DE10032604A1 - Copy-protection device for data carriers e.g. digital music cassettes, CDs, DVDs, has coding applied to data carrier for reading by sensor - Google Patents

Abstract

Copy-protection device for data carriers (10) has the coding formed by a transponder (16) and the code-reading sensor (28) is a transmission-and-receiving unit communicating with the transponder. More specifically the transponder (16) has at least one semiconductor component with an integrated circuit, the latter being electrically- or laser-programmable

Description

The invention relates to a copy protection device for data carriers with Hil are readable by a reader attached to the data carrier Coding that cannot be copied with standard copying methods and one that coding sensor on the reader side.

Such copy protection devices have the primary purpose of tech African means to prevent the on a disk, for example a music cassette, CD, DVD or the like unauthorized copies are made while circumventing the copyright. Such copy protection is particularly useful for digitally stored data significant, since the digital data can be used as often as required with almost no loss of information can be copied so that creating pirated copies practically none There are limits.

The basic principle of copy protection devices of the type mentioned above be is that in the reader, such as a CD player, is brought the sensor read the coding on the data carrier and the Allows playback of the data stored on the data carrier only if the data carrier has the correct coding. That way though not copying itself prevented, but it is achieved that the pirated copies are recognizable as such and the data carriers on which the copied data are no longer playable because they have the correct code tion is missing.

For example, the standard copying method for CDs is that the Da read with the help of a CD-ROM drive and a computer and then be recorded on a blank using a CD burner. Since the Coding of the original data carrier is not possible with this standard copying method copied with and thus not transferred to the blank, the knockout CD can be recognized as a pirated copy using the sensor of the reader and thus the playing of this CD can be prevented. The prerequisite is natural Lich that the players of all manufacturers with the appropriate Senso ren and the associated control devices, which are the re Prevent it if the coding is missing or incorrect. An effective copy Protection with such devices can therefore only be provided with the appropriate standard  achieve standardization of the codes and sensors. Playing the Pirated copies on old devices that do not yet have the appropriate copy protection directions are equipped, but can be prevented, for example, by that the data on the data carriers are encrypted and the associated one Decryption software is only provided for devices that use the copy protection device are equipped.

For optical data carriers (CDs), copy protection devices are the starting point known type known. For example, DE 98 37 809 C1 describes a copy protection device, in which the coding on the data carrier is thereby formed is that in at least one data block in addition to the user data drawn error codes, which normally detect an automatic error enable and / or correct errors, are intentionally falsified. The associated sensor on the part of the player is thus replaced by the regular one Read head and formed by a software that evaluates the error code data. Since when reading the CD using a computer only the - if necessary corrected by means of the error codes - user data can be read, and when burning If the correct error code is automatically generated for a new CD, the Coding lost when burning a pirated copy.

In US 5 696 757 A a copy protection device is described in which the Coding on the CD consists of some of the pits that the utility represent data, intentionally offset from the center of the track. The too proper sensor on the part of the player is here by the tracking Formation system of the player, the un based on the offset pits real tracking error signal generated. Because the pits when burning a new CD always are correctly placed in the middle of the track, the Co lost during the copying process.

However, these known copy protection devices have the disadvantage that you Area of application is limited to optical data carriers and that they are except the very specific to the respective recording and playback process are fit. This makes standardization difficult, and if the Recording and playback processes in the course of the further development of Technology must be modified again accordingly adapted new Stan dards for the copy protection device can be agreed.  

The object of the invention is therefore to provide a copy protection device gangs mentioned type to create by the recording and used Playback method is independent.

This object is achieved in that the coding by a transponder is formed and the sensor one with the transponder communicating transmitting and receiving device.

A transponder is generally understood to be a passive electronic one Device capable of receiving an electromagnetic signal and with the help of the energy of the received signal a mo in a certain way generate and send a differentiated response signal. In the simplest case such a transponder is formed by an electrical resonant circuit which through an electromagnetic wave forming the received signal to Reso vibrations is excited, provided the natural frequency of the resonant circuit is not too different from the frequency of the received wave. That from The response signal returned by the transponder is then an electromagnetic one Wave with the natural frequency of the transponder. The frequency of this signal and if necessary, the phase shift of this signal by the frequency diff reference between excitation frequency and natural frequency and on the quality of the The oscillating circuit is dependent, then form characteristic features based on which the transponder can be identified. In a more complicated version a transponder can also contain several resonant circuits the same or with different excitation frequencies or, if appropriate can also be addressed with a tunable frequency. Prefers however, the transponder contains a permanently programmed integrated circuit, with which it is possible to generate a complex response signal in which a information consisting of a plurality of bits can be encoded. This Transponder technology is known as such and should therefore not be explained in more detail be tert.

The coding formed by the transponder is with no digital or analog data copying methods can be copied, because in order to make a copy, which is also identical to the original data carrier in terms of coding, should be on the new disk on which the copied data is recorded an identical transponder will be attached.  

When playing the original data carrier asks the integrator in the player te transceiver from the transponder, and playing is only permitted if the transponder has the correct response signal sends.

The particular advantage of this copy protection device is that it not bound to a specific data recording and playback method that is. It is therefore suitable for a wide range of different data carriers, including optical data carriers such as CDs, DVDs and the like, magnetic data carriers such as DAT tapes, video tapes and the like, but also for data carriers that can be read using image recognition methods especially for banknotes, their graphic information from automatic teller machines is read. The term "copy protection" is therefore in this invention in egg uses and excludes protection against felling in a comprehensive sense banknotes or certificates.

With the integrated circuits that are used in the transponders, are semiconductor components whose dimensions, for example amount to only 1 mm × 1 mm × 0.1 mm and thus including one too proper antenna loop easily on the most diverse data carriers gladly, even on paper, for example on banknotes to let.

Another advantage of the invention is that in communication between transponder and transceiver depending on size or number of turns of the antenna loop of the transponder is a comparative one long range of a few centimeters to a few meters can be achieved can. This makes it possible to use the as a transmitting and receiving device sensor in the reader at a relatively large distance from the actual reading Arrange head, so that a greater constructive freedom in terms of Ge design of the read head is reached. It is even possible to save the sensor to arrange half of the reader and for example via cable or wireless connect to the reader.

Because of this relatively large range, the copying according to the invention protection device in addition to the actual copy protection function to take on other useful additional functions, such as the  Theft protection in shops or in security zones, from which Da For reasons of protection or confidentiality, no data carriers are taken with you that may. In these cases, all you need is at the exit of the Lo in question kals to provide a lock with a transmitting and receiving device the one that addresses the transponder on the data carrier.

In addition, it is possible to display certain product information on the transponder Mations to code so that the transponder also the function of the previously POS systems used barcodes can meet. The one on the transponder Coded information can then also be used for invoicing and inventory administration. When selling music data, for example Carriers or CD-ROMs in retail prove to be special Advantage that the transponder according to the invention itself on the data carrier and not like the conventional barcode only on the sleeve of the Data carrier. This makes it possible to thwart attempts at fraud that are in it exist that the customer ver the CDs and the sleeves in the self-service shop swaps to just the one on the case instead of the price for a more expensive CD to pay the given price of a cheap CD.

The transponder itself can be so because of its small dimensions or place in the disk that it does not - or at least not zer is trouble-free from the data carrier. For example, the transponder for CDs, be embedded in the plastic material of the CD. For DVD media like, which consist of two discs glued together, the Trans ponder between the two panes. However, it is also possible, the transponder only with a very durable adhesive on the Da stick on the carrier. This can also be used for banknotes, for example non-destructive detachment of the transponder can be prevented.

Security can be further increased by coding in the transponder te information in a specific way to the stored on the disk itself information is adjusted. The how is then automatically displayed in the reader locked if the information transmitted by the transponder is not sufficient the information read from the data carrier itself. That way prevent the playback of copy-protected data even if the data is copied onto a rewritable data carrier, which itself  has a transponder.

For example, it is possible to record a serial number on the data carrier draw that is not output by the reader, but only to the inte gried sensor of the copy protection device and there with the im Transponder coded serial number is compared. A pirated copy can be then recognize that the two serial numbers do not match.

Analogously, it is possible for banknotes to have the value of the To code banknotes so that counterfeits can also be detected at those of the transponder of a low-value note on a money note with a higher value is stuck on. Since the on the banknote printed serial number using an OCR system in the reader the serial number or certain parts of the seri number or one based on a secret algorithm from Se The serial number is the check digit with the information encoded in the transponder match.

With digital data carriers it is still possible to encrypt the information selt to record on the disk and the key or at least egg encode part of the key in the transponder. Another part of the Key can optionally be recorded on the disk itself. In the following an embodiment of the invention with reference to the drawing nations explained in more detail.

Show it:

Fig. 1 is a CD with a copy protection apparatus associated with the transponder; and

Fig. 2 shows an enlarged section through the CD in connection with a le diglich shown as a block diagram reader.

In Fig. 1, a CD 10 is shown, which as usual has a center hole 12 and an annular play area 14 which is the center hole 12 spaced around and in which the payload is recorded in the usual manner.

The CD 10 differs from a conventional CD only in that a transponder 16 is arranged around the center hole 12 . This trans ponder 16 is formed by an antenna loop 18 surrounding the center hole 12 , which is electrically connected to an integrated circuit formed by a semiconductor component 20 .

In the example shown, the transponder 16 is arranged in the blank space between the center hole 12 and the play area 14 . Optionally, the transponder could also be arranged on the outer circumferential edge of the play area 14 , so that due to the then larger extent of the loop loop, a greater range of the transponder is achieved. A larger range, with which an anti-theft function can also be implemented, can also be achieved in that the antenna loop 18 forms several turns.

As shown in FIG. 2, the semiconductor component 20 and the conductor tracks of the antenna loop 18 are embedded near the surface in the plastic material of the CD on the recorded side of the CD 10 .

The associated reading device 22 , for example a CD-ROM drive, has, according to FIG. 2, a reading head 24 which optically scans the information recorded in the playback area 14 of the CD and supplies this information corresponding to the digital useful signal N to a processing device 26 , which converts the useful signal N into an output signal A.

As part of the copy protection device, the reading device 22 further contains a sensor 28 and a linking unit 30 .

The sensor 28 is formed as an electromagnetic transmission and reception device and arranged in the CD drive so that it is opposite the antenna loop 18 of the transponder 16 at a short distance. The sensor 28 can there communicate wirelessly with the transponder 116 , and the transmission power can be chosen so low that the electromagnetic compatibility of the reader is not impaired and the emission of harmful electromagnetic radiation is largely avoided.

The sensor 28 sends to the transponder 16 an electromagnetic signal with a predetermined frequency, for example in the order of a few hundred MHz or a few GHz. The antenna loop 18 of the transponder is thereby excited and supplies an electrical voltage to the semiconductor component 20 . This semiconductor device is designed so that it modulates the received signal in a predetermined manner - without its own power supply. The echo signal sent back from the antenna loop 18 to the sensor 28 therefore carries information which is converted by demodulation in the sensor 28 into a digital signal D, the information content of which is determined by the design of the semiconductor component 20 . The transponder 16 thus forms a coding that can be read using the sensor 28 as a digital signal D bar.

For example, the digital signal D can contain a serial number of the CD 10 , the price of this CD and / or other relevant information. In the example shown, it should be assumed that the useful information is recorded in encrypted form in the play area 14 of the CD and that the digital signal D contains part of the key which is required for decrypting this information. The missing part of the key is drawn in the play area 14 on the CD and is read at the beginning of the play process with the read head 24 and is forwarded as an auxiliary key signal H to the linking unit 30 . This auxiliary key signal H, which can be identified by means of a suitable header, also reaches the evaluation circuit 26 , but is ignored by this evaluation circuit.

In the linking unit 30 , the digital signal D received by the transponder and the auxiliary key signal H are combined with one another to form a key signal S, which is then forwarded to the evaluation circuit 26 . The output signal A is then formed in the evaluation circuit 26 by decrypting the useful signal N using the key signal S. Without the information encoded in the transponder 16, it is therefore not possible to play the CD 10 .

If the data optically stored on the CD 10 are copied onto a blank disc, the data cannot be read using the reader 22 , since the blanks are only delivered without a transponder, so that the signal D required for decryption is missing. Even on a conventional player without a copy protection device, the copy cannot be read because this conventional device is unable to decrypt the data.

Even if the data is copied onto a manipulated CD, the one Contains transponder, playback is not possible because the transponder is in usually does not contain the required key data.

In a simplified embodiment of the invention, the data on the CD 10 are unencrypted, and the signal D encoded in the transponder 16 and the auxiliary key signal H recorded on the CD consist only of a suitable identifier, for example a serial number of the CD 10 . The linkage unit 30 then only checks whether the signals D and H match, and the key signal S is then simply a yes / no signal which either blocks or releases the output of the output signal A.

In the example shown it is assumed that the information content of the digital signal D is determined by the special design of the semiconductor component 20 . In a modified embodiment, however, the semiconductor device 20 can be designed such that it can encode a variety of different signals D. The selection of the desired signal is then carried out, for example, in that the semiconductor component either itself has a number of conductor tracks exposed on the surface or is electrically connected to a suitable pattern of conductor tracks. These conductor tracks can then be cut selectively, for example with the aid of a laser, so as to determine the final functioning of the semiconductor component and thus the coding of the transponder. This embodiment makes it possible to manufacture the semiconductor components 20 inexpensively in large quantities and to carry out the final programming later in a separate step, if necessary also only after the transponder has been attached to the CD. If the semiconductor device has a reference mark for a read / write laser, the programming of the transponder can be carried out automatically when the data is recorded on the CD 10 .

The semiconductor component can optionally also be electrically programmable his.  

Blank CDs can also be equipped with a transponder, the Semiconductor component is only programmed by the user when data be recorded on the blank. The key, which then im together with the data encoded by the programming on the transponder Activation of the reader is only allowed to authorized users People passed on, for example, on a chip card in a card reader of an appropriately adapted reader is inserted when the Data to be read. In this way, private users will also be one Copy protection of your data enabled.

Claims (10)

1. copy protection device for data carrier ( 10 ), which can be read with the aid of a reader ( 22 ), with a coding attached to the data carrier, which cannot be copied using standard copying methods, and a sensor ( 28 ) reading this coding on the part of the Reading device ( 22 ), characterized in that the coding is formed by a transponder ( 16 ) and the sensor ( 28 ) is a transmitting and receiving unit communicating with the transponder. 2. Copy protection device according to claim 1, characterized in that the transponder ( 16 ) has at least one semiconductor component ( 20 ) with an inte grated circuit. 3. copy protection device according to claim 2, characterized in that the integrated circuit is programmable electrically or by laser. 4. Copy protection device according to one of the preceding claims, characterized in that on the transponder ( 16 ) is digital information co dated, which can be output by the sensor ( 28 ) as a digital signal (D). 5. copy protection device according to claim 4, characterized in that on the data carrier ( 10 ) with the help of the reader ( 22 ) readable information is stored, which forms an auxiliary key signal (H), and that a combination unit ( 30 ), the auxiliary key signal (H ) with the digital signal (D) output by the sensor ( 28 ) to a key signal ( 5 ) that decides whether the data read by the reader ( 22 ) is output or blocked. 6. Copy protection device according to claim 4 or 5, characterized in that the data on the data carrier ( 10 ) are encrypted and the digital signal (D) output by the sensor ( 28 ) contains at least part of the information required for decoding this data. 7. Copy protection device according to one of the preceding claims, characterized in that the digital signal (D) output by the sensor ( 28 ) contains an identifier for identifying the data carrier ( 10 ). 8. Copy protection device according to one of the preceding claims, for disk-shaped data carriers ( 10 ) with an annular play area ( 14 ), characterized in that the transponder ( 16 ) is arranged in a ring on the inner or outer peripheral edge of the play area ( 14 ). 9. copy protection device according to one of claims 1 to 7, characterized ge indicates that the data carrier provided with the transponder is money note and the reader equipped with the sensor is a pay machine. 10. copy protection device according to claim 9, characterized in that on the transponder the value of the bill and / or one from the series number of the bank note derived information is encoded.