DE2624614A1 - MAGNETIC PLAYBACK WITH MAGNETO RESISTANT ELEMENT - Google Patents

Description

N. V. PHILIPS «GLOEILAMPENFABRIEKEN, EINDHOVEN / HOLLAND

"Magnetic display device with magnetoresistance element"

The invention relates to a magnetic display device for detecting magnetic fields representing data on a Relatively movable magnetic recording medium with respect to the reproducing arrangement with a \ »/ at least nearly right ~ angular strips of magnetov / resistance material with a free edge facing the recording medium, and with two electrical connections at opposite ends of the strip for connection to a power source containing electrical circuit for detecting changes in resistance ♦

Magnetic playback arrangements in which a Kagnetowiderstandselenent is used as a sensing element, for example, from AEEN US Patents 3,493,694 and 3,691,540 known. The effect of such magnetoresistive heads is based on the use of a strip-shaped element arranged on a non-magnetic substrate and made of a ferromagnetic metallic material such as Ni-Fe, which is brought into close proximity to a magnetic recording medium or in contact with it, in order to reproduce the data content. The field of the recording medium causes changes in the K'Ägnetisieruiigöxustand the element and modulates its resistance via the so-called Magnetov / resistanceoffokt «This means

PHN 80f> 0

609882/1022

262A6H

that when the recording medium passes the head, the magnetic fields representing data present on the medium are the Rotate the spin system of the magnetoresistance element, v / o through which the resistance changes. This way the output signal increases an external electrical circuit connected to the element, the shape of current and voltage changes representing the data stored in the recording medium. To do this, the ends of the element are connected to a power source connected, which supplies a measuring current, which can be both a direct current and an alternating current. One edge of the Elements faces the recording medium in use. For a good effect it is important that this edge is as close as possible is close to the recording medium, preferably in contact therewith. However, this increases the size of the element perpendicular to this edge (the height) during operation due to wear. In order to maintain the good effect of the element for as long as possible To get, you want to choose the height as large as possible, for example. 100 microns. For a good reproduction of short wavelengths however, the height must not be too great and is expediently 5 to 10 microns.

The invention is based on the object of providing a solution to this problem. The magnetic display device according to the invention is characterized in that the power source is a high-frequency alternating current with a frequency co,

ρ y ^Έ

that is greater than "tjq, where / u is the magnetic permeability in henry / m of 'magnetoresistive material,)'

2 is the specific resistance in Ohm.m and D is the cross-section in ei

By operating the strip of magnetoresistive material with such a high frequency current, the lateral Skin effect a current division in the strip. This current division is characterized by a concentration of the current on the Strip edges, namely at the top of the recording medium?

FrIM 8050 609882/1022 - 3 -

262A6U

turned edge and ain opposite edge. This is it is possible to achieve a high sensitivity with a relatively large height of the strip.

A Gunn effect oscillator or L.S.A. oscillator is preferably used as the current source in the arrangement according to the invention applied. Oscillators of this type provide sufficient frequencies for the frequencies required within the scope of the invention Power.

The invention is illustrated below with reference to the drawing, for example explained in more detail. It shows.

Figure 1 shows schematically a magnetic display device with magnetoresistive strips of the type to which the invention relates regards.

FIG. 2 shows the magnetoresistive strip according to FIG. 1 in section, in which the current division is indicated, which in the embodiment occurs according to the invention.

1 shows a magnetic display device with a strip of magnetic resistance material 1 arranged on a non-magnetic substrate 3 and a current source 2 connected thereto. The voltage between the terminals 7 and 8 of the strip 1 is indicated by V_ and is measured with the aid of the measuring device k . This voltage is a measure of the data representing magnetic fields 6 from the magnetic recording medium 5, with. which the strip 1 is in magnetic coupling. Here, the strip 1 is perpendicular to the surface of the recording medium 5. The dimensions of the strip 1 are denoted by the letters a, b and c, where a is the height of the strip and b is the thickness. Thin layers of materials are used for the strip 1, of which Ni-Fe with a

8050 609882/1022

Thickness between 200 and 2000S is the most common.

If it is ensured that the current source 2 has a measuring current I with a frequency u,. returns that is greater than

ο (i SX

■ ■■ '»and if a» * b, which is just desired for use as a magnetic head, the occurrence of the so-called lateral skin effect will center the measuring current at the two opposite edges of the strip 1 as shown in FIG. which figure shows a section through the strip 1, in which the skin effect is shown by hatching. It should be noted here that, in magnetoresistive elements, the dimension a is actually many times larger than the dimension b. For example, a = 100 / µm and b = 0.1 / µm. With a specific resistance / = 15.10 ohm.m and a relative magnetic permeability / U = 10, the size of the cut-off frequency (the frequency above which the lateral skin effect occurs) is then 1519.8 MHz for such a strip. This frequency is precisely in the range for which sufficient power for the embodiment in question is achieved with the Gunn effect or LSA oscillators (10 mV / in Cv /. Operation with an efficiency of 2-5 %) .

By concentrating the current at the edges of the strip, the dimension a can be chosen to be so large that a larger one Wear resistance is achieved than is possible with the known relocating arrangements of the type mentioned. The bigger a, the more the demagnetizing field inside the strip decreases, reducing the sensitivity to external Fields become larger and the loss of sensitivity through concentration of the measuring current at the edge of the strip 1, which is located far from the recording medium 5, is balanced.

^A >' ~! Γ '~> f TT "r>.

PHN 8050 609882/1022 -5

Claims (6)

26246H PATENT CLAIMS: Magnetic display device for detecting magnetic fields representing data on a relative to the Transfer assembly of relatively movable magnetic recording medium with an at least substantially rectangular strip of magnetoresistive material with a free edge facing the recording medium facing, and with two electrical connections at opposite ends of the strip for connection to an electrical circuit containing a power source for detecting changes in resistance, characterized in that the power source is a high-frequency alternating current with a frequency o). delivers the largest 8 )
is greater than —w, where / U is the magnetic permeability in Henry / m of the magnetoresistive material, Γ the specific ρ resistance in Ohm.m and D is the cross section in m. 2. Arrangement according to claim 1, characterized in that the power source is a Gunn effect oscillator. 3. Arrangement according to claim 1, characterized in that the power source is an L. S »A, oscillator is. PHiT 8050 6 0 9 8 8 2/1022 Blank page