SU783929A1 - Self-sustained series inverter - Google Patents

Description

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The invention relates to a conversion technique, namely, autonomous serial inverters, and can be used, for example, in various electrotechnological installations.

One of the known autonomous; Serial inverters contains a filter and converter cells, consisting of two thyristor bridges connected in series through a switching choke, as well as reset diodes p-

In another of the known inverters, each of the converter cells is connected to the input terminals via a separate filter 2.

The closest in technical essence to the present invention is an inverter, in which the converter cells each contain two thyristor bridges connected in series through commutation switches, and the converter cells are connected to the input terminals via filters with separate capacitors and throttles. For voltage limiting on switching elements: D1 reset diodes are used in the converter cells.

. However, as the load changes, the inverter may go into continuous current mode. Then, when the thyristor unlocks, the current in it will increase

5 jump. To eliminate this mode, it is necessary to increase the natural frequency of the switching circuit of the cell relative to the natural frequency of the load circuit. This leads

to the deterioration of the weight and dimensions of the inverter.

The aim of the invention is to improve the weight and size parameters by more fully using

5 commuting elements.

The goal is achieved by the fact that in an autonomous serial inverter containing two input filters with separate throttles and

20 capacitors, two converter cells, each comprising two thyristor bridges with switching capacitors in alternating current diagonals, connected in series with a direct current through

two commutating throttles connected to the positive and negative leads of the corresponding filters, with common commutating points; mudflows and common points of the filter capacitors of the opposite converting cells connected to the corresponding output voltages, and reset diodes, one of which terminals are connected to the connecting points of the corresponding commutating chokes and thyristor bridges, the other leads of the reset diodes are connected to the junction points of the filter chokes and the opposite ones: noimennyh converting cells.

A schematic diagram of the inverter is shown in the drawing.

The inverter contains converter cells 1 and 2, two input filters with divided throttles 3 - 6 and capacitors 7 - 10, to the common points of which a load 11 is connected. Each converter cell includes switching inductors 12 and 13 / power bridges on thyristors 14 tons 17 and 18-21 with switching capacitors 22 and 23, as well as reset diodes 24-27.

The inverter can operate both in the alternate switching mode of the thyristor bridges, and in the parallel switching mode thereof. In the first case, the first and second bridges of the first cell work first, and then the second and the first bridges of the second cell. In the second case, the opposite bridges of different cells work alternately.

The reset diodes work as follows.

When unlocking, for example, thyristors 14 and 17, the discharge circuit of the capacitor 7 of the input filter is formed: 7 - 14 - 22 - 17 - 12. - 11 - 7. Reset of excess reactive energy is carried out along the contour 12 - 10, - 24 - 12 V the capacitor 10 of the filter is another conversion cell. Similar processes take place during the operation of other bridges.

When the reset diodes operate and the load changes up to a short circuit, the duration of the load current pulse is reduced from 180 to 120 hl. A small range of changes in duration allows for a more complete use of switching elements, reducing their installed power, and thereby improving the weight and size of an autonomous inverter.

Claims (3)

1. USSR author's certificate 0 45 No. 589678, cl. H 02 M 7/515, 197b. 2. Authors certificate of the USSR 587579, cl. H 02 M 7/515, 1975. 3.Electrotechnical industry. - Ser. Conversion technique, 1971, 20, p. 20, Fig.1, a (prototype).