SU384180A1 - AUTONOMOUS INVERTER - Google Patents

Description

one

In known autonomous inverter circuits with individual switching, when the inverting frequency increases, the switching capacitor does not have time to charge up to the voltage of the power source due to the considerable time constant of the switching LC circuit. In addition, due to the unidirectional passage of the operating current through the commutating chokes, it is necessary to use magnetizing windings connected in series and connected to a power source.

The purpose of the invention is to eliminate these disadvantages. This is achieved in that the auxiliary thyristors are connected to the opposite terminals of the power source through the secondary windings of the commutating chokes.

The drawing. Shows the inverter circuit, where / -6 - power thyristors; 7-12 - auxiliary switching thyristors; 13-18 - auxiliary thyristors in the circuit of the accelerated charge of the switching capacitor; 19-24 reverse diodes; 25 - commuting choke in the anode group; 26 - switching choke in the cathode group (Li L2); 27 switching capacity, included in the diagonal of the ventilation bridge.

Consider the operation of the scheme on the example of one phase. Suppose that the main thyristor is open /, and the switching capacitor 27

Charged before the voltage of the power source (U) with the polarity indicated in the diagram. When opening the switching thyristor 7, the thyristor / is quenched by a counter current of discharge

containers in a short-circuited circuit formed by the specified ventilation and capacity. After locking the power thyristor Y, the capacitor continues to be distributed in the following circuit: (-J-) the capacitor, inverse

diode 19, the primary winding Drossel 25, thyristor 7, (-) capacitor. When the voltage on the capacitor is close to zero, i.e. when the thyristor is provided / the necessary time for the restoration of the holding properties,

a control pulse is applied to thyriscore 13. At the same time, the capacitor starts to accelerately charge from the DC power source along the circuit from a shorter time: (-f-) the source, the secondary winding

25, thyristor 13, capacitor 27, load, one of the phases (B or C) of an autonomous inverter, (-) power supply. And after unlocking the thyristor 2, the charge circuit is obtained as follows: (-f) the source of the lithium, the secondary winding of the switching throttle 25, the thyristor 13, the capacitor 27, the thyristor 2, the primary winding of the throttle, (-) the power supply. At the same time, the capacitor charge current passing through the secondary winding of the throttles 25 peremagnetises the core into the network and thus prepares the switching throttle for the next cycle.

Similarly, the circuit operates at a negative half-wave output voltage of the same phase, when the current is switched from the power valve 2 to the power valve /.

Subject invention

An autonomous inverter consisting of valve groups, according to the number of inverter phases, connected to the power supply terminals through the primary windings of switching inductors, each of which contains two series-connected main thyristors, two switching thyristors, a switching capacitor and two auxiliary thyristors, valve groups are shunted by reverse current diodes, characterized in that, in order to simplify and improve switching stability, auxiliary thyristors are connected to an opposite terminal m power supply through the secondary winding commutating chokes.