JPH05287948A - Protective device of identification data wireless transmission type and identification data protecting method for the device - Google Patents

Abstract

PURPOSE:To realize a protective device excellent in protecting property, regarding the protective device for performing ID confirmation with identification data for transmitting signal wirelessly, and a method for protecting the identification data from a tapping accident on the protective device. CONSTITUTION:A transmitter 21 for transmitting identification data, and a receiver 22 for receiving and checking the identification data are respectively provided with identification data change controlling sections 11, 12 for changing the identification data. Besides, the transmitter 21 and the receiver 22 are respectively provided with connecting means 13, 14 for enabling the identification data change controlling section 11 of the transmitter 21 and the identification data change controlling section 12 of the receiver 22, to be communicated with each other. Then, by the identification data change controlling section 11 of the transmitter 21 and the identification data change controlling section 12 of the receiver 22, the identification data of the transmitter 21 and the identification data of the receiver 22 are changed together with communication through the connecting means 13, 14.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a security device for confirming an ID (Identity) by wirelessly transmitting identification data and a method for protecting the identification data from wiretapping.

A so-called keyless security system
(Key-Less Security System) does not require manual operation of locking / unlocking (key insertion → key rotation → key removal),
This is the security device that is currently receiving the most attention. For example, it is convenient as a security device for a vehicle door lock mechanism.

However, since the transmitted identification data is transmitted wirelessly, if the transmitted identification data is intercepted / sniffed by a third party and duplicated, the security state is easily broken. Therefore, a security device with excellent security and a method of protecting the identification data from wiretapping are required.

[0004]

[Prior Art]

(1) Configuration of security device FIG. 13 is a diagram illustrating a conventional security device, (a) is a block diagram showing the configuration, and (b) is a model diagram of identification data showing an example of performing ID confirmation by data collation. ,.

A security device that wirelessly transmits identification data is
It is roughly divided into a transmitter 7 and a receiver 8.

1) Transmitter The transmitter 7 is composed of the following four constituent parts.

Identification data storage unit 1 for storing identification data serving as ID confirmation information

A transmitter 2 (transmission frequency f ₀ ) for modulating and transmitting the identification data

A transmission switch SW ₁ for giving a transmission command of identification data

Based on the operation of the transmission switch SW ₁ , the identification data storage unit 1 is accessed to read identification data, and the transmission unit 2 is operated to transmit a modulated wave according to the identification data. Control unit 3

2) Receiver The receiver 8 is composed of the following three components.

An identification data storage unit 5 for storing identification data serving as ID confirmation information.

Receiving section 4 (reception frequency f ₀ ) for receiving the modulated wave transmitted by transmitter 7.

A data collation control unit 6 that accesses the identification data storage unit 5 and collates with the identification data received by the reception unit 4.

The identification data stored in the identification data storage unit 1 of the transmitter 7 and the identification data storage unit 5 of the receiver 8 is 1
It is the same for the two sets of security devices. Further, the data matching control unit 6 of the receiver 8 is configured to output matching / mismatching matching results as a door lock control signal S _L. That is, the security device of the door lock mechanism of the automobile is shown as an example.

By the way, the identification data storage units 1 and 5 are stored in the ROM.
(ROM) and the data transmission control unit 3, and the ROM and the data collation control unit 6 are respectively configured by a microcomputer system, which facilitates the configuration.

(2) Operation When the transmission switch SW ₁ of the transmitter 7 is operated, the data transmission control unit 3 controls the transmission unit 2 in the transmission state and accesses the identification data storage unit 1 to transmit the read identification data. Give to part 2. That is, the modulated wave modulated by the identification data T _D is transmitted. The transmission frequency is f ₀ .

On the other hand, in the receiver 8, the receiver 4 has a frequency f _0.
When the modulated wave is received and its identification data R _D is output, the data collation control unit 6 accesses the identification data storage unit 5 to read the identification data B _D , and both identification data R _D ,
It is determined whether B _D matches. If they match, the door lock control signal S _L is output to lock or unlock the door.

That is, in one set of security devices, since the identification data T _D = R _D = B _D , ID confirmation is surely performed.

[0020]

However, since the identification data is transmitted wirelessly, if the transmitted identification data is intercepted / sniffed by a third party and duplicated, the security state is easily broken.

That is, an eavesdropping device having a structure in which a receiver having a wide reception band searches for the transmission / reception frequency f ₀ of the security device and then stores the identification data received at the frequency f ₀ in the memory of the microcomputer system is used. For example, it is easy to copy the identification data.

Therefore, by reading the identification data in the memory and transmitting the modulated wave with the transmitter having the same transmission / reception frequency f ₀ as that of the security device, the security can be destroyed easily.

The technical problem of the present invention is to solve the above problems in the conventional security device and to realize a security device excellent in security while ensuring the convenience of wirelessly transmitting the identification data. To do.

[0024]

FIG. 1 is a diagram for explaining the basic principle of the present invention.

The present invention is characterized in that the identification data for confirming the ID is frequently changed.

(1) Basic Structure of Security Device The security device of the present invention is composed of the following components.

1) Transmitter 21 Identification data storage unit 1a for storing identification data

A transmitter 2a for wirelessly transmitting the identification data

Transmission switch SW ₂ for giving a transmission command of identification data

Based on the command from the transmission switch SW _2, the identification data storage unit 1a is accessed to read the identification data, and the transmission control of the transmission unit 7 is performed to control the modulated wave by the identification data. Data transmission control unit 9 for transmission

Identification data change control unit 11 for changing the identification data stored in the identification data storage unit 1a.

Connection means 13 for inputting new identification data to be changed to the identification data change control section 11

2) Receiver 22 Identification data storage unit 5a for storing the same identification data as the identification data storage unit 1a of the transmitter 21.

Receiving unit 4a capable of receiving identification data transmitted by transmitter 21

Data which, when the receiving section 4a receives the identification data, accesses the identification data storage section 5a to collate the identification data, and activates the security output signal S _O when the collation results match. Collation control unit 10

The identification data change control unit 12 which newly changes the identification data stored in the identification data storage unit 5a and gives the identification data to the transmitter 21.

A connecting means 14 for connecting to the connecting means 13 of the transmitter 21 and for outputting the new identifying data given to the transmitter (21) by the above-mentioned identification data change control section 12.

(2) Identification data protection method in which identification data is changed through a dedicated socket. That is, in the identification data wireless transmission type security device of (1), connection means 13 of transmitter 21 and connection means of receiver 22 are connected.
One of the connecting means 13 (14) of the 14 is composed of a plug type connector 15, and the other connecting means 14 (13) is composed of a socket type connector 16.

When the two connectors 15 and 16 are connected to each other, the identification data change control unit 12 of the receiver 22 causes the receiver 22 to change.
This is a method of protecting the identification data by giving new identification data to the identification data storage unit 5a and the transmitter 21 and changing the identification data.

(3) Identification data protection method of changing identification data after confirming ID of transmitter First, in the identification data protection method of (2), the identification data change control units 11 and 12 perform the following steps. Add and configure various functions.

The identification data change control unit 11 of the transmitter 21 is configured so as to be able to access the identification data storage unit 1a and change the identification data, and also to the receiver 22 through the connectors 15 and 16.
It is configured to be communicable with the identification data change control unit 12.

Also, the identification data change control unit 12 of the receiver 22.
Is configured so that the identification data storage unit 5a can be accessed and the identification data can be changed, and can communicate with the identification data change control unit 11 of the transmitter 21 through the connectors 15 and 16.

Then, the connector 15 of the transmitter 21 and the receiver 22
This is a method of protecting the identification data by changing the identification data as follows when the connector 16 is connected.

That is, in the identification data change control unit 12 of the receiver 22, the identification data stored in the identification data storage unit 1a of the transmitter 21 matches the identification data stored in the identification data storage unit 5a of the receiver 22. Only in this case, new identification data is given to the identification data storage unit 5a of the receiver 22 and the transmitter 21 to change the identification data.

(4) Identification data protection method when transmitter is built in key: That is, in the identification data wireless transmission type security device of (1), the transmitter 21 is configured in the key and the connecting means.
As the key 13, a connector 17 composed of a contactor is provided on the key.

On the other hand, as the connecting means 14 of the receiver 22, a connector 18 is provided in the cylinder 18 into which the key is inserted. The connector 18 is composed of a contact that is connected to the connector 17 on the key side when the key is inserted.

Then, when the key is inserted into the cylinder and rotated, the identification data change control unit 12 of the receiver 22 gives new identification data to the identification data storage unit 5a of the receiver 22 and the transmitter 21 to identify it. This is a method of protecting identification data by changing the data.

(5) Identification data protection method in which identification data is changed after confirmation of transmitter ID First, in the identification data protection method of (4), the identification data change control units 11 and 12 perform the following steps. Add and configure various functions.

The identification data change control unit 11 of the transmitter 21 is configured to enable access to the identification data storage unit 1a and change of identification data, and a connector provided on the key and the cylinder.
It is configured such that it can communicate with the identification data change control unit 12 of the receiver 22 through 17,18.

The identification data change control unit 12 of the receiver 22 is configured so as to be able to access the identification data storage unit 5a and change the identification data, and a connector provided on the key and the cylinder.
It is configured to be communicable with the identification data change control unit 11 of the transmitter 21 through 17,18.

Then, when the key is inserted into the cylinder and rotated, the identification data is changed as follows to protect the identification data.

That is, the identification data change control unit 12 of the receiver 22 matches the identification data stored in the identification data storage unit 1a of the transmitter 21 with the identification data stored in the identification data storage unit 5a of the receiver 22. Only in this case, new identification data is given to the identification data storage unit 5a of the receiver 22 and the transmitter 21, and the identification data is changed.

(6) Identification data protection method for wirelessly transmitting changed identification data. That is, in the identification data wireless transmission type security device of (1), the connecting means 13 of the transmitter 21 is constituted by the wireless receiving means 19. On the other hand, the connection means 14 of the receiver 22 is constituted by the wireless transmission means 20.

Then, only when the identification data collation result in the data collation control unit 10 of the receiver 22 matches, the identification data change control unit 12 of the receiver 22 makes the identification data storage unit 5a.
Then, new identification data is given to the transmitter 21 and the identification data is changed to protect the identification data.

(7) Method of Encrypting Change of Identification Data to Protect Identification Data That is, in the identification data wireless transmission type security device of the above (1), the data collation control unit is determined by matching at least two identification data. This is a method of activating the security output signal S _O output by 10.

The connecting means 13 of the transmitter 21 is replaced with a wireless receiving means.
On the other hand, the connection means 14 of the receiver 22 is constituted by the wireless transmission means 20.

The identification data change control unit 12 of the receiver 22
Has a configuration in which new identification data is given to the transmitter 21 after the identification data is encrypted according to a predetermined rule. On the other hand, the identification data change control unit 11 of the transmitter 21
Is configured to decrypt the input encrypted identification data according to the predetermined rule.

Then, the identification data is changed and collated by the following procedure to protect the identification data.

First, the data collation control unit of the receiver 22.
The identification data change control unit 12 of the receiver 22 gives new identification data to the identification data storage unit 5a and the transmitter 21 only when the first identification data collating result in 10 is coincident with the second identification data.
Identification data.

Secondly, the data transmission control unit 9 of the transmitter 21 performs echo back transmission of the second identification data.

Third, the data collation control unit 10 of the receiver 22 collates the second identification data. And the first
The security output signal S output from the data collation control unit 10 based on the matching of the identification data of No. 1 and the matching of the second identification data.
_{Make O} active.

(8) Identification data protection method using a timer that counts in synchronization The security device for realizing the identification data protection method of the present invention is a connection in the identification data wireless transmission type security device configuration of (1) above. The device does not use the means 13 and 14. Therefore, the identification data change control unit 12 of the receiver 22
Does not need a functional configuration for giving the changed identification data to the transmitter 21, but needs a function of changing the identification data stored in the identification data storage unit 5a.

Instead, the identification data change control unit 11 of the transmitter 21 and the identification data change control unit 12 of the receiver 22 are provided with timers that perform counting operations in synchronization with each other.

Then, the identification data is changed by incorporating the count value of the timer as a part of the identification data,
This is a method of protecting identification data.

(9) Identification data protection method for correcting deviation value of timer In the identification data protection method for identification data wireless transmission type security device of the above (8), identification data is corrected while correcting deviation of timers which operate synchronously. This is a method of collating and protecting identification data.

That is, the data collation control unit 10 of the receiver 22.
If there is a deviation in the identification data collated in step 1 due to the timer count value within a predetermined predetermined allowable value, the data collation control unit 10 activates the security output signal S _O and the receiver The identification value change control unit of the transmitter 21 has the count value of the timer included in the identification data change control unit 12 of 22.
This is a method of presetting in synchronization with the count value of the timer provided in 11.

[0067]

The identification data wireless transmission type security device and the identification data protection method in the identification data wireless transmission type security device of the present invention enable the tapping and duplication of the identification data by frequently changing the identification data used for ID confirmation. This makes it meaningless, thereby protecting the identification data, and thus enhancing the security of the security device.

Next, the operation corresponding to the constitution of each invention will be specifically described.

(1) Security device with basic configuration Identification data stored in the identification data storage unit 1a transmitted by the transmitter 21 is changed by the identification data change control unit 11 and is used by the receiver 22 for verification. The identification data in 5a is changed by the identification data change control unit 12.

The identification data change control unit 12 of the receiver 22
Is a configuration for giving the changed identification data to the identification data change control unit 11 of the transmitter 21 through the connection means 14 and 13. As a result, the identification data in the identification data storage unit 1a of the transmitter 21 is changed.

Therefore, the identification data of the transmitter 21 and the receiver 22 can be changed at the same time, and the ID can be changed even after the identification data is changed.
The confirmation can be surely performed. Also, the new identification data to be changed is given by communication through the connecting means 13 and 14, so that it cannot be intercepted by a third party.

(2) Identification data protection method for changing identification data through a dedicated socket In this identification data protection method, both connectors 15 and 16 are used.
The identification data is changed only when is combined. That is, the identification data can be changed as needed.

For example, when the security device of the present invention is used for a door lock drive mechanism of an automobile, a socket type connector is provided in the automobile to change the identification data every time the automobile is used. Is possible.

(3) Identification data protection method in which the ID of the transmitter is confirmed and then the identification data is changed In this identification data protection method, the identification data stored in the identification data storage unit 1a of the transmitter 21 is confirmed. Then, change the identification data.

Therefore, the identification data is not changed by simply connecting the two connectors 15 and 16,
The identification data cannot be tapped even through the connectors 15 and 16.

(4) Identification data protection method when the transmitter is built in the key In this identification data protection method, the key can be inserted in the cylinder and the key can be rotated. The identification data is changed only when both conditions are satisfied.

That is, in order to change the identification data, it is necessary to match the key and the cylinder, and as a result, the identification data will not be eavesdropped.

(5) Identification data protection method in which the ID of the transmitter is confirmed and then the identification data is changed In this identification data protection method, the key coincides with the cylinder and the transmitter 21 incorporated in the key is The identification data is changed only when the identification data stored in the identification data storage unit 1a match.

Therefore, even if the spare key is used, the identification data cannot be tapped.

(6) Identification data protection method of wirelessly transmitting the identification data to be changed In this identification data protection method, only when the verification results in the data verification control unit 10 of the receiver 22 match.
The identification data is changed through communication between the wireless transmission means 20 and the wireless reception means 19.

Therefore, the wiretapping of the identification data is rendered meaningless unless the history of frequent changes of the identification data is traced and wiretapped.

It should be noted that eavesdropping of identification data is prevented by making the transmission frequency f _{0 of} identification data transmitted for ID confirmation different from the transmission frequency f _{1 of} identification data transmitted for changing identification data. can do.

(7) Method of Encrypting Modification of Identification Data to Protect Identification Data In this identification data protection method, the wireless transmission means 20 to the wireless reception means unless the encryption and decryption rules are known.
There is no point in sniffing the new identification data sent to 19.

If the decoded new identification data is not echoed back immediately, the data collation control unit 10 of the receiver 22 does not activate the security output signal S _O. That is, the security output signal S _O is not activated unless both the collation result of the first identification data and the collation result of the second identification data result in a coincidence determination.

Therefore, wiretapping of identification data is meaningless.

(8) Identification data protection method using a timer that counts in synchronization The identification data protection method uses the value of a timer (counter) that operates in synchronization as a part of the identification data. If you do not know the count value, it will be meaningless to sniff and copy the identification data. That is, the identification data can be protected.

In this method, the connecting means 13, 14
Since it is not used, the configuration can be simplified and it is convenient.

(9) Identification data protection method for correcting deviation value of timer Two timers operating synchronously (identification data change control section)
Even with 11 and the identification data change control unit 12), if the synchronous correction of the count value is not always performed, a count deviation will occur between the timers. That is, there is a period deviation between the clocks that operate the timers.

Therefore, this identification data protection method is a method in which an allowable value is set for the deviation of the count value of the timer, and if the deviation is within the allowable value, the identification data is treated as matching.

Further, when the count value deviation is within the allowable value,
By presetting the count value of the timer included in the identification data change control unit 12 of the receiver 22 so as to be synchronized with the count value of the timer included in the identification data change control unit 11 of the transmitter 21, expansion of the deviation value is eliminated. Therefore, it is possible to always operate in synchronization.

The basic protection method of the identification data is based on the same idea as the above (8).

[0092]

Next, practical examples of how the security device and the data protection method according to the present invention can be embodied will be described.

(1) Embodiment-1 1) Structure FIG. 2 is a diagram for explaining the structure of the embodiment-1, (a) is a block diagram showing the device structure, and (b) is a structure of the connecting means. Perspective view, (c) and (d) are diagrams showing a configuration example of identification data,
Is.

The security device of the first embodiment is an example used as a device for locking / unlocking the door lock of an automobile.

Transmitter 21a In this embodiment, the microcomputer system 23 constitutes the data transmission control unit, the identification data storage unit and the identification data change control unit.

That is, the identification data is stored in the ROM (E ² PR
OM) or non-volatile RAM (Random Access Memory)
In this configuration, each unit is controlled through a parallel input / output interface or a serial input / output interface and communicates with an external device. In addition, the operation state of the transmission switch SW ₃ is also input.

Therefore, the control functions corresponding to the data transmission control section and the identification data change control section are realized by the software of the microcomputer system 23. Incidentally, the microcomputer system 23 is also configured to perform transmission of modulated data and transmission control to the transmission unit 2b.

A connector 15a (16a) is used as a connecting means with the receiver 22a. That is, a socket-type connector 16a is used as the connecting means of the receiver 22a, and the transmitter
21a is inserted from the opening surface 27 of the socket and accommodated. Then, as a result of the insertion / accommodation, the transmitter 21a
25 provided on the socket and the terminals provided on the socket-type connector 16a
26 is electrically connected.

Receiver 22a In this embodiment, the microcomputer system 24 constitutes the data collation control unit, the identification data storage unit, and the identification data change control unit.

That is, like the transmitter 21a, the identification data for collation is stored in the ROM (E ² PROM) or the non-volatile RAM, and each unit is controlled through the parallel input / output interface or the serial input / output interface. It is configured to communicate with an external device. It also outputs the door lock control signal S _L.

Therefore, the identification data received by the receiver 4b and demodulated is collated by the microcomputer system 24. That is, the control function corresponding to the data collation control unit and the identification data change control unit is realized by the software of the microcomputer system 24.

Incidentally, the socket type connector 16a described above is used as the connecting means with the transmitter 21a. Then, the socket type connector 16a is installed in the interior of the automobile.

Structure of Identification Data When changing the identification data, it is sufficient to change only a part of the identification data. Thereby, change control can be easily performed.

The identification data 28 illustrated in FIG. 2 (c) is an example of the configuration in which the data changing unit 30 is provided at the rear of the fixed data unit 29. In addition, the identification data 28a illustrated in FIG. 2 (d) has a data change part between the fixed data part 29a and the fixed data part 29b.
This is a configuration example in which 30a is provided.

2) Operation Example-1 FIG. 3 is a view for explaining an operation example-1 of Example-1, (a)
Is a flow chart showing the transmitter identification data transmission procedure,
(b) is a flow chart showing the identification data verification procedure of the receiver, (c) is a flow chart showing the identification data change procedure of the transmitter, and (d) is a flow chart showing the identification data change procedure of the receiver.

Procedure for Transmitting Identification Data of Transmitter (FIG. 3 (a)) That is, it is judged in step S101 whether or not the transmission switch is operated, and only if so, step S102 is executed.
And the identification data is transmitted.

Identification Data Verification Procedure of Receiver (FIG. 3 (b)) That is, it is determined whether or not the identification data is received in step S201, and only when it is received, the process proceeds to step S202 and the identification data is verified. ..

Then, in step S203, it is determined whether or not the identification data match, and only if they match, step S203
Move to 204 and activate the door lock control signal. That is, the door lock is locked / unlocked.

Transmitter identification data change procedure (FIG. 3 (c)) That is, it is judged whether or not new identification data is received from the connector in step S301, and only when it is received, the process proceeds to step S302 and a new identification is sent. Store and store data.

The procedure is actually executed when the transmitter 21a (see FIG. 2) is inserted and housed in the socket type connector 16a.

Procedure for changing receiver identification data (FIG. 3 (d)) That is, it is judged in step S401 whether the transmitter is connected to the connector, and if it is connected, step S
Movable to 402, new identification data socket type connector
16a (see Figure 2). That is, transmitter 21
give to a.

It goes without saying that the identification data of the receiver itself is also changed in step S402.

3) Operation Example-2 FIG. 4 is a view for explaining the operation example-2 of the embodiment-1, (a)
Is a flow chart showing the procedure for changing the identification data of the transmitter,
(b) is a flowchart showing a procedure for changing the identification data of the receiver.

This operation example-2 is an operation example in which the identification data when the transmitter 21a (see FIG. 2) is inserted and accommodated in the socket type connector 16a of the receiver 22a is changed more cautiously. That is, the receiver 22a changes the identification data after confirming the ID of the transmitter 21a to prevent the identification data from being stolen from the connector 16a.

Procedure for Changing Identification Data of Transmitter (FIG. 4 (a)) That is, it is determined in step S501 whether there is an identification data request from the receiver. If there is an identification data request, the process proceeds to step S502. , Send identification data through the connector.

Then, in step S503, it is determined whether or not new identification data is received from the connector, and only when it is received, the process proceeds to step S504 to store and store the new identification data.

Procedure for changing receiver identification data (FIG. 4 (b)) That is, it is judged in step S601 whether or not the transmitter is connected to the connector.
Move to 602 and request identification data (through connector) from transmitter.

Subsequently, in step S603, it is determined whether or not the identification data is received from the connector, and only when the identification data is received, the process proceeds to step S604 and the identification data is collated.
Then, in step S605, it is determined whether or not the identification data match, and only when they match, the process proceeds to step S606 and new identification data is transmitted through the connector. That is, it is given to the transmitter.

Needless to say, in step S606, the identification data of the receiver itself is also changed.

(2) Example-2 1) Configuration FIG. 5 is a diagram for explaining the configuration of Example-2. (A) is a block diagram showing the device configuration, and (b) is the configuration of the connecting means. In the figure, the key and the key cylinder are viewed from the side, and (c) is an external view of the key.

Note that, like the first embodiment, the security device of the second embodiment is also an example configured as a device for locking / unlocking the door lock of the automobile.

The difference of the second embodiment from the first embodiment is that the transmitter is built in the key (key plug) 33, and the key is used as a connecting means between the transmitter and the receiver. The point is that contacts 17a and 18a provided on the 33 and the key cylinder 31, respectively, are used. That is, each of the contacts 17a, 18a has a role as a connector.

That is, when the key 33 is inserted into the cylinder 31, the contact 18a provided on the key 33 and the contact 17a provided on the cylinder 31 are electrically connected. The transmitter circuit is the key
The grip portion 33 is insulated and built in, and the contactor 18a is also provided on the cylinder side of the insulating portion. On the other hand, the cylinder
The contactor 17a provided on 31 is configured such that an insulating portion 32 is provided around the key insertion opening of the cylinder 31, and the contactor 17a is provided on the insulating portion 32.

Incidentally, the microcomputer system 24a of the receiver 22b is configured to input an operation signal S _ACC indicating that the ACC (Accessary) switch has been operated, and the key 33 is inserted into the cylinder 31 and rotated. The configuration is such that it is detected by the ACC switch operation signal S _ACC .

2) Operation FIG. 6 is a diagram for explaining an operation example of the embodiment-2, (a) is a flow chart showing the identification data changing procedure of the transmitter, and (b) is
Is a flowchart showing the procedure for changing the identification data of the receiver,
Is.

In the second embodiment, since the key is inserted into the cylinder and rotated, the transmitter I or the key I
The feature is that D confirmation is performed. That is, this prevents the identification data from being stolen from the contacts provided on the cylinder. Other than that, it is the same as the operation example-2 of the embodiment-1.

Procedure for Changing Identification Data of Transmitter (FIG. 6 (a)) That is, it is determined in step S701 whether there is an identification data request from the receiver. If there is an identification data request, the process proceeds to step S702. And transmits the identification data through the contactor.

Then, in step S703, it is determined whether or not new identification data is received from the contact, and only when it is received, the process proceeds to step S704 to store and store the new identification data.

Procedure for Changing Identification Data of Receiver (FIG. 6 (b)) That is, it is determined whether or not the ACC switch is operated in step S801, and if it is operated, step S80 is performed.
Go to 2 and request identification data (through contact) from transmitter.

Subsequently, in step S803, it is determined whether or not the identification data is received from the contactor, and only when the identification data is received, the process proceeds to step S804 and the identification data is collated. Then, in step S805, it is determined whether or not the identification data match, and only when they match, the process proceeds to step S806 and new identification data is transmitted through the contactor. That is,
Give to the transmitter.

Needless to say, the identification data of the receiver itself is also changed in step S806.

(3) Example-3 1) Configuration FIG. 7 is a block diagram for explaining the configuration of Example-3. Note that, like the first embodiment, the security device of the third embodiment is also an example configured as a device for locking / unlocking the door lock of the automobile.

The third embodiment differs from the first embodiment in that the transmitter 21c serves as a connecting means for connecting the transmitter and the receiver and transmitting new identification data.
a, the receiver 22c uses the transmitter 20a. That is, the operation of changing the identification data is also performed by wireless communication.

It should be noted that the transmission frequency f ₀ of the identification data transmitted to confirm the ID (transmission unit 2d → reception unit 4d) and new identification data to change the identification data (transmission unit 20a →
It is different from the transmission frequency f _{1 for the} receiving section 19a). This is because if the identification data is changed on the same frequency channel, there is a risk that new identification data will be intercepted.

2) Operation FIG. 8 is a view for explaining an operation example of the embodiment-3, (a) is a flow chart showing the identification data changing procedure of the transmitter, and (b) is
Is a flowchart showing the procedure for changing the identification data of the receiver,
Is.

In the third embodiment, the transmitter transmits the identification data for the locking / unlocking operation, and the receiver receives the identification data, so that the transmitter changes the identification data. ID confirmation is also done.

Procedure for Changing Transmitter Identification Data (FIG. 8 (a)) That is, it is determined in step S901 whether or not the transmission switch has been operated, and only if so, step S902.
And the identification data is transmitted (transmission frequency f ₀ : transmission unit 2
d → Reception part 4d)

Then, in step S903, it is determined whether or not new identification data is received (reception frequency f ₁ : transmission section 20a → reception section 19a), and only when it is received, step S904
Then, the new identification data is stored and stored.

Procedure for Changing Identification Data of Receiver (FIG. 8 (b)) That is, it is determined whether or not the identification data is received (reception frequency f ₀ : transmission section 2d → reception section 4d) in step S1101,
Only when received, the process proceeds to step S1102 and the identification data is collated.

Then, in step S1103, it is determined whether or not the identification data match, and if they match, step S1103
Move to 1104 and activate the door lock control signal,
Then, in step S1105, new identification data is transmitted (transmission frequency f ₁ : transmission unit 20a → reception unit 19a). That is,
Send to transmitter.

Needless to say, the identification data of the receiver itself is also changed in step S1105.

(4) Example-4 1) Structure The structure of Example-4 is the same as that of Example-3 (see FIG. 7).
Is the same as The difference is that the identification data collation method and the new identification data transmission method are different. That is, the microcomputer system 23 of the transmitter 21c
b and receiver 22c microcomputer system 24
b is different in software that controls and communicates.

Specifically, when new identification data is transmitted (transmission frequency f ₁ : transmission unit 20a → reception unit 19a), it is encrypted and transmitted. Therefore, the microcomputer system 24b of the receiver 22c is provided with the software for encryption processing, and the microcomputer system 23b of the transmitter 21c is provided with the software for decryption processing.
Of course, the encryption / decryption rules are the same. Incidentally, it is sufficient to use a known general technique as the encryption technique.

Another characteristic difference of the fourth embodiment is that two pieces of different identification data are continuously transmitted, and if the receivers do not match each other, the door lock control signal S _L. Is not to be activated.

2) Operation FIG. 9 is a diagram for explaining an operation example of the embodiment-4, (a) is a flow chart showing the identification data changing procedure of the transmitter, and (b) is
Is a flowchart showing the procedure for changing the identification data of the receiver,
(c) is a first identification data configuration diagram, (d) is a configuration diagram of encrypted identification data, and (e) is a second identification data configuration diagram.

First, an example of the encryption / decryption technique will be described.

As shown in FIG. 9 (d), the encryption technique illustrated in the fourth embodiment is a conversion code 37 indicating a processing procedure for decrypting an encrypted data string. Is a method of performing a decoding process according to the conversion code 37 when incorporating and decoding.

That is, a plurality of encryption rules are provided, and the encryption rules are also changed each time the identification data is transmitted. This makes it possible to protect the identification data from eavesdropping and decryption of the code, which is caused by the monotonous encryption process of the identification data. Therefore, there are as many types of conversion codes 37 as there are encryption rules.

Incidentally, in the example of FIG. 9D, the final character "E" is the conversion code 37 representing the decoding processing procedure. The converted identification data is the identification data 28 shown in FIG. 9 (e).
d.

Next, the outline of the operation of the fourth embodiment will be described.

The fourth embodiment is the first illustrated in FIG. 9 (c).
When the identification data 28c of the transmitter is transmitted from the transmitter to the receiver (transmission frequency f ₀ : transmitter 2d → receiver 4d), the receiver
The encrypted new identification data 36 illustrated in FIG. 9 (d) is transmitted to the transmitter by matching the identification data 28c of (1) to the transmitter (transmission frequency f ₁ : transmission section 20a → reception section 19a).

Then, the transmitter which receives the encrypted identification data 36 immediately decrypts it and echoes back the identification data 28d illustrated in FIG. 9 (e) (transmission frequency f ₀ : transmission section).
2d → receiving section 4d).

On the other hand, the receiver activates the door lock control signal S _L when the second identification data 28d are collated and matched. That is, the receiver activates the door lock control signal S _L when the first identification data 28c and the second identification data 28d match each other.

Procedure for Changing Transmitter Identification Data (FIG. 9 (a)) That is, it is determined in step S1201 whether or not the transmission switch has been operated, and only if so, step S1202
And the first identification data is transmitted (transmission frequency f ₀ :
Transmitting unit 2d → receiving unit 4d).

Then, the new identification data encrypted in step S1203 is received (reception frequency f ₁ : transmission section 20a →
It is determined whether or not the receiving unit 19a) has received, the process proceeds to step S1204 only when it is received, and the decoding process is performed according to the convention by the conversion code in the data string.

Subsequently, the flow shifts to step S1205, and the identification data decoded in step S1204 is transmitted (transmission frequency f ₀ : transmission section 2d → reception section 4d).

The first identification data transmitted in step S1202 is the identification data that is fixed and not changed in the fourth embodiment. However, it does not matter if the procedure is changed.

Procedure for Changing Identification Data of Receiver (FIG. 9 (b)) That is, it is determined in step S1301 whether the first identification data is received (reception frequency f ₀ : transmission section 2d → reception section 4d). , Only when it is received, the process proceeds to step S1302, and the encrypted identification data is transmitted (transmission frequency f ₁ : transmission unit
20a → receiving section 19a).

Then, in step S1303, the decoded second identification data is received (reception frequency f ₀ : transmission section 2d →
The receiving unit 4d) judges whether or not it has received, and moves to step S1304 only when it has received and collates the identification data.

Subsequently, in step S1305, it is determined whether or not the second identification data is decoded and converted according to the rule, and if it is according to the rule, the process proceeds to step S1306 to activate the door lock control signal. And

(5) Example-5 1) Configuration FIG. 10 is a diagram for explaining the configuration of Example-5, (a) is a block diagram showing the device configuration, and (b) is a diagram showing the configuration of identification data. ,. As in the case of the first embodiment, the security device of the fifth embodiment is also an example configured as a device for locking / unlocking the door lock of the automobile.

The difference of the fifth embodiment from the first embodiment is that there is no connecting means for connecting the transmitter and the receiver and transmitting new identification data. Instead, they are equipped with clocks 34 and 35 that operate synchronously, respectively.

The synchronously operating timepieces 34 and 35 mean that the time and the counting speed of the time operate simultaneously.
Therefore, the time counted by the clock 34 of the transmitter 21d and the time counted by the clock 35 of the receiver 22d are the clocks 34,35.
The deviation of the count value (time error) only exists due to the accuracy of.

On the other hand, the structure of the identification data is composed of a fixed data part 29c and a time data part 30b as in the identification data 28b illustrated in FIG. 10 (b), and the time data part includes clocks 34,3.
It is configured to incorporate the numerical values from 00 minutes to 59 minutes counted by 5.

[0165] That is, the microcomputer system 23c of the transmitter 21d, the time at which transmission switch SW ₆ is operated (the 00 minutes through 59 minutes) transmitted as part of the identification data, the microcomputer system of the receiver 22d 24c
Is a mechanism for collating the identification data with the time (00 to 59 minutes) at which the identification data is received as a part of the identification data.

Therefore, the identification data changes with time, and wiretapping of the identification data becomes meaningless.

The same applies when counters are used instead of the clocks 34 and 35.

2) Operation Example-1 FIG. 11 is a diagram for explaining the operation example-1 of Example-5.
Is a flow chart showing the transmitter identification data transmission procedure,
(b) is a flow chart showing the identification data collation procedure of the receiver.

Transmitter Identification Data Transmission Procedure (FIG. 11 (a)) That is, it is determined in step S1401 whether or not the transmission switch has been operated, and only if so, step S1402
After that, the identification data having the time as a part of the data is transmitted.

Identification Data Verification Procedure of Receiver (FIG. 11 (b)) That is, it is determined whether or not the identification data is received in step S1501, and only when the identification data is received, the process proceeds to step S1502 and the identification data is verified. .. It should be noted that this matching is performed including the time data.

Then, in step S1503, it is determined whether or not the identification data match, and if they match, step S1503
Move to 1504 and activate the door lock control signal. That is, the door lock is locked / unlocked.

3) Operation Example-2 FIG. 12 is a flow chart for explaining the operation example-2 of the embodiment-5. The figure shows the identification data collating procedure in the receiver. The procedure for transmitting the identification data of the transmitter is the same as that in the operation example-1.

This embodiment is an example in which a time difference between the clock of the transmitter and the clock of the receiver, that is, the deviation of the count value is taken into consideration. That is, this is a procedure in which a permissible value of the count value deviation is determined in advance, and within the permissible value, the receiver determines that the identification data match. At that time, the deviation value is 0 (zero)
The procedure is to synchronize the clock of the receiver with the transmitter so that

That is, it is determined whether or not the identification data is received in step S1601, and only when the identification data is received, the step is performed.
The processing shifts to S1602, and the identification data is collated. It should be noted that this matching is performed including the time data.

Then, in step S1603, it is determined whether or not the fixed data parts of the identification data match, and if they match, the process proceeds to step S1604 to determine whether or not the time data parts match. As a result, if the time data match, the flow shifts to step S1605 to activate the door lock control signal. That is, the door lock is locked / unlocked.

On the other hand, if the time data does not match in step S1604, the process moves to step S1606 and the deviation ΔT
Is within a predetermined allowable value T _S. Then, only when the value is within the allowable value T _{S, the process} proceeds to step S1607, and the clock of the receiver is synchronized with the value of the time data part. After that, the flow shifts to step S1605, and the door lock control signal is activated.

[0177]

As described above, according to the identification data wireless transmission type security device of the present invention, the identification data used for confirming the ID is frequently changed to prevent the security device from being broken by wiretapping and duplication of the identification data. It can be rendered meaningless and the identification data can be protected from eavesdropping.

As a result, it is possible to realize a security device having excellent security and reliability while ensuring the convenience of wirelessly transmitting the identification data.

[Brief description of drawings]

FIG. 1 is a diagram illustrating a basic principle of the present invention.

2A and 2B are views for explaining the configuration of the embodiment 1, where FIG. 2A is a block diagram showing the configuration of the device, FIG. 2B is a perspective view showing the configuration of the connecting means, and FIGS. A diagram showing a configuration example of
Is.

FIG. 3 is a diagram illustrating an operation example-1 of Example-1, (a)
Is a flow chart showing the transmitter identification data transmission procedure,
(b) is a flow chart showing the identification data verification procedure of the receiver, (c) is a flow chart showing the identification data change procedure of the transmitter, and (d) is a flow chart showing the identification data change procedure of the receiver.

FIG. 4 is a diagram illustrating an operation example-2 of Example-1, (a)
Is a flow chart showing the procedure for changing the identification data of the transmitter,
(b) is a flowchart showing a procedure for changing the identification data of the receiver.

5A and 5B are views for explaining the configuration of Example-2, in which FIG. 5A is a block diagram showing the configuration of the device, FIG. (c) is an external view of the key.

6A and 6B are diagrams illustrating an operation example of Example-2, in which FIG. 6A is a flowchart showing a procedure for changing identification data of a transmitter, and FIG.
Is a flowchart showing the procedure for changing the identification data of the receiver,
Is.

FIG. 7 is a block diagram illustrating a configuration of a third embodiment. Note that, like the first embodiment, the security device of the third embodiment is also an example configured as a device for locking / unlocking the door lock of the automobile.

8A and 8B are diagrams illustrating an operation example of Example-3, in which FIG. 8A is a flowchart showing a procedure for changing identification data of a transmitter, and FIG.
Is a flowchart showing the procedure for changing the identification data of the receiver,
Is.

9A and 9B are diagrams illustrating an operation example of Example-4, in which FIG. 9A is a flowchart showing a procedure for changing identification data of a transmitter, and FIG.
Is a flowchart showing the procedure for changing the identification data of the receiver,
(c) is a first identification data configuration diagram, (d) is a configuration diagram of encrypted identification data, and (e) is a second identification data configuration diagram.

FIG. 10 is a diagram for explaining the configuration of the embodiment-5, (a) is a block diagram showing the device configuration, and (b) is a diagram showing the configuration of identification data.

FIG. 11 is a diagram illustrating an operation example-1 of Example-5,
(a) is a flowchart showing a transmitter identification data transmission procedure, and (b) is a flowchart showing a receiver identification data matching procedure.

FIG. 12 is a flowchart illustrating an operation example-2 of an embodiment-5.

13A and 13B are diagrams illustrating a conventional security device, FIG. 13A is a block diagram showing a configuration, and FIG. 13B is a model diagram of identification data showing an example of performing ID confirmation by data collation.

[Explanation of symbols]

1,1a (transmitter) identification data storage unit 2,2a, 2b, 2c, 2d, 2e wireless transmission unit (transmission frequency f ₀ ) 3 data transmission control unit 4,4a, 4b, 4c, 4d, 4e wireless reception Section (reception frequency f ₀ ) 5,5a (receiver) identification data storage section 6 data collation control section 7 transmitter 8 receiver 9 data transmission control section 10 data collation control section 11 (transmitter) identification data change control Part 12 (receiver) identification data change control part 13 (transmitter) connection means 14 (receiver) connection means 15,15a Plug type connector 16,16a Socket type connector 17,17a Provided on key (plug) Connector 18,18a Connector provided on the cylinder 19,19a Radio receiving means (reception frequency f ₁ ) 20,20a Radio transmitting means (transmission frequency f ₁ ) 21,21a, 21b, 21c, 21d Transmitter 22,22a, 22b, 22c, 22d Receiver 23,23a, 23b, 23c (transmitter) microcomputer system 24,24a, 24b, 24c (receiver) microcomputer system 25 Connection terminal (on transmitter) 26 Connection terminal provided on socket (on receiver) 27 Socket opening surface 28, 28a, 28b Identification data 28c First identification data (identification data) 28d Second identification data (identification 29) 29a, 29b, 29c Identification data fixed data part 30,30a Identification data data change part 30b Identification data time data part 31 Cylinder (key cylinder) 32 Cylinder insulation part 33 Key (key plug) 34 Transmission (new data including the transformation code) 37 conversion code SW ₁ to SW ₆ transmit switch T _D transmits data machine clock (counter) 35 of the receiver clock (counter) 36 encrypted identification data (identification data) R _D received data ( Identification data) B _D Identification data S _L Door lock control signal S _O Security output signal S _ACC ACC operation signal

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Koji Nagao 1-228 Goshodori, Hyogo-ku, Kobe-shi, Hyogo Within Fujitsu Ten Limited

Claims (9)

[Claims] 1. A transmitter (21) comprises: an identification data storage section (1a) for storing identification data; a transmission section (2a) for transmitting identification data by radio; SW₂)
And the transmission switch (SW₂))
Access the separate data storage (1a) and read the identification data
At the same time, the transmission is controlled by the transmitter (7) to identify the
Data transmission control to transmit modulated wave by data
Part (9) and the identification data stored in the identification data storage part (1a) are changed.
Identification data change control unit (11) and new identification data to be changed
The receiver (22) comprises an identification data storage unit (1a) identical to the identification data storage unit (1a) of the transmitter (21).
An identification data storage unit (5a) for storing data, and a reception unit capable of receiving the identification data transmitted by the transmitter (21).
Section (4a) and the identification unit when the receiving section (4a) receives identification data.
The data storage unit (5a) is accessed to check the identification data.
The security output signal (S _O)
The data collation control unit (10) to be activated and the identification data stored in the identification data storage unit (5a) are newly added.
And the identification data is given to the transmitter (21).
And an identification data change control unit (12), which is connected to the connection means (13) of the transmitter (21),
The new data given to the transmitter (21) by the identification data change control unit (12).
Connection means (14) for outputting new identification data, and
Identification data wireless transmission type security device characterized by: 2. A transmitter (21) includes an identification data storage section (1a) for storing identification data, a transmission section (2a) for wirelessly transmitting the identification data, and a transmission switch () for giving an identification data transmission command. SW₂)
And the transmission switch (SW₂))
Access the separate data storage (1a) and read the identification data
At the same time, the transmission is controlled by the transmitter (7) to identify the
Data transmission control to transmit modulated wave by data
Part (9) and the identification data stored in the identification data storage part (1a) are changed.
Identification data change control unit (11) and new identification data to be changed
The receiver (22) comprises an identification data storage unit (1a) identical to the identification data storage unit (1a) of the transmitter (21).
An identification data storage unit (5a) for storing data, and a reception unit capable of receiving the identification data transmitted by the transmitter (21).
Section (4a) and the identification unit when the receiving section (4a) receives identification data.
The data storage unit (5a) is accessed to check the identification data.
The security output signal (S _O)
The data collation control unit (10) to be activated and the identification data stored in the identification data storage unit (5a) are newly added.
And the identification data is given to the transmitter (21).
And an identification data change control unit (12), which is connected to the connection means (13) of the transmitter (21),
The new data given to the transmitter (21) by the identification data change control unit (12).
Connection means (14) for outputting new identification data, and
In the identification data wireless transmission type security device, the connection means (13) of the transmitter (21) and the connection means (14) of the receiver (22)
Connect one of the connection means (13) to the plug type connector.
Connector (15) and the other connecting means (14) is a socket type.
It is composed of a connector (16), and when both the connectors (15) and (16) are combined, the receiver (22)
The identification data change control unit (12) identifies the receiver (22) identification data.
Apply new identification data to the memory (5a) and transmitter (21).
Identification data wireless transmission type security device characterized by changing identification data.
Another data protection method. 3. The identification data protection method in the identification data wireless transmission type security device according to claim 2, wherein the identification data change control unit (11) of the transmitter (21) is set to access the identification data storage unit (1a). It is possible to change the identification data and also to communicate with the identification data change control unit (12) of the receiver (22) through the connectors (15) and (16) to change the identification data of the receiver (22). The control unit (12) is configured to enable access to the identification data storage unit (5a) and change of the identification data, and the identification data change control unit (11) of the transmitter (21) through the connectors (15) and (16). ), The transmitter (21) connector (15) and receiver (22) connector (16)
When and are combined, the identification data change control unit (12) of the receiver (22)
Data stored in the identification data storage unit (1a) of the
The identification data storage unit of the receiver (22) only when the identification data stored in the identification data storage unit (5a) of (22) matches.
(5a) and the transmitter (21) are provided with new identification data to change the identification data, and the identification data protection method in the identification data wireless transmission type security device. 4. The transmitter (21) includes an identification data storage section (1a) for storing identification data, a transmission section (2a) for wirelessly transmitting the identification data, and a transmission switch () for giving an identification data transmission command. SW₂)
And the transmission switch (SW₂))
Access the separate data storage (1a) and read the identification data
At the same time, the transmission is controlled by the transmitter (7) to identify the
Data transmission control to transmit modulated wave by data
Part (9) and the identification data stored in the identification data storage part (1a) are changed.
Identification data change control unit (11) and new identification data to be changed
The receiver (22) comprises an identification data storage unit (1a) identical to the identification data storage unit (1a) of the transmitter (21).
An identification data storage unit (5a) for storing data, and a reception unit capable of receiving the identification data transmitted by the transmitter (21).
Section (4a) and the identification unit when the receiving section (4a) receives identification data.
The data storage unit (5a) is accessed to check the identification data.
The security output signal (S _O)
The data collation control unit (10) to be activated and the identification data stored in the identification data storage unit (5a) are newly added.
And the identification data is given to the transmitter (21).
And an identification data change control unit (12), which is connected to the connection means (13) of the transmitter (21),
The new data given to the transmitter (21) by the identification data change control unit (12).
Connection means (14) for outputting new identification data, and
In the identification data wireless transmission type security device, the transmitter (21) is configured in the key and the connecting means (1
A connector (17) consisting of a contactor is provided on the key as 3)
On the other hand, as the connection means (14) of the receiver (22),
When inserting the key into the cylinder (18) for inserting the key
Connector consisting of contacts that mate with the connector (17) on the key side
(18) is provided, and when the key is inserted into the cylinder and rotated, the receiver
The identification data change control unit (12) of (22) identifies the receiver (22).
Write new identification data to the data storage (5a) and transmitter (21).
Identification data in a wireless transmission type security device characterized by:
Another data protection method. 5. The identification data protection method in the identification data wireless transmission type security device according to claim 4, wherein the identification data change control unit (11) of the transmitter (21) is set to access the identification data storage unit (1a). It is possible to change the identification data, and the connector (17) (1
8) is configured to communicate with the identification data change control unit (12) of the receiver (22), and the identification data change control unit (12) of the receiver (22) is connected to the identification data storage unit (5a). It is possible to change the identification data, and the connector (17) (1
8) is configured to communicate with the identification data change control unit (11) of the transmitter (21), and when the key is inserted into the cylinder and rotated, the identification data change control unit (12) of the receiver (22) , Transmitter (21)
Data stored in the identification data storage unit (1a) of the
The identification data storage unit of the receiver (22) only when the identification data stored in the identification data storage unit (5a) of (22) matches.
(5a) and the transmitter (21) are provided with new identification data to change the identification data, and the identification data protection method in the identification data wireless transmission type security device. 6. The transmitter (21) comprises an identification data storage section (1a) for storing identification data, a transmission section (2a) for wirelessly transmitting the identification data, and a transmission switch () for giving an identification data transmission command. SW₂)
And the transmission switch (SW₂))
Access the separate data storage (1a) and read the identification data
At the same time, the transmission is controlled by the transmitter (7) to identify the
Data transmission control to transmit modulated wave by data
Part (9) and the identification data stored in the identification data storage part (1a) are changed.
Identification data change control unit (11) and new identification data to be changed
The receiver (22) comprises an identification data storage unit (1a) identical to the identification data storage unit (1a) of the transmitter (21).
An identification data storage unit (5a) for storing data, and a reception unit capable of receiving the identification data transmitted by the transmitter (21).
Section (4a) and the identification unit when the receiving section (4a) receives identification data.
The data storage unit (5a) is accessed to check the identification data.
The security output signal (S _O)
The data collation control unit (10) to be activated and the identification data stored in the identification data storage unit (5a) are newly added.
And the identification data is given to the transmitter (21).
And an identification data change control unit (12), which is connected to the connection means (13) of the transmitter (21),
The new data given to the transmitter (21) by the identification data change control unit (12).
Connection means (14) for outputting new identification data, and
In the identification data wireless transmission type security device, the connection means (13) of the transmitter (21) is constituted by the wireless reception means (19).
On the other hand, the connection means (14) of the receiver (22) is connected to the wireless transmission means (2
0), identification data in the data collation control unit (10) of the receiver (22)
Only when the verification results match, the identification data of the receiver (22) is
The data change control unit (12) includes an identification data storage unit (5a) and a transmitter (2
Change the identification data by giving new identification data to 1)
Identification data wireless transmission type security device characterized by
Another data protection method. 7. The transmitter (21) comprises an identification data storage section (1a) for storing identification data, a transmission section (2a) for wirelessly transmitting the identification data, and a transmission switch () for giving an identification data transmission command. SW₂)
And the transmission switch (SW₂))
Access the separate data storage (1a) and read the identification data
At the same time, the transmission is controlled by the transmitter (7) to identify the
Data transmission control to transmit modulated wave by data
Part (9) and the identification data stored in the identification data storage part (1a) are changed.
Identification data change control unit (11) and new identification data to be changed
The receiver (22) comprises an identification data storage unit (1a) identical to the identification data storage unit (1a) of the transmitter (21).
An identification data storage unit (5a) for storing data, and a reception unit capable of receiving the identification data transmitted by the transmitter (21).
Section (4a) and the identification unit when the receiving section (4a) receives identification data.
The data storage unit (5a) is accessed to check the identification data.
The security output signal (S _O)
The data collation control unit (10) to be activated and the identification data stored in the identification data storage unit (5a) are newly added.
And the identification data is given to the transmitter (21).
And an identification data change control unit (12), which is connected to the connection means (13) of the transmitter (21),
The new data given to the transmitter (21) by the identification data change control unit (12).
Connection means (14) for outputting new identification data, and
Identification data wireless transmission type security device, data verification is performed by matching at least two identification data.
Security output signal (S_O)
This is a method of connecting the transmitter (21) to the wireless reception means (19).
On the other hand, the connection means (14) of the receiver (22) is connected to the wireless transmission means (2
0), and the identification data change control unit (12) of the receiver (22) is
The identification data is encrypted according to the specified rules.
After that, the configuration that gives new identification data to the transmitter (21)
On the other hand, the identification data change control unit (11) of the transmitter (21)
Restore the entered encrypted identification data in accordance with the prescribed rules.
First, in the data collation control unit (10) of the receiver (22),
Only when the identification data matching results of 1 match, the reception
The identification data change control unit (12) of the machine (22) is the identification data storage unit.
A new identification data is given to the transmitter (5a) and the transmitter (21) to obtain the second identification.
Secondly, the data transmission control unit (9) of the transmitter (21) uses the second data.
Echo Back transmission of the identification data of the receiver is performed.
The identification data of No. 2 are collated, the coincidence of the first identification data and the identification data of the second identification data,
Data matching control unit (10) outputs the security
Output signal (S_O) Is activated, the identification data in the wireless transmission type security device.
Another data protection method. 8. A transmitter (21) comprises an identification data storage section (1a) for storing identification data, a transmission section (2a) for wirelessly transmitting the identification data, and a transmission switch () for giving an identification data transmission command. SW₂)
And the transmission switch (SW₂))
Access the separate data storage (1a) and read the identification data
At the same time, the transmission is controlled by the transmitter (7) to identify the
Data transmission control to transmit modulated wave by data
Part (9) and the identification data stored in the identification data storage part (1a) are changed.
The identification data change control unit (11) and the receiver (22) that perform the same identification data storage unit (1a) of the transmitter (21).
An identification data storage unit (5a) for storing data, and a reception unit capable of receiving the identification data transmitted by the transmitter (21).
Section (4a) and the identification unit when the receiving section (4a) receives identification data.
The data storage unit (5a) is accessed to check the identification data.
The security output signal (S _O)
Change the identification data stored in the identification data storage unit (5a) and the data collation control unit (10) to be active
Identification data change control unit (12)
In the wireless transmission type security device, the identification data change control unit (11) of the transmitter (21) and the receiver (22) are
Operates synchronously with the identification data change control unit (12)
Configured with a timer, the count value of the timer is identified
The identification data can be changed by incorporating it as a part of
Identification data wireless transmission type security device characterized by
Another data protection method. 9. The identification data protection method for an identification data wireless transmission type security device according to claim 8, wherein the identification data collated by the data collation control unit (10) of the receiver (22) has a predetermined predetermined permission. If there is a deviation due to the timer count value within the value, the data collation control unit (10) activates the security output signal ( _SO ) and the identification data change control unit of the receiver (22). The identification data wireless transmission type security device characterized in that the count value of the timer provided in (12) is preset so as to be synchronized with the count value of the timer provided in the identification data change control unit (11) of the transmitter (21). Identification data protection method in.