DE4415249A1 - Recorder using magneto-optical disc - Google Patents

Abstract

The recorder contains a rotating plate (1) and a head unit (5) with a magnetic head (6) whose head play is at a distance (d) from the surface of the plate. The head unit has electrodes (S1,S2) opposite the plate surface and connected to an arrangement (7) for measuring the capacitance (C).A control parameter (Uc) derived from the measured capacitance is used to control the separation distance of the head mirror and plate surface via a controller (8). The control parameter can regulate the position of the head unit w.r.t. the recorder's chassis.

Description

The invention is based on a recorder according to the preamble of claim 1. In such a recorder, also as a MOD (Magneto Optical Disk) recorder, the Auf takes place drawing in that a certain element of the recording layer heated with a laser beam and on the other hand one is exposed to the modulated magnetic field according to the signal. For this purpose, a magnetic head is provided for the recording, the so-called "flying head" always on the surface of the Plate rests or constantly a defined distance from the Plate. Such a recorder is known from U.S. Patent 5,260,921.

The support of the magnetic head on the surface of the plate in The shape of a so-called "flying head" is not then particularly possible if the plate is moving only at low speed emotional. Then the head mirror must be off the surface of the plate have a defined distance. This distance should be as possible be small so that he has an optimal impact from the head generated magnetic field guaranteed on the recording layer is. On the other hand, the distance must be so large that the Ma gnetkopf also with all static and dynamic deviations in mechanical dimensions never with the surface of the plate came into contact. The exposure to the magnetic field the determining distance is therefore never constant in practice be due in particular to differences in the thickness of the Plate or in other mechanical dimensions in the arrangement the disc and the magnetic head.

The invention has for its object to be a recorder type in such a way that a constant distance between the head mirror and the plate surface even with al len mechanical tolerances and deviations is guaranteed.

This object is achieved by the invention specified in claim 1 solved. Advantageous developments of the invention are in the Subclaims specified.  

The invention thus ensures a constant distance between the head mirror and the plate surface in all static and dynamic deviations in the mechanical dimensions eat. The advantage here is that the measurement of the actual Distance to stabilize the distance without contact follows. The measurement of the actual distance can be done with relative simple means, namely with two electrodes and one Capacity measuring device take place. The recorder according to the invention can therefore also automatically on plates with adjust different values in the thickness of the plate.

The manipulated variable obtained from the capacitance measurement can change the position the head unit relative to the recorder chassis or the location control the drive of the plate relative to the recorder chassis. The manipulated variable preferably sets the distance to one such a value at which the magnetic head in the record layer of the plate generates a maximum magnetic field which However, the plate never touches even with mechanical tolerances.

The displacement of the head mirror relative to the plate surface che is done by electromechanical control means such. B. by an electric motor, a magnet, a moving coil or a Piezo element.

The invention is based on the drawing on a Exemplary embodiment explained. Show in it

Fig. 1 the interaction between the magnetic head and the disk,

Fig. 2 shows the control circuit for the distance and

Fig. 3 is a schematic diagram for measuring the distance.

Fig. 1 shows a MOD plate 1 , which has a substrate 2 as a carrier, the actual recording layer 3 for the optomagnetic recording and a protective layer 4 . A head unit 5 , which contains a magnetic head 6 , is assigned to the disk. The head mirror of the magnetic head 6 has the distance d from the surface of the disk 1 . The head unit 5 also contains two electrodes S1, S2, which are connected to the capacitance 7 . The arrangement 7 supplies a voltage Uc which represents the effective capacitance between the electrodes S1 and S2. The voltage Uc is fed to the regulator 8 . The controller 8 controls the position of the unit 5 on the recorder chassis in the direction of the arrows P via an electromagnetic drive so that the distance d between the head mirror and the surface of the plate 1 always has the desired value. If e.g. B. by a too thick plate 1 or other mechanical deviations from the distance d becomes too small, the approximation of the plate 1 to the electrodes S1 and S2 increases the measured capacitance value due to the reduced distance. This increases Uc and controls the controller 8 so that the head unit 5 moves away from the plate 1 and the correct distance d is set. The controller is generally an element that converts an electrical manipulated variable Uc into a mechanical movement. This can be e.g. B. an electromotive drive, an electromagnet, a plunger coil or a piezo element.

In FIG. 2, the electrodes S1, S2 are in turn connected to the inputs of the Kapazitätsmeßanordnung. 7 The output voltage Ua is fed to the comparison stage 9 , which on the other hand is supplied with a reference voltage Uref from the reference voltage generator 10 . Uref is the measure for the target distance d. The comparison stage 9 generates the manipulated variable Uc. This controls the controller 8 , which effects the displacement of the head unit 5 according to FIG. 1.

Referring to FIG. 3, the two electrodes S1, S2 between them form a certain capacitance C. The value of C is dependent on how far the dielectric D is immersed in the distance between the electromagnets the S1, S2. Since the distance d between the plate 1 and the electrodes S1, S2 according to FIG. 1 changes, the material of the plate 1 acts like a dielectric which more or less approaches the electrodes S1, S2 or more or less in the space between this immerses electrodes and thereby changes the capacitance effective between the electrodes.

Claims (7)

1. Recorder with magneto-optical recording on a rotating disk ( 1 ) with a head unit ( 5 ) with a magnetic head ( 6 ), the head mirror of which is at a distance (d) from the surface of the disk ( 1 ), characterized in that the head unit ( 5 ) the plate surface opposite lying electrodes (S1, S2) which are connected to an arrangement ( 7 ) for measuring the capacitance (C), and that a manipulated variable (Uc) derived from the measured capacitance value via a controller ( 8 ) for Control of the distance (d) between the head mirror and plate surface is used. 2. Recorder according to claim 1, characterized in that two flat, side by side and parallel to the plate surface electrodes (S1, S2) are provided. 3. Recorder according to claim 1, characterized in that the manipulated variable (Us) controls the position of the head unit ( 5 ) relative to the recorder chassis. 4. Recorder according to claim 1, characterized in that the manipulated variable (Us) controls the position of the plate ( 1 ) relative to the recorder derchassis. 5. Recorder according to claim 1, characterized in that the manipulated variable (Us) sets the distance (d) to such a value that the magnetic head ( 6 ) in the recording layer ( 3 ) of the disc ( 1 ) generates a maximum magnetic field , the plate ( 1 ) never touches even with mechanical tolerances. 6. Recorder according to claim 1, characterized in that the controller ( 8 ) is designed as an electromechanical drive in the form of an electric motor, a lifting magnet or a plunger coil. 7. Recorder according to claim 1, characterized in that the Actuator is designed as a piezo element.