SU522537A2 - Three Phase Adjustable Inverter - Google Patents

Description

one

The invention relates to a converter circuit and can find applications in stand-alone power sources of stabilized or controlled voltage of industrial or increased frequency.

Known three-phase adjustable inverter. No. 412660, containing an input choke, an inverter bridge on the thyristors and a valve-capacitor bridge installed at its output, closed on the choke of the RE.

However, in the well-known inverter, it is possible to break the inversion in case of accidental opening of the operation of the control circuits, for example, if they are falsely interfered with by interference, and also the large installed power system when the consumer has a large amount of noise (overloads, But, as a result of this, “shakyzhnyk.kp, dz for the expense of Vdrkul shch in the inverter circuit of large Kompekssrukitsy IOKOB in nominal modes of operation.

The aim of the invention is to increase the cn. and

device reliability.

For this, a valve-condenser bridge under the keys to the output terminals of the inverter bridge is through 1-piece capacitors.

I The drawing is a circuit diagram of an inverter.

Three-phase adjustable inverter contains thyristors 1-6, SIGNALS 7-9, capacitors 10-15, chokes 16,17.

I Tirisgürs form a three-phase inverter bridge, connected via the choke 16 to the input terminals of the inverter. To the output terminals of the inveriTOpHoro bridge (and the inverter itself) through capacitors 13-13 A three-phase ventilation-condenser bridge connected to the output on the spider 17 is connected, one group of shoulders of the bridge is formed by triacs 7-9, and a fugue is a group of shoulders - capacitors 10-12.

The inverter works as follows.

In the nominal mode, the thyristors 1-6 turn on alternately in the order of their numbering and form an alternating voltage of a given frequency at the output of the inverter that is close in shape to a sinusoidal one. Capacitors 10–15, connected in a star two consecutively in each phase, ensure the artificial switching of thyristors 1–6, as well as the fyo of the higher ra | .MOfmK in the inverted voltage ;:.:.

Regulation of the output voltage is provided by changing the balance of the reactive powers of the switching circuit formed by capacitors 10-15 and the valve-throttle regulator assembled on triacs 7-9 and throttle 17.

By adjusting the switching phase angle of the triacs 7-9 in the range of 60-90 ° relative to the maximum phase voltage, the equivalent inductance of the drossel 17 is controlled, the inductive current of which compensates for the capacitive current of the capacitors 10-12, which is equivalent to a change calculated to minimum acceptable.

Since capacitors 10-12 are connected to the output terminals of the inverter through capacitors 13-15, the total reactive power of the entire group of capacitors 10-15 and, accordingly, the output voltage of the inverter, which is directly proportional to the reactive power of capacitors 10-15, occurs,

The inductance of chokes 17 is selected based on the nominal range of load variations or controlled voltage, taking into account the limited range of triacs of the triacs 7--9, the area of the phase angles -0 60 - 90 el. hail, relate zero phase voltage to the advance side.

Due to the fact that the valve-capacitor bridge is connected to the inverter bridge, assembled on thyristors 1-6, through additional capacitors 13-15, it increases the reliability of the inverter during random overlaps of the regulating excitators / -9. In this case, when spurious switches with 1 mystors 7-9 occur, an additional capacitor 1315 closes to the artificial zero point of the plates of the inverter. The inverter continues to operate without any trouble with the reactive power of the capacitors 1315, which operate in this case not under partial, but under the full voltage of the inverter. In this case, the I1shertor output terminals do not shunt, as is the case in the inverter according to the author. St. №412660.

The installation of additional capacitors 13–15 also provides the possibility of a short-term increase in the power of the inverter — forcing the operating mode during reloads (starting powerful motors, etc.). In this case, the system controlling the inverter fully opens triacs 7-9, which bypass capacitors 10-12, and the switching circuit of the inverter is formed in this case only by capacitors 13-15 closed in a star by the indicated triacs.

With equal capacitances of the capacitor groups 10-12 and 13-15 with such a force, the reactive power of the switching circuit and, accordingly, the power of the inverter increase twice. In this way, it is possible to forcefully increase the power of the inverter without introducing additional gates. For other capacitance ratios of capacitors 10-15, there will be, respectively, other ratios of inverter power in nominal and accelerated modes of operation.

Due to the possibility of boosting the mo- ternality of the scorcher during overloads, in the nominal mode of operation, it is not necessary to compensate for the excess reactive power of the switching circuit of the inverter in terms of possible overloads, which leads to a decrease in the installed power of the power equipment and an increase in efficiency. inverter.

Claims (1)

1. Auth. St. USSR № 412660, MKI H 02 H 5/42, 1971 (prototype).