SU983613A1 - High frequency permeameter - Google Patents

Description

(5) HIGH FREQUENCY PERMEAMETER

one

The invention relates to electrical measuring equipment and is intended to measure magnetic characteristics (permeability, loss angle, etc.). toroidal ferromagnets.

A high-frequency permeameter is known for measuring the magnetic characteristics of toroidal ferromagnets, which contains a primary winding wound on a core of magnetic material, located on the central electrode of a single turn of the secondary winding in the form of a short-circuited coaxial cylinder, including a outer electrode, a cover and a rotary coaxial ring. The internal cavity of a short-circuited coaxial cylinder serves as a measuring container for a test specimen of a ferromagnet G 1 1.

The disadvantage of the known permeameter is the low accuracy of measuring the magnetic characteristics of toroidal ferromagnets in a certain size range of the test samples, since in this case, with the same constructive type of high frequency permeameter, the air gaps between the test sample and the electrodes of the coaxial cylinder change significantly secondary winding. (

Claims (2)

A high frequency permeameter is known for measuring the magnetic characteristics of toroidal ferromagnets, containing a primary winding consisting of two halves, each of which is wound on a corresponding core, and a secondary winding made in the form of a short-circuited coaxial cylinder consisting of an outer and an internal electrode formed by a double mechanic1 3 matched coaxial semi-cylinders, each of which consists of half of the outer electrode and half of the inner electric At the same time, each of the halves of the primary winding is placed coaxially on the corresponding half of the internal electrode of the short-circuited cylinder and at the same distance from the location of the test sample and additionally equipped with axial sleeves in the form of two hollow cylinders placed in the measuring container, the outer diameter one hollow cylinder is equal to the inner diameter of the outer electrode, and the inner diameter is equal to the outer diameter of the test specimen, while the outer diameter of the other hollow cylinder equal to the inner diameter of the test piece, and the inner diameter of the cylinder equals the diameter of the inner electrode device 2j disadvantage - low accuracy magnetic acteristics characterized because parazitnogo.pro transient instability detection contact resistances between the ends of the sleeves and E seats outer and inner electrodes. The goal is to increase accuracy. The goal is achieved by the fact that a high frequency permeameter containing a primary winding placed on a toroidal ferromagnetic core and a secondary winding made in the form of a short-circuited coaxial cylinder with external and internal electrodes coaxially placed on the primary winding, additionally introduced a source of excess duplication and two toroidal hermetic chambers made of elastic metallized material, the first chamber k |) is axially fixed on the outer surface of the inner electrode, W The chamber is fixed on the inner surface of the outer electrode coaxially to the first chamber, with the loose cylindrical surfaces of the chambers corrugated along the generators, and the bases of the chambers are stately circumferential with the electrodes, while the inner volumes of the chambers are connected to an overpressure source. 34 FIG. 1 shows a constructive view of a high-frequency permeameter; in fig. 2 is a section A-A in FIG. The high-frequency permeameter contains a hepwich winding I wound on a toroidal ferromagnetic core 2 and consists of two identical parts, and a secondary winding made in the form of a short-circuited coaxial cylinder including an external electrode 3, an internal electrode 4 and a cover 5 mechanically interconnected, for example using the cam shutter. The primary winding 1 is located coaxially with the inner electrode C. The inner space of the coaxial cylinder serves as a measuring container 6 for the test sample 7 of a toroidal ferromagnet. Two sealed chambers are coaxially arranged in the measuring container 6 — the first 8 and the second 9, which have the form of toroidal cavities. The outer side surface of the chamber 9 forms the outer electrode 3 and the inner side surface of the chamber 8 is the inner electrode k. Chambers 8 and 9 are made of apastic material (for example film fluoroplastic) with an outer (facing inside the measuring container 6) metallized coating (applied, for example, by vacuum spraying), are fixed in a certain way in the outer electrode 3 and in the inner electrode 4 by means of rings 10-13 with the implementation of a good electrically conductive contact and, respectively, corrugated in circular and longitudinal directions to ensure mobility. The second chamber 9 is connected via a channel k, fixed in the outer electrode 3, and the first chamber 8 is connected via a channel 15 connected via the inner (central) electrode to a source 1b of overpressure (air pump). The primary winding 1 is connected to a serial measuring device, in particular to a cumeter (Q-meter type E9 -), performs excitation functions in the measuring container 6 of the high-frequency electromagnetic field and indication of reaction perception, and its two identical composite suits can be connected as a successor but agrees consistently. The operation of this high frequency permeameter is carried out as follows. The magnetic characteristics of the test specimen 7 of a toroidal ferromagnet are measured when the component parts of the primary winding 1 are connected in series with the help of a cumeter at the time of onset of resonance in its oscillatory circuit. When a test sample 7 is placed in a measuring container 6 using a source 1b, a vacuum is created in the internal cavities of chambers 8 and 9, which leads to their radial compression and at the same time unhindered coaxial positioning of the test sample 7 is provided. Then, using a source 16, an overpressure is created in the internal cavities of chambers 8 and 9, as a result of which, with their movable side surfaces, they fit snugly against the test sample 7. After supplying high frequency electric The signal (on the order of 30 MHz) implements the principle of transforming the impedance of the test sample 7, while the currents induced in the coaxial cylinder (coil) of the secondary winding in the outer electrode 3 and inner electrode k between the rings 10 and 11j 12 and 13 are closed through the metallized coating of the deformable surfaces of chambers 8 and 9 is due to the surface effect known in electrical engineering, to correct the stability of the co6ct parameters of the permeameter, namely the magnitude of the transitional contact resistance between 3, and the lid 5, the component parts of the primary winding 1 are connected in succession and, thus, due to the mutual compensation, the art is not simulated without the measuring container 6 and the test subject of sample 7. And the characteristics measured with the help of a gauge are used to select the beginning readings of its indicating device. Thus, this high-frequency permeameter is characterized by a high accuracy of measurements of the magnetic characteristics of toroidal ferromagnets in a wide range of sizes and without lyudaets oscillation measurement sensitivity that allows optimal ispolzovsat in this case one and the same output measuring device. The invention includes a high-frequency permeameter containing a primary winding placed on a toroidal ferromagnetic core and a secondary winding made in the form of a short-circuited coaxial cylinder with an external and internal electrodes, coaxially with which is placed the primary winding, in order to improve the accuracy, in order to improve the accuracy, in order to improve the accuracy, the winding of the primary winding, in order to improve the accuracy, in order to improve the accuracy of the core, the winding, in order to improve the accuracy of the winding, with a coaxially coaxial coaxial cylinder, with the aim of improving the accuracy, with the aim of improving the accuracy, in order to improve the accuracy, the coil has a coaxial cylinder, in order to improve the accuracy, in order to improve the accuracy of the winding, with the coaxial coaxial of the primary winding, in order to improve the accuracy, in order to improve the accuracy, the coil has a core with a coaxial coaxial coaxial coaxial cylinder, which is designed to improve the accuracy of the core, - introduced an overpressure source and two toroidal sealed chambers made of metallised elastic material; the first chamber is coaxially closed On the outer surface of the inner electrode, the second chamber is fixed on the inner surface of the outer electrode coaxially first, the loose cylindrical surfaces of the chambers corrugated along the generators, and the bases of the chambers corrugated circumferentially concentric with the electrodes. . Sources of information taken into account in the examination 1. USSR author's certificate in application No. 2927649 / 18-21, cl. G 01 R 33/12, 1980. 2. USSR author's certificate for application number 2915999 / 18-21,. Yu1. G 01 R 33/12, 1980.