SU1670759A1 - Ac-to-dc thyristor voltage converter - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to improve the mass and size parameters and reduce power consumption. The converter contains a three-phase rectifier bridge 1, made on thyristors, and a control system 6. Each of the three-phase rectifier bridge thyristors 1 is bridged with a series circuit of additional thyristor 4 and throttles 5, which facilitate the switching of the three-phase rectifier bridge thyristors 1, thereby achieving the set target . 1 il.

Description

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The invention relates to electrical engineering and can be used to power the core circuits of DC motors.

The aim of the invention is to improve the mass and size and reduce power consumption.

The drawing shows a schematic diagram of the converter.

The converter contains a three-phase rectifying bridge 1 with thyristors of cathode group 2 and thyristors of anode group 3, connected to the supply mains phases A, B, C. Each of the thyristors of cathode group 2 and anode group 3 of three-phase rectifying bridge 1 is bridged by a chain consisting of series-connected additional thyristor 4 and drossel 5.

The control system 6 contains a power source 7, a pulse-phase control system 6, a control unit 9, a driver 10, a logic device 11, a thyristor conductivity sensor 12, a pulse shaper 13.

The control outputs of the pulse-phase control system 8 are connected to the control electrodes of the additional thyristors 4. The system of the pulse-phase control 8 via the control element 9 is connected to the master device 10. The inputs of the thyristor conductivity sensor 12 are connected to the terminals for connecting the three-phase power supply network and to the terminals for connecting the load, and the output is connected to the first input of the logic device 11, the second input of which is connected to the auxiliary output of the pulse-phase control system 8. The output of the logic The device 11 through the pulse shaper 13 is connected to the control electrodes of the thyristors of the cathode group 2 and the anode group 3.

The Converter operates as follows.

At the point in time when the potential of the voltage in phase C is negative, and the potential of the voltage in phase A is more positive than in phase B, the thyristor of the cathode group 2 of phase A is opened, the thyristor of the anode group 3 of phase C. At the time when the positive potential is in phase A becomes less than the positive voltage potential in phase B. An additional thyristor 4 of the cathode group of phase B is given a control signal,

additional thyristor 4 is unlocked and switching current flows from phase B through choke 5, additional thyristor 4 of the cathode group, thyristor 2 of the cathode group of phase A to phase A. After termination

switching current flow, the thyristor 2 of the cathodic phase B is supplied with a control signal, it is unlocked, the additional thyristor 4 is bridged - the choke 5, the additional thyristor 4 is locked and the operating current flows from phase B through the thyristor 2 of the cathode phase of phase B and the thyristor 3 of the anode group phase C to phase C. Similarly, switching occurs between other anode thyristors

and the cathode groups of a three-phase rectifying bridge 1.

When switching from one thyristor to another, the switching current is limited by the choke 5 and flows during

Claims (1)

a time equal to that of locking the thyristors of the cathode and anode groups 2 and 3, which is from units to hundreds of microseconds. Thus, the throttles in the proposed device are calculated to operate at short intervals of time. Claims of invention Thyristor. a variable-to-constant voltage converter containing a three-phase rectifying bridge, made on thyristors, connected by alternating current leads to the corresponding phases of the supply mains, chokes, control system, characterized in that, in order to improve the mass and size parameters and reduce power consumption, additional thyristors are introduced, each of which through a series-connected choke with it connected in parallel each thyristor a three-phase rectifying bridge, the cathodes of the additional thyristors are connected to the cathodes of the thyristors of the three-phase rectifying bridge, and the control system has additional control outputs in terms of the number of additional thyristors.