KR20020078748A - Self initializing device and method of communication mobile station - Google Patents

Abstract

PURPOSE: An automatic initializing device of a mobile communication terminal is provided to automatically perform initialization for necessary items of the mobile communication terminal, to reduce processes, and to unify software version management and version management of an initial value of a nonvolatile memory storage, thereby reducing confusion. CONSTITUTION: A flash ROM(100) is composed of a program memory storage(110) and a nonvolatile memory storage(120). The program memory storage(110) stores a code program. The nonvolatile memory storage(120) stores initial data of the code program stored in the program memory storage(110). A main processor(200) receives power, and reads the code program from the program memory storage(110), then initializes the code program in the nonvolatile memory storage(120). A power unit(300) applies an externally-received power to the main processor(200).

Description

Device and method for self-initialization of mobile communication terminal {SELF INITIALIZING DEVICE AND METHOD OF COMMUNICATION MOBILE STATION}

The present invention relates to a self-initialization device and a method of a mobile communication terminal, and more particularly, the self-initialization device of a mobile communication terminal to automatically perform the initialization process by supplying power to the mobile communication terminal during the production process of the mobile communication terminal. And to a method.

The production process of the general mobile communication terminal is released after the magnetic insertion, the manual insertion, the instrument assembly, and the RF (Radio Frequency) adjustment. In this case, in order to use the mobile communication terminal, the mobile communication terminal can be used by initializing and driving the mobile communication terminal.

As shown in FIG. 1, an initialization apparatus of a conventional mobile communication terminal is composed of a main processor 10, a PC 20, and a flash ROM 30. A method of initializing a conventional mobile communication terminal using the same will now be described. The operator initialized the mobile communication terminal through a PC at the same time as the terminal was connected to a personal computer after the mobile communication terminal was physically completed through self insertion, manual insertion, and instrument assembly.

However, in the conventional self-initialization method of the mobile communication terminal, as described above, when each mobile communication terminal is physically completed, the mobile communication terminal is connected to a PC and initialized, resulting in a slow production speed of the mobile communication terminal, and thus a production quantity of the mobile communication terminal. There was a problem that causes a huge disruption in supply.

Another problem is that if the operator incorrectly selects the software version of the mobile terminal to be initialized and the initial version of the non-volatile memory storage in the process of initializing the mobile terminal, the initialization may not proceed and an error in production may occur. There is this high problem.

Accordingly, the present invention has been made to solve the above-mentioned problems, and an object of the present invention is to shorten the production process time to increase the production efficiency by allowing the initialization operation itself during the mobile communication terminal production process. The present invention provides a device and method for self-initialization of a mobile communication terminal.

Another object of the present invention is to provide a self-initialization apparatus and method for a mobile communication terminal which can reduce development confusion by unifying software version management and version management of an initial value of a nonvolatile memory storage unit later.

In order to achieve the above object, a self-initializing apparatus of a mobile communication terminal of the present invention includes a program memory storage unit for storing a CODE program, and a nonvolatile memory storage unit for storing initialization data of a CODE program stored in the program memory storage unit. ROM;

A main processor which automatically reads a CODE program stored in the program memory storage unit and initializes the nonvolatile memory storage unit when power is supplied; And

When receiving power from the outside is characterized in that the power unit for applying the power to the main processor.

In addition, the self-initialization method of the mobile communication terminal of the present invention in order to achieve the above object in the initialization method of the mobile communication terminal in the production process,

A tenth step of reading a CODE program stored in a program memory storage unit in the flash ROM when the main processor receives power from the power supply unit; And

And a twentieth step in which the main processor updates the CODE program in the nonvolatile memory storage and simultaneously initializes the CODE program.

1 is a functional block diagram showing a configuration of an initialization apparatus of a conventional mobile communication terminal;

2 is a functional block diagram showing a self-initialization device of a mobile communication terminal according to an embodiment of the present invention;

3 is a flowchart illustrating a self-initialization method of a mobile communication terminal according to an embodiment of the present invention;

4 is a flowchart showing the detailed steps of the 20th step (S20) of the self-initialization method of the mobile communication terminal according to FIG.

5 is a flowchart illustrating the detailed steps of the 25 th-5 th step (S25-5) of the 20 th step (S20) of the self-initialization method of the mobile communication terminal according to FIG.

<Explanation of symbols for the main parts of the drawings>

100: flash ROM 110: program memory storage unit

120: non-volatile memory storage 200: main processor

300: power supply

Hereinafter, a self-initialization method of a mobile communication terminal according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a functional block diagram of a self-initialization device of a mobile communication terminal according to an embodiment of the present invention. The self-initialization device of a mobile communication terminal according to an embodiment of the present invention includes a flash ROM 100 and a main processor 200. ) And a power supply unit 300.

The main processor 200 receives power from the power supply unit 300 and simultaneously checks whether a version number major, a version number minor, a terminal target, and a CODE program version of the CODE program stored in the flash ROM 100 match. Compare and initialize. At this time, the version number major and version number minor of the CODE program are expressed in bit or byte units indicating the version of the CODE program and the version of the initialized data, and the version number major or version number of the CODE program It divides the rank like a minor and gives the initialization execution authority corresponding to the rank.

In addition, the flash ROM 100 stores a CODE program and initialization data, and includes a program memory storage 110 and a nonvolatile memory storage 120.

In this case, the program memory storage unit 110 in the flash ROM 100 stores CODE data necessary for initialization and upgrade of the mobile communication terminal.

In addition, the nonvolatile memory storage unit 120 in the flash ROM 100 stores initialization data when the data necessary for initialization is updated from the main processor 200.

In addition, the power supply unit 300 serves to supply power to the mobile communication terminal.

Next, a self-initialization method of the mobile communication terminal according to an embodiment of the present invention using the self-initialization apparatus of the mobile communication terminal having the above configuration will be described with reference to FIG. 3.

First, when the main processor 200 receives power from the power supply unit 300, the main processor 200 reads the CODE program stored in the program memory storage unit 110 in the flash ROM 100 (S10).

Subsequently, the main processor 200 updates and initializes the read CODE program to the nonvolatile memory storage unit 120 in the flash ROM 100 (S20).

Hereinafter, a detailed operation process of the above-described twentieth step S20 will be described in more detail with reference to FIG. 4.

First, the main processor 200 reads a CODE program version number major value and a version number major value of the nonvolatile memory storage unit 120 from the flash ROM 100 (S21).

Subsequently, the main processor 200 determines whether the CODE program version number major value is greater than the version number major value of the nonvolatile memory storage unit 120 (S22).

In operation 22, when the CODE program version number major value is greater than the version number major value of the nonvolatile memory storage unit 120 (YES), the main processor 200 performs the flash ROM 100. All items stored in the program memory storage unit 110 are updated (S23).

Subsequently, the main processor 200 initializes all items of the CODE program (S24).

On the other hand, if the CODE program version number major value is less than or equal to the version number major value of the nonvolatile memory storage unit 120 in the twenty-second step S22 (NO), the main processor 200 performs the mobile communication terminal. The target, the CODE program version number minor value, and the CODE program version item match are compared with the nonvolatile memory storage unit 120, and then initialized for different items (S25). In this case, the target of the mobile communication terminal means a service provider service number to which the mobile communication terminal is to be used, and its initial value varies according to the service provider service number.

Hereinafter, a detailed operation process of the above-described 25 th step S25 will be described in more detail with reference to FIG. 5.

First, the main processor 200 determines whether there is no change in the target of the mobile communication terminal (S25-1).

At this time, if there is no change in the target of the mobile communication terminal (YES) in step 25-1 (S25-1), the main processor 200 is a code program version number minor value and the nonvolatile memory storage unit ( A version number minor value of 120 is read from the flash ROM 100 (S25-2).

Subsequently, the main processor 200 determines whether the CODE program version number minor value is smaller than or equal to the version number minor value of the nonvolatile memory storage unit 120 (S25-3).

In this case, if the CODE program version number minor value is less than or equal to the version number minor value of the nonvolatile memory storage unit 120 (YES) in operation 25-3, the main processor 200 may be configured. The item of the CODE program version and the item of the nonvolatile memory storage unit 120 are read from the flash ROM 100 (S25-4).

Subsequently, the main processor 200 determines whether an item of a CODE program version and an item of the nonvolatile memory storage unit 120 match (S25-5).

At this time, if the item of the CODE program version and the item of the nonvolatile memory storage unit 120 in step 25-5 (YES), the main processor 200 of the mobile communication terminal If the initialization process is terminated and the items of the CODE program version and the items of the nonvolatile memory storage unit 120 do not match (NO), the main processor performs an upgrade only on the items that do not match (S25-). 6).

On the other hand, if there is a change in the target of the mobile communication terminal (NO) in step 25-1 (S25-1), the main processor 200 performs initialization only for the target related item of the mobile communication terminal. After that, the process proceeds to step 25-3 (S25-3) (S25-7).

On the other hand, if the CODE program version number minor value is greater than the version number minor value of the nonvolatile memory storage unit 120 in step 25-3 (S25-3), the main processor 200 performs a CODE program. After resetting the step 25 to step (S25-5) (S25-8).

In addition, the self-initialization method of the mobile communication terminal is used not only for self-initialization of the mobile communication terminal but also for software upgrade of the mobile communication terminal.

First, the mobile communication terminal is connected to a PC to upload a conventional CODE program stored in the program memory storage unit 110 in the flash ROM 100 as a CODE program to be upgraded.

Subsequently, the mobile communication terminal is turned off and then turned on again.

The main processor 200 reads a CODE program version number major value and a version number major value of the nonvolatile memory storage unit 120 from the flash ROM 100 (S21).

Subsequently, the main processor 200 determines whether the CODE program version number major value is greater than the version number major value of the nonvolatile memory storage unit 120 (S22).

In operation 22, when the CODE program version number major value is greater than the version number major value of the nonvolatile memory storage unit 120 (YES), the main processor 200 performs the flash ROM 100. All items stored in the program memory storage unit 110 are updated (S23).

Subsequently, the main processor 200 initializes all items of the CODE program (S24).

On the other hand, if the CODE program version number major value is less than or equal to the version number major value of the nonvolatile memory storage unit 120 in the twenty-second step S22 (NO), the main processor 200 performs the mobile communication terminal. The target, the CODE program version number minor value, and the CODE program version item match are compared with the nonvolatile memory storage unit 120, and then initialized for different items (S25).

Hereinafter, a detailed operation process of the above-described 25 th step S25 will be described in more detail with reference to FIG. 5.

First, the main processor 200 determines whether there is no change in the target of the mobile communication terminal (S25-1).

At this time, if there is no change in the target of the mobile communication terminal (YES) in step 25-1 (S25-1), the main processor 200 is a code program version number minor value and the nonvolatile memory storage unit ( A version number minor value of 120 is read from the flash ROM 100 (S25-2).

Subsequently, the main processor 200 determines whether the CODE program version number minor value is smaller than or equal to the version number minor value of the nonvolatile memory storage unit 120 (S25-3).

At this time, if the CODE program version number minor value is less than or equal to the version number minor value of the nonvolatile memory storage unit 120 in the 25 th step S25-3, the main processor 200. Reads an item of a CODE program version and an item of the nonvolatile memory storage unit 120 from the flash ROM 100 (S25-4).

Subsequently, the main processor 200 determines whether an item of a CODE program version and an item of the nonvolatile memory storage unit 120 match (S25-5).

At this time, if the item of the CODE program version and the item of the nonvolatile memory storage unit 120 in step 25-5 (YES), the main processor 200 of the mobile communication terminal When the initialization process is terminated and the items of the CODE program version and the items of the nonvolatile memory storage unit 120 do not match (NO), the main processor 200 performs an upgrade only on the items that do not match. (S25-6).

On the other hand, if there is a change in the target of the mobile communication terminal (NO) in step 25-1 (S25-1), the main processor 200 performs initialization only for the target related item of the mobile communication terminal. After that, the process proceeds to step 25-3 (S25-3) (S25-7).

On the other hand, if the CODE program version number minor value is greater than the version number minor value of the nonvolatile memory storage unit 120 in step 25-3 (S25-3), the main processor 200 performs a CODE program. After resetting the step 25 to step (S25-5) (S25-8).

As described above, according to the self-initialization method of the mobile communication terminal, the initialization of the necessary items for the mobile communication terminal is automatically performed, thereby shortening the process to increase the production efficiency, and later software version management and non-volatile. There is an excellent effect of reducing development confusion by unifying the version management of the memory storage initial value.

Claims (7)

A flash ROM having a program memory storage for storing a CODE program, and a nonvolatile memory storage for storing initialization data of the CODE program stored in the program memory storage; A main processor which automatically reads a CODE program stored in the program memory storage unit and initializes the nonvolatile memory storage unit when power is supplied; And Self-initializing device of the mobile communication terminal, characterized in that the power unit is configured to apply the power to the main processor when receiving power from the outside. In initializing the mobile communication terminal during the production process in the mobile communication terminal consisting of a flash ROM, a main processor, and a power supply unit, A tenth step of reading a CODE program stored in a program memory storage unit in the flash ROM when the main processor receives power from the power supply unit; And And a twentieth step in which the main processor updates the CODE program in the nonvolatile memory storage and simultaneously initializes the CODE program to the nonvolatile memory storage. The method of claim 2, The twenty-first step may include: a twenty-first step of the main processor reading a CODE program version number major value and a version number major value of a nonvolatile memory storage unit from the flash ROM; A twenty-second step of the main processor determining whether a CODE program version number major value is greater than a version number major value of the nonvolatile memory storage unit; A twenty-third step in which the main processor updates all items stored in the program memory storage unit in the flash ROM when the CODE program version number major value is greater than the version number major value of the nonvolatile memory storage unit in the twenty-second step; And And a twenty-fourth step of initializing all items of the CODE program by the main processor. The method of claim 2, If the CODE program version number major value is smaller than or equal to 22 in the step 22, the main processor compares the target, the CODE program version number minor value, and the CODE program version item of the mobile terminal with the nonvolatile memory storage unit. And a twenty-fifth step of initializing the different items later. The method of claim 4, wherein In step 25-1, the main processor determines whether there is no change in a target of the mobile communication terminal; If there is no change in the target of the mobile communication terminal in step 25-1, the main processor reads a code program version number minor value and a version number minor value of the nonvolatile memory storage unit from the flash ROM; step; A step 25-3 of the main processor determining whether a CODE program version number minor value is less than or equal to a version number minor value of the nonvolatile memory storage unit; In step 25-3, if the CODE program version number minor value is less than or equal to the version number minor value of the nonvolatile memory storage unit, the main processor displays an item of a CODE program version and an item of the nonvolatile memory storage unit in the flash ROM. 25-4 reading from the step; A step 25-5 of the main processor determining whether an item of a CODE program version and an item of the nonvolatile memory storage unit are identical; And If the item of the CODE program version and the item of the nonvolatile memory storage unit coincide in step 25-5, the main processor terminates the initialization process of the mobile communication terminal, and the item of the CODE program and the nonvolatile memory storage unit If the items do not match, the main processor further includes steps 25-6, performing upgrade only on the items that do not match. The method of claim 5, If there is a change in the target of the mobile communication terminal in step 25-1, the main processor performs initialization only on the target related item of the mobile communication terminal, and then proceeds to step 25-3. Self-initialization method of a mobile communication terminal, characterized in that it further comprises step 7. The method of claim 5, If the CODE program version number minor value is greater than the version number minor value of the nonvolatile memory storage unit in step 25-3, the main processor resets the CODE program and proceeds to step 25-5. Self-initialization method of a mobile communication terminal, characterized in that it further comprises step 8.