SU1171934A1 - Series thyristor inverter - Google Patents

Abstract

SERIAL thyristor inverter, comprising transforming the cell with a bridge commutating capacitors in diagonals x, capacitors connected between the positive terminals of bridge converter cells and common points commutating chokes and anodes otsekayuli22 boiling diOlT s, cathodes of which are connected to the positive input terminal of the inverter and vyvodo.m filter capacitor, the other terminals of the switching chokes are combined and connected to one output to connect the load, the other the output of which is connected to the negative outputs of the bridge converter cells and the input terminal of the filter capacitor, as well as the input choke connected by one output to the positive input terminal of the inverter, characterized in that, in order to improve the mass-dimensional parameters by eliminating additional input chokes, it is additionally introduced diodes according to the number of bridge converting cells, the anodes of which are dinene with another output of the input choke, and the cathodes with positive terminals (L dami correspond uyuschih bridge converter cells. CO 00 4

Description

The invention relates to a converter technique and can be widely used as a power source for high frequency ozonizers, as well as other technological purposes. A thyristor inverter is known, consisting of bridge converter cells with switching capacitors in diagonal x 1. A disadvantage of the device is the absence of a junction between cells when used as a multi cell inverter for higher frequencies, which adversely affects the operating modes of power semiconductors items. The closest to the invention in technical sushi is a thyristor inverter consisting of bridge converter cells with switching capacitors in diagonals, separation capacitors connected between the positive poles of bridge converter cells and common points of switching diodes and anodes of cut-off diodes, cathodes which are connected to the positive input terminal of the inverter and the output of the filter capacitor, with the other ends of the commutating chokes combined, and the positive n The power supply voltage is connected to the positive poles of the bridge converter cells through the input chokes and the load connected between the common point of the switching chokes with the negative poles of the power source and the bridge converter cells 2. A disadvantage of the known inverter is a significant increase in weight and size when the output voltage frequency increases by increasing the number of converter cells. The aim of the invention is to improve the weight and size parameters by eliminating additional input chokes. This goal is achieved by the fact that in a series thyristor inverter containing bridge converter cells with switching capacitors in a diagonal, separation capacitors connected between the positive poles of the bridge converter cells and the common points of the switching diodes, the cathodes of which are connected to the positive input terminal of the inverter and the output of the filter capacitor, with the other ends of the commutating chokes combined and connected to one output for Connecting the load, the other output of which is connected to the negative outputs of the bridge converter cells, the input terminal and the filter capacitor, an input choke connected by one output to the positive input terminal of the inverter, additionally diodes are added according to the number of bridge converter cells whose anodes are connected to another output of the input throttles , and the cathodes - with the positive conclusions of the corresponding bridge converter cells. The drawing shows a block diagram of a serial inverter. The inverter contains thyristors of bridge cells 1-8, switching capacitors 9 and 10, separation capacitors 11 and 12, switching throttles 13 and 14, cutting diodes 15 and 16, filter capacitor 17, a load circuit consisting of its own load 18, a transformer 19, a direct current source 20, a constant current sensor 21, decoupling diodes 22 and 23, and an input choke 24. The inverter operates as follows. During operation, capacitors 11, 12, and 17 have an average value equal to the voltage of the power source, and a constant input current flows through the choke 24 and diode 23 in a steady state. When the thyristors are turned on, for example, 1 and 2, capacitor 9 is recharged through the constant current sensor 21, the primary winding of the transformer 19, the switching choke 14 and the isolating capacitor 12. When the voltage on it exceeds the total voltage, on the capacitors 12 and 17 the cut-off diode 16 is turned on. In this case, the current of the switching throttle 14 and the load circuit flows through the diode 16 and the filter capacitor 17. The input current of the inverter flows through the separation capacitor 12 and the cut-off diode 16. At the moment the cut-off diode is turned on, the current of the switching capacitor 9 is interrupted and the voltage on it is fixed at twice the voltage of the power supply. The current through the cutting diode 16 flows until the supply of electromagnetic energy of the inductive elements (chokes 14, 24 and the load circuit) is consumed. Thereafter, the diode 16 is turned off and the current of the throttle 24 flows through the decoupling diode 23, the capacitor 12, the switching choke 14 and the load circuit. Then the thyristors 3, 4 of the other cell are turned on, and the switching capacitor 10 is recharged through the constant current sensor 21, the primary winding of the transformer 19, the switching choke 13 and the separation capacitor 11. When the voltage on the switching capacitor 10 is reached, the sum of the voltages the capacitors 11 and 17, the cut-off diode 15 is turned on, resetting the reactive energy and fixing the voltage on the switching capacitor 10. Then the thyristors 5 and 6 of the first cell are turned on, and then the thyristors 7 and 8 are different th cell. After that, the full cycle of the inverter operation ends.

The number of converter cells in the circuit can be any, and the frequency of the output voltage is equal to twice the number of converter cells multiplied by the switching frequency of the thyristors in one cell.

Thus, with increasing frequency, the number of converter cells increases, and consequently, the number of coupling capacitors commuting

chokes, cut-off diodes. At the same time, the number of input chokes 24 remains the same (1 pc.), And only the number of connecting diodes 22 and 23 increases, which, like the input chokes in the known circuit, provide isolation of individual converter cells and prevent the flow of high frequency through the power supply.

Claims (1)

SERIAL THYRISTOR INVERTER, containing bridge converter cells with commuting capacitors in the diagonals, isolation capacitors connected between the positive poles of the bridge converter cells and common points of the switching chokes and anodes of the cut-off diodes, the cathodes of which are connected to the positive input of the filter and the inverter output the other outputs of the commutating reactors are combined and connected to one output to connect the load, the other output is the swarm is connected to the negative terminals of the bridge converter cells and the input terminal of the filter capacitor, as well as an input choke connected to the positive input terminal of the inverter by one terminal, characterized in that, in order to improve the overall dimensions due to the exclusion of additional input chokes, diodes are additionally introduced into it the number of bridge converter cells, the anodes of which are connected to the other terminal of the input inductor, and the cathodes are connected to the positive terminals of the corresponding bridge conversion cells. o1171934