RU18796U1 - MAGNETIC MEDIA RECORDING DEVICE (OPTIONS) - Google Patents

Description

The utility model relates to means intended for erasing information on magnetic media and can be used for quick and reliable erasing of information from magnetic media.

A device for erasing information is known, which is an oscillating circuit from parallel connected inductors and capacitors connected via a key to a power source / DE 39 40 129 A1, G And B 5 / 024.06.06.1991 /.

A device for erasing information is known, including several channels in the form of oscillatory circuits from parallel connected inductors and capacitors connected via controlled keys to a pulse shaper / DE 39 40 810 A1, G И 5 / 024,13.06.1991 /.

A device for erasing information, including inductors, designed to generate a pulsed magnetic field, connected via controlled keys to a shaper of bipolar pulse sequences / EP 402 538 A1, O 11 V 5 / 024,19.12.1990 /.

Closest to the technical nature of the claimed device according to the first embodiment is a device for erasing records on a magnetic medium containing a channel designed to create pulsed magnetic fields, including an inductor that generates pulsed magnetic fields and a capacitor installed with the ability to connect to a constant voltage source or to inductor / cm. Maso A.Ya. et al. Demagnetization of magnetofilms, Proceedings of VNIAZ, No. 9, 1961, p. 48-49 /. However, the device. A disadvantage of the known device is the low quality of erasure due to the characteristics of the process of demagnetization of the ferromagnetic layer of the magnetic recording medium. The closest in technical essence to the claimed devices according to the second and third variants of implementation is a device for erasing recordings on a magnetic medium, including two circuits, each of which contains a constant voltage source solenoid and a capacitor connected via a key to the specified source and to the solenoid to which a damper diode is connected, and the solenoids of each circuit are installed with the possibility of orientation of the intensity vectors of the fields created by them turned relative to each other on an angle not equal to 180 ° and 360 °, while the capacitors are made in polar, and the moments of connecting the capacitor to the solenoid in these circuits are shifted relative to each other - TC 2 144 223 C1, G 11 V 5/024. 10.01.2000 /. The disadvantages of the known device are the limited arsenal of means used by the device due to the use of a damper diode as a limiter of self-oscillations and restrictions on the directions of the magnetization vectors, which can lead to a decrease in the reliability of the device. The technical result of the group of utility models is to increase functional reliability by using the suppression of alternating decaying voltage and / or current fluctuations, the values of which can take both positive and negative values using various technical means, including switches, reducing the dimensions of the device through the use of polar capacitors, reducing the cost of the device. The claimed devices also provide the versatility of a device for erasing magnetic recordings, as they are suitable for erasing various magnetic media. The technical result according to the first embodiment is achieved that in a device for erasing records on a magnetic medium containing, designed to create a pulsed magnetic field, including inductance forming a pulsed magnetic field and a capacitor arrays with the ability to connect to a constant voltage source

or to an inductor, the capacitor is made polar and can be connected to a constant voltage source directly.

The technical result according to the second embodiment is achieved in that the device for erasing records on a magnetic medium comprises a channel for creating pulsed magnetic fields, including an inductor forming pulsed magnetic fields, and a polar capacitor installed with the ability to connect to a constant voltage source and / or to an inductor, the device also comprises means for suppressing alternating damped oscillations associated with the inductor.

In this case, the means of suppressing alternating decaying oscillations is made in the form of a diode or resistor, or switch.

Also, a means of suppressing alternating decaying oscillations can be a specified source of constant voltage with an output resistance sufficient for the passage of the self-induction current of the inductor.

The technical result according to the third embodiment is achieved by the fact that the device for erasing records on a magnetic medium contains at least two channels designed to create pulsed magnetic fields, each of which includes at least one inductor that generates pulsed magnetic fields with specified intensity vectors, while the device may contain additional channels designed to create pulsed magnetic fields, made similar to the specified, and in each In the vicinity, the inductor is configured to generate pulsed magnetic fields in such a way that the direction of the intensity vectors of the pulsed magnetic fields generated by the inductors can change relative to each other, and the moments of the formation of pulses of these magnetic fields can be shifted relative to each other.

Each of these channels may include a polar capacitor associated with the specified inductor, to which is connected a means of suppressing alternating damped oscillations, and the polar

the capacitor is installed with the ability to connect to the source

DC voltage and / or to the inductor.

In each channel, a polar capacitor can be installed with the ability to connect via a key or switch to a constant voltage source and / or inductor.

The utility model is illustrated by drawings, FIG. 1 shows a device according to a first embodiment, FIG. 2 shows a device according to the second embodiment, FIG. 3 shows a device according to the third embodiment, the channels in which are made similar to the channel in the first embodiment, Fig. 4 shows the device according to the third embodiment, the channels in which are made similar to the channel according to the second embodiment implementation.

The device in figure 1 contains one channel designed to create pulsed magnetic fields and includes an inductor 4, a capacitor 3, connected in parallel to a constant voltage source 1, and a switch 2 controlled by a predetermined algorithm. When this switch 2 is installed with the ability to disconnect from the capacitor 3 of the inductor 4 and connect to it a constant voltage source 1, the capacitor is made polar. In this case, the device operates as follows. The capacitor is connected to a constant voltage source, while it is charged to the required potential, then the switch 2 connects the inductor 4 to the capacitor 3. There is a discharge of the capacitor 3 to the inductor 4. The current pulse through the inductor 4 forms a magnetic field pulse / magnetization current pulse /, which magnetizes a magnetic recording medium located in the magnetic field of the inductor. The self-induction current in the coil 4 flows through the constant voltage source 1, since the output resistance of the constant voltage source is chosen so as to pass a self-induction current with a polarity opposite to the magnetization current of the inductor 4, without causing the charge of the polar capacitor 3 to a voltage of opposite polarity, this circuit design eliminates the oscillatory a process that improves the reliability of the device.

Figure 2 shows a second embodiment of a device having a means of suppressing alternating decaying oscillations connected to an inductor 4, and a capacitor 3 is installed with the ability to connect to a constant voltage source 1 and to the inductor 4. The presence of means 5 provides the suppression of negative emission fluctuations in circuit (channel) and thereby prevents the charge of the capacitor 3 voltage of opposite polarity, which increases the reliability of the device.

In FIG. 3 presents one example of the implementation of the device according to the third embodiment. The device contains N channels, each of which is made similar to the channel according to the first embodiment of the device and includes an inductor 4, intended for the formation of pulsed magnetic fields with predetermined intensity vectors. At the same time, the inductors 4 in each channel are made so that the vectors HN of the pulsed magnetic fields formed in each of the N channels are rotated in such a way that they form an angle, and the angle can take on any value, including 180 ° and 360 °. Moments of formation of pulsed magnetic fields

HN in each channel can be shifted relative to each other for some time intervals or coincide.

The pulsed magnetic fields H N thus formed at a 180 °, 360 ° and t; О allow one to obtain, for some magnetic recording media, a higher erasure quality / or reduce requirements on the amplitude of the erasing field with a fixed erasure quality /. Moreover, due to partial duplication of the erasure channels, an increase in the reliability of the device occurs. In the case where the angles between the magnetization vectors of the channels are a 180 °, 360 °, and t O, the quality and reliability of erasing can be significantly improved due to the total effect of the fields on the magnetic recording medium.

Figure 4 shows an example implementation of the device according to the third embodiment for the case when the channels are made similar to the channel implemented according to the second embodiment of the device. Each channel includes a constant voltage source 1, connected through a switch 2 or a key with

a capacitor 3 and / or with an inductor 4. In parallel with the inductor, a means of suppressing alternating damped oscillations 5 is connected.

The device according to the above embodiment allows avoiding an alternating oscillatory process when erasing information and, therefore, avoiding the charge of polar capacitors with a voltage of negative polarity.

The claimed implementation options compare favorably with known devices of the same purpose, because they are simple, reliable in operation and can be used repeatedly after the erasing process.

Moreover, the examples of the device implementation described in the description do not limit other channel execution schemes in the device for erasing recordings on magnetic media.

Claims (7)

1. A device for erasing records on a magnetic medium containing a channel designed to create pulsed magnetic fields, including an inductor forming pulsed magnetic fields, and a capacitor installed with the ability to connect to a constant voltage source or inductor, characterized in that the capacitor made polar.  2. A device for erasing records on a magnetic medium containing a channel designed to create pulsed magnetic fields, including an inductor that generates pulsed magnetic fields, and a capacitor installed with the ability to connect to a constant voltage source and / or inductor, characterized in that the device contains means for suppressing alternating damped oscillations associated with the inductor.  3. The device according to claim 2, characterized in that the means for suppressing alternating damped oscillations is made in the form of a diode or resistor, or switch.  4. The device according to claim 2, characterized in that the means of suppressing alternating decaying oscillations is the specified constant voltage source with an output resistance sufficient to pass the self-induction current of the inductor.  5. A device for erasing records on a magnetic medium, containing at least two channels for creating pulsed magnetic fields, each of which includes at least one inductor that generates pulsed magnetic fields with specified voltage vectors, characterized in that the device contains additional channels designed to create pulsed magnetic fields, made similar to the two channels, and in each channel the inductor is made with the possibility ormirovaniya pulsed magnetic fields so that the direction vectors of the pulsed magnetic fields generated by inductors changed relative to each other, or not changed, and the moments of said pulse shaping magnetic fields have been shifted relative to each other are shifted or not.  6. The device according to claim 5, characterized in that each of these channels includes a polar capacitor connected to the specified inductor, to which the means of suppressing alternating damped oscillations are connected, and the polar capacitor is installed with the ability to connect to a constant voltage source and / or to inductor. 7. The device according to claim 6, characterized in that in each channel a polar capacitor is installed with the ability to connect via a key or switch to a constant voltage source and / or inductor.