SU1083227A1 - Combined magnetic head for inductive recording and magnetoresistive reproducing - Google Patents

Abstract

COMBINED MAGNETIC HEAD INDUCTIVE RECORDING AND MAGNITOREZISTYVNOGO PLAYBACK comprising a dielectric filler half-core, between the pole pieces which B '1 lyuteyl located working air gap, and between the rear portions - an additional gap winding recording and a magnetoresistive element with equipotential strips oriented at an angle of 45 ° to the axis of easy magnetization of this element, characterized in that, in order to expand the frequency range of reproducible information and increase sensitivity, half-cores are made of ferrite, the dielectric filler is inserted into an additional gap, and the magnetoresistive element is located above the additional gap, the width of which is determined from the expression $ W-Vr5 where d is the width of the additional gap, µm; g W is the width of the magnetoresistive element (L ment, µm; S is the distance between adjacent equipotential bands, µm. sk with N5

Description

The invention relates to instrumentation, in particular to a combined magnetic head, operating in recording mode as an inductive element, and in playback mode as a magnetoresistive element. A known combined magnetic head is made in the form of films that are conjugate to each other, one of which is titanium, and the other is Permalloyev. These films are the basis of the head, and their isolation from other elements is carried out using alumina 1. The reliability of such a head is quite high, but due to the complexity of manufacturing, it is not used in magnetic recording and reproducing equipment. An attempt to simplify the manufacturing technology of such a head led to a system using a three-electrode sensor with an oppositely directed field of displacement in its different branches (the sensor itself is E-shaped) and to the need to connect this sensor to the differential amplifier 2. The noise immunity of the head has increased, the manufacturing technology has simplified, but increased complexity in the manufacture of related elements (sensor and amplifier). Introducing a sensor with the appearance of a conductor and placing the magnetoresistive element directly in the rear (additional) head gap simplified the head manufacturing process even more, but at the same time there were noticeable non-linear distortions in the output signal and the sensitivity of the head as a whole 31 decreased. the proposed is a combined magnetic head of inductive recording and magnetoresistive reproduction, containing dielectric filler, half cores, between pole and The tip of which is the working gap, and between the back sections is an additional gap, a recording winding and a magnetoresistive element with equipotential strips oriented at a 45 ° angle to the easy magnetization axis of this element 4. However, this head also does not have a wide enough frequency range when playing information and has a relatively low sensitivity. The purpose of the invention is to expand the frequency range of the reproduced information and increase the sensitivity of the head. The goal is achieved by the fact that in the combined magnetic head of inductive recording and magnetoresistive reproduction, which contains a dielectric filler, there are half hearts, between the pole tips of which there is a working gap, and between the back sections - an additional gap, a recording winding and a magnetoresistive element with equipotential strips oriented under the angle 45 ° to the axis of easy magnetization of this element, the half-cores are made of ferrite, the dielectric filler is added to There is an additional gap, and the magnetoresistive element is located above the additional gap, the width of which is determined from the expression §4WVrS, where 0 is the width of the additional gap, µm; W is the width of the magnetoresistive element, μm; S is the distance between adjacent equipotential bands, µm. FIG. 1 shows the proposed head; in fig. 2 - magnetoresistive element. From the rear of the ferrite half-cores 1 there is an additional gap 2, and on one of the half-cores there is a winding of 3 records. A magnetoresistive element 4 is located above the additional gap, having equipotential strips 5, current-carrying tracks 6 and contact pads 7. Information is recorded on the carrier 8. The recording process is carried out using winding 3. The flow created through it closes on the ferrite half cores, falls on carrier, i.e. it is traditional. When reproducing the stream from the carrier through the half-hearts, it hits the magnetoresistive element 4 and, as a result, the saturation magnetization vector indicated by the position 9 of the element 4 is rotated by the angle indicated by the position 10 proportional to the value of the flow from the carrier with a frequency equal to the frequency of change of this stream. When direct current flows through element 4, a change in the orientation of vector 9 relative to the orientation of detection current density vector 11 at an angle of 10 causes a change in the electrical resistance of the material from which element 4 is made. Equipotential bands 5 provide a quasilinear relationship between the flow from the carrier and the output signal from the element 4. Parasitic edge areas of element 4, i.e. the areas affected by the parasitic effect are made in some way inactive by selecting the width of the gap 2 and then these areas are located outside the gap 2, i.e. just above the half-cores 1. The flow from the carrier is localized and does not affect these parts of the element 4. The proposed head has increased sensitivity and high resolution due to a decrease in

the likelihood of shunting the detection current flowing through element 4. And this leads to increased reliability of information reproduction, which reduces the need to duplicate recorded and reproducible information.

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Claims (1)

COMBINED MAGNETIC HEAD OF INDUCTIVE RECORDING AND MAGNETIC RESISTANCE PLAYBACK, containing dielectric filler, half-cores, between the pole tips of which there is a working gap, and between the back sections there is an additional gap, the recording winding and the magnetoresistive element at 45 degrees with the equipotential axis element, characterized in that, in order to expand the frequency range of reproduced information and increase sensitivity, the semi-cores are made of ferrite, the dielectric filler is introduced into the additional gap, and the magnetoresistive element is located above the additional gap, the width of which is determined from the expression where § is the width of the additional gap, microns; W is the width of the magnetoresistive element, microns; S is the distance between adjacent equipotential bands, microns. (L