SU1032563A1 - Voltage multiplying three-phase rectifier - Google Patents

Abstract

A THREE PHASE VOLTAGE RECTIFIER, containing a choke in each phase, two parallel-connected chains, each of which consists of a capacitor and a diode connected with opposite polarity to the other chain, and the connection point of the capacitor and the diode of the corresponding polarity the phases are interconnected through counter-connected additional diodes, the common points of which are connected to the output pins, which is due to the fact that, in order to increase efficiency by providing high conversion ratio in all operating modes, including idle and short circuit, and expanding the range of use by combining constant output current and constant power, each phase choke is connected between the common junction point of the diodes of this phase and the common junction point of the capacitors, the other adjacent phase when W than the inductance of the throttles and capacitors of the capacitors of each phase form a resonant circuit with a frequency equal to the frequency of the supply

Description

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C35 EP The invention relates to electrical engineering, is designed to convert AC current into constant voltage, and can be used to power various devices, in particular for charging capacitive and inductive drives designed to power gas discharge lamps. A three-phase rectifier is known. Multiply voltage, each phase contains two parallel-connected diode-capacitor circuits with different polarity of switching on the diodes, and the junction points of these diodes of all phases are combined between Oh through additional diodes of the same polarity and connected to the output terminals C 1 1.: However, this rectifier has a low power factor and does not provide a high Conversion Ratio in all operating modes. The closest to the one offered is a three-phase voltage multiplier rectifier containing in each phase, a choke, two parallel-connected chains, each of which consists of a capacitor and a diode connected with opposite polarity with respect to the other chain, and the junction point Satoru diode and respective polarity of each phase are combined with each other via the anti-serially connected diodes nye supplement, common points are connected to the output terminals. This rectifier has a falling load characteristic of high efficiency and power, allowing to obtain twice the voltage with a small amplitude and a high ripple frequency on the load. The disadvantage of the known device is the impossibility of providing a high conversion coefficient in all operating modes including idle mode and short circuit. it is also impossible to provide a combination of constant output current and constant power modes, which leads to insufficient efficiency and a narrow range of use. The purpose of the invention is to increase efficiency by providing a high conversion ratio in all modes of operation, including (accelerating and short-circuiting and extending the range of use by combining constant output current and constant power. The goal is achieved by the fact that in a three-phase rectifier by multiplying the voltage containing in each phase a choke, two parallel-connected chains, each of which consists of a capacitor and a diode connected with an opposite polarity with respect to the other chain, and the connection points of the capacitor and the diode with: the corresponding polarity of each are connected to each other through opposite-connected additional diodes, the common points of which are connected to the output terminals, the choke of each phase is connected between the common connection point of the diodes of this phase and the common connection point of the capacitors of the other adjacent phase, and the inductance of the throttles and capacitors of the capacitors of each phase form a resonant circuit with a frequency of oscillation equal to the frequency of the mains supply. The drawing shows a schematic diagram of a three-phase voltage multiplier (tripling) rectifier, a rectifier with a tripling voltage, contains capacitors 1-6, the second, which form three pairs of series-connected capacitors, the common points of which are connected to the three phases of the mains voltage 7-9. In parallel, 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, 1A and 15, the points of connection of the capacitor 1 with the diode 10, the capacitor 5 with the diode and the capacitor 6 with the diode 15 connected to the corresponding load terminals T6 via diodes 17-22, connected in such a way that their polarity at the points of connection with capacitors 1-6 is opposite to the polarity of diodes 10-15 connected to the same points, and to the same load terminal 16 are connected diodes of only one polarity. Common points of capacitors 1 and combined with common point of diodes 1 and 15 through choke 23, capacitors 3 and f {with common point of diodes 12 and 13 through choke 24 and capacitors 5 and 6 with common point of diodes 10 and 11 through choke 2 The device works as follows fucking time. The voltage between the phases 7 and 8 charges the capacitors 1 and 2 into opposite half-periods of the applied voltage, due to the presence of diodes 10 and 11. Similarly, the capacitors 3 and 4 are charged from the voltage between phases 8 and 9, which are shifted relative to the voltage between phases 7 and 8 by + 120 °, and capacitors 5 and 6 from the voltage between phases 9 and 7, shifted relative to the voltage between phases 7 and 8 by -120. Due to the phase-to-phase shift by 120, the capacitors are charged with a shift in BS. Voltage across capacitors 1 3 | 5, summing with the voltage across the capacitors 2, 6, and with the voltage between phases 7, 8, 9 is applied to the load 1b through one of the pairs of diodes made up of diodes 17, 19, 21 and diodes 18, 20, 22. The alternation of the inclusion of pairs of diodes from the diodes 17, 19, 21 and diodes 18,20 22 occurs with a phase shift of 3t), providing a small coefficient and a high pulse frequency on the load. In addition, as in the analogue, when the resistance is at a load 16 approaching infinity, the capacitors 1-6 are charged to an amplitude value. In this case, the mains voltage, summed with the voltage of one of the pairs of charged capacitors consisting of capacitors 1, 3j 5 and 2, A, 6, is applied to the load, ensuring the load voltage is tripled on the load, and -6 - to decrease the network current to almost zero. When approaching the short-circuit mode. capacitors 1,2, inductors Drossel 23, capacitors 3,, and inductances Drossel 2, capacitors 5, 6 and Drossel inductance 25 form the oscillatory circuits of the Bug Sheroot circuit, which, as in the inductance-capacitance circuits,. provide a constant current through the load regardless of the magnitude of the load resistance. Since the contours are tuned to ca. the network, then in the mode short circuit the current, 34 required from the mains, tends to zero and is determined only by the quality of the specified circuits. As the load resistance grows, the voltage across it increases and the switching angles of the diodes 10–22 change. Thus, the condition of the Bushero circuit and the phase-rectifier rectifier with ut- breaks. the voltage is converted from a current source to a source with a falling load characteristic. Since the source with a falling load characteristic provides maximum power output in the interval between idle and CZ modes, in a wide range of load resistance variation the amount of power delivered to the load remains almost constant (the output power curve has a bend), as in known circuits of sources with a falling load characteristic. The inclusion in the existing rectifier of chokes between the points of connection of capacitors of one phase and the connection of diodes of another phase favorably distinguishes the proposed rectifier. With the tripling of the voltage from the prototype, because due to connecting the chokes 23-25 through diodes 10, 11 12, 13, H, 15 and 17, 18, 19, 20, 21, 22 to the capacitors 1-6 are formed either the inductive-capacitive converter circuits (in the mode close to short circuit), or the circuits of the sources with the falling characteristic (in the mode close to idle). In addition, in the mode close to idle, the proposed rectifier provides triple voltage on the load, which expands the range of use of such a rectifier without a step-up transformer, whose weight and dimensions are higher than that of the converter. The invention makes it possible to limit the number of chokes in comparison with the prototype and to obtain an operating mode that is optimal for charging capacitive accumulators for gas discharge lamps. A rectifier with a tripling voltage can be used when power is applied; x devices, especially with a falling volt-ampere characteristic, for example, when charging capacitors or supplying gas discharge devices.

Claims (1)

THREE PHASE RECTIFIER WITH 'MULTIPLICATION! VOLTAGES, containing in each phase a choke, two parallel-connected circuits, each of which • consists of a capacitor and a diode connected with the opposite polarity with respect to the other circuit, and the connection points of the capacitor and the diode of the corresponding polarity of each phase are interconnected through opposite-connected additional diodes, the common points of which are connected to the output terminals, which is characterized by the fact that, in order to increase the efficiency by providing a high conversion coefficient to all operating modes, including idling and short circuit modes, and expanding the range of use due to the combination of constant output current and constant power modes, the choke of each phase is connected between the common point of connection of the diodes of this phase and the common point of connection of capacitors, another adjacent phase, moreover, the inductance of the inductor and capacitance of the capacitors of each phase forms a resonant circuit with a frequency of oscillation equal to the supply frequency SU. „1032563