SU974279A1 - Method of producing inductive voltage dividers - Google Patents

Description

The invention relates to electrical measuring technology and can be used to manufacture voltage dividers. High accuracy for use in AC bridges, digital devices, compensators and ps AC voltage potentiometers, measurement amplifiers, multivalued ratio measures, voltage measures and for verification electrical measuring devices. A known method of making inductive voltage dividers by twisting a bundle of insulated wire is not suitable. winding the harness on a ferromagnetic core, connect the wire harness in series and connect the taps to the bridges connecting the conductors C1. However, voltage dividers manufactured by this method cannot be used in high-voltage circuits due to the relatively low breakdown voltage of conductor insulation. A known method of manufacturing a high-voltage inductive voltage divider consists in winding the main and auxiliary windings on separate ferromagnetic cores, the main windings of the individual cores are connected in series, and the auxiliary winding of each subsequent core G2 is connected to the auxiliary winding of the previous core G2. of the method is its complexity, since obtaining the small errors of the divider is related to the necessity of selecting Lerromagnetic cores according to the value of magnetic permeability and losses and the windings of the cores are identical in electrical parameters. The closest in technical essence to the assumed one is a method of manufacturing inductive dividers of voltage with distributed parameters, which consists in simultaneously winding the windings with elementary harnesses of twisted with constant pitch conductors twisted into a common cable and placed on the ferromagnetic core along the wave guide. law, and from one of the conductors make a withdrawal after the first bypass of the ferromagnetic core around the perimeter, and from any other conductor make a withdrawal before the last obx core house two windings compound was prepared by successive amounts equal dtvodami sections, one of which having a tap from the end, forms a beginning of one winding and the other section with taps having the tap from the beginning, forms the end of the second coil 3. However, the known method allows to manufacture an inductive divider with a high input voltage, since its value is limited by a relatively low breakdown voltage of conductor insulation, and the increase in the input voltage of the divider by increasing the number of turns of the tow and section of the ferromagnetic core leads to an increase amplitude and phase position error and the narrowing of the frequency range of the divider. The purpose of the invention is to increase the input voltage of the divider. This goal is achieved by the fact that, according to the method of producing inductive voltage dividers, winding the windings with elementary bundles of insulated conductors twisted with a constant pitch, arranged on a ferromagnetic core according to the wave law, simultaneously elemental strands are laid directly on the frame of the ferromagnetic core side by side with each other and in all subsequent turns, the same alternation of bundles remains as in the first turn, all conductors of each elementary bundle and all elements Amber connectors are connected in series, according to the order of their location on the frame of a ferromagnetic core. On the line is shown a diagram of manufacturing an inductive voltage divider. A method for manufacturing inductive voltage dividers is to follow the circuit. 4 Of the isolated conductors of the same diameter by twisting: several of them are twisted with constant pitch, for example, five elementary harnesses 1-5 of the ferromagnetic core D) of the toroidal form are placed in the insulation 1Cionic frame 7 on which the elementary harnesses 1-5 are wound at the same time laying they are near each other evenly around the circumference of the frame hole without gaps between the harnesses. The order of location of the mounts in each turn of the winding is kept the same as in its first turn. All conductors of each bundle and all bundles are connected in series, and the order of the connection of the conductors in the bundle is arbitrary, and connected in series in accordance with the order of their location on the frame 7 of the ferromagnetic core. With this method of producing an inductive voltage divider, the input voltage applied to the divider is distributed between the elementary bundles inversely proportional to their number, with the bundles located next to it, the potential difference between which is the smallest. In this case, the average distance between the conductors of elementary harnesses having a large potential difference turns out to be significantly greater than in a winding made in a known manner by elementary harnesses torn into a common bundle. As a result, parasitic capacitances between the elementary harnes forming separate sections of the divider and their the effect on the potentials of the section taps decreases by more than an order of magnitude. In turn, reducing intersection links through parasitic capacitances leads to a decrease in the phase and amplitude errors of the divider, which makes it possible to use it (3 wider frequency band due to a significant increase in the upper limit of the frequency range K almost 5-6 times). Thus, the proposed method of manufacturing inductive dividers provides an increased input voltage, as well as a smaller value of amplitude and phase error, and can be used to make dividers designed for operation with high input voltage in an extended range ua (-. Ior

Claims (3)

Claim A method of manufacturing inductive voltage dividers by simultaneously winding the windings with elementary strands of insulated conductors twisted with a constant pitch located on a ferromagnetic core according to the wave law, characterized in that, in order to increase the input voltage, elementary bundles are laid directly on the ferromagnetic core frame next to each other and in all ¹ subsequent turns, the same alternation of harnesses is maintained as in the first turn, all the conductors of each elementary harness and all elementary bundles are connected in series, according to the order of their location on the frame of the ferromagnetic core. information sources taken into account during examination 1. UK patent K ”1.244,212, H1T, 08.25.71. 2. Baida V.I. High precision transformer voltage divider. Trudy metrological institutes of the USSR. Research in Electrical Measurements, 1971, no. 115 (175), p. 131-140 3. Copyright certificate of the USSR No. 164892, cl. H 03 h, 03.16.62 (prototype).