SU1056404A1 - D.c. voltage/a.c. voltage converter - Google Patents

Abstract

1. CONSTANT VOLTAGE VOLTAGE CONVERTER containing alternating bridge thyristor inverter with a transformer output and a reactor in the DC circuit connected to the input terminals via a smoothing HC filter. The transformer reset winding is connected to the filter capacitor via a reverse rectifier, characterized in that, in order to increase reliability due to self-healing in the event of a breakdown, thyristors are used as at least one inverter rectifier valve, the control electrodes of which are connected to introduced by additional windings of the transformer. 2. The converter according to claim 1, which is different from the fact that the control transitions of the thyristors of one group are shunted by reverse diodes and connected to the chain from the resistor and the additional winding of the transformer. 3. The converter according to claim 1, differing in that the control transitions of the thyristors of both groups are connected with the corresponding additional 1 and transformer windings through resistors. sd o: 4; C:

Description

The invention relates to converter technology and can be used in secondary power sources with high-frequency conversion of electrical power parameters. DC-to-AC converters are known, which contain a thyristor inverter equipped with a reactor in a DC circuit, and a transformer, the winding of which is connected via a reverse rectifier to the input of the inverter. With rectified mains supply, these devices usually have input smoothing bc-filter and 2. The disadvantage of such devices is low reliability, due to the need to use complex auxiliary damping devices or high-speed switching equipment to protect the inverter from interruptions. Closest to the invention in technical essence and the achieved result is a transducer containing associated with the input pins through a smoothing. 1 C-filter is a thyristor inverter equipped with a reactor in the DC circuit, and a transformer, the winding of which is connected via a rectifier to the input of the inverter t3. In the known converter, if the inverter breaks down, a colossal recharge of the input L and C-filter capacitor occurs through the reactor in the DC circuit and the inverter's conducting thyristors. Approximately one quarter of the period of the oscillatory process, when the polarity of the voltage on the filter capacitor changes, the reverse rectifier diodes unlock, and further over-discharge of the capacitor stops. The reactor current) and from this moment on, it is no longer connected through the filter capacitor, but through a reverse rectifier that shunts it. At the same time, the input current of the converter increases, which closes with the inverter thyristors. In order to eliminate the emergency process and protect the inverter thyristors, it is necessary to disconnect the converter from the power source using the high-speed switching equipment or using an auxiliary switch from the first device switching thyristors of the inverter. Thus, this transformer has a low degree of safety. The aim of the invention is to increase the reliability of the converter by self-healing in the event of a breakdown. The goal is achieved by the fact that in a DC converter, containing a series bridge thyristor inverter with a transformer output and a DC reactor, connected to the input terminals through a smoothing LC filter, a transformer reset winding is connected to the filter capacitor through a reverse circuit. rectifier, as at least one group of rectifier valves, thyristors are used, the control electrodes of which are connected to the inputs1 .1 and additional windings nformator. Moreover, the control junctions of the thyristors of one group are shunted by reverse diodes and connected to the chain of a resistor and additional processing of the transformer. In addition, the control transitions of the thyristors of both groups are connected by b co. corresponding additional transformer windings through resistors. ria FIG. 1 shows one of the possible converter circuits with a bridge controlled reverse rectifier on four thyristors; in fig. 2 - the same on two thyristors. The converter circuit (Fig. 1) contains an inverter on power thyristors 1-4, a switching LC circuit consisting of a reactor 5 and a capacitor 6, a multiwinding transformer 7 consisting of primary 8 and secondary 9 windings, winding 10 of reset and four additional windings 11, controlled bridge reverse rectifier on thyristors 12-15, current-limiting resistors 16, input smoothing LC-filter, consisting of droplets 17 and capacitor 18, and load 19. The second version of the converter circuit (Fig. 2) also contains diodes 20, and reverse rectification The driver is made on two thyristors 12 and 13 and two diodes 21 and 22. In the steady state mode of operation of the converter on the primary winding 8 of the transformer 7 of the inverter, an alternating voltage is formed. The voltage applied to the additional windings 11 causes a flow of currents in the control circuits of the thyristors 12-15 of the reverse rectifier. The windings are connected in such a way that in one half period the control current flows in the thyristors of one shoulder of the reverse rectifier, for example, in thyristors 12 and 15, and in the second half period in the thyristors of the other shoulder, i.e. in thyristors 13 and 14. In this case, part of the inverted energy can be returned through the winding 10 of the reset 10 of the transformer 7 and the reverse rectifier to the input of the inverter at the end of the input filter. Steady state conversion

Claims (3)

1. A DC / DC CONVERTER containing a serial bridge thyristor inverter with a transformer output connected to the input terminals via a smoothing LC filter and a transformer discharge winding is connected to the filter capacitor through a reverse rectifier, with a rain and that, in order to increase reliability due to self-healing in the event of a breakdown, thyristors are used as at least one group of reverse rectifier valves, the control electrodes of which are connected to the input by additional windings of the transformer. 2. The converter according to claim 1, characterized in that the control groups are both the torus and the formatter. 3. The converter according to π. 1, characterized in that the control junctions of the thyristors of both groups are connected with the corresponding additional / additional windings of the transformer; the junctions of the thyristors are shunted by the reverse ones and are connected to the chain from the additional winding of the trans- Q e Fi »1 SP About switching apparatus close to the invention in essence and achievable