SU928570A1 - Dc voltage-to-ac voltage converter - Google Patents

Description

one

The invention relates to converter equipment, namely, direct current to alternating current converters and can be used as a secondary power source in various areas of electrical engineering.

It is known that in those cases when the required load power exceeds the capacity of the element base of the semiconductor elements of the converters, the latter are connected in parallel or in series. At the same time, in order to obtain high mass-dimensional and cost indicators, transducers with devices are used to carry out uniform loading of the latter (in terms of current and voltage).

Devices are known in which, for example, equalizing reactors, or additional measuring and actuating elements of automatics U and L, are used to equalize current loads of parallel converters.

However, these converters are either cumbersome or significantly complicate the converter circuit, which leads to a decrease in qro reliability.

Claims (3)

The closest in technical essence to the proposed device is a converter, in which additional transformers are provided for leveling the current loading of the converters. The device consists of semiconductor converters, the outputs of which are connected to common load buses, and the inputs through power transformers are connected to the buses of the power supply network. The secondary windings of additional transformers are connected in series with the primary windings of power transformers, the primary windings of which are interconnected in series and connected to the mains busbars. The equalization of the current loading of the converters occurred due to the redistribution of the EMF of the secondary windings of additional transformers connected in series with the power transformers and is achieved by appropriate selection of the number of turns 3. The device ensures uniform loading of the common converters, however, it requires additional transformers calculated for the full current of the converter that complicates the scheme and worsens the mass-dimensional indicators. In addition, the presence of additional transformers connected in series with the load leads to the loss of m voltage and deterioration of technical and economic parameters of the whole device. The purpose of the invention is to improve the weight and size and increase the technical and economic indicators of the transformation of bodies. The goal is achieved by the fact that in a DC voltage converter consisting of n serially connected key voltage inverter loaded on n output transformers, the secondary windings are connected in series with each other, forming an output circuit, the output transformers supplying each one additional winding, which are interconnected counter parallel. The drawing shows a diagram of the proposed device. The device contains semiconductor converters (inverters) 1 and 2, which are interconnected through the power supply circuit, for example, in series and connected to the buses of network 3 and k. Each of the inverters 1 and 2 is loaded on its output transformer 5 and 6, the secondary windings 7 and 8 of which are interconnected in series and connected to the load. Each of the input transformers 5 and 6 each has one additional winding 9 and 10, which are interconnected counter-parallel. In normal operation, the transforming of the mains voltage must be evenly divided between the series-connected inverters 1 and 2, which ensures uniform current loading of the semiconductor elements and output transformers. If, for any reason, the inverter 1 is under greater voltage than the inverter 2, then in the secondary and additional windings of the output transformer 5 a larger EMF will be induced than in the corresponding windings of the transformer 6. Under the action of the difference of the EMF in a closed loop formed by the windings 9 and 10, a surge current having an inductive component flows. The flow of circulating current through windings 9 and 10 causes demagnetization of transformer 5 and additional magnetization of transformer 6. This process proceeds until the EMF of windings 9 and 10 of transformers 5 and 6 are not aligned and the jointly operating converters turn out to be evenly distributed. The selection of the number of turns of the additional windings of the output transformers can be compensated. asymmetry of parameters of power circuit elements. The counter-parallel connection of additional windings of output transformers allows to improve the uniform loading of co-operating DC / AC converters. In this case, the converter circuit is practically not complicated, the additional windings of the transformers do not participate in the power path of the load current. As calculations and experiment show, the efficiency of the device decreases by about 3 compared with the known device. In addition, additional windings are wound with thin wires, designed only for equalizing currents, and therefore the weight and dimensions of the converter are 20-30% better than in known devices. Claims of the Inverter DC to AC Converter, consisting of n series-connected key voltage inverters, loaded (on n output transformers, 59 whose secondary windings are connected in series with each other, forming an output circuit differing in that in order to improve technical-economic and mass-dimensional parameters, the output transformers are each equipped with one additional winding, which are interconnected counter-parallel. 0 Sources of information, taken into account in the examination 1.Lekorgieye J. Controllable electric valves and their applications, energy, Moscow, 1971, pp. 172-173. 2. Bogoslovsky A.S. Power semiconductor rectifiers, Voenizdat, USSR Ministry of Defense, Moscow, 1965, p. 187. 3. USSR author's certificate tf, cl. H 02 M 7/08, 25 .. J 9 Network I k H. Loj