JP4627097B2 - Electronic device with security function - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic device having a security function for theft prevention.
[0002]
[Prior art]
Examples of such electronic equipment include acoustic equipment such as a compact disk playback device, a radio receiver, a magnetic tape playback device, and a television receiver mounted on a vehicle such as an automobile. An electronic device mounted on such a vehicle may be removed from the vehicle and encounter theft. In order to prevent theft, conventionally, when an electronic device is reconnected to a power source such as a battery, it is configured to require input of a predetermined identification code (abbreviated ID), and the input identification code is The original operation of the electronic device is performed only when it is a predetermined regular code, and when the regular identification code is not input, the original operation of the electronic device is not performed.
[0003]
Furthermore, in order to ensure the prevention of theft, the counter counts the number of times that another incorrect identification code is repeatedly input without entering a regular identification code, and the counted value exceeds a predetermined value. Then, the electronic device shifts to the dealer bringing mode. In order to cancel the dealer bring-in mode so that the original operation of the electronic device that has entered the dealer carry-in mode is performed, it is necessary to carry the electronic device into the dealer and enter the master code in the electronic device at the dealer is there. The master code is defined in common for electronic device products. Therefore, this master code is not disclosed to the user of the electronic device and is strictly stored in the dealer. The dealer is, for example, an electronic device or a store or factory of an automobile equipped with the electronic device.
[0004]
In order to perform the original operation of such an electronic device, an identification code is required, and further, a master code is required in the dealer carry-in mode. To prevent theft.
[0005]
[Problems to be solved by the invention]
In the above-described prior art, when the number of times that the user cannot input a regular identification code is equal to or more than a predetermined value even though no theft has occurred, the dealer is brought into the carry-in mode. For example, in the configuration in which the identification code is input with the numerical keys, the user forgets the identification code, and thereby shifts to the dealer bringing mode. In a configuration in which a compact disk possessed by a user is read out by a compact disk playback device and a part of the contents recorded on the compact disk is used as the identification code, such a user possesses the identification code. When the compact disc being damaged is damaged or lost, or the wrong compact disc is reproduced a plurality of times, the mode is shifted to the dealer bringing-in mode. In the prior art, it is necessary to carry the electronic device that has been shifted to the dealer bringing mode into the dealer.
[0006]
Therefore, in the prior art, an electronic device in the dealer bringing mode must be carried into the dealer from the user. In addition, the dealer must perform an operation so that the electronic device can perform an original operation by canceling the dealer bringing-in mode. Therefore, the prior art requires a lot of labor and cost to release the electronic device from the dealer bringing mode.
[0007]
An object of the present invention is to relatively easily cancel the inoperable state of an electronic device that has fallen into an inoperable state in which the original operation of the electronic device is not performed in order to achieve security functions and prevent theft. An electronic device having a security function that can be provided is provided.
[0008]
Another object of the present invention is to provide an electronic device having a security function that can release the inoperable state of an electronic device that has become inoperable for theft prevention at low cost with little effort. It is to provide a method for canceling an inoperable state of a device.
[0009]
Still another object of the present invention is to provide an electronic device having a security function that can release an inoperable state of an electronic device that has been inoperable for theft prevention at low cost with little effort. It is to provide an arithmetic processing device for a dealer.
[0010]
[Means for Solving the Problems]
  The present invention relates to an electronic device having a security function.
  A theft determination means for determining that the electronic device has been stolen;
  In response to the output of the theft determination means, when the theft is determined, the inoperability setting means for controlling the inoperable state for theft without performing a predetermined operation of the controlled circuit;
  A non-volatile individual code memory M22 for storing an individual code A22 individually assigned to the electronic device;
  Has a predetermined first relationship with the individual code A22And different from individual code A22An output means for outputting the output code A221;
  Input means for inputting the individual determination code B2,
  Entered by input meansAnd different from individual code A22Individual code relationship determining means for determining whether the individual determination code B2 and the individual code A22 have a predetermined second relationship;
  When it is determined by the individual code relationship determining means that the individual determination code B2 and the individual code A22 have a predetermined second relationship, an inability canceling means for canceling the inoperable state for theft of the controlled circuit is provided. Prepared,
  When the output code A221 and the individual determination code B2 have a predetermined third relationship, the individual determination code B2 and the individual code A22 have the predetermined second relationship.And
  The first, second and third relationships are defined in common for a plurality of electronic devices having different individual codes A22.This is an electronic device having a security function.
[0012]
According to the present invention, the electronic device having a security function may be mounted on a vehicle such as an automobile, and may be an acoustic device such as a compact disk reproducing device, a radio receiver, a magnetic tape reproducing device, and a television receiver. Other types of electronic devices may be used. The theft determining means determines that the electronic device has been stolen or an operation equivalent to the theft has been performed, and the controlled circuit of the electronic device is put into a stealing inoperable state, that is, a second inoperable state described later. To force.
[0013]
In order to release the inoperable state for theft of such a controlled circuit of the electronic device, the individual code A22 individually assigned to the electronic device stored in the individual code memory M22 is used. The individual code A22 is calculated according to a predetermined first relationship, and an output code A221 is obtained. This first relationship may be that (a) the output code A221 may be the same value as the individual code A22, or (b) the individual code A22 is calculated according to a predetermined arithmetic expression and An output code A221 having a different value may be obtained, and (c) an output code A221 having a value different from that of the individual code A22 may be obtained according to a preset table or the like. The output code A221 thus obtained is output from output means realized by, for example, display means.
[0014]
The output code A221 output from the output means is calculated according to a predetermined third relationship, and an individual determination code B2 that is the calculation result is obtained. The output code A 221 according to the third relationship is obtained by, for example, calculating by a dealer arithmetic processing device provided in the dealer.
[0015]
The individual determination code B2 is given to the individual code relationship determination means by the input means. The individual code relationship determination unit determines whether the individual code A22 stored in the individual code memory M22 has a predetermined second relationship with the individual determination code B2 input by the input unit. When the individual determination code B2 and the individual code A22 have the second relationship, the disabling canceling unit cancels the stealing operation disabled state of the controlled circuit of the electronic device. As a result, the electronic apparatus can perform a normal original operation.
[0016]
When the output code A221 having the first relationship with the individual code 22 has the third relationship with the individual determination code B2, the individual determination code B2 and the individual code A22 have the second relationship. Thus, the first to third relationships are related to each other.
[0017]
Further, the present invention provides an electronic device having a security function.
A theft determination means for determining that the electronic device has been stolen or an operation equivalent to the theft has been performed;
In response to the output of the theft determination means, when the theft is determined, the inoperability setting means for controlling the inoperable state in which the predetermined operation of the controlled circuit is not performed,
A non-volatile individual code memory M22 for storing an individual code A22 individually assigned to the electronic device;
Display means for reading and displaying the individual code A22 from the individual code memory M22;
Input means for inputting the individual determination code B2,
An individual code calculation means for performing a predetermined calculation of the individual code using the individual code A22;
Individual code relationship determination means for determining whether the individual determination code B2 and the code B3 representing the calculation result from the individual code calculation means have a predetermined individual determination relationship;
When it is determined that the individual determination code B2 and the code B3 representing the calculation result from the individual code calculation means have the individual determination relationship in response to the output of the individual code relationship determination means An electronic device having a security function, comprising: an inability canceling means for canceling
[0018]
  Further, the present invention provides an electronic device having the security function described above.
  The individual code relationship determining means calculates an intermediate code B3 having a predetermined fourth relationship with the individual code A22, and based on a comparison between the individual determination code B2 and the intermediate code B3, It is an electronic device having a security function characterized by determining whether or not the individual code A22 has a predetermined second relationship.
  BookAccording to the invention, the theft determination means determines that the electronic device has been stolen or that an operation equivalent to the theft has been performed, as in the condition determination means described above, and the theft is thus determined. At this time, the controlled circuit included in the electronic device is forced into an inoperable state similar to the second inoperable state. In canceling such an inoperable state, as described above, the predetermined fourth code obtained by the calculation by the individual code calculation means using the individual code A22 individually assigned to the product of the electronic device. The code B3 having the following relationship has a predetermined individual determination relationship such as being the same as the individual determination code B2 input from the individual determination code input means when the user is informed by the dealer. When judged by the code relation judging means, the inoperable state is released..
[0019]
The individual code A22 stored in the individual code memory M22 is displayed by the display means, and the user informs the dealer of the individual code A22 displayed by the display means. The dealer uses the individual code A22 notified by the user to perform the same calculation as the predetermined calculation of the individual code performed by the individual code calculation means, and notifies the user of the calculation result B3. The user inputs the code B3 notified from the dealer as the individual determination code B2.
[0020]
The display means may be a visual display means realized by a liquid crystal or a cathode ray tube, or may have a configuration for outputting a sound signal generated by a sound synthesis circuit and performing acoustic display.
[0021]
According to the present invention, when the electronic device encounters theft, for example, the electronic device is disconnected from the power source such as a battery of a vehicle such as an automobile, the electronic device is removed from the vehicle, and the power source is connected again. When power is supplied and the regular determination identification code C1 is not input, the electronic device is forced into an inoperable state similar to the second inoperable state, and the security function is achieved. The user informs the dealer of the individual code A22 displayed on the display means, for example, inputs the individual judgment code B2 obtained from the dealer by the input operation of the individual judgment code input means, and the individual judgment input in this way. When the code B2 and the code B3 obtained by calculation using the individual code A22 stored in the individual code memory M22 in the electronic device have an individual determination relationship such as the same, the electronic device Therefore, it is not necessary for the user to bring the electronic device to the dealer in order to release the electronic device in such an inoperable state.
[0022]
In the present invention, the display means further displays the original operation state of the controlled circuit,
The original operation of the controlled circuit is controlled by the output of the input means.
[0023]
According to the present invention, the display means and the input means are used for the original operation of the controlled circuit of the electronic device, and the display means and the input means are used for releasing the inoperable state. Also used to achieve security functions. Therefore, it is not necessary to further provide display means and input means for security of the electronic device, and the configuration can be simplified. This is particularly important when the present invention achieves miniaturization when the electronic device is implemented in connection with an acoustic device or the like that is mounted and used in a vehicle such as an automobile.
[0024]
According to the present invention, the display means and the input means are used for the original operation of the controlled circuit of the electronic device, and such display means and the input means are used for releasing the inoperable state. Also used to achieve security functions. Therefore, it is not necessary to further provide display means and input means for security of the electronic device, and the configuration can be simplified. This is particularly important when the present invention achieves miniaturization when the electronic device is implemented in connection with an acoustic device or the like that is mounted and used in a vehicle such as an automobile.
[0025]
Further, the present invention provides an electronic device having a security function.
The individual code A22 is an electronic device having a security function, which is the production number A12 of the present electronic device.
[0026]
Further, the present invention provides an electronic device having a security function.
A non-volatile specific memory M12 for storing data A12 specific to the electronic device,
And a calculation means for performing a predetermined calculation using the unique data A12 stored in the unique memory M12 and storing the calculation result B1 in the individual code memory M22 as the individual code A22. An electronic device having a security function.
[0027]
According to the present invention, the individual code A22 stored in the individual code M22 may be the serial number A12 of the electronic device itself, but in another embodiment of the present invention, the individual code A22 is stored in the serial number memory M12. It is also possible to perform a predetermined calculation as shown in FIG. 12 to be described later using the manufactured production number A12 and store the calculation result as the individual code A22 in the individual code memory M22.
[0028]
Further, the present invention provides an electronic device having a security function.
The data A12 unique to the present electronic device is an electronic device having a security function characterized by being a serial number.
[0029]
According to the present invention, when calculating the individual code A22 to be stored in the individual code memory M22, the data A12 and A13 inherently possessed by the present electronic device are used. The data inherent to the electronic device may be, for example, (a) the above-described manufacturing number A12 itself, or (b) unique to the electronic device stored in advance in the memory area M13 as described later. The fixed value A13 may be a value other than the manufacturing number, and (c) may be both the manufacturing number A12 and the fixed value A13 as shown in FIG. 13 described later, or (d It may be data inherent to other electronic devices.
[0030]
The present invention also includes a nonvolatile serial number memory M12 for storing the serial number A12 of the electronic device,
A serial number calculation means for performing a predetermined calculation of the serial number using the serial number A12 stored in the serial number memory M12 and storing the calculation result B1 in the individual code memory M22 as the individual code A22. It is characterized by.
[0031]
According to the present invention, in order to determine an individual code A22 unique to each product of the present electronic device, the electronic device is provided with a serial number memory M12, and this memory M12 has a serial serial number A12 for each electronic device. Is stored. The production number calculation means performs a predetermined calculation of the production number using the production number A12 stored in the production number memory M12. This calculation result B1 is used as the individual code A22.
[0032]
According to the present invention, the production number A12 is obtained as the operation result B1 obtained by performing a predetermined operation of the production number, and this operation result B1 is used as the individual code A22. Therefore, the production number A12 is directly used as the individual code A22. It is not used as Therefore, it is possible to prevent the thief from using the serial number printed on, for example, the nameplate of the electronic device for the predetermined calculation of the individual code without using the serial number A12. The code A22 can be easily assigned.
[0033]
According to the present invention, the individual code A22 individually assigned to each product of the electronic device is obtained by performing a predetermined calculation of the manufacturing number using the manufacturing number A12 of the electronic device. As a result, the individual code A22 can be set to a unique value for each product. Since the production number A12 is not directly used as the individual code A22, but the operation is performed using the production number A12 to obtain the individual code A22, compared to the configuration in which the production number A12 is used as it is as the individual code A22, The anti-theft effect can be enhanced. The predetermined calculation of the manufacturing number for obtaining the individual code A22 from the manufacturing number A12 is achieved by a manufacturing number calculation means realized by a microcomputer or the like, so a manual comparison table is created between the manufacturing number and the individual code A22 manually. Therefore, it is not necessary to prepare, and the labor for storing the comparison table in the nonvolatile memory is saved. By storing the production number A12 in the non-volatile production number memory M12, the individual code A22 is automatically obtained by calculation, and labor can be reduced and the cost can be reduced.
[0034]
Further, the present invention provides an electronic device having a security function.
In response to an input of the individual determination code B2 by the input means, the electronic device having a security function is characterized in that the individual code A22 is updated by a predetermined calculation.
[0035]
In the present invention, the individual code memory M22 is a writable memory,
The electronic device further includes a writing means,
This writing means
In response to the output of the individual code relationship determining means, the individual determination code B2 from the individual determination code input means and the code B3 representing the calculation result from the individual code calculation means have the predetermined individual determination relationship. Is determined, the individual determination code B2 from the individual determination code input means or the calculation result B3 of the individual code calculation means is used as a new individual code for the next calculation of the individual code calculation means. The update is performed by writing to M22.
[0036]
According to the present invention, the individual determination code B2 from the individual determination code input means or the calculation result B3 of the individual code calculation means is sequentially updated and written in the individual code memory M22 as the individual code A22. Therefore, each time the second inoperable state is canceled, a different individual code A22 is used. As a result, the individual code A22 unique to the electronic device is changed each time the second inoperable state is released. Therefore, for example, the individual code A22 used for canceling the previous inoperable state is not used again, so that theft prevention can be more reliably prevented.
[0037]
According to the present invention, the individual code A22 stored in the individual code memory M22 is obtained from the calculation result B3 calculated by the individual code calculation means every time the second inoperable state is released or from a dealer having the same value as the calculation result B3. The calculation result B2 obtained by the dealer calculation means notified to the user is written and updated. As a result, the anti-theft effect can be further improved.
[0038]
According to the present invention, the user erroneously inputs the individual determination code B2, whereby the individual code related means determines that the individual determination code B21 erroneously input by the input means and the individual code A22 are predetermined. When it is determined that the second relationship is not found, the disability canceling means does not cancel the stealing inoperable state, and such an erroneous individual determination code B21 is input and the individual code relationship determining means When it is determined that the relationship of 2 is not established, the individual code A22 is rewritten and updated by a predetermined calculation, thereby further improving the security function.
[0039]
Further, the present invention is an electronic device having a security function,
When the identification code A21 stored in advance in the nonvolatile identification code memory M21 and the determination identification code C1 input by the input operation of the identification code input means have a predetermined determination identification relationship, Confirmation that the predetermined operation of the controlled circuit is not performed when the identification code A21 stored in the identification code memory M21 and the inputted identification code C1 for determination do not have the identification relation for determination, enabling a predetermined operation. In an electronic device having a security function to control to an inoperable state for
The theft determination means determines that the electronic device has been stolen when a predetermined condition regarding the input operation of the identification code input means is satisfied,
The inoperability setting unit does not perform a predetermined operation of the controlled circuit regardless of the input operation of the identification code C1 after the theft determination unit determines that the theft has been encountered. It is an electronic device.
[0040]
In the present invention, when the identification code A21 stored in advance in the nonvolatile identification code memory M21 and the determination identification code C1 input by the input operation of the identification code input means have a predetermined identification determination relationship, When a predetermined operation of the controlled circuit is enabled and the identification code A21 stored in the identification code memory M21 and the input identification code C1 do not have the identification determination relationship, the predetermined circuit of the controlled circuit In an electronic apparatus having a security function for controlling to a first inoperable state in which a predetermined operation is not performed,
Condition determining means for determining whether or not a predetermined condition related to the input operation of the identification code input means is satisfied;
In response to the output of the condition determining means, when the condition is satisfied, control is performed to a second inoperable state in which the predetermined operation of the controlled circuit is not performed regardless of the input operation of the identification code C1 after the condition is satisfied. Inoperable setting means;
A non-volatile individual code memory M22 for storing an individual code A22 individually assigned to the electronic device;
Input means for inputting the individual determination code B2,
An individual code calculation means for performing a predetermined calculation of the individual code using the individual code A22;
Individual code relationship determination means for determining whether the individual determination code B2 and the code B3 representing the calculation result from the individual code calculation means have a predetermined individual determination relationship;
In response to the output of the individual code relationship determining means, when it is determined that the individual determination code B2 and the code B3 representing the calculation result from the individual code calculation means have the individual determination relationship, the second operation An electronic device having a security function, comprising: an inability canceling means for canceling an inaccessible state.
[0041]
According to the present invention, the electronic device may be mounted on a vehicle such as an automobile, and may be an acoustic device such as a compact disk reproducing device, a radio receiver, a magnetic tape reproducing device, and a television receiver. It may be an electronic device. When a power source such as a battery is connected to the electronic device and the power is supplied, or power is always supplied from the battery to some electric circuits constituting the electronic device, and the remaining electric circuit is, for example, an internal combustion engine of an automobile When the ignition switch for supplying power to the ignition circuit of the engine is turned on and the power switch is turned on to supply power, the user inputs the identification code input means to perform the identification code C1 for determination. Enter. When the input identification code C1 has a predetermined identification determination relationship with the identification code A21 stored in advance in the non-volatile identification code memory M21, for example, the identification code A21 in the identification code memory M21 is input. When the determination identification code C1 matches, a predetermined operation of the controlled circuit included in the electronic device is enabled. The controlled circuit includes, for example, a compact disk reproducing means 11, a radio receiving means 13, a magnetic tape reproducing means 12, a television receiving means, etc. in an electronic device. The original operation of the control circuit becomes possible.
[0042]
The determination identification code C1 input by the identification code input means and the identification code A21 stored in the identification code memory M21 in advance when the identification determination relationship does not exist, for example, when they do not match, The predetermined operation is not performed, and the electronic device is forced into the first inoperable state. In the electronic device controlled to be in the first inoperable state, when the input determination identification code C1 and the identification code A21 in the identification code memory M21 have an identification determination relationship, the first inoperable state is canceled. As described above, the predetermined operation of the controlled circuit becomes possible.
[0043]
The condition determining means determines whether a predetermined condition relating to the input operation of the identification code input means is satisfied. For example, the determination identification code C1 input by the input operation of the identification code does not have the identification determination relationship with the identification code A21 of the identification code memory M21, and has such an identification determination relationship. When the determination identification code C1 that has not been input is input a predetermined number of times, for example, once or a plurality of times, it is determined that a predetermined condition is satisfied. Such a predetermined condition is the same as the input operation of the identification code input means performed when the electronic device encounters theft. Therefore, the condition determination means determines that the theft has been encountered or is equivalent to the theft. The theft determination means may determine that the input operation of the code input means has been performed.
[0044]
When such a predetermined condition is satisfied, the inoperability setting means sets the second inoperable state in which the predetermined operation of the controlled circuit is not performed. The predetermined operation of the controlled circuit in the first inoperable state and the predetermined operation of the controlled circuit in the second inoperable state may be the same or different. After the electronic device is once forced into the second inoperable state, for example, the identification code C1 having the predetermined identification judgment relationship with the identification code A21 in the identification code memory M21 is sent by the identification code input means. Even if input, the second inoperable state cannot be canceled regardless of the input operation of the identification code C1. The second inoperable state of the present invention corresponds to the dealer bringing mode described above in relation to the prior art.
[0045]
According to the present invention, the identification code A22 unique to the electronic device for theft prevention is recorded in the nonvolatile individual code memory M22, and a predetermined condition such that the electronic device is stolen or an equivalent operation is performed. When established, based on the individual code A22 stored in the individual code memory M22, the user inputs, for example, the individual determination code B2 notified from the dealer by an input operation of the individual determination code input means. When the individual determination code B2 input in this way and the code B3, which is the calculation result obtained by the predetermined calculation of the individual code A22 in the electronic device, have, for example, the same individual determination relationship The second inoperable state can be canceled. Therefore, the user does not need to bring the electronic device into the dealer, for example, in order to release the second inoperable state of the electronic device, so that the labor for the electronic device is not necessary, and thus the cost for bringing the electronic device into the dealer is necessary. Disappear.
[0046]
In addition, the present invention is characterized by including output means for reading out and outputting the individual code A22 from the individual code memory M22.
[0047]
According to the invention, the output means is a display means.
[0048]
According to the present invention, in order to cancel the second inoperable state in the electronic device controlled to the second inoperable state, the nonvolatile individual code memory M22 is individually provided for each product of the electronic device. The assigned individual code A22 is stored, and the individual code A22 as the stored content is subjected to a predetermined calculation of the individual code by the individual code calculation means provided in the electronic device, and represents the calculation result. Code B3 is obtained.
[0049]
The user of the present electronic device inputs the individual determination code B2 unique to the product of the electronic device owned by the user by the individual determination code input means. In the embodiment described later, the individual determination code B2 reads the individual code A22 stored in the individual code memory M22 by an output means such as a display means and notifies the dealer, and the dealer provides the individual code. This is a code obtained by performing the same calculation as the predetermined calculation of the individual code performed by the calculation means.
[0050]
The output means may be a display means, or an arithmetic processing means such as a microcomputer or a personal computer provided in a dealer by deriving the individual code A22 stored in the individual code memory M22 as an electric signal. The dealer's arithmetic processing means receives a signal from the output means and performs a predetermined calculation of the individual code as described above.
[0051]
In another embodiment of the present invention, the individual code A22 which is the stored content of the individual code memory M22 is read using, for example, a microcomputer or a personal computer, and the read individual code A22 is given to the dealer. The dealer may perform the same calculation as the predetermined calculation of the individual code using the individual determination code A22, and the dealer may inform the user of the individual determination code B2 thus obtained. In order to obtain the individual determination code B2 from the individual code A22, the dealer may use arithmetic processing means such as a microcomputer or a personal computer. However, the dealer may perform the calculation manually. The calculation may be performed by this method.
The above-described calculation method of the individual code performed by the individual code calculation means and the similar calculation method of the same individual code performed by the dealer as described above are used for persons other than the dealer including the user. Not published.
[0052]
For example, as described above, the disabling canceling means is such that the individual determination code B2 notified by the user from the dealer and input by the individual determination code input means is the same as the code B3 that is the calculation result of the individual code calculation means, for example. When it is determined by the individual code relationship determining means that the predetermined individual determination relationship is established, the second inoperable state is canceled, and the predetermined operation of the controlled circuit becomes possible.
[0053]
The individual code A22 may be a calculation result B1 obtained by performing a predetermined calculation of the production number on the production number A12 unique to the electronic device. In another embodiment of the present invention, the individual code A22 is: The production number A12 itself may be used, and other codes may be used.
[0054]
The relationship for identification determination and the relationship for individual determination may be not only the codes A21, C1; B2, B3 to be compared are the same, but also, for example, each value satisfying a predetermined arithmetic equation.
[0055]
According to the present invention, the individual code A22 stored in the individual code memory M22 is informed to the dealer, for example, by the output means, and the dealer uses the individual code A22 to perform the predetermined calculation of the individual code as described above. I do. The output means may output the individual code A22 in a state that the user can know, or may output it to a dealer or the like in a state that the user cannot know.
[0056]
According to the present invention, the electronic device is provided with display means as output means, whereby the individual code A22 stored in the individual code memory M22 is displayed by the display means such as visual display or acoustic display. It is easy to inform the dealer of the individual code A22 stored in M22, for example.
[0057]
The present invention also provides a power shutoff detecting means for detecting the power shutoff to the electronic device, and a power shutoff detecting means for responding to the output of the power shutoff detecting means so that when the power shutoff is detected, the power shutoff can be written. Non-volatile power shutdown memory
The condition determining means includes
Counting means for counting the number of times of input from the identification code input means of the identification code C1 for determination that does not have the identification determination relationship;
In response to the outputs of the power shutoff memory and the counting means, when the power shutoff is stored in the power shutoff memory and the count value is equal to or greater than the predetermined value N1, it is determined that the predetermined condition is satisfied. And a condition establishment judging means.
[0058]
According to the present invention, when the electronic device is removed from, for example, an automobile, power supplied to the electronic device from a power source such as a battery is cut off. Such power interruption is detected by the power interruption detection means and written in the nonvolatile power interruption memory. Further, a determination identification code C1 is input by an input operation of the identification code input means to cancel the first inoperable state, and the input determination identification code C1 is stored in the identification code memory M21 in advance. When there is no identification judgment relationship with the code A21, the number of times is counted by the counting means. In such an electronic device that has been stolen, when the power-off memory is written in the power-off memory, and the electronic device is connected to the power source again and the count value becomes equal to or greater than the predetermined value N1, the predetermined value is determined. It is determined that the condition is met. As a result, the controlled circuit of the electronic device is controlled to the second inoperable state. The predetermined value N1 may be a value such as 5 times or 10 times, for example.
[0059]
According to the present invention, the power supply is shut off because the electronic device is stolen or the line for supplying power between the electronic device and the battery is disconnected or the connector is removed. When the regular determination identification code C1 is not input from the identification code input means for a predetermined value N1 times or more, it is determined that the predetermined condition is satisfied and theft has occurred. Force to second disabled state. In this way, it is determined that the electronic device has been stolen, and theft is prevented. When the user performs an operation similar to the predetermined condition determined to have encountered such a theft, the electronic device in the second inoperable state is released as described above. Will be able to.
[0060]
The present invention further includes a non-volatile fixed value memory for storing a predetermined calculation fixed value consisting of a plurality of digits,
The individual code calculation means includes
A logical operation is performed for each digit corresponding to a value consisting of a plurality of digits related to the individual code A22 and the fixed value.
[0061]
According to the present invention, the predetermined calculation of the individual code performed by the individual code calculation means for releasing the second inoperable state of the electronic device is a calculation fixed value that is not disclosed to a user or the like stored in a fixed value memory. Since the logical operation is performed using the value, the operation procedure or operation expression for obtaining the code B3 from the individual code A22 becomes even more difficult for a third party to know. This further ensures theft prevention.
[0062]
According to the present invention, in the calculation for obtaining the individual determination code B2 and the individual determination code B3 from the individual code, a predetermined fixed value A13 for calculation consisting of a plurality of digits is used. Since the fixed value is stored in the fixed value memory and is not disclosed, it is impossible to know the predetermined calculation of the individual code, thereby further enhancing the anti-theft effect.
[0063]
Further, the present invention provides an electronic device having a security function.
The controlled circuit is an electronic device having a security function, which is an acoustic device mounted on a vehicle.
[0064]
According to the present invention, the controlled circuit is an acoustic device mounted on a vehicle.
[0065]
According to the present invention, an electronic device including a controlled circuit that is incapable of operating the first and second electronic devices includes, for example, a compact disc player, a radio receiver, a magnetic tape player, a television receiver, and the like. The acoustic device may be used. Although the present electronic circuit is mounted on a vehicle such as an automobile and thus has a relatively high possibility of encountering theft, the present invention makes it possible to prevent theft.
[0066]
According to the present invention, the present invention is implemented in connection with an acoustic device mounted on a vehicle such as an automobile. Therefore, it is possible to prevent in-vehicle devices that are likely to encounter theft from theft.
[0067]
Further, the present invention is characterized by comprising derivation means for deriving the individual determination code B2 having a predetermined third relationship with the output code A221 from the output code A221 in the electronic device having a security function. It is an arithmetic processing unit for a dealer.
[0068]
According to the present invention, the dealer arithmetic processing unit calculates the output code A221 obtained from the output unit of the electronic device, and derives the individual determination code B2 having the first relationship determined in advance by the deriving unit.
[0069]
Further, the present invention is an arithmetic processing device for a dealer that releases an inoperable state of an electronic device having a security function,
This electronic device
When the identification code A21 stored in advance in the nonvolatile identification code memory M21 and the determination identification code C1 input by the input operation of the identification code input means have a predetermined identification determination relationship, A predetermined operation is enabled, and when the identification code A21 stored in the identification code memory M21 and the input identification code C1 do not have the identification determination relationship, the predetermined operation of the controlled circuit is performed. An electronic device having a security function for controlling to a first inoperable state,
Condition determining means for determining whether or not a predetermined condition related to the input operation of the identification code input means is satisfied;
In response to the output of the condition determining means, when the condition is satisfied, control is performed to a second inoperable state in which the predetermined operation of the controlled circuit is not performed regardless of the input operation of the identification code C1 after the condition is satisfied. Inoperable setting means;
A non-volatile individual code memory M22 for storing an individual code A22 individually assigned to the electronic device;
First display means for reading and displaying the individual code A22 from the individual code memory M22;
First input means for inputting the individual determination code B2,
An individual code calculation means for performing a predetermined calculation of the individual code using the individual code A22;
Individual code relationship determination means for determining whether the individual determination code B2 and the code B3 representing the calculation result from the individual code calculation means have a predetermined individual determination relationship;
In response to the output of the individual code relationship determining means, when it is determined that the individual determination code B2 and the code B3 representing the calculation result from the individual code calculation means have the individual determination relationship, the second operation Including a disabling means for canceling the disabling state,
The dealer processing unit is:
A second input means for inputting an individual code for the dealer;
Dealer operation means for performing the same operation as the predetermined operation of the individual code operation means for the dealer individual code from the second input means;
A dealer arithmetic processing apparatus comprising: a second display means for displaying a calculation result of the dealer arithmetic means.
[0070]
Further, the present invention is an arithmetic processing device for a dealer that releases an inoperable state of an electronic device having a security function,
This electronic device
A theft determination means for determining that the electronic device has been stolen or an operation equivalent to the theft has been performed;
In response to the output of the theft determination means, when the theft is determined, the inoperability setting means for controlling the inoperable state in which the predetermined operation of the controlled circuit is not performed,
A non-volatile individual code memory M22 for storing an individual code A22 individually assigned to the electronic device;
First display means for reading and displaying the individual code A22 from the individual code memory M22;
First input means for inputting the individual determination code B2,
An individual code calculation means for performing a predetermined calculation of the individual code using the individual code A22;
Individual code relationship determination means for determining whether the individual determination code B2 and the code B3 representing the calculation result from the individual code calculation means have a predetermined individual determination relationship;
When it is determined that the individual determination code B2 and the code B3 representing the calculation result from the individual code calculation means have the individual determination relationship in response to the output of the individual code relationship determination means And a disabling means for canceling
The dealer processing unit is:
A second input means for inputting an individual code for the dealer;
Dealer operation means for performing the same operation as the predetermined operation of the individual code operation means for the dealer individual code from the second input means;
A dealer arithmetic processing apparatus comprising: a second display unit that displays a calculation result of the dealer arithmetic unit.
[0071]
By installing the dealer's arithmetic processing device according to the present invention in a store where the electronic device is sold or in a repair factory, the original user performs an operation equivalent to, for example, theft so that the controlled circuit of the electronic device is The second operation of the electronic device informed by the user is performed by performing the same operation as the predetermined operation of the individual code in the individual code calculation means provided in the electronic device when the second operation disabled state that does not operate. It is possible to notify the user of the individual determination code B2 which is the calculation result of the dealer calculation means for canceling the disabled state.
[0072]
Thus, according to the present invention, when the controlled circuit of the electronic device is forced to the second inoperable state in which the electronic device is not operated, the user can enter the second inoperable state without having to carry the electronic device into the dealer. Can be released.
[0073]
According to the present invention, when an electronic device having a security function falls into the second inoperable state, the dealer notifies the user of the individual determination code B2 using the dealer arithmetic processing device provided in the dealer or the like. Thus, the user can cancel the second inoperable state without having to bring the electronic device to the dealer.
[0074]
  The present invention also provides an electronic device comprising:
  A theft determination means for determining that a theft has been encountered;
  In response to the output of the theft determination means, when the theft is determined, the inoperability setting means for controlling the inoperable state for theft without performing a predetermined operation of the controlled circuit;
  A non-volatile individual code memory M22 for storing an individual code A22 individually assigned to the electronic device;
  Has a predetermined first relationship with the individual code A22And different from individual code A22An output means for outputting the output code A221;
  Input means for inputting the individual determination code B2,
  Entered by input meansAnd different from individual code A22Individual code relationship determining means for determining whether the individual determination code B2 and the individual code A22 have a predetermined second relationship;
  And a disabling canceling unit that cancels the inoperable state for theft of the controlled circuit when it is determined by the individual code relationship determining unit that the individual determination code B2 and the individual code A22 have a predetermined second relationship. ,
  When the output code A221 and the individual determination code B2 have a predetermined third relationship, the individual determination code B2 and the individual code A22 have a predetermined second relationship.And
  The first, second and third relationships are defined in common for a plurality of electronic devices having different individual codes A22.Electronic devices with security functions,
  A dealer arithmetic processing unit including a derivation unit for deriving an individual determination code B2 having a predetermined third relationship with the output code A221 from the given output code A221 is prepared,
  The output code A221 output from the output means of the electronic device with security function is given to the dealer arithmetic processing unit,
  An electronic device with a security function, characterized in that an individual determination code B2 having a predetermined third relationship with an output code A221 derived by a dealer arithmetic processing device is input to an input means of an electronic device with a security function This is a method for canceling the inoperability of the device.
[0075]
According to the inoperability canceling method of the electronic device with security function according to the present invention, the output code A221 output from the output means of the electronic device is given to the dealer arithmetic processing device, and thereby included in the dealer arithmetic processing device. The deriving means calculates and derives the individual determination code B2, inputs the individual determination code B2 by the input means of the electronic device, and gives it to the individual code relationship determination means, and is inoperable for theft. The state of the controlled circuit of the electronic device can be canceled by the disabling canceling means.
[0076]
  The present invention also providesThe aboveIn the inoperability cancellation method for electronic devices with security functions,
  The security-equipped electronic device is:
  When the identification code A21 stored in advance in the nonvolatile identification code memory M21 and the determination identification code C1 input by the input operation of the identification code input means have a predetermined determination identification relationship, Confirmation that the predetermined operation of the controlled circuit is not performed when the identification code A21 stored in the identification code memory M21 and the inputted identification code C1 for determination do not have the identification relation for determination, enabling a predetermined operation. An electronic device with a security function that controls to an inoperable state,
  The theft determination means determines that the electronic device has been stolen when a predetermined condition regarding the input operation of the identification code input means is satisfied,
  After the inoperability setting means is determined by the theft determination means to have encountered theft,For judgmentA method for canceling the inoperability of an electronic device with a security function, characterized in that the electronic device with a security function does not perform a predetermined operation of the controlled circuit regardless of the input operation of the identification code C1.
[0077]
The present invention also provides an electronic device having a security function,
This electronic device
When the identification code A21 stored in advance in the nonvolatile identification code memory M21 and the determination identification code C1 input by the input operation of the identification code input means have a predetermined identification determination relationship, A predetermined operation is enabled, and when the identification code A21 stored in the identification code memory M21 and the input identification code C1 do not have the identification determination relationship, the predetermined operation of the controlled circuit is performed. An electronic device having a security function for controlling to a first inoperable state,
Condition determining means for determining whether or not a predetermined condition related to the input operation of the identification code input means is satisfied;
In response to the output of the condition determining means, when the condition is satisfied, control is performed to a second inoperable state in which the predetermined operation of the controlled circuit is not performed regardless of the input operation of the identification code C1 after the condition is satisfied. Inoperable setting means;
A non-volatile individual code memory M22 for storing an individual code A22 individually assigned to the electronic device;
First display means for reading and displaying the individual code A22 from the individual code memory M22;
First input means for inputting the individual determination code B2,
An individual code calculation means for performing a predetermined calculation of the individual code using the individual code A22;
Individual code relationship determination means for determining whether the individual determination code B2 and the code B3 representing the calculation result from the individual code calculation means have a predetermined individual determination relationship;
In response to the output of the individual code relationship determining means, when it is determined that the individual determination code B2 and the code B3 representing the calculation result from the individual code calculation means have the individual determination relationship, the second operation A disabling means for canceling the disabling state, and
Prepare a processing unit for the dealer,
This dealer processing unit
A second input means for inputting an individual code for the dealer;
Dealer operation means for performing the same operation as the predetermined operation of the individual code operation means for the dealer individual code from the second input means;
Second display means for displaying the calculation result of the dealer calculation means,
The individual code A22 displayed by the first display means is input by the second input means,
The electronic device inoperable state canceling method is characterized in that the calculation result of the dealer calculation means displayed by the second display means is input by the first input means.
[0078]
The present invention also provides an electronic device having a security function,
This electronic device
A theft determination means for determining that the electronic device has been stolen or an operation equivalent to the theft has been performed;
In response to the output of the theft determination means, when the theft is determined, the inoperability setting means for controlling the inoperable state in which the predetermined operation of the controlled circuit is not performed,
A non-volatile individual code memory M22 for storing an individual code A22 individually assigned to the electronic device;
First display means for reading and displaying the individual code A22 from the individual code memory M22;
First input means for inputting the individual determination code B2,
An individual code calculation means for performing a predetermined calculation of the individual code using the individual code A22;
Individual code relationship determination means for determining whether the individual determination code B2 and the code B3 representing the calculation result from the individual code calculation means have a predetermined individual determination relationship;
When it is determined that the individual determination code B2 and the code B3 representing the calculation result from the individual code calculation means have the individual determination relationship in response to the output of the individual code relationship determination means And a disabling means for releasing
Prepare a processing unit for the dealer,
This dealer processing unit
A second input means for inputting an individual code for the dealer;
Dealer operation means for performing the same operation as the predetermined operation of the individual code operation means for the dealer individual code from the second input means;
Second display means for displaying the calculation result of the dealer calculation means,
The individual code A22 displayed by the first display means is input by the second input means,
The electronic device inoperable state canceling method is characterized in that the calculation result of the dealer calculation means displayed by the second display means is input by the first input means.
[0079]
According to the present invention, when the electronic device having the security function encounters theft or an operation equivalent to the theft is performed, the controlled circuit is forced to the second inoperable state where the predetermined operation is not performed. Then, the user reads out the individual code A22 unique to the electronic device stored in the individual code memory M22 to release the second inoperable state, and displays it on the first display means. The user informs the dealer of the individual code A22 displayed on the first display means, for example, by telephone. The dealer inputs the individual code A22 notified by the user as a dealer individual code from the second input means of the dealer processing unit. Thus, the dealer calculation means performs the same calculation as the predetermined calculation of the individual code of the individual code calculation means provided in the electronic device, with the dealer individual code from the second input means, and the calculation result is obtained. And displayed on the second display means of the arithmetic processing unit for the dealer. The dealer informs the user of the calculation result displayed on the second display means, for example, by telephone. The user inputs the calculation result displayed on the second display means notified from the dealer as the individual determination code B2 by the first input means of the electronic device. The individual code calculation means of the electronic device performs a predetermined calculation of the individual code using the individual code A22 stored in the individual code memory M22 and displayed by the first display means, and is input by the first input means. The individual code relationship determining means determines whether or not the individual determination code B2 has a predetermined individual determination relationship, for example, the same. When it is determined that the calculation result obtained by the individual code calculation means in the electronic device has the individual determination relationship with the individual determination code B2 notified from the dealer and input by the first input means, 2. The inoperable state is released.
[0080]
According to the present invention, the individual determination code B2 obtained by the user seeing the individual code A22 specific to the electronic device displayed on the first display means and informing the dealer, for example, and looking at the second display means can be obtained. Then, the second inoperable state of the electronic device is canceled by informing the user and inputting the individual determination code B2 by the first input means. In order to release the electronic device that has fallen into the second inoperable state in this manner, it is necessary to perform an operation by the dealer arithmetic processing device provided in the dealer once, thereby preventing theft. This makes it possible to prevent theft of electronic devices by thieves.
[0081]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a block diagram showing a configuration of an in-vehicle acoustic device 1 according to an embodiment of the present invention. The acoustic device 1 is mounted on a vehicle such as an automobile, and power from a power source 2 such as a battery is supplied to a processing circuit 5 realized by a microcomputer or the like via a connector 4 that is detachable from a line 3. The ignition switch 6 is supplied to the processing circuit 5 via the line 7 and the connector 4 and further via the lines 23 and 24. Further, the electric power supplied from the line 7 through the connector 4 is supplied from the line 8 through the switch 9 to the display means 10, and also the compact disk (abbreviated as CD) reproducing means 11, the magnetic tape reproducing means 12, and the radio and television. It is given to the receiver 13. The acoustic signals from each of these means 11, 12, 13 are given to the amplifier circuit 14 through the switching means 36 and amplified, and the speaker 15 is driven.
[0082]
FIG. 2 is a perspective view showing the appearance of the acoustic device 1 in a simplified manner. For example, in this embodiment, the display means 10 is used for displaying the operation information of the compact disc reproducing means 11 and the recorded contents of the compact disc, and for displaying the operations related to the security function of the present invention. Is also used in combination. A power switch 16 is connected to the processing circuit 5. In a state where electric power is supplied to the acoustic device 1 via the ignition switch 6, the power switch 16 is pressed and turned on, whereby the switch 9 is turned on, and the acoustic device 1 becomes an operating state. The operation state can be paused by pressing the power switch 16 in the sound device 1 and turning it off. The ignition switch 6 supplies / cuts off electric power from the power source 2 to an ignition circuit 34 and a starter motor 35 of an internal combustion engine such as a spark ignition internal combustion engine of a vehicle. The input means 17 is used for controlling the original compact disk reproducing operation of the compact disk reproducing means 11, and is also used for controlling the security function according to the present invention.
[0083]
Further, a random access memory RAM 18 for arithmetic processing operation is connected to the processing circuit 5.
[0084]
A non-erasable non-volatile read only memory 19 and a writable non-volatile memory 21 are connected to the processing circuit 5. This memory 21 is an EEPROM (Electrically Erasable Programmable Read Only Memory). These memories 19 and 21 retain the stored contents even when the power from the power source 2 is cut off. A master code A11 is stored in the memory area M11 of the memory 19. In the memory area M12, a unique manufacturing number A12 assigned individually for each product of the audio device 1 is stored. The memory area M13 stores a fixed value A13 for performing a predetermined calculation of an individual code described later.
[0085]
In the memory 21, an identification (abbreviated ID) code A21 is stored in the memory area M21. This identification code A21 is TOC (Table Of Contents) information stored in the lead-in area of one compact disc selected by the user reproduced by the compact disc reproducing means 11. An individual code A22 is stored in the memory area M22, and this individual code A22 can be updated and written. In the memory area M23, the individual determination code B2 input by the input means 17 is stored so as to be rewritable. In the memory area M24, a code B3 representing a calculation result obtained by performing a predetermined calculation of an individual code described later is stored. Further, the memory area M25 stores data A25 indicating that the detachable connector 4 is once removed and the power to the audio device 1 is cut off. In the memory area M26, data A26 indicating that the sound apparatus 1 is in a second operation impossible state (described later) is stored.
[0086]
FIG. 3 is a flowchart showing a main routine of the operation of the processing circuit 5. In step u1, when the connector 4 is changed from the disconnected state to the connected state, and the power switch 16 is turned on and the sound device 1 is in the operating state, the operation after step u2 shown in FIG. 3 is started. . In step u2, it is determined whether or not the identification code A21 is set and stored in the memory area M21 of the memory 21. If the identification code A21 is not set, the process proceeds to step u3 to enter the identification code setting mode.
[0087]
If it is determined in step u2 that the identification code A21 is set, the process proceeds to the next step u4. In step u4, in the memory area M25, the data A25 indicating that the power supply has been cut off once, for example, by disconnecting the connector 4 connecting the acoustic device 1 and the power supply 2 or disconnecting the line 3. Is stored. If the data indicating the power-off is not stored in the memory area M25, the process proceeds to the identification code cancel mode in the next step u5. If the power cutoff data A26 is stored in the memory area M25, the acoustic device 1 is in the first or second inoperable state. Therefore, the process proceeds to step u6, and it is determined whether or not data representing the second inoperable state is stored in the memory area M26. When it is determined in step u6 that the data indicating the second inoperable state is not stored, the acoustic device 1 indicates that the audio device 1 is in the first inoperable state. Transition to the mode to cancel the inoperable state.
[0088]
The first inoperable state may be referred to as a confirmation inoperable state, and the second inoperable state may be referred to as a stealing inoperable state, and these first and second inoperable states are the same. May be different
.
[0089]
The data representing the power shutdown of the memory area M25 is that the processing circuit 5 constantly monitors the voltage of the line 23 directly connected to the power source 2, and when the monitored voltage becomes less than a predetermined value, It is determined that the power has been shut off, and data representing this is stored in the memory area M25.
[0090]
When data indicating that the second operation disabled state is stored in the memory area M26, the process proceeds to step u8, and the second operation disabled state release mode is performed.
[0091]
FIG. 4 is a flowchart for explaining the operation of the identification code setting mode shown in step u3 of FIG. The identification code may be referred to as an ID (Identification) code. The process proceeds from step s1 to step s2, and it is determined whether or not the mode off operation has been performed. If the mode off operation has been performed, the process proceeds to step s4 and the identification code A21 is set in the memory area M21 of the memory 21. First, the normal operation processing for performing the original operation control of the acoustic device 1 is started. The mode off operation is an operation other than the ID code setting start operation, and represents a normal operation in the audio device 1 such as insertion / ejection of a compact disc, selection of music, control of sound volume, sound quality, and the like.
[0092]
In step s3, it is determined whether an identification code setting start operation has been performed. If it has been performed, the process proceeds to step s5. The identification code setting start operation is a predetermined specific operation. In the embodiment of the present invention, for example, an operation other than a normal operation for reproducing a compact disc is performed. And simultaneous operation of the switches for selecting the first music piece. The compact disc selected and inserted by the user in step s5 is reproduced by the compact disc reproducing means 11, and the TOC (Table Of Contents) information stored in the lead-in area is used as the identification data A21 in the memory area M21. In the next step s6, data is written and stored. In step s7, the process proceeds to a normal operation process of the audio device 1.
[0093]
FIG. 5 is a flowchart for explaining a part of the operation in the processing circuit 5. The process proceeds from step v1 to step v2, the connector 4 is connected, the ignition switch 6 is turned on, and the power is applied to the processing circuit 5 from the lines 23 and 24, and the power switch 16 is pressed in step v2. It is then determined whether it has been turned on. If the power switch 16 is not turned on, the indicator lamp 25 is driven to blink in step v3. In a state where the acoustic device 1 is not performing an acoustic operation, that is, in a state where the power switch 16 is turned off, the indicator lamp 25 blinks, and the thief looks at the indicator lamp 25 and the acoustic device 1 Know that you have a security function. This avoids theft by the thief.
[0094]
In step v2, it is determined that the power switch 16 is turned on. Further, in step u4 of FIG. 3 described above, the data A25 indicating the power interruption is not stored in the memory area M25. Therefore, in the first inoperable state, If the data A26 indicating the second inoperable state is not stored in the memory area M26 in step u6 in FIG. 3, the process proceeds to step v4 as shown in step s4 in FIG. 4 and step p3 in FIG. Thus, the original normal operation of the acoustic device 1 is performed, and an acoustic output is obtained. Even if the power switch 16 is not turned on as described above, or even if the power switch 16 is turned on, if the first and second inoperable states are performed, step v3 is executed, and the indicator lamp 25 is driven to blink. The original normal operation of the acoustic device 1 is not performed. In step v5, it is determined whether or not power is not supplied to the processing circuit 5 from the line 23, thereby detecting whether the power supply is shut off. When power-off is detected, in step v6, data A25 indicating power-off is stored in the memory area M25, and a series of operations are terminated in step v7.
[0095]
FIG. 6 is a flowchart for explaining the operation of the processing circuit 5 in the mode for canceling the identification code in FIG. The process moves from step p1 to step p2, and it is determined whether or not the mode is turned off. If the mode-off operation has been performed, the process proceeds to step p3, and the process proceeds to a normal operation process for controlling the original operation of the acoustic device 1. In step p2, it is determined whether or not a mode-off operation has been performed. In step p4, whether or not an identification code cancel start operation has been performed is determined. If not, the process proceeds to step p3. The mode off operation in step p2 represents the normal operation described in relation to step s2 in FIG. The identification code cancel start operation in step p4 is a predetermined specific operation. For example, in the embodiment, the operation is recorded on the switch for inserting / ejecting the compact disc and the inserted compact disc. It may be a simultaneous operation with the selection switch of the second song among the plurality of songs, and is an operation that is not performed in the normal operation of the acoustic device 1 in this way.
[0096]
In step p5, the determination identification code C1 is input. This identification code for determination is TOC information in the lead-in area of the compact disc read by the compact disc reproducing means 11. The user who is the owner of the audio device 1 inserts the same compact disc as the compact disc used for storing the identification code A21 in the memory area M21 described above into the compact disc playback device 11 in step p5 and plays back. Thus, the determination identification code C1, which is TOC information, is read out.
[0097]
In step p6, it is determined whether or not the determination identification code C1 input in step p5 has a predetermined identification determination relationship, for example, the same as the identification code A21 stored in advance in the memory area M21. In this embodiment, when it is determined that the determination identification code C1 input in step p5 matches the identification code A21, the process proceeds to step p12, and the identification code A21 stored in the memory area M21 is deleted. Then, the process proceeds to step p13, and normal operation processing is performed.
[0098]
If it is determined in step p6 that the determination identification code C1 input in step p5 does not match the identification code A21 stored in the memory area M21, the process proceeds to step p7. In step p7, the number of mismatches between the determination identification code C1 and the identification code A21 is counted. In step p8, it is determined whether or not the discrepancy count value has been continuously performed a predetermined value N1 times. If the number of mismatches is less than the value N1, the process proceeds to step p9 and an error is displayed by the display means 10. In this error display, for example, “ERR” is displayed in characters by the display means 10 and the number of times counted in step p7 is displayed for a predetermined time, for example, 2 seconds. After step p9, the process returns to step p5.
[0099]
When the count value of the number of errors in step p8 is equal to or greater than a predetermined value N1, in step p10, data indicating the second inoperable state is set and written in the memory area M26. In step p11, the second inoperable state is canceled. The value N1 may be a value such as 5 or 10, for example.
[0100]
FIG. 7 is a flowchart for explaining the operation of the mode for releasing the first inoperable state performed by the processing circuit 5 in step u7 of FIG. The process moves from step q1 to step q2. Steps q2 to q8 in FIG. 7 are the same as steps p5 to p11 in FIG. It is determined in step q3 whether or not the determination identification code C1 input in step q2 has the same identification determination relationship as the identification code A21 stored in the memory area M21. If there is, the number of mismatches is counted in step q4. In step q5, it is determined that this count value is equal to or greater than a predetermined value N2. If the count value is less than the value N2, the process proceeds to step q6 to display an error, display the count value for 2 seconds, and return to step q2. When it is determined in step q5 that the count value is equal to or greater than a predetermined value N2, in step q7, data representing the second inoperable state is stored in the memory area M26, and in step q8, the second operation is performed. An operation for canceling the disabled state is performed.
[0101]
If it is determined in step q3 that the determination identification code C1 and the identification code A21 match, in the next step q9, the data indicating the power-off stored in the memory area M25 is erased. In step q10, normal operation processing of the acoustic device 1 is performed. The value N2 in step q5 may be, for example, the same value as the above-described value N1, or may be a value such as 5 or 10.
[0102]
FIG. 8 is a flowchart for explaining the operation in the second inoperability cancel mode for canceling the second inoperable state performed by the processing circuit 5 in step u8 in FIG. Moving from step r1 to step r2, it is determined whether or not a predetermined specific operation by the input means 17 has been performed. This specific operation is, for example, a simultaneous operation of a switch for inserting / ejecting the compact disc and a switch for selecting the third music piece, and is a switch that is not performed in the normal operation of the audio device 1. It may be an operation mode. When such a specific operation is performed, in step r3, the operation is shifted to a mode for canceling the second inoperable state according to the present invention using the individual code. Step r3 will be described with reference to FIG.
[0103]
The setting start operation in step s3 in FIG. 4, the cancellation start operation in step p4 in FIG. 6, and the specific operation in step r2 in FIG. 8 may be different from each other as described above, but are the same. It may be an operation.
[0104]
If the specific operation is not performed in step r2 in FIG. 8, the process proceeds to step r7 to determine whether or not the master code A11 is input. The master code is privately owned by the dealer and is recorded on a master compact disc managed so as not to be disclosed. Such a master compact disc is inserted into the compact disc reproducing means 11, and for example, a master code stored in the lead-in area is read out. In step r7, it is determined whether or not the read master code matches the master code A11 stored in the memory area M11 of the non-erasable memory 19. If they match, the identification code A21 stored in the memory area M21 of the memory 21 is erased in step r4, and the data representing the second inoperable state stored in the memory area M26 is erased. Thus, in step r5, the normal operation of the acoustic device 1 can be processed.
[0105]
FIG. 9 is a flowchart for explaining the operation of the processing circuit 5 in the mode for releasing the second inoperable state using the individual code in step r3 of FIG. Moving from step f1 in FIG. 9 to step f2, it is determined whether or not the individual code A22 is stored in the memory area M22. The individual code A22 is a unique code individually assigned to the sound device 1 of the present invention. If it is determined in step f2 that the individual code A22 is not stored in the memory M22, the manufacturing number A12 is read from the memory area M12 in step f3. In step f4, the read manufacturing number A12 is displayed on the display means 10.
[0106]
In step f5, using the read manufacturing number A12, a predetermined calculation of a manufacturing number A12 described later with reference to FIG. 12 is performed, and the calculation result B1 is calculated.
Step f5 constitutes a production number calculation means. The production number may be manually input from the input means 17 by the user. The calculation result B1 is stored in the memory area M22 as the individual code A22 in the next step f6. The memory area M12 constitutes a serial number memory. The memory area M22 constitutes an individual code memory.
[0107]
In step f7, the display means 10 displays the individual code A22 stored in the memory area M22, for example, a value A221 having a first predetermined relationship that would be the same in this embodiment.
[0108]
If it is determined in step f2 that the individual code A22 is stored in the memory area M22, in step f7, the stored code is the same as the individual code A22 that is the stored content, for example, in this embodiment. A value A221 having a first predetermined relationship is displayed.
[0109]
The user who has the acoustic device 1 looks at the individual code A221 displayed by the display means 10, calls the dealer using the telephone 27, and informs the individual code A221 by voice. As will be described later with reference to FIGS. 10 and 11, the dealer receives the individual code A 221 and performs operations described later with reference to FIG. 13. In FIG. 9, such step f <b> 8 is not an operation performed in the processing circuit 5, but is described for convenience of understanding. When the individual determination code B2 calculated by the dealer is notified to the user by voice from the dealer by the telephone 27, the user inputs the individual determination code B2 using the input means 17.
[0110]
In step f9, when it is determined that the individual determination code B2 is input by the input means 17, in the next step f10, the input individual determination code B2 is stored in the memory area M23.
[0111]
In step f11, using the individual code A22 stored in the memory area M22, a predetermined calculation of an individual code described later with reference to FIG. 13 is performed, and the calculation result B3 is calculated and stored in the memory area M24. To do.
[0112]
In step f12, whether or not the inputted individual determination code B2 stored in the memory area M23 and the code B3 representing the calculation result calculated in step f11 and stored in the memory area M24 are the same, That is, it is determined whether the individual code A22 stored in the memory area M22 and the input individual determination code B2 of the memory M23 have a predetermined second relationship.
[0113]
If the individual determination code B2 and the code B3 representing the calculation result match, in step f13, the code B3 representing the matching calculation result is read from the memory area M24 and individually stored in the memory area M22. Transfer and update as code A22. If they do not match at step f12, the process returns to step f9. In step f14, the process proceeds to step r4 in FIG.
[0114]
Step f11 constitutes an individual code calculation means for performing a predetermined calculation of the individual code A22. Step f12 constitutes an individual code relationship determination means. Step f13 constitutes a writing means for updating the individual code A22.
[0115]
FIG. 10 is a block diagram showing the configuration of the dealer processing unit 28 provided in the dealer. The dealer is provided with a telephone 32 for performing telephone communication with the user. An input means 29 such as a keyboard is provided for the dealer to input the individual code A 221 notified from the user by the telephone 32. The output of the input means 29 is given to the arithmetic circuit 30 realized by a microcomputer or the like. The arithmetic circuit 30 performs a predetermined calculation of an individual code A221, which will be described later with reference to FIG. 13, and a code B2 representing the calculation result is displayed on the display means 31. The code B2 representing the calculation result obtained by the calculation circuit 30 is the individual code A221 input by the input means 29, that is, the individual code A221 displayed by the display means 10, for example, as shown in FIG. It can be said that this has a predetermined relationship. The display means 31 may be configured to perform visual display or acoustic display including a speech synthesis circuit, for example. Such a dealer arithmetic processing unit 28 can be realized by a personal computer or the like.
[0116]
FIG. 11 is a flowchart for explaining the operation of the arithmetic circuit 30 in the dealer arithmetic processing unit 28 shown in FIG. When the process goes from step g1 to step g2 and it is determined that the individual code A221 notified by the telephone 32 has been input by the input means 29, in the next step g3, the input individual code A221 is changed to FIG. The individual determination code B2 is obtained according to the calculation shown in FIG. In step g4, the display unit 31 displays the individual determination code B2 that is the calculation result. In this way, a series of operation | movement is complete | finished in step g5. The dealer informs the user of the individual determination code B <b> 2 displayed by the display means 31 via the telephone device 32.
[0117]
FIG. 12 is a diagram for explaining a predetermined calculation of the production number A12 executed in step f5 in FIG. 9 described above. The arithmetic operation shown in FIG. 12 is achieved by the processing circuit 5. The memory area M12 has store areas D1 to D8 for storing values of decimal digits. The production number A12 is composed of a plurality of decimal digits (for example, 8 digits in this embodiment). When the production number A12 is, for example, “536469215”, the most significant digit D8 stores a binary number “0101” representing the most significant value “5” of the decimal number, and the store area of the digit D7 A binary value “0011” representing a decimal value “3” of the second digit from the most significant is stored.
[0118]
The store area M31 of the random access memory 18 has store areas J1 to J7 each storing a binary value consisting of 4 digits. The number of digits of the store areas J1 to J7 is the same as that of the store areas D1 to D8. One less than the number of digits. The processing circuit 5 performs an exclusive OR (EX-OR) operation between adjacent digits D1 to D8 of the memory area M12 and writes the result to the store areas J1 to J7 of each digit. For example, an exclusive OR operation is performed for each digit of binary numbers in the store areas D8 and D7, and the calculation result is stored in the store area J7. In this embodiment, the exclusive OR of each digit of the binary number of “0101” of the store area D8 and the value “0011” of the store area D7 is calculated, and the binary number “0110” is stored in the store area J7. To do. Similarly, the exclusive OR of the values “0011” and “0110” of the store areas D7 and D6 is calculated to store “0101” in the store area J6.
[0119]
The contents of the memory area M31 in which the result of the exclusive OR operation is stored are further subjected to the second exclusive OR operation of the adjacent store areas J1 to J7, so that the store area of the memory area M32 is stored. Stored in K1 to K6, respectively. For example, an exclusive OR operation is performed for each digit of binary values “0110” and “0101” in the store areas J7 and J6, and the result is stored as “0011” in the store area K6. In this way, using the binary number of each decimal digit adjacent to the serial number A12, a sequential exclusive OR operation is performed twice in total to obtain the hexadecimal individual code B1 in the memory area M32. The content B1 of the memory area M32 obtained in this way is transferred to the memory area M22 of the memory 21 and written therein. The memory areas M31 and M32 are realized by the random access memory 18.
[0120]
In another embodiment of the present invention, a code B21 different from the correct individual determination code B2 to be input by the input means 17 is erroneously input, and this is determined in step f12 of FIG. 9 described above. In place of executing step f9 in FIG. 9 described above, a new individual code A222 different from the individual code A22 obtained by calculation in step f6 is obtained by calculation according to a predetermined calculation method. The code A222 may be updated by writing to the memory area M22. In this way, the individual code A22 in the memory area M22 is updated every time an incorrect code B21 different from the correct individual determination code B2 is input from the input means 17, and a new individual code A222 is obtained. It is done. This can improve the security function.
[0121]
As a calculation method of such a new individual code A222, for example, the least significant bit “1” in the binary value “0111” of the least significant store area K1 of the memory area M32 in FIG. This is brought to the position of the bit “0” of the most significant digit in the binary value “0011” of the store area K6. Thus, the bits of the binary digits of the store areas K1 to K6 of the memory area M32 are transferred to the lower bit side ( 1 bit is circulated and shifted to the right in FIG. As a result, the binary number of the uppermost store area K6 is “1001”, the binary number of the store area K5 is “1111”, and similarly, the binary number of the lowermost store area K1 is “0011”. It becomes. Each time such a calculation that shifts to the lower digit by one bit and circulates such an error occurs when the erroneous code B21 is input by the input means 17 and the above-described second relation as the individual determination relation is not established, Do.
[0122]
In another embodiment of the present invention, the calculation for updating the individual code A22 is performed as follows: (a) Each time the correct or incorrect code B21 is input, the individual code A22 stored in the memory area M22 is updated. It may be calculated and updated in accordance with a predetermined logical operation expression, or (b) the calculation may be performed according to a preset table, or (c) a new one may be created by other calculation methods. The individual code A222 may be obtained.
[0123]
FIG. 13 is a diagram for explaining a predetermined calculation of the individual code A22 achieved in step f11 of FIG. 9 in the processing circuit 5. This calculation is also the same as the predetermined calculation of the individual code performed in step g3 in FIG. 11 by the calculation circuit 30 included in the dealer calculation processing device 28 in FIG. An operation for performing such calculation will be described. In the processing circuit 5, the individual code A22 stored in the memory area M22 has a binary value for each of a plurality of hexadecimal numbers K11 to K16 (for example, 6). The individual code A22 is read and the binary digits of the aforementioned digits K11 to K16 are shifted by one digit to the right in FIG. The value of the least significant digit (for example, “1”) of the hexadecimal number is transferred and shifted to the most significant digit of the binary number of the most significant digit K26 in the memory area M34.
[0124]
The fixed value A13 is stored in the memory area M13 of the memory 19 as described above. This fixed value A13 is, for example, “360066” in decimal number, and each value in binary number is stored and set in each digit K31 to K36 with the same number of digits as the individual code A22.
[0125]
The processing circuit 5 performs an exclusive OR operation on the corresponding digits in the binary number of each digit K21 to K26 of the memory area M34 and each digit K31 to K36 of the memory area M13, and the same number of digits (for example, this implementation) In this form, the data is stored in each digit K41 to K46 of the memory area M36 of 6). For example, an exclusive OR operation is performed for each digit of binary numbers corresponding to the digit K26 and the digit K36, and the calculation result is stored in the digit K46. The memory areas M34 and M36 are realized by the random access memory 18. The calculation result of the memory area M36 obtained in this way is written and stored as the code B3 in the memory area M24 of the memory 21.
[0126]
The arithmetic operation of the processing circuit 5 shown in FIG. 13 is similarly achieved in the arithmetic circuit 30 of the dealer arithmetic processing unit 28. The individual code A221 input by the input means 29 is the same as the store content indicated by the reference symbol M22 in FIG.
[0127]
In the above-described embodiment, the individual code A22 stored in the memory area M22 and the output code A221 displayed by the display means 10 and given to the dealer by the telephone 27 have the first relationship that they are the same. However, in another embodiment of the present invention, the memory 21 in FIG. 1 is provided with a memory area M221, and a predetermined calculation is performed using the individual code A22 of the memory area M22. A certain output code A221 is obtained, and this output code A221 is stored in the memory area M221. The output code A221 stored in the memory area M221 is displayed and output by the display means 10 in step f7 in FIG. The user sees the output code A221 displayed by the display means 10 and notifies the dealer by telephone. The dealer receives the output code A221 and performs an operation according to the third predetermined relationship described above to obtain the individual determination code B2. Therefore, the output code A221 may have the same value as the individual code A22 according to the first predetermined relationship, but a predetermined calculation is performed using the individual code A22 and the output code A221 is different from the individual code A22. There may be.
[0128]
Still another embodiment of the present invention will be described. The first to third predetermined relationships in this embodiment are determined as follows. In calculating and calculating the output code A221 having the first predetermined relationship with the individual code A22, each bit of the digits K11 to K16 of the individual code A22 stored in the memory M22 is set to the upper digit side (that is, FIG. 13 (to the left in FIG. 13), and shifts by 1 bit at a time, and performs the operation of transferring the most significant bit of the most significant digit K16 to the least significant bit of the least significant digit K11. In this way, the output code A221 having the individual code A22 and the first predetermined relationship is obtained.
[0129]
In calculating the code B3 of the memory M24 to be compared with the individual determination code B2 having the second predetermined relationship with the individual code A22, the digits K11 to K11 of the individual code A22 are calculated as in FIG. K16 is shifted and shifted one bit at a time to the lower digit side (rightward in FIG. 13), the least significant bit of the least significant digit K11 is transferred to the most significant bit of the most significant digit K16, and a fixed value A13 As shown in FIG. 13, an exclusive OR is calculated using FIG. 13 to obtain a calculation result that is the stored contents of the memory area M36, which is designated as code B3.
[0130]
The dealer arithmetic processing unit 28 calculates and obtains the output code A221 input from the input means 29 and the code B2 having the third predetermined relationship. In the arithmetic circuit 30, the plurality of digits of the output code A221 are shifted by 2 bits to the lower digit side (right direction in FIG. 13), and the least significant bit of the least significant digit is changed to the most significant bit of the most significant digit. The transfer operation is performed, and the exclusive OR is calculated using the fixed value A13 as shown in FIG. 13, and the calculation result of the memory area M36 is obtained in the same manner as described above to obtain the code B2.
[0131]
Thus, the individual code A22 of the memory M22 is calculated according to the first predetermined relationship to obtain the output code A221, and this output code A221 is calculated according to the third predetermined relationship to obtain the code B2. The code B2 matches the individual determination code B3 obtained by calculating the individual code A22 according to the second predetermined relationship.
[0132]
  In the illustrated embodiment described above, the individual code A22 and the output code A221 have the first relationship that they are the same, and the individual determination code B2 has a value different from that of the individual code A22. Although it has the second relationship, in still another embodiment of the present invention, the output code A221 has a first relationship that is different from the individual code A22, and the individual determination code B2 Has the second relationship that it is the same as the individual code A22.Good.
[0133]
In place of the exclusive OR operation in FIGS. 12 and 13, in another embodiment of the present invention, an AND operation, an OR operation, or another logical operation may be performed.
[0134]
The present invention can be implemented not only in connection with the acoustic device 1 but also in a wide range in connection with electronic devices having various other configurations.
[0135]
【The invention's effect】
  BookAccording to the invention, the individual code A22 specific to the electronic device for theft prevention is recorded in the nonvolatile individual code memory M22, and when the electronic device is stolen or an equivalent operation is performed, The individual determination code B2 is input by the input means based on the output code A221 having the relationship of 1, and thus the individual code relationship determination means determines the second relationship in which the individual determination code B2 and the individual code A22 are predetermined. When it is determined that the controlled circuit is stolen, the inoperable state for theft of the controlled circuit is canceled by the disabling canceling means. Therefore, it is not necessary for the user to bring the electronic device into the dealer, for example, to release the inoperable state for theft of the electronic device, so that the labor for the electronic device is not required, and thus the cost for bringing the electronic device into the dealer is required. Disappear.
[0136]
  AlsoThe output code A221 output by the output means has a third relationship with the individual determination code B2 to be input by the input means, and thus the first to third relationships are related to each other. Thus, the user can calculate and obtain the individual determination code B2 based on the output code A221.
[0138]
  AlsoAccording to the present invention, the unique data A12 such as the production number stored in the unique memory M12 is calculated, and the calculation result B1 is used as the individual code A22. Thus, the production number A12 is used as the individual code A22 as it is. The security function can be further enhanced compared to the configuration used. The data A12 unique to the electronic device may be a manufacturing number, but may be a number other than that.
[0139]
  AlsoAccording to the present invention, since the individual code A22 is updated and changed by a predetermined calculation every time the individual determination code B2 is input by the input means, the individual determination code B2 is erroneously input by the input means. In this case, the individual code A22 is rewritten and changed and output by the output means, so that the security function can be further improved.
[0140]
  AlsoAccording to the present invention, when using the electronic device, the user inputs the determination identification code C1 by the input operation of the identification code input means, and this determination identification code C1 is determined in advance with the identification code A21. Therefore, it is possible to perform a predetermined operation of the controlled circuit, and thus the electronic device can be used in a normal usage mode. The theft determination means includes the determination identification code C1 input by the identification code input means, The theft determination means determines that a predetermined condition regarding the input operation of the identification code input means is satisfied by having such an input operation repeated a plurality of times, for example, without having an identification relationship with the identification code A21. When the operation is performed, the predetermined operation of the controlled circuit is not performed regardless of the subsequent input operation of the identification code C1, and the operation is kept paused. . Since it is known in advance that such an operation is performed, the electronic device can be prevented from encountering theft.
[0142]
  AlsoAccording to the present invention, an electronic device such as a dealer is provided with a derivation unit, and based on the output code A221 from the user, the individual determination code B2 having a predetermined third relationship with the output code A221. Thus, it is possible to notify the original user of the individual determination code B2 through, for example, a public telephone line, thereby improving the security function and inoperability of the electronic device. Can be released easily, with little effort, and can be released at low cost.
[0143]
  AlsoAccording to the present invention, when the user has an electronic device, for example, the dealer is provided with a dealer arithmetic processing device having a derivation means, and this causes the controlled circuit not to perform a predetermined operation. In addition, by obtaining the individual determination code B2 by the derivation means and inputting it by the input means, the inoperable state can be released, thus preventing theft, and theft of the electronic device by the thief can be prevented. Will be able to prevent.
[0144]
  AlsoAccording to the present invention, when a predetermined condition regarding the input operation of the identification code input unit is established by the theft determination unit, it is determined that the electronic device has been stolen, and the controlled object is controlled regardless of the subsequent input operation. The security function can be improved so that the predetermined operation of the circuit is not performed.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of an in-vehicle acoustic device 1 according to an embodiment of the present invention.
FIG. 2 is a perspective view showing a simplified appearance of the acoustic device 1. FIG.
FIG. 3 is a flowchart showing a main routine of operation of the processing circuit 5;
4 is a flowchart for explaining the operation of an identification code setting mode shown in step u3 of FIG. 3 by the processing circuit 5. FIG.
FIG. 5 is a flowchart for explaining a part of the operation in the processing circuit 5;
6 is a flowchart for explaining the operation of an identification code cancel mode in FIG. 3 of the processing circuit 5. FIG.
7 is a flowchart for explaining an operation in a first release mode performed in step u7 of FIG. 3 by the processing circuit 5. FIG.
8 is a flowchart for explaining an operation in a second release mode for releasing the second inoperable state performed in step u8 of FIG. 3 by the processing circuit 5. FIG.
9 is a flowchart for explaining an operation for canceling the second inoperable state using the individual code in step r3 of FIG. 8 by the processing circuit 5. FIG.
FIG. 10 is a block diagram illustrating a configuration of a dealer arithmetic processing device 28 provided in the dealer.
11 is a flowchart for explaining the operation of the arithmetic circuit 30 in the dealer arithmetic processing unit 28 shown in FIG. 10;
12 is a diagram for explaining a predetermined calculation of a production number A12 executed in step f5 in FIG. 9 described above in the processing circuit 5. FIG.
13 is a diagram for explaining a predetermined calculation of an individual code A22 achieved in step f11 of FIG. 9 in the processing circuit 5. FIG.
[Explanation of symbols]
1 sound equipment
2 Power supply
4 Connector
5 Processing circuit
6 Ignition switch
10 Display means
11 Compact disc playback means
12 Magnetic tape player
13 Radio reception means
15 Speaker
16 Power switch
17 Input means
18 Random access memory
19 Read-on memory
21 Electrically writable nonvolatile read only memory EEPROM
25 Indicator lamp
27, 32 Telephone
28 Processing unit for dealer
29 Input means
30 arithmetic circuit
31 Display means
Memory area for M11 master code MC
Memory area for M12 serial number A12
M13 Memory area for fixed value A13
Memory area for M21 identification code A21
M22 Memory area for individual code A22
M23 Memory area for individual determination code B2
Memory area for M24 operation result code B3
M25 Memory area for power shutdown data
M26 Second inoperable state data memory area

Claims (8)

In electronic devices with security functions,
A theft determination means for determining that the electronic device has been stolen;
In response to the output of the theft determination means, when the theft is determined, the inoperability setting means for controlling the inoperable state for theft without performing a predetermined operation of the controlled circuit;
Non-volatile individual code memory that stores individual codes individually assigned to electronic devices,
An output means for outputting an output code having a first relationship with the individual code and different from the individual code;
An input means for inputting an individual judgment code;
An individual code relation judging means for judging whether or not the individual judgment code and the individual code inputted by the input means and different from the individual code have a predetermined second relationship;
When it is determined by the individual code relationship determining means that the individual determination code and the individual code have a predetermined second relationship, the individual code relationship determining means includes an inability canceling means for canceling the inoperable state for theft of the controlled circuit,
When the output code and the individual determination code have a predetermined third relationship, the individual determination code and the individual code have the predetermined second relationship,
An electronic device having a security function, wherein the first, second, and third relationships are defined in common for a plurality of electronic devices having different individual codes. In the electronic device which has a security function of Claim 1,
The individual code relationship determining means calculates an intermediate code having a predetermined fourth relationship with the individual code, and based on a comparison between the individual determination code and the intermediate code, the individual determination code and the individual code are: An electronic device having a security function, wherein it is determined whether or not the second relationship is determined in advance. In the electronic device which has a security function of Claim 1 or 2 ,
Non-volatile specific memory for storing data specific to the electronic device,
An electronic device having a security function, comprising: an arithmetic unit that performs a predetermined operation using the specific data stored in the specific memory and stores the calculation result as the individual code in the individual code memory machine. In the electronic device which has a security function of one of Claims 1-3 ,
An electronic device having a security function, characterized by responding to an input of an individual determination code by the input means and updating the individual code by a predetermined calculation. An electronic apparatus having a security function according to one of claims 1-4,
When the identification code stored in advance in the nonvolatile identification code memory and the determination identification code input by the input operation of the identification code input means have a predetermined determination identification relationship, a predetermined operation of the controlled circuit When the identification code stored in the identification code memory and the inputted identification code for determination do not have a determination identification relationship, control is performed so that a predetermined operation of the controlled circuit is not performed. In an electronic device having a security function
The theft determination means determines that the electronic device has been stolen when a predetermined condition regarding the input operation of the identification code input means is satisfied,
The inoperability setting unit does not perform a predetermined operation of the controlled circuit regardless of an input operation of the determination identification code after the theft determination unit determines that the theft has been encountered. Electronic equipment having From the output code in an electronic device having a security function according to one of claims 1 to 5, comprises deriving means for deriving the individual decision code having pre determined third relationship between the output code An arithmetic processing unit for a dealer. Electronics
A theft determination means for determining that a theft has been encountered;
In response to the output of the theft determination means, when the theft is determined, the inoperability setting means for controlling the inoperable state for theft without performing a predetermined operation of the controlled circuit;
Non-volatile individual code memory that stores individual codes individually assigned to electronic devices,
An output means for outputting an output code having a first relationship with the individual code and different from the individual code;
An input means for inputting an individual judgment code;
An individual code relation judging means for judging whether or not the individual judgment code and the individual code inputted by the input means and different from the individual code have a predetermined second relationship;
When it is determined by the individual code relationship determining means that the individual determination code and the individual code have a predetermined second relationship, the individual code relationship determining means includes an inability canceling means for canceling the inoperable state for theft of the controlled circuit,
When the output code and the individual determination code have a predetermined third relationship, the individual determination code and the individual code have a predetermined second relationship,
The first, second, and third relationships are: an electronic device with a security function that is defined in common for a plurality of electronic devices with different individual codes;
Prepare a dealer arithmetic processing device comprising a derivation means for deriving an individual determination code having a predetermined third relationship with the output code from the given output code,
Give the code for output output from the output means of the electronic device with security function to the arithmetic processing unit for the dealer,
An electronic device with a security function, characterized in that an individual determination code having a predetermined third relationship with an output code, which is derived by an arithmetic processor for a dealer, is input to an input unit of the electronic device with a security function Inoperable release method. In the inoperability cancellation method of the electronic device with a security function according to claim 7 ,
The security-equipped electronic device is:
Predetermined operation of the controlled circuit when the identification code stored in the nonvolatile identification code memory and the determination identification code input by the input operation of the identification code input means have a predetermined determination identification relationship When the identification code stored in the identification code memory and the inputted identification code for determination do not have a determination identification relationship, control is performed so that a predetermined operation of the controlled circuit is not performed. An electronic device with security function,
The theft determination means determines that the electronic device has been stolen when a predetermined condition regarding the input operation of the identification code input means is satisfied,
The inoperability setting unit is an electronic device with a security function that does not perform a predetermined operation of the controlled circuit regardless of an input operation of the determination identification code after the theft determination unit determines that the theft has been encountered. An inoperability canceling method for an electronic device with a security function.

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