CH671475A5 - - Google Patents

Description

DESCRIPTION The invention relates to a method for detecting the position of an optical head in a recording-reproducing apparatus for recording or reproducing data on a card-type recording medium (hereinafter referred to as the optical card) by using a light beam, i.e. a method of detecting the relative position relationship of the optical head and the optical card before data recording or reproduction is performed . The invention also relates to the corresponding recording-reproducing apparatus. The recording-reproducing device concerned is a device for performing either only a recording, or only a reproduction, or both of these operations.

In recent years, as the computer age has grown, attention has been focused on optical cards as a means of storing information. The main peculiarities of optical cards consist, compared with optical discs and optical tapes, in that they have the card-type format which is easy to transport and handle, and, compared with magnetic cards and IC cards ( integrated circuits), in that they have a large storage capacity.

Now, in the recording-reproduction of data by a storage medium such as an optical card, the relation of relative position between the optical card and the optical head in the initial situation must be understood before the operation of recording or playback can start. For example, in general, most recording-reproducing apparatuses are in a form such that, before the said operation starts, the information of the content area which is established on the optical card and in which is inscribed the situation of data, or similar elements, in the optical card, is read, then the operation is carried out on the basis of this information. Consequently, to shorten the time required for data recording or reproduction, it is necessary that, after the optical card has been inserted in the device, or when the recording or reproduction operation has to be resumed after being interrupted, the relative position of the optical head and of the optical card is adapted by a rapid movement to bring about a state in which the information from said content area can be reproduced. In this description, the position in which the optical head is positioned in such a situation relative to the optical card is called the standby position (home position) of the optical head.

The object of the present invention is in particular to provide a method for rapidly detecting the position of the optical head so as to make it capable of rapidly gaining a predetermined waiting position.

Thus, the object of the invention is a method of detecting the position of an optical head in a recording-reproducing apparatus for recording information on an optical card or reproducing the information recorded on the optical card, comprising the following steps: transmission of instructions to the optical head to record or reproduce, and displacement of the optical head relative to the optical card in the direction of the track of the optical card on the basis of said instruction and reading of the position information written on the optical card.

The invention will now be described in detail, by way of example, in conjunction with the appended drawing in which:

fig. 1 shows an embodiment of an optical card,

fig. 2 and 3 illustrate the detection method according to the present invention, and FIG. 4 is a block diagram of an embodiment of the recording-reproducing apparatus for an optical card, using the detection method according to the present invention.

Fig. 1 is a schematic view showing an embodiment of an optical card. We see in 1 the optical card, in 2 an area in which the data is recorded, and in 3a, 3b and 3c, track units. The track unit as mentioned here is to be understood as a combination of the minimum necessary among the various tracks including, in addition to the data track on which data is written, a track for guidance making it possible to perform on the map. a sign5

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tion or reliable reading of data, and a clock track for clock pulses.

Fig. 2 is a view used to illustrate the method according to the invention, using an optical card having a certain track unit. This certain track unit consists, as shown in fig. 2, in a guide track 11 and a data track 12. At the opposite ends of the data track 12, there are areas 13, data track identification, in which are recorded data track numbers for identification of data tracks. Considering the initial state before the writing or reading of data is carried out, it is understood that a light spot 14a for the scanning of the data track and a light spot 15a for the scanning of the guide track is generally locate at any position on the optical card. Subsequent to this state, the optical head of the apparatus, not shown, is moved in the direction from left to right relative to FIG. 2 (direction of movement of the track) and the functions of auto-focusing and auto-guiding of the recording-reproducing apparatus are performed so as to act by means of the light reflected from the beam spot 15a, whereby the light spot 14a for information and the light spot 15a for guidance are positioned on the nearest information tracks 12a and guide track 11a, respectively. The light spots 14a and 15a occupying these situations are indicated by the reference signs 14b and 15b, respectively. Then, the light spots are moved and pass over the information track identification area, which results in that the information track number 13a is read and it becomes possible to know the relative position relation. between the optical head and the optical card at that time. Consequently, after the operation described above, the optical head can be easily moved to a desired track unit to accomplish recording or reading of data there. For example, it is thus possible to read the data track number and to know the relative position relationship between the optical head and the optical card. Therefore, after the operation described above, the optical head can be moved to a desired track unit to carry out the recording or reading of data there, in an easy manner. For example, the data track number is read and the relative position relationship between the optical head and the optical card is recognized, whereupon the mutual positional relationship is changed so that the optical head comes to the content area and , in this waiting position, a new command is given.

The means for giving a command to start the relative movement in the runway direction to know the positional relationship between the optical card and the optical head can, for example, use a signal from a sensor to confirm the fact that the optical card has reached a predetermined position, these means also being able to comprise a manual signal given by the operator. As shown in fig. 2, the data track identification areas are established on the two opposite sides of the data track, which adequately makes it possible to read the data track number by a relative movement of the optical head and the optical card. either from right to left or from left to right.

As is apparent from the description given above, according to the present invention, the access of the optical head is carried out by a simple system. In addition, the object of the present invention may be suitable for a plurality of types of optical cards in which the shapes of the track units are the same but differ from each other as to the position and the size of the data area 2 shown in fig. 1.

Fig. 3 is a view which illustrates the method proposed by the invention, using an optical card having track units as shown in FIG. 2. In fig. 3, the elements functionally similar to those of FIG. 2 are designated by the same reference signs. The difference between this embodiment and that shown in fig. 2 is that, in FIG. 3, there is a plurality of light spots 14a for the data. In fig. 3 also, the two light spots 14a for the data and the light spot 15a for the guidance are, in the initial state, in any positions on the optical card. However, by the same operation which was previously described, the light spots 14a for the data can be positioned on the closest data tracks 12a and 12b, respectively, and the light spot 15a for the guidance can be positioned on the track 15 for guidance, which results in that the two data track numbers 13a and 13b can be read simultaneously. Thus, in addition to the advantages previously mentioned, it is possible to read the two numbers of the data tracks 13a and 13b and compare them, which not only makes it possible to know the position of the optical head, but also provides the possibility of knowing the direction in which the track unit to which you wish to access is now located in the next state. This possibility offers a very useful practical effect because it allows the optical card, such as that shown in fig. 1, either inserted into the optical recording-reproducing apparatus with either its A side or its B side in front.

Although the foregoing description has been provided in connection with the type in which the optical head is moved, the optical cards can of course also be read in the direction of the track movement. Likewise, with regard to the specific means for carrying out the functions of self-focusing and self-guiding, the critical angle method, the “knife edge” method, the astigmatism method. , etc. are known with regard to auto-focusine, while the three-beam method, the push-pull method, the heterodyne method, etc. are known for self-guidance, each of the above methods being applicable. In addition, although the foregoing description has been made in consideration of the use of data track numbers, it is also possible to establish a guide track number corresponding to the guide track and to use it for detect the position of the optical head.

Fig. 4 is a diagram showing an embodiment of the recording-reproduction apparatus on an optical card, using the detection method proposed by the invention.

In fig. 4, we see at 21 a sensor for mechanical or electrical detection of the insertion of an optical card 1 into the apparatus, at 22 a DC motor control, at 23 a DC motor for moving in the runway directions of the card (the directions of the bilateral arrow) a table (not shown) supporting on it the optical card 1, and we still see at 24 an optical head for applying three beams of light to the optical card under conditions such as those allowed in fig. 3. The construction of this optical head is similar to that of an optical head used with a conventional optical disc, except that there is a difraction grid to separate the light beam from a source. of light in three light beams, the description of the detailed construction of this device is therefore not necessary here. In fig. 4, block 25 represents a circuit for reproducing the information recorded on the tracks from a signal read by the optical head, as described in substance in conjunction with FIGS. 2 and 3, while there is a comparator at 26, at 27 a pulse operating circuit, at 28 an establishment circuit for establishing in which position the optical head is located and must subsequently be moved relative to the card optical, the reference sign 29 designating an electric motor control, and the sign 30 designating a pulse motor for moving the optical head 24 relative to the optical card 1.

When it detects the insertion of an optical card 1, the sensor 21 delivers a detection signal to the motor control

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DC22, and, on the basis of this signal, this command 22 drives the DC23 motor so that it moves the optical card 1 in the direction of the movement of the track. Simultaneously with this, on the basis of another sensor detection signal 21, the optical head 24 reads the information on two tracks on the optical card 1, at a time at which the auto-focusing functions are also carried out and self-guidance. From this reproduction signal, the reproduction circuit 25 identifies the track number of each track and the information is delivered to the comparator 26. When it receives the result of the comparison from the comparator 26, the Operator circuit d pulses 27 delivers to the pulse motor control 29 a signal corresponding to the next track to which the optical head must access, the value established by the setting circuit 28 being taken as a reference and the pulse motor control 29 driving the pulse motor 30 so that the optical head 24 accesses a predetermined track.

By the construction described above, it is possible to implement the method proposed by the invention. In the description provided in connection with FIG. 4, an example has been shown in which the insertion of the optical card into the device is detected to cause the start of a series of operations, but this way of doing things is in no way restrictive. It should be noted in particular that the proposed method is naturally also applicable to the case in which an optical card is already inserted in the device, data recording or reproduction has already taken place, and the operation has been interrupted for a certain time, on the io recording or reproduction should start again.

The details and effects of the present invention have been described above with reference to the drawing, by way of example. In accordance with the present invention, before the data is written to or read from the optical card, the optical card and the optical head are moved relative to each other in the direction of movement of the data track , and then we know the relative positional relationship between them, that is to say between the optical card and the optical head, which makes it possible to carry out a rapid shift towards the next operation.

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Claims (3)

671,475 1. Method for requesting an optical head for recording or reproducing information on or an optical card having a plurality of tracks arranged in lines and position information written respectively on identification areas opposite to each track and corresponding to each track, towards a predetermined waiting position relative to the optical card, comprising the following steps: transmission of instructions to the optical head so that it moves relative to the optical card and so that it records or reproduces the information, linear displacement of opposite direction of the optical head relative to a track of the optical card on the basis of said instruction, reading of the position information written on the identification area of the track of the optical card closest to the optical head and solicitation of the optical head towards a predetermined waiting position relative to the optical card on the base position information read. 2. Method for requesting an optical head according to claim 1, comprising the following steps: detection that a recording or reproduction is to be made, brought in a beam of light from the optical head so that it is applied with precision to the track of the optical card, linear displacement of opposite direction of the optical head relative to a track of the optical card on the basis of said instruction, reading of the position information written on the identification area of the track of the optical card closest to the optical head and solicitation of the optical head towards a predetermined waiting position relative to the optical card on the base position information read. 2 3. Apparatus for implementing the method according to any one of the preceding claims, capable of requesting an optical head for recording or reproducing information on or an optical card having a plurality of tracks arranged in lines and position information written respectively on identification areas opposite each track and corresponding to each track towards a predetermined waiting position relative to the optical card comprising: means for transmitting instructions to the optical head so that it moves relative to the optical card and that it records or reproduces the information, means for moving the optical head linearly and in opposite directions relative to the track of the optical card on the basis of a signal from said transmission means, means for reading position information written on the area identifying the track closest to the read head on the optical card and means for urging the optical head to a predetermined waiting position relative to the optical card on the basis of the position information read.