SU811461A1 - Three-phase inverter - Google Patents

Description

one

The invention is different, ts to converters of power of poetic current to the energy of non-surplus current of high power.

The inverters {1, which are possible but different voltage inverter circuits - parallel inverters, series inverters, high-frequency switching inverters, pulse-switching inverters, etc. To obtain a new conversion frequency, series resonant inverters are used, in which 6 h: Year to the application of a series circuit, the current of the controlled valve during the entire conduction interval varies in time according to the oscillatory law. Important complementary resonant inverters that make them promising to use at higher frequencies are the relatively low rate of anodic current rise in controllable gates and it is possible to get long-term biased controllable gates by lengthening pauses between triggering control emulsions.

To obtain a three-phase network, we have currents and voltages, as well as to obtain more power in the load, three-phase series inverters are used,

2

However, the disadvantage of this known three-phase continuity inverters is the comparative complexity of the circuit diagram.

Also known is a three-phase nosledovatelny inverter 3, containing a three-phase thyristor bridge, consecutive) And the capacitive-capacitive circuits, a neutral point source of power and a three-phase load connected by a star. The zero point of the three-phase load star is connected to the neutral point of the power supply source, and the phase drift load is connected to the middle of the induction element spikes through the switching capacitances.

This scheme makes it possible to obtain an uninterrupted high-current current at extremely low speeds of an increase in the apod current in the adjustable valves, as well as the possibility of maintaining a sufficiently large locking angle of the controlled valves when the load changes over a wide range.

The drawbacks of the device are the comparative complexity of the circuit, containing Н1, its relatively large number of commutating co-detectors and chokes, as well as the complexity of the combination of elements, which leads to a decrease in the reliability of the circuit

in work, increase in cost, weight and dimensions.

The aim of the invention is to improve and increase the reliability of the circuit.

To do this, in a three-phase inverter containing a thyristor bridge, the AC outputs of which are connected to the first phase output terminals, the second phase output terminals being combined and connected to the output to connect the midpoint of the power source, as well as commenting LC the bridge is connected to the corresponding first phase output pins directly, and the switching LC circuit is connected between the connection point of the second phase pins and the output for connecting the midpoint of the power source and

The drawing shows a three-phase serial inverter circuit.

The three-phase serial inverter contains a three-phase thyristor bridge (nz thyristors 1-6), a three-phase load 7 connected by a star, a series inductance-capacitive circuit consisting of droplets 8 and a capacitor 9, a power supply with a midpoint. A serial inductive-capacitive circuit (8 and 9) is connected between the zero point of the three-phase load star 7 and the midpoint of the power source, and the load of the seven phase ends is connected to the diagonal of the alternating current of bridge 1-6 phase-wise.

The device works as follows.

Alternately, the thyristors I, -2, 3, 4, 5, b, 1, etc. are opened. The switching capacitor 9 reloads according to the oscillating law in circuits containing 1 disconnecting choke 8 and some

from thyristors 1-6. in the steady state mode of operation of the inverter, the voltage on the switching capacitor 9 is alternating and periodic in time. In each phase of the load, only the alternating component of the recharge current of the switching capacitor 9 flows, the frequency of which is determined by the frequency of the thyristor operation.

Formula of invention

A three-phase inverter containing a thyristor bridge, the AC outputs of which are connected to the first phase output pins, the second phase output pins being combined and connected to the output to connect the midpoint of the power supply, as well as the switching LC circuit, to simplify and improve reliability, the AC pins of the bridge are connected directly to the corresponding first phase output pins, and the switching LC coitur is connected between the junction point of the second phase pins and Displayed for connecting the middle point of the power supply.

Sources of information taken into account in the examination

1.Bedford B., Hoft R. Theory of autonomous inverters, M., “Energie, 1969.

2.Berkovich E.I. nd. Thyristor converters of high frequency. L., “Energie, 1973.

3.Bedford B., Hoft R. Theory of autonomous inverters. M., “Energie, 1969, p. 70,

rice 3-8.

S 8

Claims (1)

Claim A three-phase inverter containing a thyristor bridge, the AC terminals of which are connected to the first phase output terminals, the second phase output terminals being combined and connected to the output for connecting the midpoint of the power supply, as well as an LC switching circuit, characterized in that, in order to simplify and improve reliability, the bridge AC terminals are connected directly to the corresponding first phase output terminals, and the LC switching circuit is connected between the connection point of the second phase terminals and water to connect the midpoint of the power source.