SU811456A1 - Three-phase thyristorized inverter - Google Patents

Description

I

This invention relates to a device for converting a constant voltage to a three-phase stabilized sinusoidal frequency and amplitude required.

Three-phase inverters are known. On the basis of three single-phase inverting cells with interphase switching 1, 2.

The disadvantages of such inverters are large losses, especially at higher frequencies, large ripples in the source voltage during switching, which necessitates an increase in the installed power of the filter chokes.

This invention aims to improve the mass-dimensional parameters of known devices.

This goal is achieved by the fact that in a three-phase thyristor inverter containing three single-phase inverter cells connected to the input terminals via an inductive element, each of which is made in a single-phase zero circuit with cut-off and reverse diodes and switching LC circuits, and output ferroresisant stabilizers are included in each cell, and a common single-winding choke is used as an inductive element.

The drawing shows a circuit diagram of the described inverter.

The proposed device consists of three inverting cells, each of which contains power thyristors 1, 2, cut-off diodes 3, 4, switching capacitor 5 and choke 6, shunting

7.8 and reverse 9, 10 diodes, ferroresonant stabilizer, including linear 11 and nonlinear 12 chokes, filter choke for third harmonic 13, capacitor 14.

These cells are combined using a smoothing throttle in the DC circuit 15 and the output windings of the nonlinear chokes are connected in a star. The thyristors of cells 16-18 are controlled by device 19, which produces control signals shifted by 120.

When enabled, the next

thyristor 2 turning on thyristor 1 sonophore the recharging of capacitor 6 to

circuit: commutating choke 6, diode

8, thyristor 2. At the same time, the direction of the source during the recharge time falls on the smoothing choke 15 of the inverter, which limits the rise of the input

current. The same function is performed by the choke.

when KOMiMyiauHn power thyristors cells 17 and 18.

When changing the input voltage and load, the ferroresonant stabilizers change the magnitude and type of reactivity of the input voltage, which is the load of the inverter.

Excessive reactive energy returns to the source with a nominal, backdated diode 9, 10.

The use of generic throttle in the value of a constant current can reduce the size and weight of filtering devices.

Form y; a n 3 o b e te

A three-phase transistor inverter, the contents of which are connected to the input terminals through the inductive element trn one phase inverting cells, each of

which is made but zero single-phase scheme with cut-off and reverse diodes and commuting LC-nami, and at the output of each of the cells includes a ferroresonic-based stabilizer, characterized in that, in order to improve the mass-dimension indicators, as an inductive element for all cells common single winding is used

throttle.

Sources of information taken into account in the examination

1. Donskoy A.V., Ivensky G.V. Electrothermal Installations with Ion Converters of Uneven Frequency, pzd-Energia, 1964, p. 180

2. Air Force - Nachrichten, 1964, p. 623

(prototype).

Claims (1)

Forms of la invention and I A three-phase thyristor inverter containing three single-phase inverting cells connected to the input terminals through an inductive element, each of which is made according to a zero single-phase circuit with cut-off and reverse diodes and commuting LC circuits, with a ferroresonant stabilizer at the output of each cell, characterized in that, in order to improve the overall dimensions, as a inductive element for all cells used a common single-winding Yu choke.