SU350035A1 - - Google Patents

Description

Blocks of magnetically modulated magnetic heads (MMGs) are known, containing flat tires connected to a source of periodical voltage, between which a number of pairs of magnetized plates parallel to magitite plates are exchanged.

The disadvantages of the known devices are the complexity of the design and relatively large gabarity.

In order to simplify and reduce the dimensions in the proposed device, between each of the pairs of plates is placed a metal coil, made included in the circuit of the parametric amplifier.

FIG. 1 shows the proposed device (the magnetic conductor and the windings) of a MMG two-track unit with parallel excitation and signal fields and an excitation device with additional magpithores for the excitation flow; for FIG. 2 and 3 and the section. By L-L 1I B-5 of the MMG block in FIG. one; in fig. 4 shows the proposed device in a MMG multi-track block with perpendicular excitation and signal fields (magnetic cores, excitation buses and single turn output windings) of three block heads; in fig. 5 and 6 — sections along DD and EE in FIG. four.

Crosses and dots indicate the direction of the excitation current (from the observer and to the observer, respectively).

The front of the device is adjacent to the carrier of the converted magnetic flux (signal flux).

In the proposed device, a single-layer magnetic tape 1 is a carrier. The signal magnetic circuit is made in the form of two parallel plates 2 and 3 prepared from ferromagnetite, of which one is the direct and the other is the reverse branch of the signal magnetic circuit. Plates 2 and 3 are separated by a non-magnetic gap 4, which forms in the front part the usual magnetic head for the working gap, and in the rear part it is separated along the thickness from the working gap. The output winding 5 is connected with the magnetic flux of the signal flow.

The excitation generator 6 (Fig. 3. Clause 6) is electrically connected to the excitation buses (single turn windings 7 and S), made of a material with a low specific electrical resistance. For a more effective replacement of an excitation flux in MMG with parallel fields of excitation and a signal (Fig. 2), additional magnetic conductors 9 10 of excitation flux can be received. 8 magnetic conductors excitation currents. The magnitude of the excitation current is chosen in such a way that the ferromagnet part of the magnetic cores of the signal is magnetised along a substantially nonlinear part of the magnetization curve, but the limiting hysteresis loop, as a result, the magnetic resistance of the plates 2 and 5 in section B periodically changes with the main frequency equal to twice the excitation frequency. The residual note of an elementary print of a magnetic tape} penetrates into the forward branch of the signal magnetic conductor (plate 2) and through the nonmagnetic gap 4 between the plates passes to Nlastin 3 (the opposite branch of the magnetic signal conductor), but is lawfully dependent of the ratio of the magnetic resistances of individual sections of the plates 2 and 3, the thickness of the gap 4. The part of the signal flow penetrating the section 6 of the magnetic circuit interlocks with the single-turn output winding 5. It varies in magnitude due to the change in the magnetic against the signal magnetic circuit under the action of the excitation current, this part of the signal flow causes a variable emf. in winding 5 (iHO electromagnetically induction law), which is the output signal. Emf proportional to the magnitude of the residual signal flow. In order to increase the output signal and to obtain selective amplification in particular harmonics, a capacitance can be included in the output winding circuit OR, through a matching transformer, which together with the inductance of the output winding periodically varying in time with the output winding, forms a parametric amplifier. Other embodiments of the invention are possible. The field of excitation can be coupled with the plates 2 and 5 along their entire length or only with their front part. The distance between plates 2 and 5 in section C can be larger or smaller than in section D, i.e. plates 2 and 3 can be stepped. As the material of the plates 2 and 5, single-domain magnetic strips can be used, which makes it possible to increase the frequency of excitation, and with it the value of the output emf and bandwidth to several hundred MHz. The subject matter of the Invention Magnetic modulation magnetic heads unit, comprising flat plates connected to a source of periodic voltage, between which a series of parallel parallel magnet plates are placed, characterized in that, in order to simplify the device and reduce its dimensions, a metallic coil, serving as the output winding of the block.

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