SU587493A1 - Flux-sensitive magnetic head - Google Patents

Description

one

The invention relates to instrumentation and can be used in the technique of magnetic recording.

Known flux-sensitive magnetic heads with a branched magnetic core, inductance winding, capacitance and amplifier I l3.

Also known is a flow-sensitive magnetic head containing a magnetic core split into two branches, each of which is made with two necks, on which the inductance windings of the oscillating circuits of the generators connected to the low-pass filter amplifier 2 are wound.

The disadvantage of such heads is their low sensitivity, since the magnetic flux induced by the carrier affects the frequency change of ONLY one generator.

The purpose of the invention is sensitivity enhancement.

For this, the head is equipped with two bias windings, each of which is connected to a corresponding DC source, and two feedback windings, each of which is connected to the output of the corresponding frequency detector, with the input of each frequency detector connected to the generator. the isthmuses of each of the branches are wound on a bias winding and feedback.

The drawing shows a block diagram of the proposed magnetic flux-sensitive HEAD.

This head contains a magnetic core having an undivided part 1, a left 2 and a right 3 branches with necks 4 and 5 of the left and right branches on which the windings 6 and 7 of bias are wound, connected to a source of DC 8, feedback windings 9 and 10 connected to the outputs of the frequency detectors 11 and 12, the inputs of which are connected to a matching amplifier-mixer with filter 13

low frequencies as well as outputs

generators 14 and 15, the windings of the inductance of the oscillating circuits are wound on the necks of 4 and 5.

The flow-sensitive magnetic head operates as follows.

In the absence of a magnetic flux, the isthmuses of the left and right branches are magnetised by winding 6 and 7 by bias current in such a way that the magnetic

the magnetizing flow magnetizes the necks of the neck in one direction and necks of the necks in the other. The frequencies of oscillators 14 and 15 that are set at this bias will be the same. Frequency detectors 11 to 12 are tuned so that at these frequencies the voltage at their outputs will be equal to Kull and, therefore, there will be no additional biasing using the windings 9 and 10

With the presence of a reproduction magnetic flux, the bias of the left neck islets, for example, the branch increases, since the reproduced stream and the bias stream act consistently and the magnetization of the right branch decreases, since the reproduced stream and bias stream act in anti-pillars directions. As a result, the inductance of the winding of the generator 14 decreases, and its frequency increases. The inductance of the winding of the generator 15 increases, and the frequency of this generator decreases. As a result, a positive output voltage appears in the frequency detector 11, which causes the bias current to appear in the feedback winding 9. This in turn leads to an even greater increase in the frequency of the generator 14. A decrease in the frequency of the generator 15 causes the appearance of a negative voltage at the output of the frequency detector 12 and the bias current in the feedback winding 10, which is turned on so that in this case magnetic flux occurs feedback, acting according to the reproduction of the stream. As a result, the demagnetization of re-5s increases, the inductance of the windings of the oscillating circuit of the generator 15, whose frequency is further reduced.

The voltages of the generators 14 and 15 are applied to a matching amplifier-spruce mixture with a 13 low-pass filter, the output of which removes the differential frequency signal directly proportional to the magnitude of the reproduced signal.

The differential scheme of a frequency magnetic head with positive feedback dramatically increases the sensitivity of the head due to

1 that the slightest bias of the necks by a reproducible stream causes a relative change in the output frequency of the head, which is multiplied by many times due to positive feedback, which creates an additional bias in the necks in the same direction as the reproduced stream.

The use of the proposed magnetic head makes it possible to obtain a highly stable, noise-resistant and sufficiently powerful output signal, which makes it possible to use it in magnetic recording playback devices with a smaller number of amplification stages and to take the head to large distances from the reader. The proposed head has a low-frequency signal output (from 0 to 10-20 kHz). This property is especially important when using heads in automatic and program control devices.

Claims (2)

1. Authors certificate of the USSR 202225, cl. q 11 In 5/30, 1967. 2. Authors certificate of the USSR,, cl. Q 11 B 5/30, 1975.