DE19736383A1 - Demagnetization device e.g. for computer hard disk - Google Patents

Abstract

The demagnetization device uses a demagnetization coil (2), supplied with an AC demagnetization current, enclosing an air space (3) into which the hard disk drive (7) containing the magnetic data carrier (8) is inserted via an insertion slide (5). The demagnetization coil is connected in series with a capacitor to form a resonance circuit with a resonance frequency corresponding to the of the AC demagnetization current

Description

The invention relates to a device for demagnetization of a magnetic data medium located in a device unit gers, especially a hard drive in a hard drive run factory, with a demagnet connected to an alternating current tization coil.

For storing digital data, in particular from a Computers have been created or processed, magne table media of various types used. For the Ab Storage of large amounts of data are computers with hard drives drives equipped in which plate-shaped magnetic Data carriers with large amounts of data can be loaded. Are known tape cartridges and floppy disks, which are relatively small Ge device units can be removed from the data processing device, while the hard drives remain in the data processing device are intended.

Due to the widespread use of electronic data processing processing are also highly sensitive on magnetic data carriers Data of a person or a company or another  Institution saved. It is therefore necessary to have the data to be able to reliably remove from the data carrier if the Media due to a defect or for other reasons no longer used and given to someone else should be taken care of.

All magnetic media are within the electronic Data processing device with one in the data processing device Existing demagnetizing coil can be deleted. Because for this one relative movement between the magnetic disk and the Demagnetizing coil is required, the quenching process only feasible if there is a relative movement between the magnetic disk and the degaussing coil instead finds, i.e. the corresponding drive is switched on.

However, if the drive is defective, there is demagnetization, at least complete demagnetization, the magnetic one Data carrier not possible. While in an emergency at the magnetic media such as tape cassettes and disks a mechanical rendering of these data carriers unusable The cost aspects are justifiable and reasonably reliable sig seems feasible, this possibility does not apply to everyone if with hard drives. The hard drives become common moderately expanded and in exchange for another hard drive drive for repair or disposal. There is the risk that the data stored on the hard disk in strange hands get when the repaired hard drive is delivered in exchange to a third party without first having the Delete data. Even if the hard drives are disposed of drive there is still the possibility that interested third parties remove the data carrier and move it to another drive reconstruct stored data.

A practical solution to this problem is not known.

According to the invention, it is a device of the type mentioned at the beginning Kind characterized in that the degaussing coil around  an air space is wrapped that an insertion device for Inclusion of the device unit and introduction of the device unit in the airspace is provided and that a capacitor with the Ent magnetizing coil is connected to a resonant circuit, wherein Capacitor and demagnetizing coil are dimensioned so that the resonant frequency of the resonant circuit at in the airspace introduced device unit about the frequency of the alternating current corresponds.

The device according to the invention allows demagnetization the magnetic data carrier, i.e. a deletion of the on the Media magnetically stored data when the data carrier ger are still and a conventional demagnetizing head with a magnet not in the immediate vicinity of the surface of the magnetic disk is positionable. Invention Ge The device unit, which in particular is also a complete Hard drive can be in the airspace as an air coil trained demagnetizing coil inserted and in there optimally from the ge through the current-carrying coil flowed through magnetic field lines. The device unit is thus positioned where a usual core one with one Core provided coil would be positioned. Because also with this type order still a relatively high electrical power required the electrical power required is minimized that the demagnetizing coil together with a capacitor a resonance circuit, in particular a series resonance circuit, is switched and the demagnetization of the device unit in the Resonance operation of the resonance circuit takes place. In this way the impedance of the coil-capacitor arrangement to the ohm The coil's resistance is reduced and thus the current flow through the coil compared to one operated directly on the mains Coil significantly increased and thus the magnetic field strengthened.

In a preferred embodiment, the airspace has one approximately rectangular cross-section and corresponds to the cross cut dimensions of commercially available hard disk drives.  

In a particularly preferred embodiment of the invention the intensity of the flowing through the demagnetizing coil AC controllable. This control is preferably done through a motorized variable transformer, which means with With the help of a control circuit, a predetermined program sequence is feasible. In this program flow takes place from one gangsstrom Null a defined increase to a predetermined maximum intensity of the alternating current takes place subsequently the alternating current at the predetermined maximum intensity of the AC is held for a defined holding time then a defined drop in the intensity of the change currents to zero. With this program flow is before preferably the rate of change of the intensity of the Alternating current during the rise and / or fall, the maximum intensity of the alternating current and / or the holding time adjustable to the maximum intensity.

Empirical adjustments can be made using the setting parameters mentioned solutions to different device units, in particular fest disk drives, are made to optimize Demagnetization time and demagnetization performance and security to achieve.

When realizing an automatic program flow through a control circuit expediently becomes a safety device circuit provided by which any interrupted pro First of all, before starting up the device again can be reset to its starting position. This ver prevents immediately after switching on the device Current flow with a high intensity arises while poss Trying to demagnetize the airspace to load the coil with a device unit.  

The invention is intended to be based on one in the drawing illustrated embodiment are explained in more detail. It demonstrate:

Fig. 1 is a schematic perspective view of a degaussing coil with an insertion device for a hard disk drive;

Fig. 2 is a schematic circuit diagram of the demagnetizing device according to the invention;

Fig. 3 are schematic representations of program sequences for the demagnetization.

Fig. 1 shows two end flanges 1 of a coil body, on which a degaussing coil 2 is wound, so that there is a central rectangular air space 3 . At the front flange 1 of the bobbin, a sliding bracket 4 for a flat slide 5 is attached, which tion 4 guided by the holding in the air space 3 can be inserted. The slide is provided with receptacles 6 in the form of recesses into which various device units, in particular hard disk drives 7 with a hard disk as a magnetic data carrier 8 , can be inserted and fixed. Fig. 1 shows that the receptacles 6 insert the device unit 7 with its longitudinal direction transverse to the insertion direction (as shown) or in the insertion direction (not shown). The insertion movement of the slide 5 in the air space 3 is limited by an actuating button 9 , which also serves as a stop. In the inserted position of the slide 5 , the Ge unit 7 is located approximately in the middle of the air space 3rd

FIG. 2 illustrates the functions of the demagnetizing device according to the invention on the basis of an apparent circuit diagram. The ses is connected to an AC mains voltage and has an on / off switch 12 controlled by a relay 11 for both lines of the supply voltage. At the mains voltage is a control lamp 13 and parallel to it the winding of a switching transformer 14 switched as an autotransformer. A tap 15 of the variable transformer 14 is adjustable by a control 16 having a motor. A voltage measuring device 17 is connected between an end connection of the variable transformer 14 and the tap 15 . In series with the handle from 15 is a current measuring device 18 , a capacitor 19 and the demagnetizing coil 2 , the other end of which is connected to the end connection of the variable transformer 14 .

An operating panel 20 shown in the drawing shows that the control lamp 13 , the voltage measuring device 17 and the current measuring device 18 can be read side by side on the operating panel 20 .

The demagnetizing device shown in this way preferably works with a preset program sequence, with an input device 21 being provided for the program sequence. The relay 11 for the on / off switch 12 is controlled by the program settings 21 so that a reset of the tap 15 controlled by the motor 16 to a voltage of zero on the voltage measuring device 17 is carried out before the device (again) is switched on.

Fig. 2 shows that the device according to the invention works immediately bar with the network frequency offered. Capacitor 19 and degaussing coil 2 are dimensioned such that the resonance circuit 19 , 2 formed by them has a resonance frequency corresponding to the mains frequency when the slide with the device unit 7 is inserted into the air space 3 of the degaussing coil 2 .

Fig. 3 illustrates possible program sequences in which the intensity of the alternating current, measured on the ammeter 18 , is increased from zero over a defined increase 22 to a level 23 with maximum current intensity I _max and is held there for a holding time t _H before the Stream 1 is returned to zero via a defined drop 24 . Before preferably the slopes for rise 22 and fall 24 are the same.

In order to adapt to different types of hard disk drives, the slopes of the rise 22 and the fall 24 can be adjusted so that the rise time can be adjusted by the amount t _R. The holding time t _H and the level 23 of the maximum current I _max can also be designed to be adjustable. In this way, optimized program sequences for individual hard disk drive types can be found and set reproducibly.

The demagnetization device according to the invention allows a reliable and quick deletion of a magnetic data carrier 8 , in particular also a hard disk in a hard disk drive, even if the drive has become inoperative.

Claims (9)

1. Device for demagnetizing a device ( 7 ) located magnetic data carrier ( 8 ), in particular a hard disk in a hard disk drive, with a demagnetizing coil connected to an alternating current ( 2 ), characterized in that the demagnetizing coil ( 2 ) is wound around an air space ( 3 ) that an insertion device ( 5 ) for receiving the Ge device unit ( 7 ) and introduction of the device unit ( 7 ) into the air space ( 3 ) is provided and that a capacitor ( 19 ) with the degaussing coil ( 2nd ) is connected to a resonance circuit ( 19 , 2 ), the capacitor ( 19 ) and demagnetization coil ( 2 ) being dimensioned such that the resonance frequency of the resonance circuit when the unit ( 7 ) is introduced into the air space ( 3 ) is approximately the frequency of the change selstroms corresponds. 2. Device according to claim 1, characterized in that the air space ( 3 ) has an approximately rectangular cross-section and the cross-sectional dimensions of commercially available hard disk drives ( 7 ). 3. Device according to claim 1 or 2, characterized in that the frequency of the alternating current is the mains frequency. 4. Device according to one of claims 1 to 3, characterized by a variable transformer ( 14 ) for controlling the intensity of the alternating current flowing through the demagnetizing coil ( 2 ). 5. Device according to one of claims 1 to 4, characterized by a control circuit ( 16 ) for carrying out a program with a defined increase ( 22 ) of the intensity of the alternating current from zero to a predetermined maximum intensity I _{max of} the alternating current, a holding of the AC current at the predetermined maximum intensity I _max for a defined holding time t _H and a defined fall ( 24 ) of the intensity of the alternating current to zero. 6. The device according to claim 5, characterized in that the rate of change of the intensity of the alternating current during the rise ( 22 ) and / or during the fall ( 24 ) is adjustable. 7. The device according to claim 5 or 6, characterized in that the maximum intensity I _{max of} the alternating current is adjustable bar. 8. Device according to one of claims 5 to 7, characterized in that the holding time t _H on the maximum intensity I _{max is} adjustable. 9. Device according to one of claims 5 to 8, characterized net through a safety circuit through which any interrupted program sequence before restarting first reset to its starting position is.