SU81940A1 - Fazoregul torus - Google Patents

Description

Phase regulators consisting of a three-phase transformer and a circular potentiometer, from which the controlled voltage is removed, are used to adjust the phase of the non-alternating current voltage.

The amplitude of the output voltage in such phase-shifters depends on the position of the circular potentiometer brushes.

In the proposed phase shifter, the resistances of the sections of the circular potentiometer are made varying according to a certain law, as a result of which it is possible to obtain an amplitude of the output voltage independent of the position of the brushes.

On fng. } shows a phasoregulator circuit made according to the invention; in fig. 2 is a voltage chart.

Phase regulator consists of a three-phase transformer G and a ring potentiometer I.

The primary winding of the transformer is connected to a three-phase voltage source.

If there is only a single-phase voltage source, the latter can be converted to three-phase by any of the known voltage converters.

The three-phase voltage from the secondary winding of the transformer G is supplied to the equidistant points of the ring potentiometer {points A, B, C).

The voltage U is removed from the potentiometer with the help of two diametrically located and mechanically connected brushes I (, and P1- ,.

Resistances Ri, Ro, K: circular notsiometry.a are wound on a shaped board having such a shape that when the brushes are placed at a certain angle a with respect to direct / 1C (see Fig. 2)

Yao 81940

the voltage drop across the resistance x of the MS section was expressed by the equation

0-, 7 (cos +

and the voltage drop across the resistance at the CN section would at the same time be

Uy ..

It is not difficult to see that the voltage taken from the circular potentiometer, under these conditions, will remain unchanged in magnitude for any values of a.

Indeed, if we take the voltage U L, where

and l surfactant - and the sun and AC - line voltage applied to the circular potentiometer, and enter the designations shown in FIG. 2, it is not difficult to determine the law of variation of the voltages taken from each phase as a function of the angle.

6 iycosa-f 6ycos60 ° -6cosa- | -0.5 Uy. f / sma t / y-sinGO;

.t / sin 7U. 2

. , r, -, sin g (1)

sin 60 ° / 3

and cos a + - sin y. and cos g + -llll (2)

Substituting the values of the angle in expressions (1) and (2), it is easy to determine the values of both y and LJ, i.e. the voltages taken simultaneously from one and the other phases of the circular potentiometer.

It should be borne in mind that the voltage taken, for example, from the SS phase, when a is changed from 30 to 90, is expressed by the value

Ux t // cosa-f

and when changing a from 90 to 150 ° by the expression:

 LJji + and Icosy. The above ratios are derived from the assumption that the external load of the circular potentiometer is very small and can be neglected. If the external load is relatively large, it is necessary to obtain the same results to obtain the same results.

Ij and (l.

The value of U. is the voltage drop from the point of application of one of the three-phase voltage phases to the point defined by the angle a. and therefore you can write that

U (cQSa

 3

V 7

 3

from where

-f (Differentiating board width changes

- cos -

da.

L / T

-4z-TCOs (2-f60 °) V / 3

Practically, it is possible to carry out a potentiometer board without precisely observing the sinusoidal law, but to make a step board by changing the height of the steps according to equation (4). It is also possible to change the cross-section of the wire being wound.

Subject matter

Phase regulator consisting of a three-phase transformer connected to a circular potentiometer, from whose brushes an adjustable voltage is removed, characterized in that, to obtain voltages with an amplitude independent of the position of the potentiometer brushes, the resistance of the circular potentiometer is made of shaped rheostats .

I sin a

(3)

cosa + -)

/ memory

and I

a-v / 3

sin and I

Cos

- sin

/ 3

(four)

sin (30 ° - a) equation (3) from the angle a, we find the law of the potentiometer on which is wound