KR100383240B1 - Device and method for initializing communication mobile station - Google Patents

Abstract

The present invention relates to an apparatus and method for initializing a mobile communication terminal, and more particularly, a program storage unit 110 for storing program data used in a mobile communication terminal, and a nonvolatile data storage unit 120 for storing data required for initialization. And a flash ROM 100 including a state checking unit 130 storing state data in units of bits to determine a start / end state of the mobile communication terminal. A main processor (200) for reading and outputting initialization data stored in the flash ROM (100) when power of a mobile communication terminal is applied according to an operator's power key selection from a keypad input unit; And a data memory 300 for receiving and storing initialization data from the main processor 200. The present invention does not perform an unnecessary search process for preventing data loss during an initialization process of a mobile communication terminal. In other words, it has an excellent effect of making the initialization speed faster.

Description

Mobile terminal initialization device and its method {DEVICE AND METHOD FOR INITIALIZING COMMUNICATION MOBILE STATION}

The present invention relates to a mobile terminal initialization apparatus and a method thereof, and more particularly, a mobile terminal initialization apparatus for retrieving only the initialization data necessary for initialization of the mobile communication terminal and loading it into a data memory. And to a method thereof.

As is well known, the mobile communication terminal uses EEPROM (Electrically Erasable and Programmable ROM) or Flash ROM (Flash ROM) for storing data necessary for initialization. At this time, EEPROM can read, write and delete by byte, but it is expensive and has slow access speed. Flash ROM is faster than EEPROM in terms of speed. Read / write is possible in byte unit. However, when deleting, data is deleted in sector (64KByte) unit.

In the conventional method of initializing a mobile communication terminal, the main processor retrieves all the data stored in the flash ROM a plurality of times, cleans up all the data, and reads the initialization data and loads it into the data memory. At this time, the initialization data necessary for the flash ROM can be stored in byte unit, but when deleted, it is deleted in 64Kbyte unit. When you want to convert the initialization data, do not delete unnecessary initialization data stored in the flash ROM, Save initialization data. As such, the initialization data and the unnecessary data in the flash ROM must be included together to initialize the data through the above process. In order to prevent data loss from abnormal termination, the data is loaded after a plurality of times of data retrieval.

However, in the above-described method of initializing a mobile communication terminal, when initial power is applied, in order to protect data in a nonvolatile memory area from abnormal power interruption, the initial data is repeatedly loaded after retrieving unnecessary block data. There was a problem that the initialization takes a long time, and to hide the above disadvantages, by showing the power on animation (Power On) animation to the user when loading the power, it was possible to hide the delay of the initialization process, but the actual cause Did not solve.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to increase the data for initializing the mobile communication terminal, thereby searching for and loading only the data necessary for the initialization of the terminal. The present invention provides a mobile communication terminal initialization device and a method for faster initialization.

In order to achieve the above object, the mobile communication terminal initialization apparatus of the present invention includes a program storage unit for storing program data used in the mobile communication terminal, a nonvolatile data storage unit for storing initialization data, and start / end state data of the mobile communication terminal. A flash ROM comprising a status checker configured to store bits in bits;

When the power of the mobile communication terminal is applied according to the operator's power key selection from the keypad input unit, the start / end state data of the state checking unit is searched and if the normal state is read, the initialization data specified in the flash ROM is read and output. A main processor for arranging all data data stored in the flash ROM and reading only the initialization data if the search result of the start / end status data of the status check unit is abnormal; And

And a data memory configured to receive and store initialization data from the main processor.

In addition, the mobile communication terminal initialization method of the present invention to determine whether the number of '0' which is the bit value of the start / end check unit in the status check unit is the same when the main processor receives power from the keypad input unit to achieve the above object; First step;

A second step of reading, by the main processor, non-volatile memory storage unit in the flash ROM and reading designated initialization data if the number of state data '0' stored in the flash ROM state checking unit is the same in the first step;

A third step of the main processor loading specified initialization data into a data memory;

A fourth step of the main processor determining whether the data storage capacity of the start confirming unit in the state confirming unit has exceeded a threshold;

A fifth step of storing, by the main processor, start state data '0' in the start confirming unit if the data storage capacity of the start confirming unit in the state confirming unit does not exceed a threshold in the fourth step;

A sixth step of determining, by the main processor, whether a normal power shutdown signal has been input according to the operator's power key selection; And

In the sixth step, if the normal power shutdown signal is input according to the operator's power key selection, the main processor comprises a seventh step of storing the termination status data '0' in the termination confirmation unit in the status confirmation unit. do.

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

FIG. 2 is a functional block diagram showing a detailed configuration of a state check unit of a mobile communication terminal initialization device according to FIG. 1;

3 is an operation flowchart illustrating a method for initializing a mobile communication terminal according to an embodiment of the present invention.

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

100: flash ROM 110: program storage unit

120: non-volatile data storage unit 130: state storage unit

200: main processor 300: data memory

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

1 is a functional block diagram of a mobile communication terminal initialization device according to an embodiment of the present invention, the mobile communication terminal initialization device according to an embodiment of the present invention is a flash ROM 100, the main processor 200, and data Memory 300.

The flash ROM 100 determines a program storage unit 110 for storing program data used in the mobile communication terminal, a nonvolatile data storage unit 120 for storing initialization data, and a start / end state of the mobile communication terminal. It consists of a status check unit 130 for storing the data for each bit to serve to store the data required for driving and initialization of the mobile communication terminal, as shown in Figure 2 It consists of the start confirmation part 131 and the end confirmation part 132. FIG.

The start confirming unit 131 receives and stores state data from the main processor 200. At this time, when the start of the terminal is normally performed, the start confirming unit 131 loads the initialization data stored in the nonvolatile data storage unit 120 into the data memory 300 at the same time. It receives the input state data '0' and converts the state data set to '1' to '0', and maintains the start state data '1' when the start is abnormal.

In addition, the termination checker 132 stores the state data indicating whether the power of the mobile communication terminal is normally operated from the main processor 200. At this time, when the terminal is normally terminated, the termination checker 132 receives the normal termination signal and the state data '0' indicating the normal termination state at the same time as '1'. Converts the state data to '0' and if the terminal is abnormally terminated, maintains the end state data '1' and calls the initialization data of the terminal and converts the end state data to '0'. Save it.

In addition, when the power of the mobile communication terminal is applied according to the operator's power key selection from the keypad input unit, the main processor 200 receives the state data of the start / end check units 131 and 132 of the state check unit 130. If the search is normal, the initialization data specified in the flash ROM is read and output to the data memory 300, and the status data of the start / end check units 131 and 132 of the state check unit 130 is searched for abnormality. In this case, after retrieving all the data stored in the flash ROM 100 a plurality of times, only the initialization data is read and the data is loaded into the data memory 300.

The data memory 300 receives and stores initialization data from the main processor 200. At this time, the data memory 300 temporarily stores the initialization data of the flash ROM 100 in order to more quickly access the data of the main processor 200.

Next, a mobile communication terminal initialization method having the above configuration will be described with reference to FIG. 3.

First, when the main processor 200 receives power from the keypad input unit, the main processor 200 determines whether or not the number of bit values '0' of the start / end check units 131 and 132 in the state check unit 130 is the same ( S1).

At this time, if the number of state data '0' stored in the state checking unit 130 in the flash ROM 100 is the same in the first step S1 (YES), the main processor 200 may execute the flash ROM ( In step 100, the stored initialization data is retrieved and read (S2).

Then, the main processor 200 reads the initialization data in the flash ROM 100 and loads it into the data memory 300 (S3).

Subsequently, the main processor 200 determines whether the data storage capacity of the start confirming unit 131 in the state confirming unit 130 exceeds a threshold (S4).

At this time, if the data storage capacity of the start confirming unit 131 in the state confirming unit 130 does not exceed a certain threshold in the fourth step S4 (NO), the main processor 200 enters the state. The status data '0' is stored in the start verification unit 131 in the verification unit 130 (S5).

Then, the main processor 200 determines whether or not a normal power shutdown signal is input (S6).

At this time, if the normal power-off signal is received in the sixth step S6 (YES), the main processor 200 stores data '0' in the termination checker 132 in the state checker 130. (S7).

On the other hand, if the data storage capacity of the start confirming unit 131 in the state confirming unit 130 exceeds a certain threshold (YES) in the fourth step S4, the main processor 200 determines the state checking unit. All data of the 130 is reset to '1' (S8).

On the other hand, when the physical power interruption is received in the fifth step S5 (NO), the main processor 200 sends data '1' to the termination checker 132 in the status checker 130. Hold (S9).

On the other hand, if the number of state data '0' stored in the state checking unit 130 in the flash ROM 100 is not equal (NO) in the first step S1 (NO), the main processor 200 causes the flash ROM. All data stored in the 100 are searched (S10).

Subsequently, the main processor 200 organizes all data stored in the nonvolatile data storage 120 (S11).

The main processor 100 searches for data stored in the nonvolatile data storage 120 (S12).

Subsequently, the main processor 200 reads the initialization data designated in the nonvolatile data storage unit 120 and simultaneously converts the termination state data '1' to '0' in the termination confirmation unit 132 (S13). ).

As described above, according to the apparatus and method for initializing a mobile communication terminal according to the present invention, there is an excellent effect of speeding up the initialization speed by not performing an unnecessary search process in the initializing process of the mobile communication terminal.

Claims (6)

A flash ROM comprising a program storage unit for storing program data used in the mobile communication terminal, a nonvolatile data storage unit for storing initialization data, and a state checking unit for storing start / end state data of the mobile communication terminal in units of bits; When the power of the mobile communication terminal is applied according to the operator's power key selection from the keypad input unit, the start / end state data of the state checking unit is searched and if the normal state is read, the initialization data specified in the flash ROM is read and output. A main processor for arranging all data data stored in the flash ROM and reading only the initialization data if the search result of the start / end status data of the status check unit is abnormal; And And a data memory configured to receive and store initialization data from the main processor. The method of claim 1, The status checking unit receives and stores the starting state data '0' from the main processor when the terminal starts normally, and maintains the starting state data '1' when the starting is abnormal. And If the terminal is normally terminated, the terminal receives the termination status data '0' from the main processor and stores it. If the termination is abnormal, the terminal maintains the termination status data '1' and then loads the initialization data of the terminal. And an end confirming unit converting the end state data into '0' and storing the end state data. A first step of determining whether the number of bits '0', which is a bit value of the start / end checker in the status checker, is equal when the main processor receives power from the keypad input unit; A second step of reading, by the main processor, non-volatile memory storage unit in the flash ROM and reading designated initialization data if the number of state data '0' stored in the flash ROM state checking unit is the same in the first step; A third step of the main processor loading specified initialization data into a data memory; A fourth step of determining, by the main processor, whether or not the data storage capacity of the start confirmation unit in the state confirmation unit exceeds a threshold; A fifth step of storing, by the main processor, start state data '0' in the start confirming unit if the data storage capacity of the start confirming unit in the state confirming unit does not exceed a threshold in the fourth step; A sixth step of determining, by the main processor, whether a normal power shutdown signal has been input according to the operator's power key selection; And In the sixth step, if the normal power shutdown signal is input according to the operator's power key selection, the main processor comprises a seventh step of storing the termination status data '0' in the termination confirmation unit in the status confirmation unit. Mobile terminal initialization method. The method of claim 3, wherein And in the fourth step, when the data storage capacity of the start confirming unit exceeds a threshold, the main processor further comprises an eighth step of resetting all data of the state confirming unit to '1'. Initialization method. The method of claim 3 And receiving a physical power shutdown interrupt in the sixth step, the main processor further comprising a ninth step of maintaining data '1' in the termination check unit in the status check unit. . The method of claim 3, wherein A tenth step of the main processor retrieving all data stored in the flash ROM when the number of state data '0' stored in the flash ROM status check unit is not equal to each other in the first step; An eleventh step of the main processor arranging all data stored in the nonvolatile data storage unit; A twelfth step of the main processor retrieving data stored in the nonvolatile data storage unit; And And a thirteenth step in which the main processor reads the initialization data designated in the nonvolatile data storage unit and simultaneously converts the termination state data '1' into '0' in the termination confirmation unit. How to initialize the terminal.