SU849183A1 - Electromagnetic ac voltage stabilizer - Google Patents

Description

(54) ELECTROMAGNETIC AC VOLTAGE STABILIZER

Claims (3)

The invention relates to electrical engineering, in particular to secondary power sources, and may find application in control circuits or in the stabilization of a multiphase alternating voltage. Electromagnetic type stabilizers are known, which are built on existing chokes, which can be controlled by changing the number of turns in the windings PQ and G23. The disadvantage of such stabilizers is their complexity and switching losses when switching under load. Closest to the technical essence of the invention, there is an electromagnetic variable voltage regulator containing an annular core with E holes and a multiphase winding 3j distributed across the holes. A disadvantage of the known stabilizer is the presence of low-frequency harmonics in the current consumption and output voltage curve. The purpose of the invention is to improve the shape of the current consumption and output voltage curve and simplify the manufacturing technology. This goal is achieved by that in an electromagnetic alternating voltage stabilizer containing an annular core with holes and a multiphase winding distributed over the holes, said core is made of N magnetic conductors, and the multiphase winding is made in the form of sinus windings connected in series, placed on each magnetic core, and the axes of said windings are located on the adjacent magnetically conducting, are shifted relative to each other by an angle of с1г: -; t. In addition, the electromagnetic stabilizer is provided with a bias winding covering the N magnetic circuits, and the said apertures are placed along the average diameter of the magnetic circuit. In this case, the lowest harmonics, up to K NZ - 1, are absent in the curve of consumed current and output voltage. The drawing shows the annular magnetic circuit of the proposed device. The annular magnetic core contains six (Z 6) holes 1-6, which divide the magnetic core into two frames, the top one - 7 and the bottom one - 8. Sections. The upper 7 and lower 8 frames are selected, about the same and equal to the tooth section 9. In the holes there is a multiphase sinus winding 10 of the alternating drawing shown for one phase, and the DC winding (not shown) covers both the frames - wound on the magnetic core, like on a toroid. The drawing shows a core containing two magnetic cores (), therefore the winding, for example, the phases is distributed through the holes in steps of 6-2.5-3 with the number of turns corresponding to proportional values of 0.8660; 0.8660 for the first magnetic circuit and 1-2.6-3, 5-4 with the number of turns proportional to the values of O, 5; one; 0.5 for the second magnetic circuit, with the axes of the windings being shifted in space by an angle d.Q-- 30. The DC winding can be distributed over two magnetic cores, and also be common to two (or, in general, N) magnetic cores. The principle of operation of the device is as follows. When a multiphase voltage is applied to a multiphase AC winding, a rotating magnetic field is formed in the magnetic core, which alternately re-magnetes the teeth from one magnetic state to another. At the same time, in the coil section covering this tooth, a self-induced EMF pulse is induced. Since the AC winding is sinus, a series of pulses is induced on the phase winding coil, the amplitude of which is proportional to sinr (i-1) f --(J-1), where i is the sequence number of the hole j is the number of the magnetic circuit. For 6 the coil of the first magnetic circuit is induced by a series of pulses proportional to the magnitude of sin C, and in the coil of the second magnetic circuit is proportional to the value of s1n (i-1) f.-f- ,. The pulses in the sections of the coils of the magnetic cores are alternately induced with a phase shift corresponding to the angle c1-g-. Since the number of pulses increased by a factor of N in the general case, the order of the first of the higher harmonics was increased by a factor of N compared to the magnetic circuit. in this case, its amplitude dropped 2.13 times. This improves the shape of the current consumed and the output voltage of the stabilizer. , In order to control the values of the current and the output voltage, a voltage is supplied to the DC winding through an adjustable resistance from a DC source. Claim 1. Electromagnetic AC voltage regulator containing ring core with Z holes and multiphase winding distributed across the holes, characterized in that, in order to improve the shape of the current consumption and output voltage curve and simplify the manufacturing technology, said core is made of N magnetic circuits, and the multi-phase winding is made in the type of connected in series sinus windings placed on each magnetic core, and the axes of the said windings located on the neighbor they are magnetically conductive offset relative to each other by an angle dL 2. A stabilizer in accordance with claim 1, which is in that it is provided with a bias winding covering N magnetic circuits, and said apertures are arranged along the mean diameter of the magnetic conductor. Sources of information taken into account in the examination 1. Bamdas A.M. .i Shapiro S.V. Stabilizers with magnetized transformers. Energy, 1965, vol. 147, 153. 2.Lurie A.G. Theory of ferroresonant voltage regulators. Gosenergoizdat, s, 14, fig. 7 3. USSR author's certificate number 124523, cl. H 01 F 33/00, 1934.