SU1226589A1 - Multicell d.c.voltage converter - Google Patents

Abstract

The invention relates to electrical engineering and can be used to convert low voltage direct current voltage to high voltage. The purpose of the invention is to reduce the weight and size by reducing the potential of the windings. Many DC cell voltage converter contains inverter cells (IG) 1, a transformer node 3 having N first cores 4 and M second cores 5, all primary windings (SW) and all secondary windings (BO) are covered by a short-circuited coil (KB) 6 Switching on source 2 causes voltage on PO 4 and BO 5, current in KB 6. The voltage at the output of rectifier cells 7 is added up, and constant voltage appears at output pins 8 and 10, which is applied to KB 6 from the midpoint of the divider (D) P. The problem of a winding isolator ii absent, since ON VO 4 and 5 structurally separated. Introducing the D 11 and connecting its midpoint with KB 6 halves the potential difference between KB 6 and the magnetic conductors, which reduces the insulation volume. 1 il. 3 (L with J 5/55 - --- / - Ь to Ю 05 СЛ оо со

Description

This invention relates to electrical engineering and can be used in secondary power supply systems for converting low voltage direct current voltage to high voltage.

The purpose of the invention is to reduce the weight and size by reducing the potential of the windings.

The drawing shows a schematic diagram of the converter.

The converter contains inverter cells 1 connected to the low voltage source 2 of the power supply to it, a common transformer node 3 having N first cores 4, each of which has a primary winding connected to the output of the corresponding inverter cell 1, and M second cores 5 with they are secondary windings, all the cores 4 and 5 are covered by a short-circuited coil 6, and the rectifier 7 has M cells. The input of each cell is connected to the secondary winding. One output output of the rectifier is connected to the output output 8, and the second to one of the terminals of the power supply 9, the second output of which is connected to one of the outputs of the low-voltage power supply 2, which is the second output output 10 of the converter. The voltage divider 11 is connected to the output pins to output pins 8 and 10, and the middle output to the short-circuited coil 6.

The Converter operates as follows.

Switching on the source 2 causes the appearance of alternating voltage on the primary windings 4 of the magnetic flux in the first cores, the current in the short-circuited coil 6, the magnetic flux in the magnetic cores and alternating voltage on the windings located on them 5. The output voltage

The rectifier cells 7 are summed, and a constant voltage appears at the output pins 8 and 10, which from the midpoint of the divider 11 is applied to coil 6.

Since the primary 4 and secondary 5 windings are structurally separated, the problem of Winding insulation in the proposed converter is practically absent.

The introduction of the voltage divider 11 and the connection of its midpoint with coil 6 reduces approximately by half the potential difference between the coil and the magnetic cores, which reduces the volume of insulation.

Claims (1)

Invention Formula A multi-cell DC / DC converter contains N inverter cells, the inputs of which are connected in parallel and connected to the input terminals of the converter, and the outputs are connected to the N primary windings of the transformer node located on the N first cores, and M secondary windings of the transformer node are located on M second cores, and all primary and all secondary windings are covered by a common short-circuited turn, characterized in that, in order to reduce the weight and size by reducing the potential There are M rectifiers and a resistive voltage divider by two, each secondary winding is connected to the rectifier input, the outputs of all rectifiers are connected in series and connected between the output pins of the converter, one of which is connected to the input output of the converter, and A voltage divider is connected to the output of the converter; its midpoint is connected to a short-circuited coil.