KR20060102441A - Method and apparatus for discerning genuine goods battery - Google Patents

Abstract

The present invention relates to a technology for identifying whether a battery is genuinely used in a mobile communication terminal such as a mobile phone. The present invention, after initializing the battery integrated device related to the battery authentication and confirms that the data therein is the data of the mutually regulated content, if it is determined that the data is not mutually regulated data, and the first step of turning off the power of the terminal; ; If it is determined that the data are mutually regulated as a result of the checking, a second process of writing a randomly changed value in the terminal to the battery integrated device for use as an authentication key; Comparing the randomly changed value with the CRC hardware processed value in the battery integrated device is achieved by a third process of keeping the power of the terminal on or off depending on whether the match.

Description

METHOD AND APPARATUS FOR DISCERNING GENUINE GOODS BATTERY

1 is a signal flow diagram illustrating a process of a genuine battery identification method according to the prior art.

Figure 2 is a block diagram of a genuine battery identification device according to the present invention.

Figure 3 is a signal flow diagram showing the processing of the genuine battery identification method according to the present invention.

*** Description of the symbols for the main parts of the drawings ***

1 battery integrated device 2 receptacle

3: central processing unit

The present invention relates to a technology for identifying the genuineness of a battery widely used in mobile communication terminals, such as a mobile phone, in particular a genuine battery to identify whether the genuineness of the battery using a randomly changed value as the authentication key value An identification method and apparatus.

In recent years, the penetration rate of mobile communication terminals such as mobile phones and personal digital assistants (PDAs) has been rapidly increasing and is becoming a necessity for modern people. Rechargeable batteries are used in these terminals, often non-genuine batteries, resulting in explosions or fires.

Therefore, recently, a technique for identifying whether a battery is genuine has been used. A method for identifying whether a battery is genuine according to the prior art will be described with reference to FIG. 1.

First, a battery integrated device (eg, DS2502) related to battery authentication is initialized, and the terminal reads ROM data (64-bit data) inside the battery integrated device and compares each other to check whether the data are data of mutual agreement. (S1-S3)

If it is determined that the comparison result is not mutually regulated data, it is not a genuine battery, and thus the power of the terminal is turned off so as not to be used (S4).

However, if the comparison results in mutually regulated data, the highest 1 byte of the read 64-bit ROM data is written to the battery integrated device for use as an authentication key, and on the other hand, CRC hardware is processed from the battery integrated device. Read the value (S5, S6)

After that, if the authentication key value of 1 byte and the CRC hardware processed value are not matched, it is determined that the battery installed in the current terminal is a fixture and the power of the terminal is turned off. Keep holding (S7-S9)

As described above, in the conventional genuine battery identification technology, a fixed 1-byte value is used as an authentication key among ROM data inside the battery integrated device, so there is a risk of theft. There was this.

Accordingly, an object of the present invention is to provide a genuine battery identification method and apparatus for identifying authenticity using a value randomly changed to an authentication key value of a battery applied to various terminals.

In the genuine battery identification method according to the present invention, after initializing a battery integrated device related to battery authentication, and checking whether the data therein is data of mutually regulated contents, when it is determined that the data is not mutually regulated data, the power of the terminal is turned off. Making a first process; If it is determined that the data are mutually regulated as a result of the checking, a second process of writing a randomly changed value in the terminal to the battery integrated device for use as an authentication key; Comprising a third process of comparing the randomly changed value and the CRC hardware processed value in the battery integrated device to keep the power of the terminal on or off according to the match.

2 is a block diagram showing an embodiment of a genuine battery identification device according to the present invention, as shown therein, a battery integrated device (1) for storing data related to battery authentication; A receptacle (2) for connecting the battery integrated device (1) and the central processing unit (3); If the data stored in the battery integrated device 1 turns out to be mutually regulated data, a randomly changed value is recorded in the battery integrated device 1 in the terminal, and then the value and the CRC hardware processing in the battery integrated device 1 are performed. It is configured as a central processing unit (3) to keep the power of the terminal on or off in accordance with whether or not by matching the matched value, it will be described in detail with reference to Figure 3 attached to the operation and effect of the present invention configured as described above Is as follows.

First, a battery integrated device (eg, DS2502) 1 related to battery authentication is initialized, and EPROM data (64 bit data) inside the battery integrated device is read by the central processing unit 3 of the terminal. Compare each other to see if the data is data of mutual agreement. (ST1-ST3)

If it is determined that the data is not mutually regulated data as a result of the comparison in the central processing unit 3, it is not a genuine battery and the power of the terminal is turned off to prohibit illegal use. (ST4)

However, if the comparison results in mutually-confirmed data, the central processing unit 3 randomly changes a value, for example, the highest two digits of the recently received telephone number among the telephone numbers recorded in the recent call list in the terminal. The value (1 byte data) is read and recorded in the battery integrated device 1 in order to use it as an authentication key. (ST5)

In addition, the CPU 3 reads the CRC hardware processed value from the battery integrated device 1 (ST6).

After that, the highest two-digit value (1 byte data) of the telephone number is compared with the CRC hardware processed value, and if it does not match, it is determined that the battery installed in the current terminal is a fixture and the power of the terminal is turned off. If it is, it is judged as genuine and keeps power on state. (ST7-ST9)

On the other hand, in the above description as a randomly changed value, using the recently received phone number value as an authentication key has been described as an example, the present invention is not limited to this, the following values to the battery integrated device (1) The same effect can be obtained when recording and using as an authentication key.

First, the central processing unit (3) reads the value of the telephone number of the other party that has recently sent a short message (SMS) and writes it to the battery integrated device (1) to use it as an authentication key.

Second, the central processing unit 3 reads a network ID number (NID) value, which is one of randomly changed values from a terminal, and writes it to the battery integrated device 1 to use it as an authentication key. do.

Third, the battery integrated device 1 reads a received signal strength indicator (RSSI) value, which is one of values randomly changed in the terminal, from a database and uses it as an authentication key. To record.

Fourth, the central processing unit 3 reads a phone information (active pilot Ec / Io) value, which is one of randomly changed values from the terminal, and records the data in the battery integrated device 1 to use it as an authentication key. do.

Fifth, the CPU 3 reads a recent call_time value, which is one of randomly changed values from the terminal, from the database and records the latest call_time value in the battery integrated device 1 to use it as an authentication key. .

Sixth, the CPU 3 reads a transmission power TX_PWR value, which is one of randomly changed values from the terminal, and writes it to the battery integrated device 1 to use it as an authentication key.

Seventh, the CPU 3 reads the received power value RX_PWR, which is one of randomly changed values from the terminal, from the database and records the received power value RX_PWR in the battery integrated device 1 to use it as an authentication key.

Eighth, the central processing unit 3 reads a system identification number (SID: System IDentification) value, which is one of randomly changed values in the terminal, and records it in the battery integrated device 1 to use it as an authentication key. do.

Ninth, the CPU 3 reads the charging current (Charging_current_adc) value of the A / D converted battery, which is one of randomly changed values in the terminal, from the database and uses it as an authentication key. ).

Tenth, the CPU 3 reads an A / D-converted hi-fi detection (HDET_ADC) value, which is one of randomly changed values from the terminal, to the battery integrated device 1 to use it as an authentication key. Record it.

Eleventh, the CPU 3 reads an A / D converted temperature (THERM_ADC) value, which is one of randomly changed values from a terminal, and writes it to the battery integrated device 1 to use it as an authentication key. do.

Twelfth, the CPU 3 reads an A / D-converted battery voltage BAT_ADC value, which is one of randomly changed values from a terminal, to the battery integrated device 1 to use it as an authentication key. Record it.

As described in detail above, the present invention uses a randomly changing value as an authentication key value to identify whether the battery is genuine or not, so that the equipment battery can be reliably prevented from being used illegally at no additional cost. It works.

Claims (15)

A first process of initializing a battery integrated device related to battery authentication and checking whether the data therein is data of mutually regulated contents and turning off power of the terminal if it is determined that the data is not mutually regulated data; If it is determined that the data are mutually regulated as a result of the checking, a second process of writing a randomly changed value in the terminal to the battery integrated device for use as an authentication key; And comparing the randomly changed value with the CRC hardware-processed value in the battery integrated device, and performing a third process of continuously maintaining or turning off the power of the terminal according to whether or not the battery is integrated. The genuine battery identification method of claim 1, wherein the randomly changing value is a phone number value of a counterpart. The method of claim 1, wherein the randomly changing value is a phone number of the other party who sent the short message. The method of claim 1, wherein the randomly changing value is a network identification number value. The method of claim 1, wherein the randomly changing value is a received field strength value. The method of claim 1, wherein the randomly changing value is an active pilot Ec / Io value. The method of claim 1, wherein the randomly changing value is a recent call time value. The method of claim 1, wherein the randomly changing value is a transmission power value. The method of claim 1, wherein the randomly changing value is a reception power value. The method of claim 1, wherein the randomly changing value is a system identification number value. The method of claim 1, wherein the randomly changing value is a current value of the battery. The method of claim 1, wherein the randomly changing value is a hi-fi detection value. The method of claim 1, wherein the randomly changing value is a temperature value around the terminal. The method of claim 1, wherein the randomly changing value is a voltage value of the battery. A battery integrated device storing data related to battery authentication; A receptacle for connecting the battery integrated device and a central processing unit to be described later; A central processing unit that records a randomly changed value in a terminal in the battery integrated device, and then compares the value with a CRC hardware processed value in the battery integrated device to keep the power of the terminal on or off depending on whether the terminal is matched. Genuine battery identification device, characterized in that configured.

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