CZ10351U1 - Plastic card with optically active layer - Google Patents

Description

Technical field

The present invention relates to a plastic card provided with at least one optically active recording track layer on the surface. The shape of the tracks is solved in such a way that the card is a carrier of information for multimedia and computer applications, readable in CD playback drives.

Background Art

Nowadays, plastic cards are commonly used in data processing for various purposes, such as credit cards, telephone cards, permanent tickets, contactless computer or entrance controllers, company passes, etc. The shape of these cards and their thickness are determined by unification regulations . According to the type of recording systems used, these are contactless, contact, or combined cards. The basis is always a plastic core, sometimes consisting of several layers, possibly provided with surface foils. The smart card element is in the case of contact cards in the form of a chip module, in the case of contactless cards in the form of an optically active layer, or a combination of a chip module and an antenna. The antenna is made as a printed circuit on a nonconductive core, or as a printed conductive drawing on a nonconductive core, or in the form of a molded fiber made of conductor and deposited on the core of the card. The combined cards then contain a combination of a chip module and an antenna with contacts. Cards provided with an optically active layer known at present have an optically active parallelogram-shaped layer. Their optically active layer is provided with straight recording tracks which are arranged longitudinally side by side. Optically active materials suitable for making this layer are already known and widely available. Also, the method of making records, typically with the aid of a laser, is known.

All of the above types of smart card are only applicable to devices specifically designed for this purpose, about ten times more expensive than CD players or CD ROM drives, and the technique is limited to the purposes for which it can be used. None of these cards can be used in common multimedia or computer devices, such as audio recordings in CD drives.

In contrast, compact discs, known as CD discs, are used as information carriers to play audio recordings in CD drives. They are of a well-known flat circular shape with a central hole, provided with an optically active layer with a single spiral wound recording track, or with recording tracks in the form of numerous, concentrically placed circles. The shape of the discs and the way they are recorded is internationally standardized and is constantly evolving. These discs are widely deployed in the fields of culture, show-business, computer and multimedia technology. Their capacity is too high for many applications, for example for the release of a so-called musical single. They do not have a particular storage capacity and require special packaging. All this is reflected in their price, which is relatively high. They are not used for many technically possible applications because the use would be uneconomical.

The essence of the technical solution

The above mentioned drawbacks are eliminated by the plastic card according to the proposed technical solution. A new type of plastic card with an optically active layer is provided, the principle of which is that each recording track is formed in a rounded shape on each section allowing the processing of the information record in a rotational motion of the card in a reading device, that is, in the form of a circle and / or the spiral and / or sections thereof, wherein the card is in the form of a conventional plastic card, that is, a flat body of roughly rectangular shape. As with existing plastic cards, it is based on a plastic core, possibly consisting of several layers. The card core is provided with an optically active layer accessible to the read or write beam from at least one side of the card, at least on a portion of the surface. The optically active layer consists of a layer of optically active material,

Provided with at least one recording track for the information record. An appropriate information record is made in this track or tracks on the recorded card. The card surface may be provided with a protective layer, for example a varnish or a foil. On the optically active layer, only the protective layer may be transparent to allow read or record beam access.

A number of the following alternative solutions are possible depending on the shape of the track or tracks. A track may be one, in the shape of an uninterrupted or broken single spiral. Other embodiments may be derived from the shape of a single helix, wherein the first track, i.e., the track closest to the center, is in the form of a spiral, and the other tracks further away from the center are in the form of spiral sections, or, in particular, when the optical layer is made circular. a slice of the original circular surface covered with a spiral track are all traces in the shape of spiral sections. Another variant solution can be derived from the second base system, where the tracks are in the form of numerous, concentric circles. Then, the inner tracks can also be in the form of concentric circles, while the remaining tracks, in relation to them, are in the form of segments of other concentric circles, or, when the card is provided with an optical layer in the form of a circular sector, all tracks are in the form of concentric circles. Traces can also be in a shape that is a combination of the above shapes. Creating a trace of a long interruption of a section while breaking the optical layer, for example by cutting, is a technical novelty, the interruption will be on the edge of the card if the optical layer reaches its edge. This card can be used only in modern CD drives, which allow for short-term interruptions such as scratches, and therefore are able to process information records when rotating an embedded recorded information carrier, and which are able to navigate even when the recording track is interrupted, but this possibility of using rectangular Plastic cards are so economically impressive and technically interesting that they can fundamentally affect the further development and especially the mass use of plastic cards. The tabs will be in segments as a result of the arrangement of the track records. Software treatment is required so that each information segment contains, in addition to useful information, a segment address and a record start and end code in the segment. The modern CD drives then cope with the inserted plastic card, although the shape and shape of the optically active layer do not match the CDs used so far. It is not even necessary to center the card in the CD drive. In the card treated in the above manner, the evaluation device can assemble a continuous recording, such as music, without the effect of intermittent processing of information from the individual sections of the recording tracks for continuity. The main advantage of this plastic card is the possibility of using mass-expanding CD drives without their major modifications.

For use in standard CD drives, the plastic card needs to be provided with a circular hole for fixation in the reader. When reading or storing records, the rotary motion card is then fixed in mechanics in the same way as CDs when processing information.

Because the information and / or recording mechanism of the information system operates when the card is moving, especially due to its balance, when rotating, it is optimal if the center of the hole is located in the center of the plastic card.

From the manufacturing and handling point of view, it is most preferred from all variations of the embodiments if the optically active layer reaches on all sides up to the peripheral edge of the card, so that it covers, with the exception of the central opening, at least one surface side of the card core. As a result of this shape, the tracks sections end at the edges of the card.

The plastic card according to the above-mentioned solution allows the creation of a further, completely new type of combined chip card when incorporating a contactless electronic subsystem. For this application it is necessary that the optically active layer is made of a material inactive for the presence of the electromagnetic field, in order to avoid undesirable effects. The plastic core is then fitted with a stored antenna inside the card, the same as with existing contactless cards, and the card also incorporates a semiconductor chip module equipped with the necessary contacts.

-2CZ 10351 Ul

The proposed technical solution can be used for plastic cards with an optically active layer with an information record for CD drives such as CD players and optical CD ROM drives. They can also be made as multipurpose cards by combining them with known plastic cards. Then, they can have a wide range of uses, such as smart phone cards with music recording, or in health care and other fields as combined plastic cards, where only some information would normally be available with the help of a CD mechanic, while other classified information would only be accessible via a special code, etc. A significant advantage of these cards is that they can be produced at once by series, by stamping or cutting off the sheets.

BRIEF DESCRIPTION OF THE DRAWINGS

The proposed technical solution is explained in more detail by means of drawings, where Fig. 1 shows an exemplary embodiment of a plastic card in a top view, Fig. 2 shows the same card in a structural view from the side, Figs. FIG. 6 illustrates an exemplary embodiment of Example 4 in a structural side view, and FIGS. 7 and 8 show further exemplary embodiments of the card, with a schematic representation of the shape of the recording tracks.

Examples of technical solutions

Example 1

An exemplary embodiment of the proposed solution is the plastic card shown in FIG. 1 in a top view and FIG. 2 in a structural side view.

The carrier of this card is a roughly rectangular plastic core 1 which is printed on the lower surface and covered with a transparent surface foil 2. On the upper surface, the plastic core I is provided with an optically active layer 3 which is provided with a spiral-shaped recording track 4 (FIG. 1, the spiral shape is only schematically indicated, in fact it is a track with a dense winding side by side as with CDs). In the center of the spiral there is an opening 5 for fixing the card in the read CD drive. The optically active layer 3 is made of the same material as the CD ROMs. The optically active layer 3 also has a transparent surface foil 2 on the surface.

The card was provided with an optical information record of the capacity of four conventional HD floppy disks. The recipient received the information after inserting the card into a modern reader, common to optical discs.

Example 2

Another example is a plastic card with a sound recording according to FIG. 3.

The plastic card has a plastic core 1 of roughly rectangular shape. This is covered by an optically active layer 3 on the top and bottom surfaces. The first recording track 4 is spiral-shaped, the other surface-dominant recording tracks 4 are spiral-shaped, practically continuing the spiral shape of the first track (shown schematically in FIG. 3) . Hole 5 is located in the center of the card.

This card was provided with an audio information record of the content of one single single, or one musical recording, on each side. The laser information record was recorded for continuous recording so that each information segment, i.e. each section of the recording track 4, contains, in addition to useful information, its address on the card and information about the start and end of the recording, so that they can be sorted in sequence. The card information is processed by rotating the card, rotating in the card plane. After inserting the card into the CD player so that the opening 5 is stored as in the case of playing a CD, it is possible to listen to the recorded music without any undesirable effect of intermittent processing of the information from the individual recording tracks 4 to continuity. This card is an illustrative example of an optimal design.

-3CZ 10351 Ul

Likewise, a card may look like where the tracks are in the shape of a spiral and circular shape. I.e. for example, in the central part, closer to the aperture may be a spiral track, while around the perimeter there will be sections of concentric circles.

Example 3

Another embodiment is the contactless plastic card of FIG. 4.

Also, this plastic card consists of the same elements as the previous card, only the plastic core I is multilayer. The optically active layer 3 covers a portion of the top surface of the plastic core L The optically active layer 3 has the shape of a roughly circular sector. The recording tracks 4 are in the form of sections of a single spiral (shown only schematically in FIG. 4). The optically active layer 3 and the remaining surface area of the plastic core 1 are covered with a transparent surface foil 2.

The plastic card was provided with an information record in the same way as the card of the previous example.

Example 4

Another exemplary embodiment is the contactless plastic card of FIGS. 5 and 6.

This plastic card consists of the same elements as the previous card. The optically active layer 3 is circular in shape and the aperture 5 is located in the center thereof and at the same time in the center of the card. The recording tracks 4 for the information recording have the shape of concentric circles (in Fig. 1 the shape of the recording tracks 4 is only schematically indicated, the actual density is the same as for the CDs).

Example 5

Another exemplary embodiment is the combined plastic card of FIG. 7.

This card looks at first glance like a conventional telephone card, the difference being that the bottom surface is covered with an optically active layer 3 and is provided with a central opening 5. It consists of a plastic multilayer core I, a printed circuit board inner antenna on a plastic core, a chip of the module and the necessary interconnecting contacts, which have been mutually matched as described in CZ PV 1213-97. The upper surface of the top layer of the plastic core I, with the exception of the chip module, is covered with a surface foil 2. The optically active layer 3 is roughly rectangular in shape, covering the entire lower surface of the lower layer of the plastic core I, with the exception of the opening 5. In FIG. the shape of recording tracks 4 in view of the underside of the card. The inner recording tracks 4 are in the form of concentric circles, while the remaining recording tracks 4, with respect to them, are in the form of sections of other concentric circles and generally outweigh. The optically active layer 3 is covered with a very thin transparent lacquer coating layer 2 '.

The optically active layer 3 was provided with information records in the same manner as the card of Example 2. This card serves as a combined plastic card, the data of which is accessible via a chip module after being inserted into the respective reader. With the same card, you can also listen to music by inserting it into a CD drive.

Example 6

Another exemplary embodiment is the telephone plastic card of FIG. 8.

Also, this plastic card consists of the same elements as the previous card. It looks similar to the plastic card of Example 3 except that it has no opening 5. The optically active layer 3 covers a portion of the top surface of the plastic core 1, having a roughly circular sector shape. The recording tracks 4 are in the form of concentric circle sections (shown only schematically in FIG. 8).

The plastic card was provided with an information record in the same way as the card of Example 3. This card is only applicable in the most advanced CD drives where the reader is able to inquire about the start of an information record based on the capture of information anywhere,

Only by evaluating a segment address stored in each individual segment of a circle segment shape.

Claims (1)

PROTECTION REQUIREMENTS A plastic card with an optically active layer, which is a card of approximately rectangular shape 5 with a plastic core of at least one layer, on at least one side provided with at least a part of the surface with an optically active layer with at least one recording track for information recording. A protective coating, characterized in that each recording track (4) is formed in a shape round its entire length. Plastic card with an optically active layer according to claim 1, characterized in that the recording track (4) is in the form of a spiral. characterized s e tí m, Plastic card with an optically active layer according to claim 1, characterized s e by wherein at least one recording track (4) is spiral-shaped and the other recording tracks (4) are spiral-shaped. An optically active layer plastic card according to claim 1, wherein all the recording tracks (4) are in the form of spiral segments. characterized s e by Plastic card with an optically active layer according to claim 1, characterized in that the recording tracks (4) are in the form of concentric circles. characterized s e by Plastic card with an optically active layer according to claim 1, characterized s e by wherein the inner recording tracks (4) are in the form of concentric circles, while the remaining recording tracks (4), external to them, are in the form of sections of other concentric circles. An optically active layer plastic card according to claim 1, characterized in that all recording tracks (4) are in the form of concentric circle segments. Plastic card with an optically active layer according to claim 1, characterized in that the recording tracks (4) are in the form of a combination of the above shapes. A plastic card with an optically active layer according to claim 3, or 4, or 5, or 6, or 7, or 8, characterized in that the recording tracks (4) terminate at the edge of the card and are provided with information arranged to segments with a start at the beginning of the recording track (4) and an end at the end of the recording track (4), and in each segment, in addition to the useful information, the segment address and start and end code of the recording in the segment. Plastic card with an optically active layer according to claims 1 to 9, characterized in that it has a circular opening (5), the center of which is located in the center of the card. Plastic card with an optically active layer according to claims 1 to 10, characterized in that the optically active layer (3) extends on all sides up to the peripheral edge of the card. An optically active layer plastic card according to claims 1 to 11, characterized in that its optically active surface layer (3) is inactive for the presence of an electromagnetic field and its plastic core (1) is provided with an antenna, semiconductor chip module and necessary contacts.