are charged from the mains through choke 26, which limits the charge current of capacitors 1 and 4.

At the same time, diodes 18 and 19 are opened (in the absence of voltage on capacitors 2 and 3) and through the load and capacitors 2 and 3 a current with a capacitive component flows from the phases 7 and 8 of the power network. The capacitive component of the network current is compensated by an inductive current of droplets 23 connected between phases 7 and 8. When the polarity changes between phases 7 and 8, diodes 10 and 13, 18 and 19 are closed, and diodes 11 and 12, 17 and 20 are open. The voltage of the charged capacitors 1 and 4, summed with the voltage of the network, is applied to the load, and the capacitors 2 and 3 are charged from the network through the inductor 26. Such processes, when powered by a two-wire network, are repeated with a frequency twice as high network, and when powered from a three-phase network - with a frequency of 6 times higher frequency network. With an increase in the load current, when the voltage across the load drops, the rectifier capacitors begin to function as a capacitive ballast, limiting the load current. In this case, the inductors of the chokes 26, 27, 28 limit the capacitive charge current of the capacitors, and the inductive current through the chokes 23, 24, 25 compensate for the capacitive component of the current flowing through the capacitors 1, 2, 3, 4, 5, 6.

Introduction to the existing rectifier of chokes favorably distinguishes the proposed rectifier with voltage doubling from the prototype, since by compensating for the capacitive component of the current of the inductive component, the power factor significantly increases, especially with a small load resistance. The invention allows, with the same load, not only to reduce the current flowing through the phases of the network (due to an increase in power factor), but also to increase the current flowing through the load (due to the fact that with the introduction of chokes 26, 27, 28) flows both the discharge current of capacitors 1, 2, 3, 4, 5, 6, and partially the charge current).

The proposed voltage doubling rectifier can be used when powering various devices, especially with a falling current-voltage characteristic, for example, when charging capacitors or powering gas discharge lamps.

Claims (1)

Invention Formula A three-phase voltage doubler rectifier containing two parallel-connected circuits in each phase, each consisting of a capacitor and a diode connected with opposite polarity with respect to the other chain, the connection points of the capacitor and the diode of the corresponding chains of each phase being interconnected through counter-connected additional diodes, common points of which are connected to output pins, characterized in that, in order to increase the power factor, the junction points The iodine and capacitor chains of each phase are connected through a choke to the corresponding junction points of the diodes and capacitors of the chains of the other phase, and the inductance of each throttle is greater than the inductance satisfying the resonance condition in the circuit formed by the choke and the capacitor.