KR100620732B1 - Mobile communication terminal and Booting Method for the terminal - Google Patents

Abstract

The present invention relates to a mobile communication terminal, and more particularly to a booting technology of the mobile communication terminal. A mobile communication terminal according to the present invention comprises: a NAND memory including a boot loader and firmware having an operating system; An SDRAM in which a booting process is performed by copying and executing the firmware by executing the boot loader; A power key input determination unit determining whether a power on key signal is input at a specified time point at least one time point when the power-on key power is turned on; And a boot processing unit for executing the boot loader when there is a power on key signal input at every designated time as a result of the determination by the power key input determining unit.

Mobile terminal, boot, NAND, SDRAM

Description

Mobile communication terminal and booting method for the terminal

1 is a block diagram schematically showing a configuration required for booting a mobile communication terminal according to an embodiment of the present invention.

FIG. 2 is a structural diagram of an embodiment of a flash memory and an SDRAM included in the memory shown in FIG. 1; FIG.

3 is a block diagram schematically showing a configuration required for booting a mobile communication terminal according to another embodiment of the present invention;

4 is a structural diagram of an embodiment of a flash memory and an SDRAM included in the memory shown in FIG.

5 is a flowchart illustrating a boot processing method of a mobile communication terminal according to an embodiment of the present invention.

6 is a flowchart illustrating a boot processing method of a mobile communication terminal according to another embodiment of the present invention.

The present invention relates to a mobile communication terminal, and more particularly to a booting technology of the mobile communication terminal.

Currently, mobile terminals, especially mobile phones, generally have three types of folders, bars, and slides. Among the non-folder-type bars or slide-type phones, the power key for the power-on command is protruded to the outside, and may be caused to turn on again by pressing the power key while the phone is turned off. In addition, the mobile phone may be rebooted due to a malfunction when it is powered off. As a result, mobile phone users may experience difficulties in libraries or conference rooms where quietness is required.

Accordingly, the present applicant has sought ways to enable more flexible processing in software without adding a separate hardware configuration in order to prevent unwanted key press and reboot due to the hardware structure of the mobile phone.

The present invention has been made to solve this problem, and an object thereof is to prevent booting of a mobile communication terminal caused by an undesired power key press.

In addition, an object of the present invention is to prevent a reboot due to a malfunction when the mobile terminal is turned off.

According to an aspect of the present invention, a mobile communication terminal is powered on when a power key is pressed in a power-off state, and determines whether a power key is pressed at a designated time point after a predetermined time. As a result of the determination, when the power key is pressed, it is determined that the user is a normal power key operation, and the boot process using the NAND booting method is performed.

According to this aspect of the present invention, the mobile communication terminal can prevent booting due to undesired pressing of the power key.

According to another aspect of the present invention, the mobile communication terminal determines whether it is a reset request through a specific address value of the SDRAM when it is powered on, and performs a booting when the reset request is made. If it is not a reset request, it is determined whether the power key is pressed at a designated time. As a result of the determination, when the power key is pressed, it is determined that the user is a normal power key operation, and the boot process using the NAND booting method is performed.

According to this aspect of the present invention, the mobile communication terminal can not only prevent booting due to undesired pressing of the power key, but can also normally handle booting by reset in such a booting algorithm.

The foregoing and further aspects of the present invention will become more apparent through the preferred embodiments described with reference to the accompanying drawings. Hereinafter, the present invention will be described in detail to enable those skilled in the art to easily understand and reproduce the present invention.

1 is a block diagram schematically showing a configuration required for booting a mobile communication terminal according to an embodiment of the present invention. The mobile communication terminal according to the present invention is applied to the NAND booting method, and includes a memory 100, a power key input determiner 110, and a boot processor 120. First, NAND booting is a method of booting a mobile communication terminal employing NAND type flash memory. The boot loader of flash memory copies firmware to SDRAM to execute booting of the terminal. To deal with.

For reference, flash memory is divided into NOR type and NAND type. NOR-type flash memory is designed in a parallel structure, and the writing speed is slow but the reading speed is widely used for booting a mobile terminal, but it has a disadvantage of being expensive. On the other hand, NAND-type flash memory is designed as a serial structure, and the read speed is fast for writing data, so it is advantageous for miniaturization design. The NAND type flash memory applied to the mobile communication terminal according to the present invention is unable to execute its own firmware so that the terminal is booted by being copied to the SDRAM and executed.

The memory 100 includes NAND type flash memory and SDRAM for boot processing. 2 is a structural diagram according to an embodiment of such a memory. As shown, the NAND-type flash memory stores an operating system and essential applications that play key functions of a mobile communication terminal, and has a code area in which user access is restricted, and a user can easily access a short message / picture / ringtone / game. It consists of an embedded file system (EFS) area.

The code area of the mobile terminal supporting NAND booting is started by a boot loader that is executed first. The boot loader refers to a boot information block (BIB) having basic information about firmware code length and the like and copies the firmware having an operating system and essential applications to the illustrated SDRAM. The firmware copied to the SDRAM is executed to handle the known terminal boot process.

When the power key input determination unit 110 is powered on according to the power on key signal input, the power key input determination unit 110 determines whether there is a power on key signal input at a predetermined time point at least one time point or more. To this end, first, in the terminal power-off state, the control unit, which is the CPU of the terminal, and according to an example, the Qualcomm MSM chip checks whether there is a power-on key signal input to a corresponding general purpose input output (GPIO). That is, the MSM chip checks whether the power key is pressed in the keypad of the terminal. If the power on key signal input is checked, the MSM chip preferably performs power on processing for terminal booting. The power key input determination unit 110 preferably does no work for a predetermined time after the initial power-on key signal input check, but only passes the time. This may be implemented by a For Loop statement according to an example. The power key input determination unit 110 determines whether there is a power on key signal input to the corresponding GPIO of the MSM chip when a predetermined time elapses.

The boot processor 120 performs a boot process or a power-off process according to a result of determining whether a power-on key signal is input to the corresponding GPIO of the MSM chip at a point in time after the power key input determination unit 110 has elapsed. Perform That is, when the power key input determination unit 110 determines that there is a power on key signal input when a predetermined time (for example, 2 seconds) has elapsed, the boot processing unit 120 executes a boot loader to perform a boot process. Will be performed. The executed boot loader copies the firmware to the SDRAM as described above, and the firmware copied to the SDRAM handles the normal booting process by execution. When the power key input determination unit 110 determines that there is no power on key signal input at a point in time, the boot processing unit 120 performs a power off process.

Accordingly, even if the power key is pressed irrespective of the user's intention, the mobile terminal performs a booting process when the power key is pressed even after a predetermined time (for example, 2 seconds), thereby booting according to the unwanted press of the power key. Can be prevented.

However, according to this embodiment, the mobile communication terminal may be pressed again after a predetermined time 2 seconds after being powered on by the power key pressed regardless of the user's intention. In this case, the mobile communication terminal performs a normal booting process. According to another embodiment for preventing this, when the terminal is powered on according to the initial power-on key signal input, the power key input determination unit 110 determines whether there is a power-on key signal input at a plurality of times. For example, after the power key input determination unit 110 is powered on according to the initial power-on key signal input, the power-on key multiple times such as 1 second, 2 seconds, 2.5 seconds, 3 seconds, etc. It is to judge whether there is signal input. When the power-on key signal is input at all times, the boot processor 120 performs a boot process by executing a boot loader of the memory 100.

Accordingly, even if the power key is pressed irrespective of the user's intention, the mobile terminal performs a booting process when the power key is pressed for a predetermined time, thereby preventing booting due to undesired pressing of the power-on key. Will be.

3 is a block diagram schematically showing a configuration required for booting a mobile communication terminal according to another embodiment of the present invention. As shown, the mobile communication terminal to which the NAND booting scheme is applied includes a memory 300, a reset approval processor 310, a power key input determiner 320, and a boot processor 330. The memory 300 is shown in FIG. 4 according to an embodiment. The memory 300 is basically the same as the memory structure of FIG. 2 as described above, and has a difference in a boot process.

The difference is that the firmware copied and executed in the SDRAM by the boot loader in FIG. 4 writes a value for the reset acknowledgment to a specific address of the SDRAM during the booting process. A value for acknowledging a reset is a kind of authentication value that allows booting to proceed normally when the terminal is reset. This value may preferably be a specific binary value specified among the binary values of the boot loader. The firmware writes the specific binary value of the boot loader to the specified specific address in the SDRAM during the boot process.

Next, before the reset approval processing unit 310 is described, first, the reset is performed when the NAM (Number Assignment Module) parameter of the terminal is set in the normal power-on maintenance state of the terminal or when the firmware required for updating is newly downloaded and set. If the case is made. When the mobile communication terminal is powered off by a reset for a short time and then powered on again, the reset acknowledgment processor 310 refers to a value for the reset acknowledgment recorded at a specific address of the SDRAM as shown in FIG. Determine if it is a request. Preferably, the reset acknowledgment processor 310 compares whether the specific address value of the SDRAM and the specific binary value of the boot loader are the same and approves whether it is a normal reset. When the terminal is powered off, the SDRAM erases all the stored values at power-on, but keeps the values for a few seconds. Therefore, in case of reset, the SDRAM maintains the values recorded by the firmware at the specified address. .

The power key input determination unit 320 performs the same processing as that of the power key input determination unit 110 of FIG. 2 when the reset result of the approval in the reset approval processing unit 310 is not performed. In addition, the boot processing unit 330 determines that the reset result of the approval in the reset approval processing unit 310 is performed, or that the power-on key signal input is present at all of the specified time points at least one or more times as a result of the determination by the power key input determination unit 320. If the same, the same boot process as the boot processor 120 of FIG.

The mobile communication terminal to which the booting processing technology according to the aspect of the present invention is applied has a characteristic that booting is performed when it is powered on, and it is possible not only to prevent booting due to undesired pressing of the power key, but also to power on by reset. By acknowledging whether or not it is a normal reset, booting by reset can also be processed normally.

The mobile communication terminal according to an additional aspect of the present invention further includes a reset prevention processor 340. When a key signal or a voice signal for a power-off command of the terminal is input, the reset protection processor 340 is configured to prevent reset at a specific address of the SDRAM shown in FIG. 4 (the address where the above boot approval value is recorded). Process the value to be recorded. Preferably, the firmware that is copied and executed in the SDRAM determines that a key signal or a voice signal for the terminal power-off command is input from the reset protection processor 340 to record a boot prevention value at a specific address. The value for boot protection written to a specific address becomes the value for invalid (wrong) boot acknowledgment.

According to this aspect of the present invention, when the mobile communication terminal is powered off, even if it is powered on again due to a malfunction, it is possible to prevent booting.

5 is a flowchart illustrating a boot processing method of a mobile communication terminal according to an exemplary embodiment of the present invention. In the power-off state, the mobile communication terminal checks whether there is a power on key signal input for powering on the terminal (step 500). This is to check whether a signal is input to a control unit, preferably an MSM chip, which is a CPU of the mobile communication terminal to a corresponding general purpose input output (GPIO). If the power on key signal input is checked, the mobile communication terminal is powered on to execute the boot processing algorithm according to the present invention. The boot processing algorithm first processes elapsed time without performing any operation (step 502). In other words, the boot process is delayed for a predetermined time. This delay can be implemented by using a for loop statement.

At the time when the specified time elapses, the power key input determination unit 110 determines whether a power on key signal is input (step 504). Steps 502 and 504 may be processed as many times as needed as described above. If there is a power-on key signal input as a result of the determination, the boot processing unit 120 processes booting (step 506). When the booting is completed, the mobile communication terminal enters a call waiting state in an idle state and maintains the state (step 508). In the call waiting state, the user can use the call function and various application functions. The mobile terminal determines whether a power-off signal is input by a user's power-off key operation or the like, and if there is a power-off signal input, the function is terminated by performing a power-off process (step 510) (step 512).

According to this aspect of the present invention, the mobile communication terminal can prevent booting due to undesired pressing of the power key.

6 is a flowchart illustrating a boot processing method of a mobile communication terminal according to another embodiment of the present invention. First, the mobile terminal determines whether there is a power on command (step 600). The power on command of the mobile communication terminal may be made by a user's power key manipulation in a normal power off state, and may be made by a reset command. If there is a power on command, the mobile communication terminal is powered on to execute the boot processing algorithm according to the present invention. The boot processing algorithm first processes only elapsed time without performing any operation (step 602). Next, the reset approval processing unit 310 determines whether the boot process to be processed is caused by a reset command as the power is turned on (step 604). Since the determination process in step 604 is the approval process of the above-described reset approval processing unit 310, duplicate description thereof will be omitted. The post-processing of steps 602 and 604 may be a freezing step first.

If the reset is approved, the boot processor 330 processes the boot by executing the boot loader of the memory 300 (step 606). The executed boot loader copies the firmware into the SDRAM, and the firmware executed by copying to the SDRAM handles the booting process. The firmware writes a value for the reset acknowledgment to a specific address of the SDRAM shown in FIG. 4 during the boot process. When the booting is completed, the mobile communication terminal enters the idle call waiting state and maintains the state (step 608).

If the reset is not approved in step 604, the power key input determination unit 320 determines whether a power on key signal is input (step 610). The power on key signal input determination may be made as many times as necessary as described above. If it is determined that there is a power-on key signal input (if it is done several times, all cases must be satisfied), steps 606 and 608 described above are performed. If there is no power on key signal input as a result of the determination in step 610, the terminal is powered off.

In step 608, the mobile communication terminal determines whether a power-off signal is input by a user's power-off key operation or the like. If there is a power-off signal input, the mobile terminal preferably copies and executes the firmware to a specific address of the SDRAM. The value for preventing the reset is recorded (step 612) (step 614). Next, the mobile terminal terminates the function by the power-off process (step 616).

According to this aspect of the present invention, the booting algorithm executed after the mobile terminal is powered on determines whether the power key is continuously pressed before the actual booting process, thereby preventing booting due to unintended power key pressing by processing the booting. In addition, when the power is turned on by the reset, it is possible to boot normally even in the case of a reset by determining whether the boot is performed by the reset before determining whether the power key is kept pressed.

As described above, the mobile communication terminal according to the present invention can prevent booting due to unintentional power key press by processing booting by determining whether the power key is continuously pressed before the actual booting process after being powered on. When the power is turned on by the reset, it is possible to process the boot normally even when the reset is performed by determining whether the boot is performed by the reset before determining whether the power key is kept pressed.

In addition, when the mobile communication terminal is powered off, even if it is powered on again due to a malfunction, it is possible to prevent booting.

On the other hand, the present invention has been described with reference to the embodiments shown in the drawings, which are merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be defined only by the appended claims.

Claims (8)

A booting method of a mobile communication terminal employing a NAND booting method including a boot loader and firmware stored in a code area of a NAND memory, a) determining whether there is a power-on key signal input at a specified time point at least one or more times when it is powered on according to the power-on key signal input; c) executing the boot loader if there is a power on key signal input at every designated time as a result of the determination; d) copying the firmware to SDRAM by the executed boot loader; e) executing the firmware copied to the SDRAM to process a booting process; Boot processing method of a mobile communication terminal comprising a. A booting method of a mobile communication terminal employing a NAND booting method including a boot loader and firmware stored in a code area of a flash memory, a) determining whether it is a reset request by referring to a fixed specific address value of the SDRAM when it is powered on; b) executing the boot loader if it is a reset request according to a determination result; c) determining whether there is a power-on key signal input at a specified time point at least one time point, if not a reset request according to the determination result; d) executing the boot loader if there is a power on key signal input at every designated time as a result of the determination in step c); e) copying the firmware to the SDRAM by the executed boot loader; f) executing the firmware copied to the SDRAM to process a booting process, and writing a value for a reset request to the specific address; Boot processing method of a mobile communication terminal comprising a. The booting method of claim 2, wherein the value for the reset request recorded at the specific address is a specific binary value of the boot loader. The method of claim 2 wherein the method is: g) when the power-off signal is input, the firmware copied to the SDRAM writes a value to prevent the reset at the specific address. In the mobile communication terminal employing the NAND booting method, A NAND memory including a boot loader and firmware having an operating system; An SDRAM in which a booting process is performed by copying and executing the firmware by executing the boot loader; A power key input determination unit determining whether a power on key signal is input at a specified time point at least one time point when the power-on key power is turned on; A boot processor configured to execute the boot loader when a power-on key signal is input at every designated time point as a result of the determination by the power key input determiner; Mobile communication terminal comprising a. In the mobile communication terminal employing the NAND booting method, A NAND memory including a boot loader and firmware having an operating system; An SDRAM in which a booting process is processed by copying and executing the firmware by execution of the boot loader, and writing a value for a reset approval request at a specific address by the firmware; A reset acknowledgment processor which, when powered on, approves the reset with reference to the specific address value; A power key input determination unit determining whether there is a power-on key signal input at a specified time point at least one or more times when the reset result of the reset approval processing unit is not approved; A boot processing unit which executes the boot loader when a reset approval is performed as a result of the determination of the reset approval processing unit or when a power on key signal is input at every designated time as a result of the determination of the power key input determination unit; Mobile communication terminal comprising a. The mobile communication terminal of claim 6, wherein a value for the reset approval recorded at the specific address is a specific binary value of the boot loader. The terminal of claim 6, wherein the terminal is: A reset prevention processor configured to process a value for preventing reset at the specific address when a power off signal is input; A mobile communication terminal further comprising.

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