SU1039007A1 - One-cycle inverter - Google Patents

Abstract

A SINGLE-TURN INVERTER containing a filling choke, an output transformer and a control key, characterized in that, in order to reduce weight and dimensions, the specified transformer is made with two identical primary windings, one of which is connected to the input via a series-connected control key and filling choke. the terminals of the inverter, and the other through the input diode is connected to the throttle. . (Lx

Description

The invention relates to electrical engineering and is intended to convert a constant voltage to an alternating current by means of a single-ended inverter.

Single-ended inverters are known that contain a controllable key, such as a transistor, connected in series with the primary winding of a double-winding droplet, the secondary winding of which is connected to the load Ci.

The disadvantage of this inverter is the large size of the throttle.

The closest in technical essence to the present invention is an inverter, in which the choke contains only one winding, and the galvanic separation of the source and load is performed by means of a transformer, in the primary winding circuit of which the power capacitor C is connected in series with the total dimensions of the throttles and the transformer in this inverter is smaller than Drossel in the Cl inverter However, the introduction of a power capacitor increases the weight and dimensions of the inverter.

The purpose of the invention is to reduce the size and weight.

The goal is achieved by the fact that in a single-ended inverter containing a fill-in-blower, an output transformer and a control key, the specified transformer is made with two identical primary windings, one of which is connected to the input terminals of the inverter through a series-connected controlled key and a filling choke, and the other through the entered diode is connected to the choke.

The absence of the proposed inverter power capacitor reduces the weight and size.

FIG. 1 is a schematic diagram of the proposed single-ended inverter; in fig. 2 - time diagrams that show his work.

The inverter (FIG. 1) contains an up and down switch, for example, a transistor 1, an output transformer 2 with a first primary 3, a second primary 4 and two secondary semi-windings

5 and 6, two. output rectifier diodes 7 and 8, recovery diode 9, choke 10 and filter capacitor 11, to the output terminals of which the load 12 is connected.

The inverter works as follows.

When a positive impulse is applied to the base; (Fig. 2) the voltage and turns on the transistor 1, the diode 7 begins to conduct current and energy is supplied to the capacitor of the converter filter 11 and the load of the converter 12. At this stage, the current in the inductor 10 and in the winding 3 of the transformer 2 increases (Fig. 2, the current i) an accumulation of energy occurs in the choke 10, as well as the magnetization of the core of the transformer 2 in the forward direction. In this case, the diode 9 is locked and the current through the winding 4 does not pass.

When lvlpylc on the base becomes zero, transistor 1 turns off and diode 7 closes. After that, due to the EMF of self-induction arising on the choke 10, the diode 9 opens, a current begins to flow along the winding 4 (Fig. 2, current 1) and a voltage of the diode 8 appears on the winding 6, and part of the energy accumulated and the choke 10 at the previous stage , is transferred to the capacitor of the converter filter 11 and the load 12. At this stage, the current of the throttle 10 decreases, and the core of the transformer 2 reverses in the opposite direction.

When operating on an AC load, the transformer has one secondary winding, and the diodes 7 and 8 and filter capacitor 11 are missing. A symmetric rectangular voltage is generated on the load.

The core of the transformer 2, as in the conventional device, is re-magnetised along a full symmetrical hysteresis loop, therefore, the mass of magnetic power elements in the proposed inverter is not increased, and the power capacitor is excluded. As a result, the weight and dimensions of the inverter are reduced.

Claims (1)

A SINGLE-STAGE INVERTER containing a filling choke, an output transformer and a controlled key, characterized in that, in order to reduce weight and dimensions, said transformer is made with two identical primary windings, one of which is connected through a series-connected controlled key and a filling choke to the input terminals of the inverter , 'and the other through the entered diode is connected to the inductor.