SU399984A1 - TWO-STOCK INVERTER - Google Patents

Description

one

The invention relates to the field of electrical energy conversion technology, in particular to two-cell thyristor inverters.

Two-cell inverters are known, containing sequentially single-phase single-phase bridge inverters, which are powered from separate sources, and a sequentially driving oscillator and phase shifting unit.

The proposed device is characterized in that opposite reverse thyristors of the apo-group of one of the bridges are connected reverse diodes, while the control electrodes of the thyristors of the cathode of the given bridge are connected to the output of the phase-shifting unit, and the control electrodes of the thyristors of the other bridge and the thyristors of the cathode of the other bridge and the thyristors and of the thyristors and the cristors of the other bridge and of the thyristors, and the control of the thyristors of the other bridge and of the thyristors and the cristor of the other bridge and of the thyristors; reverse diodes connected to the output of the master oscillator.

This allows you to smoothly adjust the output voltage of the device at a constant power supply voltage.

FIG. 1 shows a diagram of the described device; pas figs. 2 - diagrams of the current and the current on the load.

The device works as follows.

At time ti, pulses are delivered from the master oscillator ZG to the control electrodes of the thyristors Tj, Ta, Tz and the input of the FB phase-shifting unit. As a result, the load current Z ,, will flow through the circuit: thyristor TI - load Zj, - bottom Dg - thyristor Tz - thyristor T2, and the voltage of the power source Eb will be applied to the load At the time / o the output of the phase-shifting FB unit impulses voltage on the control electrode of the thyristor TI As a result, the thyristor Ti will open, and diode D, under the influence of the power source papr E2, will close. The load current will flow through the circuit: thyristor TI - load Z ,, - thyristor T4 - capacitor C - tricistor Tz - thyristor TZ, and the load voltage will be equal to the sum of the two power sources E Ei | - E2. At the time mtapept, due to the oscillatory nature of the load current of its velpchin and, therefore, the magnitude of the current of the thyristors Ti-T4 will be zero. In the interval 4 - 4 thyristors TI-T. restore their locking properties. In time, t, from the outputs of the master oscillator ZG pulses are applied

voltages to the control electrodes of the thyristors TS, TG, T and the input of the phase-shifting unit, and so on. In the second half-period of the control frequency in the 4-is interval, the processes in the inverter are repeated.

Thus, with the help of the FB phase-shifting unit, the switching time of the thyristors T4 and Te with respect to the switching-on time of the thyristors Tb T2, TS, Tb, Tz, Tt, it is possible to smoothly change the average value of the load on the two-cell inverter in wide limits.

It is especially expedient to use the proposed device in frequency converters, where it is necessary to regulate from the total power of two inverters to the power of one of the inverters.

Subject invention

A two-cell inverter containing serially connected single-phase bridge inverters powered from separate sources and connected in series a master oscillator and a phase-shifting unit, characterized in that, in order to regulate the output voltage, reverse diodes are connected counter-parallel to the thyristors of an anode group of one of the bridges, In this case, the control electrodes of the thyristors of the cathode group of this bridge are connected to the output of the phase-shifting unit, and the control electrodes of the anode and cathode thyristors Upp of the other bridge and thyristors shunted by reverse diodes are connected to the output of the master oscillator.

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