SU192915A1 - - Google Patents

Description

The invention relates to autonomous inverters, which provide stable operation regardless of the operating conditions of the load.

Known inverters of such a type, consisting of similar valve groups but the number of phases of the inverter, are made with a general artefact switching circuit containing auxiliary controlled valves, switching a choke and a capacitor charged from an independent DC source.

In the proposed inverter, the installed power of the power equipment is reduced due to its full use, reduction of losses in the artificial switching circuit, and significantly lower power of the charge source. Each valve group is made with an individual artificial switching circuit containing four auxiliary controlled veptils, two of which form a bridge bridged from the inverter’s power source with the main channels, and the switching capacitor is included in the bridge diagonal, one of the capacitor plates from the side auxiliary valves are connected via two other auxiliary valves to opposite sides of two sources of charge charging, the second poles of which are connected

with one change of voltage of the inverter, and the commutating chokes are made with a magnetic current.

FIG. Figures 1 and 2 show the principle of the three-phase and single-phase inverter circuits.

The proposed car inverter can

have any number of phases of load. Cells

all phases are identical and work with a shift

2g. ,,.

on the angle - (t - the number of phases). t

Since all phases of the converter work in the same way, the operation of the inverter will be considered on the single-phase converter (Fig. 2).

Suppose that at the time preceding the switching, the current passed through the power

thyristor 1 and choke 2, and commuting co-sensor 3 charge dils from an external source 4 through an auxiliary thyristor 5. The cores of commutating chokes are magnetised by direct current so that the amnervices of the magnetizer are larger than the maximum possible amner turns generated by the inverter load current. Consequently, the switching inductors of the circuit are not involved in the voltage polarity of the load, as a result of lowering the thyristor / and unlocking with thyristor delay 6. In this case, the load is disconnected from the negative source of the applied power source and is connected to the positive one. The power thyristor is assisted by an auxiliary thyristor 7. When fed, it impulses a blocking capacitor 3 to its thyristor on its firing electrode. Capacitor discharging occurs at the following prices: auxiliary thyristor 7 - choke 2 - reversible valve 8 according to the oscillatory law, and the capacitor will not be charged with a constant current equal to the node magnetization current, and the value of nanometer: to which it is subjected to the discharge will be somewhat lower than its initial value due to the loss B of the switching circuit. In order for the following switching to occur under the same conditions, the switching capacitor must be recharged to the previous value of the voltage from source 9 by opening the valve 10. In the circuit in question, the voltage on the switching capacitors remains unchanged, while the minimum capacity of switching capacitors is required. Since the recharge is oscillatory, the energy losses during switching are small and the power of additional charging valves is small.

In the circuit shown in FIG. 2, the circuits of the capacitor and the capacitors are connected directly to the terminals of the capacitors. However, with this method of charging, a t-phase inverter will require 2 tons of power sources. If you apply a charge through the power thyristors / and 5 at those points in time.

when they are open, only two sources are needed.

When using high-quality jMarHHbbix materials, energy notaries in the artificial switching circuit can be minimized, and the commutation capacitor capacitor junction can be produced once per period, which will save a single charge voltage per thyristor per phase and a single source of electrical voltage.

Subject invention

An autonomous inverter consisting of similar valve groups and the number of phases of the inverter, each of which contains two series of connected main controlled valves and two reverse current diodes, with an artificial switching circuit containing a choke, auxiliary controlled valves and a switching capacitor connected to the source podzar yes, differing in the fact that, in order to reduce the installed power of the equipment, each valve group is made with an individual circuit of art commutation, soda For four four auxiliary valves, two of which form a bridge connected to the source of the inverter with the main valves of the group, the switching capacitor is included in the diagonal of the bridge, and one of the capacitor plates on the side of the auxiliary valves is connected to the opposite poles of the two nodzar sources through the other valves. yes, the second zeroes of which are connected to the poles of the inverter source with the same name, and the commutating chokes are connected with DC magnetization.

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