SU851703A1 - Voltage inverter - Google Patents

Description

Union of Soviet

Socialist

Republic (11) 851703

USSR State Committee for Inventions and Discoveries

DESCRIPTION

Inventions

TO AUTHOR'S CERTIFICATE (61) Additional to author. certificate-wu (22) Stated 26.11.79 (21) 28 42 927/2 4-07 with the addition of application No. (23) Priority

Published on July 30, 81. Bulletin No. 28

Date of publication of the description ^ 0.07T8T (72)

N.I.Jus and V.S. Frenkel (71) Applicant (51) M. Cl. '

H 02 m 7/515 (53) UD K 621.314.

_ .572 (088.8) ///

I

I

Moscow branch of the Research Institute of DC (54) VOLTAGE INVERTER

The invention relates to electrical engineering and can be used in DC-AC converters.

Widely known circuit voltage inverters on. thyristors with switching nodes, the middle point of which in each phase is connected to the output through two counter-parallel thyristors.].

The circuitry has a drawback of complexity.

Closest to the proposed one is an inverter circuit in which two counter-parallel thyristors are replaced by a diode bridge, in the diagonal of which a thyristor {2] _d is connected

A disadvantage of the known inverter is COMPLIANCE; ΤΘΚ KSK TrvbuvTSYA large number of diodes for a relatively j high voltage.

The purpose of the invention is the simplification when used in high voltage installations.

• The assigned circuit is achieved in that in the inverter in each phase comprising two input terminals connected to the series connected main thyristors, connected by a common precise Coy ⁵ to the output terminal and to one terminal of an alternating current of the diode bridge, in which the diagonal DC switching thyristor vkpkyen moreover, the other AC terminal of the bridge through the switching inductor is connected to the common point of two series-connected capacitors connected to the input terminals, as well as two diodes, the cathode of the first of which it is connected to the positive, and the anode of the second to the negative input terminals, the anode of the first and the cathode of the second diodes are connected to the oppositely drawn direct current of the diode bridge.

In FIG. 1 shows a diagram of a device in a single-phase embodiment; in FIG. 2 · * the same in the three-phase version.

S 851703 4

The switching capacitors 1, including the voltage of the power source, are connected in series and connected to the input terminals. The midpoint of these capacitors is connected to the switching choke 2. The switching thyristor 3 is designed to turn off the main thyristors 4, which are connected to a power source by one of the terminals and to the output terminal by the other. ' The load in the single-phase version is connected between the middle - zero - point of the source (O) and its output from thyristors 4 (not shown in Fig. I). The circuit also has reverse diodes 5, which are connected to the input terminals by one of its terminals and the second connected to the opposite terminals of the diode bridge on diodes 67 The thyristor 3 is included in the diagonal of this bridge, and the AC terminals of the bridge are connected to the inductor 2 and the output terminal. By alternately applying the control signal to the thyristors .4, the direct current is converted into alternating current. Forced locking of the operating thyristor is carried out by supplying a signal to open the switching thyristor 3. In this case, the corresponding capacitor 1 is recharged along the circuit of the inductor 2, diodes 6 of the thyristors 3 and 4. At the time when the overcharge current exceeds the load current, the corresponding thyristor 4 is turned off. The load current with its inductive nature from this moment passes to the opposite diode 5 and one of the diodes 6 opposite to this thyristor, flowing from the other pole of the power source.

In the circuit of FIG. 1, diodes 5 can be selected for voltage two times less than diodes 6 connected in series. This reduces the total number of diodes connected in series in the case of a high-voltage installation and thus simplifies its design.

Claims (4)

This invention relates to electrical engineering and can be used in direct current to alternating current converters. Widely known circuits are voltage inverters, thyristors with commutating nodes, the midpoint of which in each phase is connected to the output through two counter-parallel thyristors. The circuit has a disadvantage in its complexity. The closest to the proposed is an inverter circuit in which there are two. The parallel parallel thyristors are replaced by a diode bridge, the diagonal of which includes thyristor 2. A disadvantage of the known inverter & complexity is that a large number of diodes is required for a relatively high voltage. The purpose of the invention is to simplify, when used in high-voltage installations. The goal is achieved by the 11X1 in the inverter, which in each phase contains two connected to the input terminals of series-connected center thyristors, connected by a common point to the output terminal and one AC terminal of the diode bridge, to the diagonal of the direct current of which a switch of the switching resistor is connected AC bridge is connected through a commutating choke to a common point of deuche of successively connected capacitors connected to the input terminal 1m, and also two diodes, the cathode of the first and p 1x connect with positive and the second anode with positive input pins, wap. the first and the cathode of the second / shod are connected to the opposite current of the DC diode bridge. FIG. 1 shows the scheme of ycTpoftism in a single-phase varnan; that fwg. 2 TD a zke, in three-phase option. 38 Switching capacitors 1 are turned on separately and connected to the input terminals. The middle point of these capacitors is connected to a switching choke. 2. The switching thyristor 3 is designed to turn off the main thyristors 4, which are connected by one of the leads to the power supply and the other to the output lead. The load in the single-phase variant is connected between the middle zero point of the source (O) and its output from thyristors 4 (not shown in Fig. I). The circuit also contains positive diodes 5, which are connected to the input terminals in one of their outputs, and the latter are connected to different-sized leads of a diode bridge on diodes 6. A thyristor 3 is turned on in the diagonal of this bridge, and the AC leads of the bridge are connected to the choke 2 and the output terminal. The alternating supply of control signals to thyristors. 4, the conversion of direct current into alternating current is carried out. The forced locking of the operating thyristor is carried out. due to pidachi signal to open the switching thyristor 3. At the same time, the corresponding capacitor I is recharged around the circuit, choke 2, 6tirstors 3 and 4 diodes. At the time when the recharge current exceeds the load current, the corresponding thyristor switches off. The load current with its inductive nature passes from this moment on. opposite to this thyristor reverse diode 5 and one of diodes 6, flowed from the other pole of the power source. In the circuit of FIG. I diodes 5 can be selected to twice the voltage of the power supply voltage as diodes 6 are connected in series. This reduces the total number of diodes connected in series in the case of a high-voltage installation and thus simplifies its design. Invention Inverter, containing in each phase two connected to the input reed switches of sequentially connected main thyristors, is connected by a common point to the output terminal and to the AC output of the diode bridge, the other terminal of the alternating current of the diode bridge is switched on the alternating current terminal of the diode bridge. The current of the motor is connected to the common point of two series-connected capacitors connected to a coil, as well as two shots, the cathode of the first of which is The single anode is with the half-arrester, and the second anode is with the negative input terminals, characterized in that, for simplicity, when used in twisted-voltage installations, the first anode and the second diode of the second diode are connected to the opposite terminals of the onodny bridge. Sources of information taken into account in the examination I. Swiss patent W 604421, cl. H O2 M 7/515. 1977. J. Brufaddas S. S., Trofshgov PL. Thyristor AC Switches. M., Energie, 1969. p. 9, fig. 7 4./Zf-, O 0 -