SU733071A1 - Transformer and rectifier arrangement - Google Patents

Description

The invention relates to electrical engineering, in particular converter technology, and can be used, for example, in devices for regulating rectified voltage.

A transformer-rectifier device is known that contains a power transformer with a magnetic shunt, the primary windings of which are phase-wound on the shunt and working cores, the control windings are on the shunt core, and the terminals of its wound windings through uncontrolled valves and equalizing reactor are connected to the output terminals of the device and .

A disadvantage of the known device is the range of output voltage regulation limited from below, as well as increased power consumption in the case of magnetizing the equalization reactor with a triple frequency current from a special frequency accelerator.

The aim of the invention is to expand the range of regulation of the output voltage.

This goal is achieved by the fact that the transformer is equipped with magnetizing ⁵ auxiliary and auxiliary windings interconnected via an additional rectifier and phase-wise located on the shunt and working cores, respectively.

¹⁰ In this case, to magnetize the equalization reactor with a triple-frequency current, the magnetic shunt contains additional windings that are interconnected according to the open-circuit diagram of the square ¹⁵ , and their two output terminals are connected in parallel with the terminals of the equalization reactor.

The drawing shows the electrical circuit of the device.

The device comprises a power transformer 1, working and shunt (magnetic shunt) cores 2 and 3, respectively, primary and secondary shields 4-6 of the power transformer, control windings 7, auxiliary, magnetizing and additional windings 8-10, respectively, valves 11 of the main rectifier; an additional _5th rectifier 12, equalization reactor 13, input and output terminals 14-18 of the device.

The device operates as follows. 10

The magnetic flux generated due to the flow of current through the primary phase windings 4 induces an EMF on the corresponding auxiliary windings 8, which supply magnetizing windings 9 through an additional rectifier 12.

As a result, the magnetic flux from the working core 2 is displaced into the magnetic shunt 3 and there is an increase in voltage 20 on the auxiliary windings 8.

With the appropriate choice of the parameters of the auxiliary 8 and magnetizing 9 windings, an increase in the magnetic flux 25 in the shunt core 3 can occur until saturation, at which the voltage on the secondary windings 5 and 6 of the transformer 1, and therefore, the output voltages of the device are reduced 30.

Thus, the lower limit of the regulation of the output voltage is shifted and the range of its regulation increases. _h 35

When the bias current is supplied to the control windings 7, the magnetic flux is displaced into the working core 2, while the magnetic flux in the shunt core 3 decreases, 40 and the voltage across the rms / gc 8 and, therefore, the current in the windings 9 decrease, which leads to an increase in the magnetic flow in the working core 2 and the corresponding increase in voltage on the secondary windings 5 and 6 of the transformer.

The upper limit of the control range remains the same as in the known device, and is determined by the ratio of the cross sections of the core 2 50 and the shunt, as well as the degree of magnetization of the shunt.

Since the displacement of the magnetic flux from the working core 2 into the shunt core 3 takes place in the idle mode of the device, that is, at the lower limit of regulation, then to remove the voltage peak in the adjustment characteristics, the surge reactor 13 is fed with a triple frequency current from additional windings 10, placed on the core 3 and connected according to the scheme of an open triangle.

Thus, in this device, while expanding the range of regulation of the output voltage, the power consumption is lower due to the exclusion of a special transformer for magnetizing the surge reactor.

Claims (2)

ki 4-6 of a power transformer, control windings 7, auxiliary, magnetizing and additional windings 8–10, respectively, valves 11 of the main rectifier} additional rectifier 12, equalization relay 13, and output pins 14–18 of the device. The device works as follows. The magnetic flux created by the flow of current through the primary phase windings 4 induces an emf at the respective auxiliary windings 8, which feed the magnetic magnetizing windings 9 through the double-sided directors 12 and the magnetic flux from the working shunt 3 and results the increase of the voltage on the auxiliary windings 8. With an appropriate choice of the parameters of the auxiliary 8 and the magnetizing 9 windings, the increase of the magnetic flux in the shunt core 3 can occur before and wherein the voltage at the secondary windings 5 and 6 of the transformer 1, and therefore, the output voltage shayuts Decrease the device. Thus, the lower limit of the regulation of the output voltage shifts and the range of its regulation increases. When the bias current is applied to the control windings 7, the magnetic flux is ejected into the working core 2, while the magnetic flux in the yunt core 3 decreases and the voltage on the winding 8 and, consequently, the current in the windings 9 decreases, which leads to an increase in magnetic dock in the operating heart kzhe 2 and the corresponding increase in voltage on the transient windings 5 and 6 of the transformer The upper limit of the control range remains the same as that of the known device, and determines with the ratio of the core sections 2 and shunt, as well as the degree of magnet shunt. Since the extrusion of the magnetic pslok from the working core 2 into the shun 7 1,. 4, this core 3 has a bridge during idle operation of the device, then at the lower limit of regulation, to remove the voltage peak into the regulating characteristics of feeding the equal reactor 13 with the triple frequency current, is carried out from additional windings 10 placed on the core 3 and connected according to the open triangle scheme. Thus, in this device while expanding the range of output voltage regulation, the consumed power is lower due to the exclusion of a special transformer for agnichiva1sh leveling reactor. The invention includes a transformer-rectifying device containing a power transformer with a magnetic shunt, the primary windings of which are phase-wise located in the shunt and working cores, controlling the windings on the shunt core, and the outputs of its secondary windings are connected through unnumbered gates and equalizing reactor to the output terminals devices, characterized in that, in order to extend the range of output voltage regulation, the transformer is equipped with auxiliary bias windings, connected between .soboy bubbled through the additional rectifier and arranged to shunt per phase and working cores, respectively. 2. A device according to claim 1, characterized in that, in order to reduce the consumption of power, the magnetic shunt contains additional windings that are interconnected in an open triangle design, and their two output terminals are connected in parallel to the outputs of the surge reactor. Sources of information taken into account in the examination 1. Kaganov JL I. Electroshirt and ionic converters. h, W GEI, 1956, 131-146. / (/ /five ./