SU1319208A1 - D.c.voltage-to-a.c.voltage converter - Google Patents

Abstract

The invention relates to electrical engineering and can be used in systems with a secondary power supply for converting a constant voltage to an alternating voltage with per channel redundancy. The goal is to increase efficiency and reliability by reducing the AC keys. The device contains two inverters 1 and 2 with input transformers 3 and 4, control unit 5. The controlled keys 9-11 of alternating current are connected to the outputs of the control unit 5. The converter ensures alternate operation of inverters 1 and 2 under load, both when they are planned to be activated and when an accident occurs in one of the inverters, and the joint operation of inverters when they are turned on sequentially and in parallel along the output. The protection of the source 8 of the power supply against short circuits in the inverter modules is carried out by unmanaged individual switches 6 and 7. 1 sludge. (O (L oo (X N3 O OO

Description

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The invention relates to electrical engineering and can be used in secondary power supply systems for converting a constant voltage to an alternating step-by-step redundancy.

The purpose of the invention is to improve the efficiency and reliability of the converter by reducing the number of AC switches.

The drawing shows the scheme of the proposed Converter.

The converter contains two inverters 1 and 2 with corresponding output transformers 3 and 4, control unit 5, individual switches 6 and 7, through which the inputs of inverters are connected to the power supply 8. Controlled 9-P AC clips are connected by control inputs to the corresponding outputs of control unit 5. The secondary winding of each output transformerMaTopa 3 (4) is divided by an intermediate branch into two halves 12 and 13 (14 and 15). Some polarity-opposite ends of the secondary windings (in the drawing the beginning of the secondary winding of the transformer 4 and the end of the secondary winding of the transformer 3) form the output terminals converter, to which the electrical power receivers 16 are connected. Intermediate taps of these windings are interconnected via the alternating current key 9, and the ends of these windings of the same polarity are connected via the corresponding keys 10 and 11.

The Converter operates as follows.

The AC voltage from the outputs of the inverters 1 and 2 through the transformers 3 and 4 is supplied to the receivers 16 of electrical energy. In this case, the key 9 is closed, and the keys 10 and 11 are open, the output voltage of the converter is equal to the sum of the voltages of the half-windings 12 and 15, both inverters operate under load,

In the event of a decrease in the power consumed by the electrical energy receivers 16, the control unit .5 opens the key 9 and closes the key 10 or the key 11, as a result of which the load is completely transferred to the inverter or inverter 1, respectively. The inverter 1 that is disabled at the output or the inverter 2 is output to

19208 2

reserve, continuing their work at idle, i.e. being ready to receive the load.

The output voltage of the converter when changing the operating mode is maintained unchanged by choosing the ratios of the numbers of turns of the half windings 12-15 so that the voltage of the secondary windings of the trans 10

formers were equal to the sum

Research institutes to a half of windings 12 and 15. If inverter converter modules are identical, then half of windings 12-15 have identical numbers of turns.

The proposed converter provides the following modes of operation: alternate operation of inverters under load, both when they are planned to be activated and in the event of an accident in any of the inverters, joint operation of inverters when they are switched on in series (switch 9 is closed, keys 10 and 11 are open ), parallel (if necessary) operation of the inverters for a common load with parallel connection of the secondary windings of transformers to the output terminals of the converter (switch 9 is open, keys 10 and I1 are closed),

I For example, the circuit works when switching from an emergency to a backup inverter. Assume that the inverter 1 is under load, and the inverter 2 is in standby and is idling. In this case, the keys 9 and 10 are open, the key 11 is closed, and the electric power receivers 16 are powered by the secondary winding of the transformer 3 of the inverter I. In the event of an accident (for example, due to an internal short circuit in the valve unit) in the inverter 1 unit 5, the control opens the key 11 and closes the key 10, the electrical power receivers 16 are transferred to power from the secondary winding of the transformer 4 of the inverter 2, the Inverter 2 takes over the load, and the inverter 1 is taken out of operation. The protection of the power source 8 against short circuits in the inverter modules is carried out by unmanaged individual switches 6 and 7,

which can be made in the form of fuses with fusible inserts.

In comparison with the known, the proposed converter has less

the number of AC switches and lower power losses in them, i.e. higher efficiency and reliability.

Formula of invention 5

DC / AC converter containing two single-phase inverters with output transformers, connected in parallel through the input via individual switches, controllable alternating current switches and a control unit, the outputs of which are connected to the control of alternating current, and the secondary windings of the inverters transformers are made with an intermediate branch, one extreme polarity of the extreme leads of the secondary windings are connected to the output terminals of the converter, characterized in that, in order to ysheni efficiency and reliability by transformation ers ument Sheni of AC keys, intermediate taps, and also the same name in polarity extreme terminals of the secondary windings respectively connected with each other through said so10

inputs of inverter keys and. key- corresponding switches-AC.

Editor I.Shulla Order 2525/52

Compiled by V. Moin Tehred N, Glushenko

Corrector M

Circulation 660 Subscription

VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

Production and printing company, Uzhgorod, st. Design,

five

92084

whose alternating current, and the secondary windings of the inverter transformers are made with an intermediate tap, one opposite polarity extreme leads of the secondary windings are connected to the output terminals of the converter, characterized in that, in order to increase the efficiency and reliability of the converter, by reducing the number of AC switches, intermediate taps, as well as polarity-like extreme ends of the secondary windings are interconnected respectively through the aforementioned so10

 The corresponding keys are AC.

Proofreader M. Pojo

Claims (1)

Formula Inventions 5 A DC to AC converter, containing two single-phase inverters with output transformers, connected parallel to the input through individual switches, controlled AC keys and a control unit, the outputs of which are connected to the control inputs of the inverter keys and. a key of alternating current, with the secondary windings of the transformers of the inverters made with an intermediate tap, one opposite terminal of the secondary windings of opposite polarity connected to the output terminals of the converter, characterized in that, in order to increase the efficiency and reliability of the converter by reducing the number of alternating current keys, the intermediate taps, as well as the extreme leads of the secondary windings of the same name with respect to polarity, are respectively connected to each other through the aforementioned corresponding alternating current switches.