JP2007060353A - Portable telephone device, portable telephone system, power supply unit, power supply authentication method and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To ensure safety in power supply by canceling the usage of a power supply unit other than regular usage without causing power consumption for radio communication or an increase in cost for certifying whether the power supply unit is a regular one or not. <P>SOLUTION: When a battery pack 1 is connected, GSM, UMTS portable telephone 6 performs initial communication with a memory 10 in the battery pack 1. After the completion of authentication, power feeding for charging and discharging for using the portable telephone is enabled by a switch 14 in the GSM, UMTS portable telephone 6. In addition, unless the authentication is completed, the usage of the battery pack 1 is prohibited by the switch 14 so that the power feeding for charging or the discharging for the usage of the portable telephone is prevented. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a mobile phone device, a mobile phone system, a power supply unit, a power supply unit authentication method, and a program that operate with power from a power supply unit.

  Conventionally, in a battery pack (power supply unit) of a mobile phone device, even if it is a counterfeit product other than a genuine product certified by a manufacturer or the like, it can be attached to the mobile phone device if the shape is the same. For this reason, counterfeit products have been put on the market, and there is a possibility that a battery pack having the wrong charging method or usage method may be connected, which has a problem in safety.

Therefore, by providing a wireless tag in the battery and providing a transceiver that operates as a reader / writer of the wireless tag in the mobile phone holder for charging the battery, model name information for identifying the battery model name, year of manufacture There is one in which the transmitter / receiver reads out the date information, the number of times of charging information, and the battery deterioration information from the wireless tag, and determines whether or not to permit charging of the battery based on the read information (for example, see Patent Document 1) .
JP 2004-289995 A

However, in the above-mentioned Patent Document 1, since it is necessary to provide a wireless tag and a wireless tag reader for authentication separately from the function of the mobile phone, there is a possibility that the cost may increase.
Moreover, there is a possibility that an increase in power consumption for wireless communication may occur.

  The present invention has been made in view of such a situation, and for authenticating whether or not the power unit is a genuine product, the power consumption and cost increase for wireless communication are hardly caused and the regular power unit is authorized. It is an object of the present invention to provide a mobile phone device, a mobile phone system, a power supply unit, a power supply unit authentication method, and a program that can be made unusable except for the power supply unit, and can ensure safety in the power supply.

  In order to achieve this object, a mobile phone device as a first aspect of the present invention is a mobile phone device configured to be connectable to a power supply unit storing model specifying information for specifying a model of the mobile phone device. Authentication means for acquiring the model specifying information stored in the power supply unit via the connection terminal with the power supply unit and authenticating whether the power supply unit is officially compatible with the model of the mobile phone device; Connection control means for switching the connection with the power supply unit depending on whether or not the authentication means has authenticated.

  The above-mentioned connection control means can be switched only when it is authenticated by the authentication means that the power supply unit is officially supported by the authentication means. It is preferable to control so that the switch means is in an impossible state when it is in a state and cannot be authenticated.

  The above-mentioned connection control means includes a switch means for switching between a dischargeable state and an impossible state by the power supply unit described above, and the connection control means enables the switch means only when the authentication means authenticates the power supply unit. If the authentication cannot be performed, the switch unit may be controlled to be in an impossible state.

  The above-mentioned connection control means is provided with switch means for switching between a possible state and an impossible state for charging and discharging of the power supply unit described above, and the connection control means described above is a switch means only when it is authenticated by the authentication means that the power supply unit is officially supported. It may be possible to control the switching means to be in an impossible state when the authentication is impossible.

  The above-described model specifying information is preferably information of a part used for model discrimination in IMEI information.

  In the mobile phone system according to the second aspect of the present invention, the mobile phone device according to the first aspect described above and a power supply unit storing model specifying information for specifying the model of the mobile phone device are connected. It is characterized by.

  The power supply unit according to the third aspect of the present invention stores the model specifying information for specifying the model of the mobile phone device, and specifies the model in response to the request from the mobile phone device as the first aspect described above. The mobile phone device can acquire information.

  A power supply unit authentication method according to a fourth aspect of the present invention is a power supply unit authentication method in a mobile phone device configured to be connectable to a power supply unit storing model specifying information for specifying a model of the mobile phone device. And acquiring the model specifying information stored in the power supply unit via the connection terminal with the power supply unit, and the power supply unit is based on the model specifying information acquired in the acquisition process. And an authentication step for authenticating whether the power supply unit is officially compatible with the power supply unit.

  A connection control step for controlling the switch means so that the power supply unit can be used only when the power supply unit is officially certified by the above-described authentication process, and when the power supply unit cannot be used when it cannot be authenticated. It is preferable to have provided.

  A connection control process for controlling the switch means so that the power supply unit is in a dischargeable state only when the power supply unit is officially certified by the above-described authentication process, and when the authentication is not possible, the power supply unit is in a non-dischargeable state. May be provided.

  A connection control process for controlling the switch means so that the power supply unit can be charged only when the power supply unit is officially certified by the above-described authentication process, and when the power supply unit cannot be authenticated if it cannot be authenticated. May be provided.

  Switch means to make the power supply unit chargeable and dischargeable only when the power supply unit is officially certified by the above-described authentication process, and to make the power supply unit impossible to charge and discharge if it cannot be authenticated A connection control step for controlling

  The above-described model specifying information is preferably information of a part used for model discrimination in IMEI information.

  The power supply unit authentication program according to the fifth aspect of the present invention is a power supply unit authentication program for a mobile phone device configured to be connectable to a power supply unit storing model specifying information for specifying the model of the mobile phone device. A computer is caused to execute processing according to the steps described in the power supply unit authentication method as the fourth aspect described above.

  As described above, according to the present invention, for authenticating whether or not the power supply unit is a genuine power supply unit, the power consumption and cost for wireless communication are hardly increased, and the power supply unit other than the regular power supply unit is used. Can be disabled. For this reason, the safety | security in a power supply is securable.

  Next, a mobile phone device, a mobile phone system, a power supply unit, a power supply unit authentication method, and a program according to the present invention are classified into GSM (Global System for Mobile Communications), which is uniquely assigned an IMEI (International Mobile Equipment Identity) number, An embodiment applied to a UMTS (Universal Mobile Telecommunications System) mobile phone will be described in detail with reference to the drawings.

The present embodiment shows an authentication system for a battery pack in a GSM or UMTS mobile phone device.
As shown in FIG. 1, the mobile phone system according to the present embodiment includes a GSM / UMTS mobile phone 6 having a unique IMEI number as a device code inside the device, and a connection terminal between the battery pack 1 and the mobile phone 6. This is a system that performs communication via a connection line that passes through, acquires model specifying information at the time of connection, authenticates with the battery pack 1 and controls.

Here, in the conventional mobile phone system, since there was no control function between the GSM or UMTS mobile phone device and the battery pack, it is possible to imitate a usable battery pack as long as the shape matches. Therefore, there was a problem with the safety of the GSM and UMTS mobile phone devices.
However, by applying this embodiment, it becomes difficult to imitate the battery pack, and it becomes possible to provide a highly safe GSM / UMTS mobile phone device battery pack system.

As shown in FIG. 2, the battery system of a conventional GSM / UMTS mobile phone includes a conventional battery pack 51 in a conventional GSM / UMTS mobile phone device 56, a positive electrode (+ electrode) 7, a negative electrode (GND) 9, The temperature detection 58 is mounted so as to be electrically connected through the respective connection terminals. Further, the battery pack 51 is charged by using the AC adapter 12.
The configuration of the conventional battery pack 51 includes a battery 2, an overcharge / overdischarge protection circuit 53, and an FET (Field Effect Transistor) 4.

As shown in FIG. 1, the mobile phone system according to the present embodiment includes a memory 10 in addition to the battery 2, the overcharge / overdischarge protection circuit 3, and the FET 4 as a configuration of the battery pack 1. ing.
By storing the first eight digits of the IMEI number as model specifying information for specifying the model of the mobile phone in this memory 10, the connection control unit 13 in the GSM or UMTS mobile phone 6 performs authentication. Yes.

In this embodiment, when the battery pack 1 is connected, the GSM / UMTS mobile phone 6 performs initial communication with the memory 10 in the battery pack 1 and is charged by the switch 14 in the GSM / UMTS mobile phone 6 after the authentication is completed. Allows discharge for power supply and mobile phone use.
Unless this authentication is completed, the battery pack 1 is made unusable by the switch 14 so that the power supply for charging and the discharging for using the mobile phone are not performed.

The main feature of this embodiment is that it can be constructed without setting a new unique code by using the IMEI number unique to the GSM / UMTS specification device for authentication.
According to the present embodiment, it is possible to prevent operation even when a battery pack imitating only the shape and terminal configuration is connected, and it is possible to make it difficult to manufacture a counterfeit product. Is possible.

Next, the operation of this embodiment will be described.
As shown in FIG. 1, the battery pack 1 and the GSM / UMTS mobile phone 6 are connected to each other through three connection terminals of a positive electrode (+ electrode) 7, a negative electrode (GND) 9, and a data terminal 8.

  Here, in the conventional GSM / UMTS mobile phone, as shown in FIG. 2, the battery pack 1 and the GSM / UMTS mobile phone are connected to each other by three terminals of a positive electrode (+ electrode) 7, a negative electrode (GND) 9, and a temperature detection 58. Is connected.

  In the mobile phone system according to the present embodiment, the first 8 digits in the device-specific IMEI number, that is, as shown in FIG. 3, the first 6 digits type approval code (TAC) and the subsequent 2-digit manufacturer The battery pack 1 is authenticated using a code (FAC: final assembly code) as model specifying information for specifying the model. After this authentication is performed, the switch 14 is controlled by the control of the connection control unit 13 to charge and discharge. To start.

FIG. 4 shows an authentication operation of the battery pack 1 by the GSM / UMTS mobile phone 6.
First, when the connection control unit 13 of the GSM / UMTS mobile phone 6 confirms that the battery pack 1 is connected, the first 8 digits TAC code and FAC of the IMEI number set in advance from the memory 10 in the battery pack 1 are displayed. The code (model specifying information) is read out and acquired by communication via the data terminal 8 (step S1).

  The connection control unit 13 determines whether or not the TAC code and the FAC code acquired from the battery pack 1 in this manner match the TAC code and the FAC code in the GSM / UMTS mobile phone 6, so that the battery pack 1 Authentication is performed as to whether the battery pack is a genuine battery pack that is officially compatible with the model of the GSM / UMTS mobile phone 6 (step S2).

  That is, when the TAC code and FAC code acquired from the battery pack 1 match the TAC code and FAC code in the GSM / UMTS mobile phone 6, the connection control unit 13 turns on the switch 14 as authentication OK, and the battery pack 1 It is set as the usable state which can be charged / discharged (step S3).

  If the TAC code and FAC code acquired from the battery pack 1 do not match the TAC code and FAC code in the GSM or UMTS mobile phone 6, the connection control unit 13 turns off the switch 14 as authentication NG, and the battery pack 1 Is in an unusable state in which neither charging nor discharging is possible (step S4).

As described above, according to the present embodiment, the GSM, UMTS mobile phone device authenticates the battery pack and controls the connection, thereby matching the TAC code and FAC code in the GSM, UMTS mobile phone 6. Only the battery pack storing the code and the FAC code can be used.
As a result, the battery pack can be charged and discharged only when a genuine battery pack that is officially compatible with the GSM / UMTS mobile phone 6 model is connected. In other cases, the battery pack can be charged. Discharge can be impossible.
For this reason, it is possible to make it difficult to distribute counterfeit battery packs, and it is possible to provide a highly safe battery pack system. In addition, GSM and UMTS mobile phones always have an IMEI number built in, so that a unique device can be identified all over the world without setting a new authentication code, and a system can be constructed at low cost.

Each of the above-described embodiments is a preferred embodiment of the present invention, and the present invention is not limited to this, and various modifications can be made based on the technical idea of the present invention.
For example, as the switch 14 for switching the charge / discharge enabled / disabled state, any part having a switching function such as an FET or a transistor may be used.

In the above-described embodiment, the data terminal 8 is provided instead of the temperature detection terminal 58 to perform data communication via the data terminal 8. However, both temperature detection and data communication are performed. The structure to perform may be sufficient.
Moreover, the structure further provided with the terminal for temperature detection may be sufficient. Moreover, the structure further provided with the terminal for implement | achieving another function may be sufficient. Moreover, the structure which performs data communication by the terminal of a positive electrode and a negative electrode may be sufficient.
That is, as long as power supply and data communication according to the above-described embodiment can be performed, the number of connection terminals is not limited to three, and may be an arbitrary number of two or more. Further, the function of each terminal is not limited to that of the above-described embodiment, and various functions may be realized.

In the above-described embodiment, the connection control unit 13 has been described as acquiring by reading the model specifying information from the memory 10 in the battery pack 1 in performing authentication. However, if the model specifying information can be acquired, For example, the battery pack 1 may be provided with a transmission control unit that transmits the model specifying information in response to a request from the GSM or UMTS mobile phone 6.
In addition, the protection circuit 3 according to the present embodiment may be configured to perform data transmission that transmits model specifying information.

  Further, in the above-described embodiment, it has been described that the chargeable state and the impossible state are switched for both charging and discharging according to the authentication result of the battery pack 1. A configuration in which the possible state can be switched may be used, or a configuration in which the possible state and the impossible state can be switched only for discharge may be used.

  Further, the mobile phone device to which the present embodiment is applied has been described as a GSM or UMTS mobile phone. However, the mobile phone device is not limited to this as long as it is a mobile phone device capable of specifying the model by the IMEI number. For example, the GSM mobile phone device Or a UMTS mobile phone device.

  In addition, the part used as model specifying information in the IMEI number has been described as the first 8 digits. However, if the information is the part used for model specifying in the IMEI information, only 6 digits of the TAC code may be used. Even in the configuration using only the above, it is possible to obtain an effect close to the above-described embodiment, and the present invention can be similarly applied.

  Further, even if the GSM / UMTS mobile phone 6 is configured to use encryption for communication for acquiring model specifying information from the battery pack 1, the present invention can be similarly applied regardless of the type of encryption used. .

The model specifying information is not limited to the IMEI number, and any information may be used as long as it is model specifying information that can specify the model of the mobile phone.
In this case, the mobile phone device according to the present invention is not limited to the GSM machine or the UMTS device described above, and may be any device as long as it has model specifying information that can specify the model of the mobile phone.

Further, by recording the processing procedure for realizing the mobile phone system as each embodiment described above as a program on a recording medium, the above-described functions according to each embodiment of the present invention are supplied from the recording medium. The program can be realized by causing a CPU of a computer constituting the system to perform processing.
In this case, the present invention can be applied even when an information group including a program is supplied to the output device from the above recording medium or from an external recording medium via a network.
That is, the program code itself read from the recording medium realizes the novel function of the present invention, and the recording medium storing the program code and the signal read from the recording medium constitute the present invention. It will be.
As this recording medium, for example, a floppy (registered trademark) disk, hard disk, optical disk, magneto-optical disk, CD-ROM, CD-R, magnetic tape, nonvolatile memory card, ROM, EEPROM, or the like may be used.

  According to the program according to the present invention, each function in the mobile phone device as the embodiment according to the present invention described above can be realized in the mobile phone device controlled by the program.

It is a block diagram which shows the structure of the mobile telephone system as embodiment of this invention. It is a block diagram which shows the structure of the conventional mobile telephone system. It is a figure which shows the structure of an IMEI number. It is a flowchart which shows the authentication operation | movement of the battery pack 1 by the mobile telephone system as this embodiment.

Explanation of symbols

1 Battery pack (an example of a power supply unit)
2 Battery 3 Protection circuit 4 FET
6 GSM, UMTS mobile phones (examples of mobile phone devices)
7 Positive terminal 8 Data terminal 9 Negative terminal 12 AC adapter 13 Connection control unit 14 Switch

Claims (14)

A mobile phone device configured to be connectable to a power supply unit storing model specifying information for specifying a model of the mobile phone device,
Authentication means for acquiring model specifying information stored in the power supply unit via a connection terminal with the power supply unit, and authenticating whether the power supply unit is officially compatible with the model of the mobile phone device;
A cellular phone device comprising: connection control means for switching connection with the power supply unit depending on whether or not the authentication means has authenticated. A switch means for switching between a chargeable state and an impossible state of the power supply unit;
The connection control means controls the switch means to be in the enable state only when it is authenticated by the authentication means as a formally compatible power supply unit, and when the authentication is not possible, the switch means is set to be in the impossible state. The mobile phone device according to claim 1, wherein: Comprising switch means for switching between a possible state and an impossible state of discharge by the power supply unit;
The connection control means controls the switch means to be in the enable state only when it is authenticated by the authentication means as a formally compatible power supply unit, and when the authentication is not possible, the switch means is set to be in the impossible state. The mobile phone device according to claim 1, wherein: Switch means for switching between a possible state and an impossible state for charging and discharging of the power supply unit;
The connection control means controls the switch means to be in the enable state only when it is authenticated by the authentication means as a formally compatible power supply unit, and when the authentication is not possible, the switch means is set to be in the impossible state. The mobile phone device according to claim 1, wherein:   5. The mobile phone device according to claim 1, wherein the model specifying information is information of a part used for model determination in IMEI information. 6.   6. A mobile phone system comprising: the mobile phone device according to claim 1; and a power supply unit storing model specifying information for specifying a model of the mobile phone device. Stores model identification information that identifies the model of the mobile phone device,
A power supply unit characterized in that the mobile phone device can acquire the model specifying information in response to a request from the mobile phone device according to any one of claims 1 to 5. A power supply unit authentication method in a mobile phone device configured to be connectable with a power supply unit storing model specifying information for specifying a model of the mobile phone device,
An acquisition step of acquiring model specifying information stored in the power supply unit via a connection terminal with the power supply unit;
An authentication step of performing authentication based on the model specifying information acquired in the acquisition step to determine whether the power supply unit is a power supply unit officially corresponding to the model of the mobile phone device. Power supply unit authentication method.   Connection control for controlling the switch means to make the power supply unit usable only when the power supply unit is officially certified by the authentication step, and to make the power supply unit unusable when authentication is not possible The power unit authentication method according to claim 8, further comprising a step.   Connection control for controlling the switch means to place the power supply unit in a dischargeable state only when the power supply unit is officially certified by the authentication step and to make the power supply unit in a non-dischargeable state if the power supply unit cannot be authenticated. The power unit authentication method according to claim 8, further comprising a step.   Connection control for controlling the switch means so that the power supply unit is in a chargeable state only when the power supply unit is officially certified by the authentication step, and when the authentication is not possible, the power supply unit is in a non-chargeable state. The power unit authentication method according to claim 8, further comprising a step.   A switch is set so that the power supply unit can be charged and discharged only when the power supply unit is officially certified by the authentication step, and when the power supply unit cannot be authenticated, the power supply unit cannot be charged and discharged. 9. The power unit authentication method according to claim 8, further comprising a connection control step for controlling the means.   The power unit authentication method according to any one of claims 8 to 12, wherein the model specifying information is information of a part used for model determination in IMEI information. A power supply unit authentication program for a mobile phone device configured to be connectable to a power supply unit storing model specifying information for specifying a model of the mobile phone device,
A power supply unit authentication program that causes a computer to execute processing according to any one of claims 8 to 13.

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