SU1098093A1 - A.c.-to-d.c. converter - Google Patents

Abstract

AC-TO-POWER CONVERTER containing intermediate saturating transformer, first compensating capacitor and single-phase bridge rectifier, one AC output of which is connected to the first main output of the secondary winding of said transformer, characterized in that, in order to increase sensitivity and increase reliability, a second a compensating capacitor, a secondary winding of the specified transformer is fitted with taps, with the first and second compensating condensation The tori are connected in series and connected by free leads to the said leads located symmetrically with respect to the main leads, the common lead of the capacitors is connected to one of the DC leads of the bridge rectifier, and another AC lead of the rectifier is connected to the second main lead of the secondary winding. F co 00 oo i

Description

ten

il3oi3) fr (.M (ne refers to h. T1: x) 1 n it can be used to power the protection circuitry.

The known converter is an alternating current alternating current, containing a single bridge rectifier, the cathode i pyniia d,: ogdov is shunted by two capacitors 1.

The disadvantage of this device is associated with the increasing degree of increase in CMKocTi-i capacitors, since modulation is observed for small capacitance values.

The closest to the invention is a current-to-current converter containing an intermediate transformer, a common transformer, a first compensating capacitor and a single-phase bridge insulator, one AC terminal of which is connected to the first main terminal of the secondary winding of the specified transformer 2,

The disadvantages of the known device are low sensitivity of the input current, independent of the load on the direct current side, and low reliability due to difficult exit from the operating mode (reduced output current and possible long-term heating of the steel and transformer faint,

The purpose of the invention is to increase the sensitivity and damage reliably with t and ..

The delivered workshop is achieved by the fact that a first compensating capacitor and a single-phase bridge rectifier, one AC output of which is connected to the first main terminal of the secondary winding of the specified transformer, is inserted into the AC-DC converter, which contains an intermediate resistive transformer, and the secondary winding of the specified transformer is equipped with taps, while g; the first and the second compensating connectors are connected in series and connected free terminals to the boom: muty1 outlets, located symmetrically with respect to the main pipelines, about1C1 th output of the capacitors connected to one lz of the direct current pins of the bridge c) 1 prttel, and

: zan1 O1CH) by the grades of the i-e,: iyi g | G1dk, ttch (M-; i to the central industrial main conclusion 1 T1: 1richn (TH etipotki.

In the drawing, the converter circuit is shown in principle.

The device contains an intermediate pinching transformer I, compensating capacitors 2 and 3 and a single-phase bridge rectifier on diodes 4-7 connected to the main terminals 8 of the secondary winding of the transformer. The compensating capacitor is connected in series and connected with a common lead to one of the DC bridges of the rectifier, and the free leads to the taps 9 or 10 depending on the capacitors used (in particular, paper or electrolytic)

The diagram shows a constant load 11 and a temporary load 12, connected via pin 13,

The device works as follows.

Each of the capacitors 2 and 3 will have the same alternating voltage.

  where Ugg is the voltage between the additional taps 9-9. In addition, these capacitors will have constant voltages of the same magnitude (with the polarity indicated in the drawing)

s, 0.5 and

inc

No

where Ugg is the voltage amplitude between pins 8-8.

The constant and alternating voltages of capacitors 2 and 3 are completely closed by diodes 4 and 5

When the load is switched on on the DC side, even at the time of zero value of the alternating voltage across: the current created by the DC voltages, and is possible. which will then add up with alternating voltages and cause a current flowing alternately through diodes 6 and 7. The greater the discharge of constant voltages and and to the load, the greater the fraction of the period that diodes 4 and 5z will supply load from pins 8-8, as well as float capacitors 3 and 2 from alternating

voltages U In their podzar de capacitors 2 and 3 are not connected in series, as in idle mode, and separately and alternately to the voltage twice. Therefore, at nominal load, the compensating capacitance is approximately doubled (compared to the idle mode). The input current sensitivity of the device is mainly determined by the magnitude of the compensating capacitance, and the sensitivity increases if the compensating capacitance decreases, bringing the ferroresonant circuit closer to the resonance condition near the linear part of the magnetization curve.

As a result, if the DC load decreases, the device increases the sensitivity of the input current, i.e., at a lower input current of the intermediate saturable transformer, a ferroresonant jump occurs. If, after reducing the input current of the transformer, the ferroresonant circuit does not come out of ferroresonance, then in the device, along with a decrease in the DC load, the capacitive current will also decrease, as a result of which the heating of the transformer windings will be much less than in the prototype.

When electrolytic compensating capacitors are selected, they must be connected to the taps 10. At the same time, the constant charge of the I on the capacitors remains unchanged.

and

2pse 3g7sz 05Ts

I

and the voltage variables are significantly reduced

2g, rg-%. that will ensure the reliability of the electrolytic capacitors.

Thus, in comparison with the prototype, the proposed device provides an increase in the sensitivity of the input current with a decrease in DC load, as well as a decrease in heating when absent from the ferroresonance mode, and as a result, reliability increases.

Claims (1)

A AC to DC converter, comprising an intermediate saturable transformer, a first compensating capacitor and a single-phase bridge rectifier, one AC terminal of which is connected to the first main terminal of the secondary winding of the transformer, characterized in that, in order to increase sensitivity and increase reliability, a second a compensating capacitor, and the secondary winding of the specified transformer is equipped with taps, while the first and second compensating capacitors with are connected in series and connected by free leads to the mentioned taps symmetrically relative to the main leads, the common terminal of the capacitors is connected to one of the DC terminals of the bridge rectifier, and the other AC terminal of the rectifier is connected to the second main terminal of the secondary winding.