JP3404993B2 - Mobile phone - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable telephone. 2. Description of the Related Art In a conventional portable telephone, identification information including a subscriber number, a mobile station number, and keys for authentication and concealment is scrambled by a scramble code, and the scrambled identification information includes a CPU. The initial value of the scramble code is stored in the nonvolatile RAM of the control unit, the initial value of the scramble code is stored in the ROM of the control unit, and the control unit is provided with an algorithm for generating the scramble code. In such a conventional portable telephone, since the initial value of the scramble code stored in the ROM of the control unit is common for each product, the contents stored in the control unit and the algorithm Was easily copied to the control unit of another mobile phone, and substantially stealing another person's mobile phone was easy. [0004] In view of the above, the present invention is to propose a mobile phone that can substantially prevent theft of another person's mobile phone. [0005] A portable telephone according to the present invention comprises a nonvolatile R which stores scrambled identification information.
AM, a ROM in which an initial value different for each product of the scramble code is stored in advance at the time of manufacture, a volatile RAM for storing descrambled identification information, and a nonvolatile RAM.
M, ROM and volatile RAM, the control means comprising: a scramble code generating means for generating a scramble code sequentially changing from an initial value of the scramble code stored in the ROM; A predetermined logical operation is performed between the identification information and the scramble code from the scramble code generation means to obtain scrambled identification information to be written into the nonvolatile RAM, and to obtain the scrambled read information from the nonvolatile RAM. Logical operation means for performing a predetermined logical operation between the identification information and the scramble code from the scramble code generation means to obtain descrambled identification information for writing in the volatile RAM. It is. According to the present invention, the logical operation means performs a predetermined logical operation between the external identification information and the scramble code, and writes the scrambled identification information for writing in the nonvolatile RAM. And performing a predetermined logical operation between the scrambled identification information and the scramble code read from the non-volatile RAM,
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention (for example, a digital cellular phone) will be described in detail with reference to the drawings, in order to obtain descrambled identification information for writing to a volatile RAM. . First, a general circuit configuration of a mobile phone will be described with reference to FIG. Reference numeral 1 denotes a transmission / reception antenna, which is connected to the radio unit 2. A control unit 3 includes a CPU, a ROM and a RAM attached thereto, and is connected to the wireless unit 2. 4 is an external interface, from which RS
The external terminal 4t for 232C is derived, and the control unit 3
It is connected to the. Reference numeral 5 denotes a voice unit which is connected to the radio unit 2 and includes a transmitter and a receiver (not shown). 6
An operation unit includes operation keys such as a numeric keypad, a function key, a speed dial key, and a redial key, and an operation signal (key signal) by operating each operation key is supplied to the control unit. Next, a general circuit of the control unit 3 in FIG. 4 will be described with reference to FIG. 9 is a CPU, and this C
The PU 9 stores, via the parallel bus 8, a flash ROM (Flash Read O / O) in which an operation program of the CPU 9 is stored.
nly Memory (flash read only memory) and E as a nonvolatile RAM in which identification information is stored.
EPROM (Electrically Erasable Programmable Read)
Only Memory: Electrically erasable programmable read only memory (non-volatile RO
M) 10 is connected. Further, the EEPROM 10 and the external interface 4 of FIG. 4 are connected to the CPU 9 through the serial bus 7, respectively. Next, referring to FIG. 3, an M-sequence (Maximum Length C) as an example of a scramble code generating means will be described.
An example of the ode (maximum length code) generating circuit will be described. The M-sequence generation circuit includes n-stage registers R ₁ , R ₂ , R ₃ , as 1-bit storage elements.
... A shift register SR comprising a cascade circuit of Rn, an output terminal T from which a random number output is obtained is derived from the final-stage register Rn, and is determined by a polynomial for generating an n-th order M-sequence random number. Is provided with a predetermined number of taps at predetermined positions. The exclusive OR circuit ER ₁ , ER ₂ performs an exclusive OR operation on the random number output from the register Rn at the last stage of the shift register SR and the output of a predetermined tap, and outputs the exclusive OR operation to the shift register Input to the register R1 at the _first stage of SR. The contents (1 bit) of the register at each stage of the shift register SR are sequentially transferred from left to right by a clock signal. In this way, an n-th random number output (a sequence of a maximum of 2 ⁿ -1 periods excluding all 0s) is obtained from the output terminal T. The identification information includes a subscriber number, a mobile station number, a key for authentication and concealment, and the like. An M-sequence generator is used as the random number generator, and the identification information is, for example, 1
The writing and reading of the identification information will be described with reference to the functional blocks of the CPU in FIG. 1 taking the case of 28 bytes as an example. In FIG. 1, the CPU 9 includes an M-sequence generating means 9B, a logical operation means (here, an exclusive OR operation means) 9C, and a control means 9A based on an algorithm. Controls the M-sequence generating means 9B, the logical operation means 9C, the EEPROM 10, the flash ROM 11, and the volatile RAM 12. When a mobile phone is manufactured, for example, a 16th-order M-sequence random number output generated from an external M-sequence generation circuit as described with reference to FIG. 3 is used as a scramble code, and for each product of this scramble code, An initial value different for each mobile phone is stored in advance in a flash ROM 11 incorporated in the mobile phone, or
11 stored in advance in the mobile phone. still,
The flash ROM 11 also stores a program for operating the mobile phone by the CPU 9. When writing the identification information, the 128-byte identification information is input to the input terminal 4t under the control of the control means 9A.
Through the external interface 4 and the serial bus 7 to the logical operation means 9C of the CPU 9,
The 16th order from the M-sequence generating means 9B of PU9, that is, the 16th order
The bit scramble code is supplied to the logical operation means 9C, the initial value of the 16th-order scramble code stored in the flash ROM 11 is read, and the initial value is supplied to the M-sequence generation means 9B of the CPU 9 through the parallel bus 8. Starting from the initial value, the M-sequence generating means 9B of the CPU 9 generates a 16th-order, ie, 16-bit (2 bytes) scramble code updated every two bytes of the identification information. Then, based on the control of the control means 9A,
An exclusive OR operation is performed between the scramble code updated every two bytes by the logical operation means 9C and the identification information part for every two bytes of the identification information, and the scrambled identification information is obtained. Is written to the EEPROM 10 through the serial bus 7. When the identification information is used, the initial value of the scramble code stored in the flash ROM 11 is read out under the control of the control means 9A when the power of the mobile phone is turned on, and the initial value is read through the parallel bus 8. It is supplied to the M-sequence generating means 9B of the CPU 9 and is started from the initial value and updated every two bytes of the identification information.
Next, that is, the 16-bit scramble code is
From the M-sequence generating means 9B. Then, based on the control of the control means 9A, an exclusive OR operation is performed between the scramble code updated every two bytes and the identification information part for every two bytes of the identification information to perform descrambling. Then, the descrambled identification information is written to the volatile RAM 12 through the parallel bus 8. or,
At the time of calling, based on the control of the control means 9A of the CPU 9,
The identification information stored in the RAM 12 is read out, supplied to the radio unit 2, converted into a modulated signal, and transmitted from the antenna 1. As described above, since the initial value of the scramble code stored in the flash ROM 11 is different for each product, that is, for each mobile phone, the scramble code stored in the EEPROM 10 of the control unit 3 of the mobile phone is different. It is impossible to copy the obtained identification information to another mobile phone and substantially steal the mobile phone. In the above-described embodiment, an exclusive OR operation is performed between the identification information and a scrambling code composed of M-sequence random numbers to obtain scrambled identification information. , An exclusive-OR operation with a scramble code composed of the same M-sequence random numbers to obtain descrambled identification information.
In general terms, a first logical operation is performed between the identification information and the first code to obtain scrambled identification information, and the scrambled identification information is
A second logical operation (a logical operation having a predetermined relationship with the first logical operation) is performed with a second code (a code having a predetermined relationship with the first code). Thus, the descrambled identification information is obtained. In this case, the first and second codes may be the same or different. Similarly, the first and second logical operations may be the same or different. The point is that the scrambled identification information may be descrambled to obtain the original identification information. According to the present invention described above, a nonvolatile RAM for storing scrambled identification information, a ROM in which an initial value different for each product of a scramble code is stored in advance at the time of manufacture, And a control unit for controlling the nonvolatile RAM, the ROM and the volatile RAM, wherein the control unit sequentially changes from an initial value of the scramble code stored in the ROM. A scramble code generating means for generating a scramble code, and scrambled identification information for writing to a nonvolatile RAM by performing a predetermined logical operation between external identification information and a scramble code from the scramble code generation means. And the scrambled identification information read from the non-volatile RAM and Logical operation means for performing a predetermined logical operation between the scramble codes from the scramble code generation means and obtaining descrambled identification information for writing into the volatile RAM, so that substantially A mobile phone which can prevent plagiarism can be obtained.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing a functional block showing a function of a CPU of a control unit of the embodiment and a peripheral circuit of the CPU. FIG. 2 is a block diagram illustrating a circuit configuration of a control unit according to the embodiment. FIG. 3 is a block diagram illustrating an example of an M-sequence generation circuit. FIG. 4 is a block diagram showing a circuit configuration of the embodiment. [Description of Signs] 1 Antenna 2 Radio unit 3 Control unit 4 External interface 5 Audio unit 6 Operation unit 9 CPU 10 EEPROM 11 Flash ROM 12 RAM

Claims (1)

(57) [Claim 1] A non-volatile RAM for storing scrambled identification information, a ROM in which an initial value different for each product of a scramble code is stored in advance at the time of manufacture, and a descrambled ROM. A volatile RAM that stores identification information; and a control unit that controls the nonvolatile RAM, the ROM, and the volatile RAM. The control unit determines a scrambling code stored in the ROM from an initial value. A scramble code generating means for generating a scramble code which changes sequentially, and a scramble for performing a predetermined logical operation between the identification information from the outside and the scramble code from the scramble code generator to write the scramble code to the nonvolatile RAM. And the scrambled information read from the non-volatile RAM. A logical operation means for performing a predetermined logical operation between the separate information and the scramble code from the scramble code generation means to obtain descrambled identification information for writing in the volatile RAM. Mobile phone.