RU17243U1 - DC CONVERTER TO VARIABLE - Google Patents

Abstract

A DC-to-AC converter comprising a generator, a pulse counter connected to it and a power amplifier, characterized in that a memory element is inserted into it, the address bus of which is connected to the pulse counter, and the data bus is connected to the power amplifier.

Description

Constant voltage to variable converter.

The utility model relates to electric energy conversion devices and can be used for converting a constant voltage at the input to an alternating voltage at the output, and in particular for powering one and multiphase alternating current devices from direct current sources.

Known three-phase bridge inverter (I), containing a six-phase generator, inverter cells, consisting of transistors and diodes, which are power amplifier, and a six-phase pulse expander.

The well-known inverter operating as a three-phase power source is made on discrete elements and is very complex.

A1 also known is a DC-to-AC converter three-phase (2), containing a generator, a counter with a pulse-forming circuit and a power supply.

The known converter has a layered design, because it contains a cumbersome pulse-forming circuit made on a large number of discrete elements with their associated connections, and not sufficiently high reliability, due to the fact that the operability of the device as a whole depends on the number of elements included in it. In addition, giving changes in parameters, in particular the number

The phases obtained at the AC voltage output require almost completely redoing the converter circuit, which limits its functionality.

The claimed utility model includes simplifying the converter, increasing its reliability and expanding its functionality.

The proposed DC-DC converter in nepeMemioe contains a generator, a pulse counter and a power amplifier connected to it.

According to the claimed solution, a memory element is inserted into the converter, the address bus of which is connected to the pulse counter, and the data bus is connected to the power amplifier.

The goals are achieved by introducing a memory element, which eliminates the use of the most complex element of the device, the prototype of the pulse formation circuit, whereby the number of elements in the converter is reduced and its design is simplified and reliability is increased.

In addition, by changing the program recorded in the memory element, it is possible to change the operation diagram, shape and phase relations of the output alternating multiphase voltage, which expands the functionality of the proposed converter.

The figure shows a block diagram of the claimed DC-to-AC converter.

The DC-AC converter contains a generator I, the input of which is the input of the converter.

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The generator I is connected to a pulse counter 2, the outputs of which are connected to the address bus of the component 3, the data bus of which is connected to the input of the power amplifier 4, and the output of the power amplifier 4 is the output of the converter.

If you use this converter to record, for example, a three-phase gyromotor from a source of on-board caiviolet DC voltage of 27B, a quartz generator implemented on quartz with a generation frequency of 383.989 k1ts and 564 series microchips according to the well-known scheme can be used as generator I. As a counter of 2 pulses, use microchip 5b41SCh10, and for: a memory element, take PZU1L1623RT1. The power amplifier can be performed on a bridge circuit with transistors of the KT7I6 and KT709 type. It should be noted that using the stated eobrazovatelya you can get not only the three-phase, but also to any voltage

the number of phases, which entirely depends on nporpaivme recorded in the memory element 3, and the number of channels of the power amplifier 4.

The DC-AC converter operates as follows,

A constant voltage is supplied to the input of generator I from an external source, Generator I gives a pulse train that goes to the counting input of counter 2 pulses. Counter 2 generates a parallel binary code supplied to the address bus of element 3, element 3 is programmed in such a way that According to the program written in it, it converts the parallel binary code into the required number of pulsed sequential Q € (. 3

of the phase shifted relative to each other. These sequences are supplied to the INPUT of the power amplifier 4, the number of channels in which correspond to the number of pulse sequences supplied to it. The alternating voltage supplied to the input of the power amplifier 4 is amplified and supplied to the output of the amplifier 4, from where it can be taken to load power supply.

The use of the proposed converter made it possible to reduce the number of elements used from 30 units to 15 units during its implementation for powering a three phase gyro motor and, accordingly, increase reliability with a simultaneous expansion of functional capabilities.

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The authors :

Applicant:

P.V. Denisenko I.A. Semenov

Utility Model Formula

A DC-to-AC converter, an oscillating generator, a pulse train counter connected to it and a power amplifier, characterized in that a memory element is inserted into it, the address bus of which is connected to the pulse counter, and the data bus is connected to the power amplifier.

Sources of information:

I.A.c. USSR Je 1595306 Three-phase bridge inverter ШЖ Н02 М 7/5387,, 88r.

.B-475 block 6Sh5.087.052 Documentation of the applicant company, Arzamas.

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The authors :

P.V. Denisenko I.A. Semenov

tel:

Rector - Avia

Claims (1)

A DC-to-AC converter comprising a generator, a pulse counter connected to it and a power amplifier, characterized in that a memory element is inserted into it, the address bus of which is connected to the pulse counter, and the data bus is connected to the power amplifier.