RU2718518C1 - Three-phase multiblock frequency converter - Google Patents

Abstract

FIELD: electrical engineering.SUBSTANCE: invention relates to electrical engineering and is used in powerful installations. Rectifiers (3) with capacitors (4) supply direct current to three phases of inverters of same level (5, 8, 11; 6, 9, 11 and 7, 10, 13). Inverters (6, 9, 12) of the same level are powered by a common rectifier, which reduces number of elements.EFFECT: increasing reliability.1 cl, 1 dwg

Description

The proposal relates to electrical engineering and can be used in powerful installations.

The well-known / RF patent for utility model No. 142298 / frequency converter, contains a rectifier with a capacitor supplying a three-phase bridge inverter.

The disadvantage of this device is the poor form of the mains current due to the use of a low-pulse (6) inverter, which generates a high level of higher harmonics of the current in the load.

The closest in essence is a frequency converter / RF patent for invention No. 2364016 /, containing in each phase single-phase inverters connected in outputs, and the outputs of the inverter circuits designed to be connected to the load, and poles connected to a parallel capacitor and a multi-pulse rectifier, inputs connected to secondary winding of the transformer. The disadvantage of this device is the relatively large complexity due to the large number of rectifiers and capacitors.

The technical result of the proposal is to increase simplification and increase reliability. The technical result is achieved due to the fact that the load is made according to the scheme of separate (III) phases with no interphase connections, each of which is connected to the corresponding invert circuit, and the rectifiers are connected by poles each to the poles of inverters of the same level.

The drawing shows a single-line diagram of the Converter. Designated: 1 - primary (network) winding of the transformer, 2 - secondary (valve) windings of the transformer, 3 - rectifiers, 4 - capacitors, 5-13 single-phase inverters (blocks), the circuit of which is known, 14, 15, 16 - load phases.

The converter operates as follows. The alternating high voltage of the network is reduced to a relatively low by windings 2, rectified by diode rectifiers 3, filtered by capacitors 4 and converted into alternating voltage of the desired frequency and magnitude by inverters 5-13. The total voltage of the phases of the load 14-16 is added as the phase-by-phase sum of the output voltages of blocks 5-7, 8-10 and 11-13. In the drawing, in each phase inverters of several levels are used (5, 8, 11; 6, 9, 11 and 7, 10, 13). One inverter 6, 9, 12 in each of the three output phases of the same level (in this case, the average. But can be any but the same) are powered from a common rectifier. This feature gives the converter such a useful property of reducing the number of rectifiers 3 and capacitors 4. The lack of connection between the phases of the loads 15-16 provides this property. Reliability is also enhanced by reducing the number of elements.

Claims (1)

A three-phase multiblock high-frequency frequency converter containing single-phase inverters in series with the outputs, the inverter circuit outputs are designed to be connected to the load, and all the inverters in the phase except one are connected to the capacitor and a multipulse rectifier connected in parallel to the transformer secondary by the poles, characterized in that the load is made according to the scheme of individual phases with the absence of interphase connections, each of which is connected It is connected with the corresponding circuit of inverters, and the poles of the inverters of one of the levels of different phases are connected to a common capacitor and rectifier.

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