SU987761A1 - Three-phase self-sustained current inverter - Google Patents

Description

(54) THREE-PHASE AUTO.NOM CURRENT INVERTER

Claims (3)

The invention relates to converting a thermal technique, in particular, to DC / AC converters. Autonomous current inverters are known in which, in order to improve external load characteristics and increase the switching stability of autonomous current inverters, it is known to carry out switching circuits in them in the form of complex capacitor circuits with a nonlinear characteristic. The most common of these are serially parallel, parallel serial, parallel-sequential-parallel l, 2J and 3j. An autonomous current inverter with a parapel-series-parallel commutation circuit t2 has the most rigid external characteristics. The disadvantage of it is the complexity of the circuit. More simple in design are autonomous current inverters with parallel-series and series-parallel connected capacitors. The closest to the proposed one is a three-phase autonomous current inverter containing a three-phase valve bridge on thyristors with an input drive and a phase-switching circuit consisting of serial and pyral groups of switching capacitors 3. A disadvantage of the known inverter is the possibility of work interruptions in case of an open circuit break of a series capacitor or short circuit of a parallel capacitor. The purpose of the invention is to increase reliability with the indicated damages. This goal is achieved by the fact that In a three-phase autonomous current inverter containing a valve bridge with an input inductor and with series and parallel groups of switching capacitors in the output terminal circuit, the medical capacitors are connected between the opposite plates of the series capacitors. The drawing is a schematic diagram of the inverter. The inverter contains thyristors 1-6, an input choke 7, capacitors 4-1 Zyu Thyristors 1-6 are connected to a three-phase valve bridge connected at the input through the throttle 7 to the input terminals of I1Nerrator, and through three-phase output through serial capacitors 8-10 to inverter output pins. Parallel capacitors 11–13 are connected between opposite plates of adjacent phase serial capacitors, respectively 8 and 9, 9 and 10, 10 and 8, the Inverter works as follows. In the sequence of their thyristors 1–6 in the order of their therapy, continuous direct current converts into alternating three phase. For this alternating switching on of thyristors 1-6, their control electrodes are fed through a cut of 60 eL.grad, narrowly doubled pulley of the control system. Turning off thyristors is provided by KoiTTypoM switching capacitors 8-13, providing capacitive. com1 utaiiu turn off thyristor when you turn on the alternate included thyristor When modes are close to a short circuit load, series capacitors provide the limitation of the emergency current and stable serial switching - turning off thyristors 1-6. At modes close to idle and in particular when a series capacitor is broken, when the load current is actually zero, stable capacitors — thyristors 1–6 are turned off by parallel capacitors. Due to the fact that the actual parallel capacitors C-13 are connected between the opposite plates of series capacitors 8–10, linear groups of parallel switching circuits are formed by series-connected serial and parallel capacitors. Ana parallel parallel switching circuits are also formed on the output side of the IOertor. The stiffness of the external characteristic with the increased reliability of the inverter is determined by the main ones: .1And by the ratio of series and parallel groups of capacitors. The invention is a three-phase autonomous current inverter containing a valve bridge with an input choke and with serial and parallel switching capacitors in a circuit of output terminals, characterized in that, in order to increase reliability and enhance functionality, parallel capacitors are connected between opposite plates adjacent in phase serial capacitors. Sources of information taken into account in the examination 1.Prostakov AA, Gitgarts D .. And. The choice of the circuit and the configuration of the oscillatory circuit of the induction installation. Electrical industry. Ser. Electrotherms, vol. 97, 197O. 2.Kulichenkov V.P. and others. Investigation with the help of a digital computer of a three-phase parallel-series-parallel current inverter, Coll. The use of thyristor converters in the power industry. M., 1972. 3. Converting devices in electric power industry. M., Science, p. .62.