SU1123058A1 - Permanent magnetic field source for polycrystal information store - Google Patents

Abstract

SOURCE OF A CONSTANT MAGNETIC FIELD FOR A MULTI-CRYSTAL INFORMATION STORAGE, comprising a body made of a magnetically soft material, on the inner opposite surfaces of which there are pairs of h-magnets in the same direction of the pole pieces, and they have 10 hp and 10 hp. In order to increase its manufacturability, the plates of a magnetically hard material on each surface are magnetized in the direction of the scientific research institute opposite to the direction of magnetization of the adjacent pair of plates.

Description

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The invention relates to computing and can be used in devices for storing discrete information on cylindrical magnetic domains (CMD). A multi-crystal storage unit module on the SCHSCHCH is known, comprising a housing made of a magnetically soft material, in which a magnetic displacement system is placed in a pair of magnetically rigid material with pole pieces, two mutually orthogonal coils to create a rotating magnetic field, inside of which there are domain-containing crystals on the switching board one}. The disadvantage of this module is the high power consumption. The closest in technical essence to the invention is a device comprising a body made of magnetically soft material, to the upper and lower walls of which plates of magnetically hard material with pole tips are attached, between which mutually orthogonal coils create a rotating magnetic field are installed, and there are several internal and One is common external katuvpsi, and the crystals are placed in the internal coils in pairs so that their working surfaces are turned to each other C 2. A disadvantage of the known device is the low workability due to the high material consumption of the device. The aim of the invention is to improve the processability of the source of a constant magnetic field of a multi-crystal storage ring. This goal is achieved by the fact that in a source of a constant magnetic FIELD for a multi-crystal storage device, information, including a housing, of a magnetically soft material, on the inner opposite surfaces of which there are pairs of magnetized in one direction magnetically solid material plates with pole pieces, magnetic material on each material magnetized in the opposite direction to the magnetization of the adjacent pair of plates. The drawing shows the proposed source of the magnetic field. It contains a body 1, a plate 2 magneto & a solid material with pole tips 3, which can be either flat or wedge-shaped. The device works as follows. The device creates a series of circuits for magnetic flux scanning, the number of which is equal to the number of sections of a multipolar magnetic system. Due to the fact that the magnetic flux through the walls of the housing serving as consumers, is divided into several streams, it is possible to reduce the thickness of the walls of the module housing by a factor equal to the number of sections of the multi-pole system. Since the internal demagnetizing field of individual sections is smaller compared to a conventional magnetic system, it may be necessary to create smaller magnets in the working gap. In comparison with the known invention, the manufacturability of a constant magnetic field source can be improved by reducing the thickness of the case and the permanent magnets.

Claims (1)

A SOURCE OF A CONSTANT MAGNETIC FIELD FOR MULTI-CRYSTAL INFORMATION STORAGE, comprising a casing of soft magnetic material, on the inner opposite surfaces of which there are pairs of magnetically hard material plates magnetized in one direction with pole tips, characterized in that, in order to increase its manufacturability, the hard surface material plate are magnetized in the direction opposite to the direction of magnetization of an adjacent pair of plates. 1123058 2 fields for a multicrystal storage ring. information containing a housing of soft magnetic material, on the opposite inner surfaces of which there are pairs of magnetically hard material plates magnetized in one direction with pole tips, magnetically hard material plates on each surface are magnetized in the direction opposite to the direction of magnetization of an adjacent pair of plates. The drawing shows the proposed source of the magnetic field. It contains a housing 1, plates 2 of hard magnetic material with pole pieces 3, which can be either flat or wedge-shaped.