SU980236A1 - Three-phase self-sustained inverter - Google Patents

Description

(54) THREE-PHASE SEQUENTIAL INVERTER

Claims (3)

The invention relates to a converter technique, and more specifically to converters of direct current energy to alternating current energy. frequency. To obtain a three-phase system of currents and voltages of the common frequency and high power in the load, three-phase series inverters are used, in which, thanks to the use of a series resonant circuit, the current of the controlled valve varies throughout the conduction interval Cl3 and 23. However A disadvantage of the known circuits of three-phase sequential inverters is the comparative complexity of the circuit design and, consequently, the low reliability. The closest to this device is a three-phase serial inverter containing a three-phase thyristor bridge, serial switching inductive and capacitive elements, a three-phase star connected by a star and a chain of two series-connected capacitances connected in parallel with the power source. The zero point of the three-phase load star is connected to the midpoint of a chain of two series-connected capacitors, and the phase ends of the load are connected to the middle tap of the inductive elements via switching capacitors. This scheme allows to obtain an alternating current of increased frequency at relatively low rates of anode current rise in controllable gates, as well as the possibility of maintaining a sufficiently large locking angle of controllable gates when the load changes over a wide range of C. A disadvantage of the known device is the comparative complexity a circuit containing a large number of switching capacitors and chokes, as well as the complexity of the connection of elements, which leads to a decrease in the reliability of the circuit in operation, increases cost, mass, dimensions. The purpose of the invention is to simplify the scheme. The goal is achieved by the fact that a three-phase | dm inverter contains a three-phase thyristor bridge, the AC terminals of which are connected to a star-connected three-phase load, a zero point connected to a common point of two series-connected filter capacitors, as well as switching capacitors choke, and the switching capacitors used filter capacitors, and the switching choke is connected between the common point of the indicated capacitors and the zero point of the stars s load. the drawing shows a three-phase serial inverter circuit. The three-phase serial inverter contains a three-phase thyristor bridge 1-6, a star-connected three-phase load 7, a switching throttle 8 and a chain of two series-connected capacitors 9 and 10 connected in parallel to the power supply. The reset switch 8 is connected between the zero point of the three-phase load star 7 and the middle point of the chain of two series-connected capacitors 9 and 10, and the load of the 7 phase ends is connected to the diagonal of the alternating current of the pofeno thyristor bridge. The device works as follows. . Thyristors 1, 2) 3, 4, 5, 6, 1, etc. are opened alternately. There is a recharge of the commuting capacitors 9 and Yu according to the oscillatory law in the circuits containing the commutating choke 8 and one of the thyristors 1-6. In the steady state operation of the inverter, the voltage on switching capacitors 9 and 10 is alternating and periodic in time, in each phase of load 7 only a variable component of the current reloading switching capacitors 9 and 10 flows, the frequency of which is determined by the frequency of thyristors 1 - b . A three-phase serial inverter containing a three-phase thyristor bridge, the AC terminals of which are connected to a star-connected three-phase load connected by a zero point to a common point of two series-connected filter capacitors, as well as switching capacitors and throttle, which, in order to simplify , filter capacitors are used as switching capacitors, and a wounding choke is connected between the common point of the indicated capacitors and zero th point star load. Sources of information,: taken into account during the examination 1. USSR author's certificate 235177, cl. H 02 M 7/48,. 2. Authors certificate of the USSR 558364, cl. H 02 M 7/515, 1974. 3. Bedford B. et al. Theories of autonomous inverters. M., Energie, 1969, p. 70, fig. 3-8.