SU987764A1 - Multi-cell inverter - Google Patents

Description

(54) MULTIBLOCK INVERTER.

one

The invention relates to radio engineering and to be used in underwater acoustics, ultra-long wave radio communications, and the like.

Known high-frequency thyristor generators, made according to the scheme of multi-cell inverters 1.

The disadvantage of such generators is the poor use of thyristors in voltage, as well as a significant change in the voltage on the thyristors and the circuit time provided by the thyristors to restore their electrical strength, from changes in the load parameters and frequency of the generated oscillations.

Similar drawbacks are inherent in generators, which are complete according to the scheme of many cell inverters t23.

Claims (3)

Closest to the present invention is a high-frequency thyristor generator, made according to the scheme of a multi-cell inverter, each cell of which consists of two series-connected main and two reverse thyristors of two chokes, connected in series with the thyristors, a switching capacitor and a multiple-winding transformer, in which the primary windings are equal to the number of cells. The cathode of one reverse thyristor is connected directly to the anode of the main thyristor connected to it, and the cathode of the other reverse thyristor is connected to the anode of the opposite turn on. another main thyristor through the primary winding of the output transformer. One plate of the switching capacitor is connected to the anode and cathode of reverse thyristors and to one end of the transformer winding, the other end of which is connected to the anode and cathode connection point of the main thyristors, the second capacitor plate is connected to the midpoint of the filter capacitors of the power supply, the second terminals of which are connected with throttle mi gs. A disadvantage of the known inverter is a reduction in the circuit recovery time and, therefore, a decrease in the frequency of the generated oscillations when operating on a load having a capacitive nature. Another disadvantage of the prototype is a reduction in the circuit recovery time, similar to that described above, when the generator operates with overlapping thyristor currents from different cells. The noted deficiencies may appear when the load of the circuit changes OR the generator operates in the frequency range. The purpose of the invention is to expand the frequency range in a multi-cell thyristor inverter by increasing the circuit time for restoring the electrical strength of the thyristors when the generator is in operation for varying loads, including capacitive. To achieve this goal, a multi-cell inverter containing pits of cells each of which consists of two series-connected main thyristors connected to a power source through inductors, and two series-connected reverse: thyristors, whose common point is connected through a primary winding of a multi-winding output transformer with a common point two main thyristors, and through a switching capacitor - with the midpoint of the power source, each cell is equipped with two additional throttles, The reverse inertia terminals are connected to the power supply through additional chokes. Fig, 1 shows the inverter circuit; on fig, 2 - diagrams on his work. The inverter contains the main thyristors 1-6, reverse t} 1ristors 7-12, chokes 13-18, connected in series with the main thyristors, additional chokes 19-24, connected in series with reverse tcrst & switching capacitors 25-27 source 28 mid-point power supply, multi-winding output transformer 29, load 30, the Inverter operates as follows. At each time point, the main and reverse thyristors of different cells are turned on; 1 and 7, 2 and 8, 3 and 9, 4 and 10, 5 and 11, ..6 and 12, When the main thyristors 1 and 2 are turned on, the power supply 28 is in series - choke 13 - thyristor 1 - transformer 29 - capacitor 25 and the source 28 of the capacitor 26 - the transformer 29 thyristor 2 - the choke 14 flows a sinusoidal current pulse i (fig, 2c), the capacitor 25 is recharged from the negative voltage - (O) to the positive voltage 0, (fig, 26), when turned on the main thyristor 3 and the reverse thyristor 9 due to the fact that the cathode of the reverse thyristor 9 is connected not to the anode of the main thyristor 1, but through the choke 21 to the plus The power supply 28 to the thyristor 1 in: moment of time 2 the opposite voltage will be applied. it (fig. 4c), which exceeds the reverse voltage in the known device. Thus, in the proposed device restore even with the capacitive nature of the load. When you turn on the main thyristors 4 and 5, the processes are similar. Thus, the inclusion of additional chokes in each inverter cell between the cathode of one reverse thyristor and the power source plus between the anode of the other, reverse thyristor and the power supply minus increases the frequency of the generated oscillations by increasing the circuit time represented by the main thyristors to restore them strength at varying, including capacitive, load. Claims of the Invention A multi-cell inverter comprising p, cells each of which consists of two series-connected main thyristors, connected to a power source via chokes, and two series-connected reverse thyristors, the common point of which is connected through the primary winding of a multiple-winding output transformer with a common point two main thyristors, and through a switching capacitor with a midpoint of the power source, characterized in that, in order to expand the frequency range, each cell is provided with two additional choke in E, the reverse thyristors are connected to a power source via additional chokes. Sources of information taken into consideration for the examination. 1. Artyom A.D. Key generators of harmonic vibrations. L., Energie, 19731 9 646 2.Berkovich E.I. and others. Thyristor converter of high frequency, L., Energie, 1973, p. 2OO. 3. Authors svietelstvo USSR № 481972, cl. H O2 M 5/42, 1971. / 7 21 gz ( 15 nineteen s 1c v. / -Z I FIG. one I /. 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