SU1078557A1 - Polyphase rectifier with voltage multiplication - Google Patents

Abstract

MULTI-PHASE MULTI-VOLTAGE RECTIFIER, containing in each of the phases parallel connected capacitor and diode circuits, consisting respectively of two series-connected capacitors and two series-connected diodes, the common point of the capacitor of the capacitor chain connected to the input terminal for connecting one of the phases -phase source of supply voltage, and each of the common points of connection of the capacitor and diode circuits through the corresponding additional d, connected in the forward direction with respect to diodes of the diode circuit, is connected to one of the output terminals for connecting the load, characterized in that, in order to increase the multiplication factor of the voltage and improve the quality of the output voltage by reducing the ripple factor, each of m phases parallel to the main diode circuit, similar additional chains are included, with the total number of diode chains of each phase being equal, the diode chains of different phases are combined into groups of tn-1 chains each, the junction points series-connected diode diodes (L chains belonging to the same group are combined and their common connection point is connected to the input terminal for connecting the phase of the m-phase power supply not belonging to the specified group of diode chains. 00 ate cl

Description

The invention relates to electrical engineering and can be used to power various loads that require an increased (as compared to a source) voltage and are critical to its pulsations. A multiphase voltage multiplier rectifier is known, consisting of n consecutive diode circuits, consecutive capacitor circuits and a load 1. However, this rectifier has a large number of multiplying capacitors and does not ensure the symmetrical operation of the phases of the AC source. In addition, the pulsations of the rectified voltage of this rectifier are relatively large. A multiphase voltage multiplier rectifier is known, consisting of capacitor circuits containing two capacitors each connected in series, successive circuits of each diode and load 2 diodes. The closest one to this is a multiphase voltage multiplier rectifier containing in each of These phases are parallel-connected capacitor and diode circuits, consisting respectively of two series-connected capacitors and two series-connected diodes, with the common point capacitor capacitor circuit connections are connected to an input terminal for connecting one of the phases of a w-phase supply voltage source, and each of the common connection points of the capacitor and diode circuits is connected through a corresponding additional diode connected in the forward direction with respect to the diode diode circuits one of the output pins for connecting the load 3. The known rectifier provides a half of the voltage ripple factor (less than 0.03 for a three-phase AC source) and twice the output voltage. However, in some cases, the multiplicity of voltage multiplication is insufficient, and the ripple factor is too high. The purpose of the invention is to increase the frequency ratio of the voltage and improve the quality of the output voltage by reducing the ripple factor. The goal is achieved by the fact that in a multiphase voltage multiplier rectifier containing in each of its phases phases connected in parallel a capacitor and a diode circuit, consisting respectively of two series-connected capacitors and two series-connected diodes, and the common point of the capacitor of the capacitor chain connected to the input terminal to connect one of the phases of the t-phase power supply source, and each of the common connection points of the capacitor and diode circuits The corresponding additional diode, connected in the forward direction with respect to the diodes of the diode circuit, is connected to one of the output pins for connecting the load, similar additional circuits are included in each phase phase parallel to the main diode circuit, the total number of diode circuits of each phase being - 1, diode chains of different phases are combined into now groups - 1 chain in each, connection points of series-connected diodes of diode chains belonging to the same group are combined and their common connection point and is connected to the input terminal for coupling the m-phase phase power source, not belonging to the specified group of diode chains. The drawing shows a circuit diagram of an other phase rectifier with a very high voltage with the number of phases m 3. The rectifier contains three phase cells, each of which consists of two series-connected capacitors 1, 2; 3, 4; 5, 6 and two pairs connected in series according to diodes 7, 8, 9, 10; 11, 12, 13, 14; and 15, 16, 17, 18. The anodic and cathodic outputs of both pairs of diodes of each phase cell are connected to the terminals of series-connected capacitors. In addition, the anode terminals of the pairs of diodes in each phase cell are connected to the cathodes of additional diodes 19-21. cathode leads - to the anodes of additional diodes 22-24. Anodes and cathodes of additional diodes, respectively, are combined, between the combined anodes and cathodes of additional diodes the load 25 is turned on. The multiphase voltage rectifier works as follows (for simplicity, we first consider the operation of the device at idle). At the moment of time corresponding to the positive potential of the phase terminal A relative to the phase terminal B, the maximum voltage across the line U, B "of the capacitor 4 across the circuit is: phase terminal A, diode 12, capacitor 4, phase terminal B, capacitor 1 via the circuit: phase terminal A, capacitor 1, diode 7, phase terminal B. At the moment of time corresponding to the positive potential of the phase terminal B relative to the phase terminal A, the capacitor 2 is connected to the "" capacitor 2: phase terminal B, diode 8, capacitor 2, phase terminal A and capacitor 3 along the circuit: phase adhesive mma B, capacitor 3, diode 11, phase terminal L. The capacitors 1-4 can be charged through the corresponding diodes and at other points in time during potential interaction of the phase terminals A – C, C – A, B – C and C – B. In the same manner as described, capacitors 5 and 6 are charged at the appropriate time points (the polarity of the charge of the capacitors is shown in the drawing). The load voltage is applied along the following circuits: phase terminal A, capacitor 2, additional diode 22, load 25, additional diode 20, capacitor 3, phase terminal B - at the positive potential of the phase terminal B, or phase terminal B, capacitor .4 , additional diode 23, load 25, additional diode 19, capacitor 1, phase terminal L - with a positive potential of the phase terminal B relative to the phase terminal L, etc., in each half-cycle of the phases of a multi-phase AC source. Thus, at any time through the additional diodes 19–24, the voltages of two capacitors of a consistent polarity and the linear voltage of a multiphase AC source are applied to the load, i.e., in the limit, the arranged amplitude linear voltage of a multiphase AC source. At the same time, the frequency of the pulsations and the amplitude of the variable component of the main harmonic remain at the level of a conventional bridge circuit of a full-wave rectifier. This circumstance leads to the fact that the ripple factor Kt (the ratio aMnj of the volume of the variable component of the fundamental harmonic to the average value of the rectifying voltage) decreases significantly.

Claims (1)

MULTI-PHASE RECTIFIER WITH VOLTAGE MULTIPLICATION, containing in each of the phases parallel-connected capacitor and diode circuits, consisting respectively of two series-connected capacitors and two series-connected diodes, and the common connection point of the capacitors of the capacitor chain is connected to the input terminal for connecting one of the phases of the w-phase power supply voltage, and each of the common connection points of the capacitor and diode circuits through the corresponding additional diode, incl in the forward direction with respect to the diodes of the diode circuit, connected to one of the output terminals for connecting the load, characterized in that, in order to increase the frequency multiplication of the voltage and improve the quality of the output voltage by reducing the ripple factor, in each of the w phases in parallel similar additional circuits are included in the diode chain, with the total number of diode circuits of each phase equal to w — 1, diode circuits of different phases are combined into pot groups — 1 circuit in each, connection points after The series of connected diodes of the diode chains belonging to one group are combined and their common connection point is connected to the input terminal for connecting the phase of the m-phase power supply that does not belong to the specified group of diode chains. SU .... 1078557