JPH11161551A - Storage medium and storage medium driving device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve security. SOLUTION: This storage medium 1 constituted as a CD-ROM is provided with an antenna coil 3 and an integrated circuit element 2 connected to it. The integrated circuit element 2 receives the supply of power without contacting through electromagnetic induction through the antenna coil 3 and receives data signals. The integrated circuit element 2 transmits key information stored in a built-in memory through the antenna coil 3 to the storage medium driving device without contacting in response to the received data signals. The key information stipulates the procedure of the decoding of disk data and the storage medium driving device decodes read disk data based on the key information.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a storage medium and a storage medium drive, and more particularly to an improvement for enhancing security.

[0002]

2. Description of the Related Art At present, a widely used CD-
ROM has a large storage capacity, is suitable as a storage medium for moving images, game programs, and the like, and has the advantage that it can be manufactured at low cost. However, since it is easy to copy, an illegally copied product flows to the market. There was a problem that it was easy. Not only CD-ROM, but DVD (digital
A similar problem exists in a storage medium such as a video disk.

As a technique for preventing illegal duplication and ensuring security, a method of providing special irregularities on the surface of a disk, or a method of applying a magnetic material to the surface of a disk and reading / writing data to / from it. And the like are conventionally known.

[0004]

However, since these known techniques merely store the security code, they permit copying relatively easily, and are not suitable for securing security. There was a problem that it was enough.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems in the prior art, and has a storage medium which makes duplication difficult and enhances security, and a storage medium suitable for driving this storage medium. It is an object to obtain a medium drive device.

[0006]

A storage medium according to the present invention comprises:
A storage medium that can read stored data in a non-contact manner while rotating, including an antenna coil and an integrated circuit element,
The antenna coil is capable of receiving a power signal and a data signal transmitted from the outside in a non-contact manner by electromagnetic induction, supplying the received power signal and the data signal to the integrated circuit element, The circuit element stores key information that specifies a decoding procedure of the storage data, obtains a power supply voltage from the power supply signal, and sends the key information to the antenna coil in response to the data signal, The antenna coil further transmits the key information to the outside in a non-contact manner by electromagnetic induction.

[0007] A storage medium drive device of the present invention is a storage medium drive device for reading the stored data in a non-contact manner while rotating the storage medium of the present invention, wherein the antenna coil is a first antenna coil. A second antenna coil capable of transmitting and receiving signals in a non-contact manner by electromagnetic induction between the first antenna coil and the power supply signal and the data signal transmitted to the first antenna coil through the second antenna coil; And a circuit that receives the key information through the second antenna coil and decodes the stored data based on the key information.

[0008]

DESCRIPTION OF THE PREFERRED EMBODIMENTS 1. Outline of Storage Medium FIG. 1 is a plan view of a storage medium according to an embodiment of the present invention. FIG. 2 is a sectional view taken along a vertical center line in FIG.
The storage medium 1 shown in FIGS. 1 and 2 is a CD-ROM
Is configured as An integrated circuit element (IC) 2 and an antenna coil 3 connected to the integrated circuit element (IC) 2 are embedded in a disk-shaped main body of the storage medium 1, that is, a disk main body. The disk body is a conventional C
Like the D-ROM, it is made of resin.

Integrated circuit element 2 and antenna coil 3
Instead of being buried in the disk body, it may be placed on one main surface of the disk body and sealed with resin 4 as shown in the sectional view of FIG. The resin 4 serves to fix the integrated circuit element 2 and the antenna coil 3 and to protect them by covering them.

The integrated circuit element 2 is supplied with power from a storage medium driving device such as a CD-ROM driver in a non-contact manner via the antenna coil 3. Therefore, the storage medium 1 does not need to include a power supply. As shown in FIG. 1, the antenna coil 3 is preferably buried in a circular shape having the same center as the center of rotation of the disk body so that power is always supplied.

The integrated circuit element 2 plays a role by exchanging data with the storage medium driving device, that is, by performing communication, and this communication is also performed by interposing the antenna coil 3. Performed without contact. Further, even while the disk data (storage data), which is data written on the disk body, is read by the storage medium drive, the data between the integrated circuit element 2 and the storage medium drive is concurrently read. Communication is possible.

The storage medium driving device includes a conventionally well-known device for reading the disk data in a non-contact manner via a laser beam while rotating the storage medium 1, and an integrated circuit element 2.
A device unit for communicating with the device is separately provided. Its internal configuration will be described later. Preferably, of the two main surfaces of the storage medium 1, the side where the storage medium drive accesses disk data and the side where the integrated circuit element 2 is accessed are opposite to each other. Is composed. Accordingly, it is possible to prevent two device units that perform data communication in the storage medium drive device from interfering with each other.

In the storage medium 1, at least a portion where the antenna coil 3 is provided,
It is formed of a material that does not affect electromagnetic induction so as not to impair the function of. As shown in FIG. 1, the integrated circuit element 2 and the antenna coil 3 are arranged near the center of the disk body, that is, in an area where disk data is not written. As a result, the integrated circuit element 2 and the antenna coil 3 can be mounted without affecting the storage capacity of the storage medium 1 for the disk data, which is data related to the original function, and the function of accessing the disk data. .

The integrated circuit element 2 is configured as an element for ensuring security for disk data. That is, key information that defines a procedure for decrypting disk data is written in the integrated circuit element 2 for the purpose of ensuring security. Moreover, the key information is changed for each content of the disk data, that is, for each software stored in the disk body. Alternatively, a plurality of types of key information can be properly used in the same software.

[0015] Since the key information is different for each software or for each group of the same software, illegal copying becomes difficult. This is because if the key information cannot be copied even if the disk data is duplicated, the storage medium drive cannot decode the disk data and cannot use the disk data. The integrated circuit element 2 includes, for example, a read-only storage element such as a ROM, or a non-volatile readable / writable storage element such as a flash memory, and key information is written in its storage space.

<2. Integrated Circuit Element and Storage Medium Drive> FIG. 4 is a block diagram showing the internal structure of the integrated circuit element 2 and a part of the internal structure of the storage medium drive.
The storage medium 1 and the storage medium drive are combined,
One system 101 is configured. As described above, the storage medium driving device includes a device for performing communication with the integrated circuit element 2 and supplying power to the integrated circuit element 2. As shown in FIG. 1, for example, an integrated circuit device 10 and a microprocessor 12 are provided.

The microprocessor 12 exchanges key information with the integrated circuit device 10 and performs a security check. That is, the disk data is decrypted based on the key information. Therefore, unless the correct key information is obtained, the disk data cannot be correctly decoded.

At this time, communication data between the integrated circuit device 10 and the microprocessor 12 is encrypted. The encryption is performed by the microprocessor 12 using the key information to dynamically determine the encryption method. For example, a random signal such as a PN sequence is used, and this initial value is changed by the microprocessor 12 as needed.

Although the microprocessor 12 may be a dedicated microprocessor associated with the integrated circuit element 10, the microprocessor 12 is conventionally provided in a storage medium driving device and controls the operation such as reading of disk data. The processor may also have the role.

Next, each element of the apparatus will be described individually with reference to FIG. Integrated circuit element 2 and integrated circuit element 1
Communication between the antenna coil 3 and the power supply is performed in a non-contact manner by electromagnetic induction between the antenna coil 3 provided in the storage medium 1 and the antenna coil 11 provided in the storage medium drive. The distance D between the antenna coil 3 and the antenna coil 11 is desirably set to 20 mm or less.
Thereby, it is possible to suppress both the supply power and the signal strength. In addition, by keeping the distance small, it is possible to make the exchange of data to be leaked to the outside or difficult to analyze. Further, it is possible to suppress the generation of unnecessary radiation.

Rectifier circuit 2 connected to antenna coil 3
Reference numeral 3 extracts a power signal from a signal received by the antenna coil 3, that is, a signal including both a power signal and a data signal, and generates a power voltage. The generated power supply voltage is supplied to each element of the integrated circuit device 2. Rectifier circuit 2
3, a circuit for rectifying a power signal (such as a sine wave) sent from the antenna coil 3, a circuit for smoothing the rectified signal, and In addition, a circuit for lowering the voltage is provided.

A receiving circuit 25 is further connected to the antenna coil 3. The receiving circuit 25 extracts a modulated data signal from the signal received by the antenna coil 3 and converts it into digital data. The microprocessor 22 is connected to the receiving circuit 25, and the digital data converted by the receiving circuit 25 is input to the microprocessor 22.

The microprocessor 22 includes a receiving circuit 25
It performs data processing on digital data as received data sent from the server, and creates transmission data.
The memory 21 is connected to the microprocessor 22, and the processing of the microprocessor 22 is executed based on data stored in the memory 21. The key information is also stored in the memory 21. The memory 21 is configured by, for example, a flash memory, a ROM, or the like. Alternatively, an SRAM may be provided together with a minute power supply such as a battery.

A transmission circuit 24 is further connected to the microprocessor 22. The transmission circuit 24 is also connected to the antenna coil 3 and the microprocessor 2
The transmission data as digital data generated in step 2 is modulated and then sent to the antenna coil 3. As a modulation method, for example, frequency modulation, amplitude modulation, phase modulation, or the like is used. Microprocessor 2
The transmission data generated in 2 includes the key information read from the memory 21.

The microprocessor 22 is further connected with a reset circuit 26 and a clock generation circuit 27. The reset circuit 26 has a function of initializing the microprocessor 22 when the supply of power from the rectifier circuit 23 is started. The clock generation circuit 27 generates a clock signal required for the operation of the microprocessor 22.

The antenna coil 11 has a driver circuit 31
Is connected. The driver circuit 31 generates a signal for supplying power, superimposes transmission data sent from the transmission circuit 33,
To send to. The driver circuit 31 further takes in the reception data transmitted from the antenna coil 3 and received by the antenna coil 11 and inputs the data to the reception circuit 34.

The transmission circuit 33 and the reception circuit 34 are connected to the scrambler / descrambler 32. The scrambler / descrambler 32 is an element that functions as an interface between the transmission circuit 33 and the reception circuit 34 and the microprocessor 12, and encrypts the reception data received from the reception circuit 34, and , And receives the encrypted data sent from the microprocessor 12, decrypts the data, and sends it out to the transmission circuit 33.

Transmission and reception of data between the scrambler / descrambler 32 and the microprocessor 12 is performed by the wiring 13
Done through. Since the data flowing through the wiring 13 is encrypted, decryption by a third party can be prevented.

<3. Modified Example> (1) FIG. 5 is a plan view showing a modified example of the storage medium 1.
In this example, the antenna coil 3 includes a circular concentric portion 3a whose center is the same as the center of rotation of the disk main body, and a non-concentric circular portion 3b installed outside, for example, non-concentrically. I have. The concentric portion 3a functions as a receiving antenna coil and the non-concentric portion 3b functions as a transmitting antenna coil so that power is continuously supplied to the integrated circuit element 2. Therefore,
The rectifying circuit 23 and the receiving circuit 25 are connected to the concentric portion 3a, and the transmitting circuit 24 is connected to the non-concentric portion 3b.

As described above, since the antenna coil 3 is provided separately for reception and transmission, it is easy to prevent interference between received data and transmitted data.

(2) In the above description, the storage medium 1
Although an example configured as a CD-ROM is taken up, the present invention provides a method of reading or reading / writing data in a non-contact manner by mediating light or magnetism while applying rotation to a DVDROM, DVDRAM, or other disk. It is applicable to all possible storage media. Further, the present invention can be applied not only to a CD-ROM but also to a general storage medium drive for driving these general storage media as a storage medium drive.

[0032]

The storage medium of the present invention has an integrated circuit element for storing key information for defining a procedure for decoding stored data, and transmits key information in response to a received data signal. If the key information is received, the stored data can be used. However, from the storage medium on which the stored data has been illegally copied, normal key information cannot be obtained, so that the stored data cannot be used. .

That is, the key information written in the integrated circuit element that is difficult to copy prevents unauthorized use of the stored data that is easy to copy, and as a result, the security against unauthorized copying is enhanced. In addition, since power is supplied, data signals are received, and key information is transmitted through the antenna coil, non-contact properties in normal reading of stored data are not impaired, and there is no need to incorporate a power supply. The effect is obtained.

In the storage medium drive of the present invention, since the storage data written in the storage medium is decrypted based on the key information received from the storage medium, security against unauthorized copying of the storage medium is enhanced. Also,
Since power is supplied, data signals are transmitted, and key information is received through the antenna coil, the non-contact property in normal reading of stored data is not impaired, and a built-in power supply is not required for the storage medium. The effect is obtained.

[Brief description of the drawings]

FIG. 1 is a plan view of a storage medium according to an embodiment.

FIG. 2 is a cross-sectional view of the storage medium of FIG.

FIG. 3 is a cross-sectional view of another example of a storage medium.

FIG. 4 is a block diagram of a storage medium and a storage medium driving device according to the embodiment.

FIG. 5 is a plan view showing a modification of the storage medium 1.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Storage medium 2 Integrated circuit element 3 Antenna coil (1st antenna coil) 10 Integrated circuit element (circuit) 11 Antenna coil (2nd antenna coil) 12 Microprocessor (circuit)

Claims (2)

[Claims] 1. A storage medium that can read stored data in a non-contact manner while rotating, comprising: an antenna coil and an integrated circuit element, wherein the antenna coil is a power source transmitted from outside in a non-contact manner by electromagnetic induction. A signal and a data signal can be received, and the received power signal and the data signal are supplied to the integrated circuit element, and the integrated circuit element stores key information that defines a decoding procedure of the storage data. And obtaining a power supply voltage from the power supply signal and sending out the key information to the antenna coil in response to the data signal. The antenna coil further externally contacts the key information by electromagnetic induction in a non-contact manner. Storage media to send to. 2. A storage medium drive device for reading the stored data in a non-contact manner while rotating the storage medium according to claim 1, wherein the antenna coil is a first antenna coil. And a second antenna coil capable of transmitting and receiving signals in a non-contact manner by electromagnetic induction, and transmitting the power signal and the data signal to the first antenna coil through the second antenna coil, A circuit that receives the key information through a second antenna coil and decodes the storage data based on the key information.