SU797008A1 - Two-phase winding of rotating transformer - Google Patents

Description

The invention relates to electric micromachines, namely to rotating transformers.

Known windings for a rotating transformer made of repeating sections, the number of turns of each ^ section of the winding being proportional, where P is the number of pole pairs;

Ζςγ is the number of stator slots [AND · in

However, the sine and cosine quadrature windings of this type have different electrical parameters.

Closest to the invention in technical essence and the achieved 15 result is a sinusoidally distributed winding, consisting of series-connected sections. The number of turns in the first groove of each phase of the winding is the same and proportional to 20 sin 45 ° [2].

The disadvantage of this two-phase winding is the inequality of the inductive and active resistances of the 25 phases of the winding due to the uneven arrangement of the phase sections along the grooves and the frontal parts, as well as due to the uneven tension of the wire when winding the sections. This leads to an error of the rotating transformer, ”especially affecting its operation in the phase shifter mode and synchronous. transmission.

The purpose of the invention is to improve the conversion accuracy of a rotating transformer by reducing the inequality of the active and inductive phase resistances of its two-phase winding.

This goal is achieved by the fact that each phase of the winding contains two identical sections connected in series, installed mutually perpendicularly. One section of each phase is installed in the same grooves and is made with the same number of turns in each groove and the same direction of winding with one section of the other phase, and the sections of one phase are connected according to, and the other phase is opposite.

The drawing shows an example of a two-phase winding for a rotating transformer.

Each phase of the winding consists of successively opposite or according to the included sections. The number of turns in each groove of one group of sections is proportional

5in [(1-1) 145 °], and the second

The first К ^ and the second Н ^ Кт, sections of the first phase, as well as the first first Η ^ Κ ₂ and the second Н4К4 sections of the other phase are mutually perpendicular. ,

The sections and H4K4, as well as H ^ K ₄ , are both wound and laid in grooves simultaneously (in two wires). The first section of the first phase is connected in series with the second section of the same phase and forms a sinus winding of a rotating transformer, the axis of which is offset from the axis of the first section by 45 el. degrees, for example, clockwise. The first section of the second phase is connected in series opposite to the second section of the same phase and · forms a cosine winding whose axis is offset relative to ** but the axis of the second section is 45 el. Degrees. accordingly counterclockwise, i.e. the sine and cosine windings are shifted by 90 el. hail.

So motans as both sections of each phase are laid in grooves at the same time, they have the same active and inductive resistances. Since the sine and cosine windings are formed from sections offset by 90 el. hail., they will also have the same resistance, which leads to increased accuracy of conversion of a rotating transformer.

Claims (2)

Each slot of one group of sections is proportional to .-- iM5, and the second COsP- (A-lH45n, First NK and the second HjKi, sections of the first phase, as well as the first and second sections of the other phase, are installed mutually perpendicular. Sections HijK-i , and as well., and H2.K are wound and laid in grooves simultaneously (in two wires). The first section of the first phase is connected in series according to the second section of the same phase and forms the sinus winding of the rotating transformer, the axis of which is offset relative to the axis of the first section 45 el., for example, clockwise. The first section in The second phase is connected in series with the second section of the same phase and forms a cosine winding, the axis of which is shifted relative to the axis of the second section by 45 electr., respectively, counterclockwise, that is, the sinus and cosine windings are shifted between themselves by 90 e.degree Since both sections of each phase are identical to the active and inductive resistances of the motanes and stacked in the grooves at the same time, since the sine and cosine windings are formed of sections shifted by 90 e. hail. they will also have the same resistance, which leads to an increase in the conversion accuracy of the rotating transformer. Claims Two-phase winding of a rotating transformer, containing in each phase serially connected sections, characterized in that, in order to improve the accuracy of the converter, one section of each phase is shifted by 90 el. hail, relative to another section of the same phase, is installed in the same slots and is made with the same number of turns in each slot and the same direction of winding from one section of another phase, with sections of one phase being connected according to one another and opposite. Sources of information taken into account during the examination 1. USSR author's certificate No. 163926, cl. H 02 K 24/00, 1963. 2. Authors. USSR certificate № 284154, cl. H 02 M 5/32, 1967. (. Jilrv-v Lv l) ufncospa. fjm