SU584411A1 - Three-phase sine-wave oscillator - Google Patents

Description

(54) GENERATOR OF THREE-PHASE SINUSOIDAL VIBRATIONS

I

The invention relates to the field of measurement technology, in particular to the field of developing means for calibrating wattmeters and electricity meters, and can be used in various areas of technology where it is necessary to have stable three-phase voltages or currents with a 120 ° phase shift between them.

Sources of multiphase oscillations are known, 1 whose stability of output voltages depends on a number of factors.

A source of multiphase oscillations is also known, which contains a master oscillator, power amplifiers and a star-shaped adder 2. In this source, in order to obtain three-phase voltages, it is necessary to have two voltages equal and shifted by exactly 120 ° voltage. The third phase voltage therein is removed from the output of the amplifier, the input of which is connected to the output of a star-shaped adder. The disadvantage of such a source is that in order to obtain three-phase voltages, a master oscillator is necessary, the two output voltages of which are strictly equal to each other and are shifted one relative to the other by exactly 120 °. This requirement significantly complicates the master oscillator and its implementation. In addition, in this scheme, the level of nonlinear distortions, determined by the nonlinear distortions of the two original directions, is quite high.

The aim of the invention is to improve the accuracy and stability of phase and linear voltages, reduce the level of nonlinear distortion and simplify the requirements for the master oscillator. This is achieved by introducing an additional amplifier into the proposed generator of three-phase sinusoidal oscillations, the input of which is connected to the midpoint of the star-shaped adder and the output to the inputs of linear voltage amplifiers.

The drawing is a diagram of the onisable generator.

The generator contains amplifiers 1-3 with circuits 4-6 for stabilization of output voltages, to the outputs of which a star-shaped adder 7 is connected. The output of adder 7 is connected via an additional amplifier 8 and adders 9-11 to the inputs of amplifiers 1-3, respectively. The second inputs smzmarov 9-11 connected to the outputs of the a-c master oscillator 12.

The output voltages of the amplifiers 1-3 are summed on the star-shaped adder 7, amplified by the amplifier 8 and fed into the feedback voltage to the inputs of the amplifiers. With a phase shift of 120 ° relative to each other, the voltage at the input of amplifier 8 is zero, since the voltages at the outputs of amplifiers 1–3 are equal in amplitude. If the phase shifts differ from 120 °, which may be due to the phase characteristics of the amplifiers being identical or inaccurately setting the phase voltage shifts of the driving oscillator 12, the voltage at the output of the adder 7 is different from zero. This voltage across amplifier 8, summing up with the input voltages, changes the phases of the output voltages in such a way that the total voltage tends to zero. In this case, the phase shifts between the output voltages approach 120 °.

Thus, the proposed generator makes it possible to obtain stable 120 ° shifted voltages with small nonlinear distortions with relatively simple requirements on the output voltages of the master oscillator.

Claims (2)

1. USSR author's certificate №515222, cl. H 02M 5/257, 1970. 2. Japanese Patent No. 49-7977, cl. N OZV 27/00, 1969.