SU78895A1 - Device for generating variable frequency current - Google Patents

Description

A device is proposed for generating a variable frequency current, which is a combination of a machine, having a three-phase winding on the stator and a single-phase on the rotor, and a rectifier system.

A distinctive feature of the device described is the supply of a stator with two three-phase windings shifted by 90 ° and a series connection of two half-period rectifiers of each phase. This achieves an output current without constant conditions.

Alternatively, three machines with rotors on a common shaft and a three-phase rectifier system are used. In this case, power is supplied to the rotor from the phases of the three-phase network.

FIG. 1 is a schematic diagram of the generator; in fig. 2 is a diagram explaining the principle of obtaining a tic curve without a constant component; in fig. 3 and 4 diagrams of both variants of the device.

A synchronous masking rotor (shown in FIG. I for a pole-void view) is driven by an alternating current. The two three-phase windings A, B C and A, B C of the stator are displaced one relative to the other by 90. When the rotor rotates in each of the phases of the first winding (for example in phase L), a ssd is induced. /, of the type shown in FIG. 2. Here the G is the period of one revolution of the rotor, and the modulated oscillation has a frequency equal to the frequency of the rotor power. The windings are made so that the envelope emf. Ul is as close as possible to a sinusoid having

period .-. Neutral O (or O) and the end of phase A are derived on a full-wave BI rectifier (or, respectively, Br-Fig. 3), thanks to which E.D.S. acquires the form of a curve Uz, and after filtering it looks like a curve bz, i.e. it can be approximately expressed by the formula:

 y (1-Cos2wt), where ".

No. 78895- 2 Winding A, B, C gives emf .. shifted by 180, i.e.

1 Cos2 {u i + -f) (1 + Cos 20) 1).

The difference of these curves, “Cos 2fflt. In this way,

a sinusoidal voltage is obtained without a constant component.

Other phases, i.e. B and and, C and C, give a voltage equal to, but

shifted by 120 °, so that a three-phase system is obtained with a period In the circuit of FIG. 4 shows the transformers Tp connected between the windings of the machine and the rectifiers. However, they may be absent if the middle points of the machine windings are derived.

The system is analogous, but with a three-phase rectification shown in FIG. 4. In this case, three machines are used, the rotors of which Ri, Rp and R sit on the same shaft and are powered from different phases of the three-phase line, so that their voltages are shifted by 120 °.

Stator windings A, and. B, and ..., An and, Bn and .., etc., each of the machines are shifted one relative to the other by 90 (in the frequency system l). The voltages produced by the BZ-Bl-Bz-Bz valves are summed up in pairs and give the output voltage A, B, C three-phase voltage l.

The proposed device can be used to power brushless electric drives with asynchronous motors, the speed of which in this case is regulated by changing the speed of rotation of the rotors of the machines entering into the described device.

Subject invention

Claims (2)

1. A device for generating a variable frequency current consisting of a machine with a three-phase winding on the stator and a single-phase on the rotor powered by an AC network and a rectifier system serving to demodulate the current, characterized in without a constant component, the stator winding is composed of two three-phase windings shifted relative to each other by 90 °, and the full-wave rectifiers of each phase of these windings are connected in series with each other. 2. The device according to claim 1, excluding using three machines, the rotors of which are mounted on the same shaft and connected to the three phases of the three-phase network, and the three-phase rectifier system. i FIG. f i -i /, . ./ .i /; 7P : t usp setglshg