SU1138827A1 - Thin-film magnetic head - Google Patents

Abstract

THIN-FILM MAGNETIC HEAD, having a body, a magnetic core installed in it, between two ends of KOTOPOI-O, located on the working surface of the magnetic head, has a working gap, and is placed on the magnetic core, which simplifies its design. while improving the parameters of recording and reproducing information, the body do of the side of the working surface of the magnetic head is made with a groove into which a plate of magnetically soft material is inserted, rigidly attached to one of the The magnetic core is greater than the thickness of the magnetic plate by at least ten times. O) f "z. /

Description

The invention relates to instrumentation, in particular to a thin-film magnetic head, which can be used to record and reproduce information on magnetic media. From the west side there is a magnetic magnetic head containing a magnetic core, between the branches of which a working gap is formed in the working surface area, made with a winding of a complex configuration, Cyc reducing the recording current and increasing the playback signal level in this head uses the orthogonal arrangement of the signal and exciting windings, and there is also a skin located in the cavity of the magnetic circuit, but from the side opposite to the working surface of the head 1. Such a magnetic head is reliable enough in operation and allows to reduce the recording current, however, the complexity of its implementation is very high. The closest to the present invention is a thin-film 1-1 magnetic head having a body, a magnetic conductor arranged in it, between which two ends located on the working surface of the magnetic head a working gap is formed and a winding 2 placed on the magnetic core. A disadvantage of the known magnetic head is that the need to carry out the magnetic core on the section of the tip of the tips figured makes such a head insufficiently technological. In addition, the recording and BOC parameters of the product are not high enough. The purpose of the invention is to simplify the design of the head while improving the parameters for recording and reproducing information. The goal is achieved by the fact that in a thin-film magnetic head having a body, a magnetic core mounted in it, between the two ends of which, on the working surface of the magnetic head, a working gap is formed, and a winding placed on the magnetic core, the body is formed on the sides of the magnetic surface. with groove, c. which is inserted on a plate made of a magnet of a soft material, rigidly bonded to one of the ends of the magnetic conductor, while the thickness of the wafer is not less than ten times the magnetic conductor. Fig, 1 shows the proposed head, the type of sideways; y; in fig. 2 the same, top view; in fig. 3 - the length of the magnetic core inside the head and on its working surface (schematically). The proposed head has a housing 1 with an installed plate 2 made of a magnet of a soft material, and a magnetic core 3 of the formed working gap 4 and a winding 5. The working gap is formed between the ends 6 of the branches 7 and 8 of the magnetic core 3. The ends 6 and the working gap A are placed in its the turn on the working surface 9 of the magnetic head, the total length of which is indicated by the arrow 10, and the length of the plate 2 is indicated by the arrow 11. During operation of the magnetic head, situations may arise when the total length p The working surface along the direction of movement of the magnetic carrier (not shown) will be commensurate with the wavelength of the recorded information. Then the flux in the magnetic conductor can either exceed the flux created by the magnetic carrier, or, conversely, become smaller, which is associated with even or odd recording waves (fluxes from adjacent half-waves are closed partially through the magnetic conductor or add to the main flux at odd waves, or are subtracted with even waves). As a result, longwave oscillation signals appear in the reproduced signal. If, however, the working surface of the magnetic heads is reduced, as in thin film heads due to their design features, the electromotive force of the reproduced signal decreases and the recording density decreases, i.e. The parameters for recording and reproducing information are deteriorated, and it turns out that the recording current is large. In the proposed head, the working surface is extended in connection with the use of a plate 2 rigidly fastened to the magnetic core. If the thickness of each branch of the magnetic circuit is 10 µm (i.e., the length of this branch along the direction of movement of the carrier) and the plate length is 2,500 µm, then the total length of the working surface will be about 520 µm, which is close to the surface length of a conventional non-film heads. In this case, the range of the snake-type spurious signal will tend to zero, and the emf of the long-wave reproduction signals will increase by about 5 dB compared to the known one. Technologically, such a head can be made, for example.

in the case of LS59-1 brass with a groove in which magnetically soft material is deposited, for example, permalloy 81 NML, at 300-400 ° C in a vacuum of 10 mm Hg. The magnetic core is also applied to the dielectric magnetic core itself, with which the working gap is formed.

The proposed head also makes it possible to increase the reliability of the recorded and reproducible information.

eight

ten

eleven

X

t g

fig.Z J J

Claims (1)

THIN-FILMED MAGNETIC HEAD, having a housing, a magnetic circuit installed therein, between the two ends of which located on the working surface of the magnetic head, a working gap is formed, and placed on the magnetic circuit. Winding, characterized in that, in order to simplify its design while improving the parameters recording and reproducing information, the housing do the sides of the working surface of the magnetic head is made with a groove in which a plate of soft magnetic material is inserted, rigidly fastened to one of the ends agnitoprovoda, wherein the plate thickness of not less than ten times the thickness of the magnetic circuit. N0 M Fig j 1 138827