CN106339213B - Control method and system for preventing card burning during starting of mobile terminal - Google Patents

Abstract

The invention relates to the technical field of mobile terminals, and discloses a control method and a system for preventing card burning when a mobile terminal is started, wherein the method comprises the following steps: setting a storage bit specially used for identifying a starting-up reason in a power-down nonvolatile memory of a mobile terminal in advance; detecting the starting-up state of the mobile terminal when the mobile terminal is started up; when the mobile terminal detects that the starting state is a dead halt state, the SD card power supply voltage is started to be in a normal mode to prevent burning out of the SD card, and when the mobile terminal detects that the starting state is a normal starting state, the SD card power supply voltage is started to be in a normal mode. When the mobile terminal detects that the starting state is a dead halt, the SD card power supply voltage is started to be in a normal supply mode, so that the problem that the SD card is burnt out due to the fact that other pins in the SD card touch the power supply pins of the SD card when the SD card is plugged and pulled out, the mobile terminal vibrates, drops and the like in the starting process is solved.

Description

Control method and system for preventing card burning during starting of mobile terminal

Technical Field

The invention relates to the technical field of mobile terminals, in particular to a control method and a control system for preventing card burning when a mobile terminal is started.

Background

In order to effectively analyze the cause of the crash, a field storage mechanism is added to the mobile terminal by a mobile terminal manufacturer, that is, when the mobile terminal detects the crash, the mobile terminal is restarted, and then the crash related data information in the previous memory is stored in the SD card (because the current large-capacity memory is generally used and there are several G's, the information in the memory can only be stored in the SD card).

Due to the large storage capacity, half a minute is generally needed to store all the contents in the memory into the SD card, and the power requirements of the SD card are normally supplied in the process. This has a problem that if the SD card is displaced in the card slot due to insertion and extraction of the SD card, vibration of the mobile terminal, dropping, and the like, other pins in the SD card may touch the power supply pins of the SD card, and the SD card may be burned out.

Therefore, the prior art still needs to be improved and developed to address the above drawbacks.

Disclosure of Invention

The invention aims to solve the technical problem that when the mobile terminal detects that the starting state is a dead halt state, the SD card power supply voltage is started to be in a normal supply mode, so that the problem that the SD card is burnt out due to the fact that other pins in the SD card touch power supply pins of the SD card when the SD card is plugged in and pulled out, the mobile terminal vibrates and falls off and the like in the starting process is solved.

The technical scheme adopted by the invention for solving the technical problem is as follows:

a control method for preventing card burning when a mobile terminal is started comprises the following steps:

step A, detecting the starting-up state of the mobile terminal when the mobile terminal is started up;

and step B, when the mobile terminal detects that the starting state is a halt state, starting the power supply voltage of the SD card to be in a normal supply mode, namely setting the power supply voltage of the SD card to be uninterruptedly supplied until relevant data information of the halt state is completely stored in the SD card, and preventing the SD card from being burnt out.

The control method for preventing the card burning when the mobile terminal is started up further comprises the following steps before the step A:

and S, setting a storage bit specially used for identifying the starting reason in a power-down nonvolatile memory of the mobile terminal in advance.

The control method for preventing the card burning when the mobile terminal is started up further comprises the following steps after the step B:

step C, after the mobile terminal is started, the storage bit specially used for identifying the starting reason in the power-down loss-proof memory is set to be 0, namely the mobile terminal is started in a halt mode;

and D, when the mobile terminal is powered off, setting the storage bit specially used for identifying the starting reason in the power-down loss-proof memory to be 1, namely normally starting the mobile terminal.

The control method for preventing the card burning when the mobile terminal is started up comprises the following specific steps:

a1, distinguishing and setting a startup state in advance, wherein the startup state comprises: normal starting and dead starting, wherein 1 represents normal starting, and 0 represents dead starting;

and A2, detecting the power-on state of the mobile terminal when the mobile terminal is powered on and recording and storing the power-on state after the power-on state is set.

The control method for preventing the card burning when the mobile terminal is started up is characterized in that the step B specifically comprises the following steps:

b1, when the mobile terminal detects that the power-on state is a dead halt, the mobile terminal is restarted, then relevant data information of the dead halt is stored in the SD card, and in the process of storing the data information, the power supply voltage of the SD card is started to be in a normal supply mode;

b2, when the mobile terminal detects that the power-on state is normal power-on, it does not need to store data information in the SD card, and then starts the SD card power supply voltage to be normal mode, i.e. it does not need to start the SD card power supply voltage to be normal mode.

The control method for preventing the card burning when the mobile terminal is started up is characterized in that the normal supply mode is set to enable the power supply voltage of the SD card to be supplied continuously until the related data information of the crash is completely stored in the SD card; and the normal mode is set to enable the power supply voltage of the SD card to be supplied by the restarted system according to the normal state.

A control system for preventing card burning when a mobile terminal is started up comprises:

the system comprises a presetting module, a starting-up reason storage module and a judging module, wherein the presetting module is used for presetting a storage bit specially used for marking a starting-up reason in a power-down nonvolatile memory of the mobile terminal;

the starting-up detection module is used for detecting the starting-up state of the mobile terminal when the mobile terminal is started up;

the power supply mode selection module is used for starting the SD card power supply voltage to be in a normal power supply mode when the mobile terminal detects that the starting state is a halt state, namely the power supply voltage of the SD card is continuously provided until relevant data information of the halt state is completely stored in the SD card, and the SD card is prevented from being burnt out;

the first identification module is used for setting a storage bit which is specially used for identifying a starting-up reason in the power-down loss-proof memory to be 0 after the mobile terminal is started up, namely, the mobile terminal is started up in a halt mode;

and the second identification module is used for setting the storage bit which is specially used for identifying the starting reason in the power-down memory to be 1 when the mobile terminal is powered off, namely, the mobile terminal is normally started.

The mobile terminal is started up and is prevented from burning the control system of the card, wherein, the starting up detection module specifically includes:

the starting-up state setting unit is used for distinguishing and setting starting-up states in advance, and the starting-up states comprise: normal starting and dead starting, wherein 1 represents normal starting, and 0 represents dead starting;

and the recording and storing unit is used for detecting the starting-up state of the mobile terminal when the mobile terminal is started up and recording and storing the starting-up state after the starting-up state is set.

The mobile terminal is started up and the card burning is prevented, wherein the power supply mode selection module specifically comprises:

the first power supply unit is used for restarting the mobile terminal when the mobile terminal detects that the starting state is a dead halt, then storing relevant data information of the dead halt into the SD card, and starting the power supply voltage of the SD card to be in a normal supply mode in the process of storing the data information;

and the second power supply unit is used for starting the SD card power supply voltage to be in a normal mode when the mobile terminal detects that the starting state is normal starting without storing data information in the SD card, namely the SD card power supply voltage is not required to be started to be in a normal supply mode.

The invention discloses a control method and a system for preventing card burning when a mobile terminal is started, wherein the method comprises the following steps: setting a storage bit specially used for identifying a starting-up reason in a power-down nonvolatile memory of a mobile terminal in advance; detecting the starting-up state of the mobile terminal when the mobile terminal is started up; when the mobile terminal detects that the starting state is a dead halt state, the SD card power supply voltage is started to be in a normal mode to prevent burning out of the SD card, and when the mobile terminal detects that the starting state is a normal starting state, the SD card power supply voltage is started to be in a normal mode. When the mobile terminal detects that the starting state is a dead halt, the SD card power supply voltage is started to be in a normal supply mode, so that the problem that the SD card is burnt out due to the fact that other pins in the SD card touch the power supply pins of the SD card when the SD card is plugged and pulled out, the mobile terminal vibrates, drops and the like in the starting process is solved.

Drawings

FIG. 1 is a flowchart illustrating a control method for preventing card burn when a mobile terminal is powered on according to an embodiment of the present invention.

FIG. 2 is a functional block diagram of a control system for preventing card burn when a mobile terminal is powered on according to a preferred embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, fig. 1 is a flowchart illustrating a control method for preventing card burn when a mobile terminal is powered on according to a preferred embodiment of the present invention.

As shown in fig. 1, a method for controlling a mobile terminal to prevent card burning during power-on according to an embodiment of the present invention includes the following steps:

step S100, the mobile terminal is started to detect the starting state.

The SD card power supply voltage must be used for storing the data information capacity of the memory at the time of crash for a period of time (generally 30 seconds) during startup; the situation that the SD card is powered for a long time of 30 seconds when the SD card is started up (unless the function of saving the memory content during the crash is turned off) is experienced no matter the SD card is restarted due to the crash trigger or the SD card is normally started up; if the SD card is inserted or pulled out, and the mobile terminal vibrates and falls down within the 30 seconds, and the SD card is displaced in the card slot, other pins in the SD card may touch the power supply pins of the SD card, so that the SD card may be burned out.

In the invention, the abnormal condition of crash frequently occurs in the use process of the mobile terminal, so a data storage mechanism is generally added in the mobile terminal, namely when the mobile terminal detects the crash, the mobile terminal is restarted, and then the crash related data information in the previous memory is stored in the SD card, so that a mobile terminal manufacturer can conveniently derive the data information through the SD card to carry out background analysis, and the subsequent crash phenomenon of the mobile terminal is avoided as much as possible, so that the startup state is detected when the mobile terminal is started, and whether the startup reason is caused by the crash reason or not is detected.

The power-down memory with low possibility of losing is a FLASH or EMMC. The main function of the memory is to store programs and various data and to realize the access of programs or data automatically and at high speed during the operation of the computer. A memory is a device with a "memory" function that uses physical devices with two stable states, also called memory elements, to store information, in a computer using a binary system with only two numbers "0" and "1" to represent data. The two stable states of the memory element are denoted as "0" and "1", respectively. FLASH memory is a kind of non-volatile memory, and can hold data for a long time even without current supply, and its storage characteristic is equivalent to hard disk, and this characteristic is the basis of FLASH memory becoming storage medium of various portable digital devices. The EMMC is mainly a standard specification of an embedded memory for products such as a mobile phone or a tablet computer, and one obvious advantage of the EMMC is that a controller is integrated in a package, which provides a standard interface and manages a flash memory. The memory is divided into a power-down volatile memory and a power-down non-volatile memory, wherein the power-down volatile memory is used for storing written data only by supplying power, and once the power supply is interrupted, the data is not stored, and the power-down non-volatile memory is used for storing the written data all the time without any power supply.

The step S100 specifically includes: the method comprises the following steps of distinguishing and setting starting states in advance, wherein the starting states comprise: normal starting and dead starting, wherein 1 represents normal starting, and 0 represents dead starting; and after the starting state is set, detecting the starting state of the mobile terminal when the mobile terminal is started, and recording and storing the starting state.

Step S200, when the mobile terminal detects that the starting state is a halt state, the SD card power supply voltage is started to be in a normal supply mode, namely the SD card power supply voltage is set to be continuously supplied until relevant data information of the halt state is completely stored in the SD card, and the SD card is prevented from being burnt out.

As can be seen from the above, the boot-up reason includes two types, namely normal boot-up and crash boot-up, which are respectively distinguished by 1 and 0, when the mobile terminal detects that the power-down nonvolatile memory is used for identifying the storage bit of the boot-up reason as 0, it can be judged that the boot-up reason is caused by crash, and then the SD card power supply voltage is started to be in the normal supply mode, so as to prevent the SD card from being burned out; when the mobile terminal detects that the power-down nonvolatile memory is used for identifying the storage bit of the starting reason to be 1, the mobile terminal can judge that the restarting reason is normal starting, and then the SD card power supply voltage is started to be in a normal mode.

The step S200 specifically includes: when the mobile terminal detects that the starting state is a dead halt, the mobile terminal is restarted, then relevant data information of the dead halt is stored in the SD card, and in the process of storing the data information, the power supply voltage of the SD card is started to be in a normal supply mode; when the mobile terminal detects that the starting state is normal starting, the SD card is started to be in a normal mode without storing data information in the SD card, namely the SD card is not started to be in a normal supply mode.

The normal supply mode is set to enable the power supply voltage of the SD card to be supplied continuously until the related data information of the crash is completely stored in the SD card; and the normal mode is set to enable the power supply voltage of the SD card to be supplied by the restarted system according to the normal state.

After the step S200, the method further includes: after the mobile terminal is started, the storage bit specially used for identifying the starting reason in the power-down loss-proof memory is set to be 0, namely the mobile terminal is started in a halt mode; when the mobile terminal is powered off, the storage bit specially used for identifying the starting reason in the power-down memory is set to be 1, namely, the mobile terminal is normally started.

Therefore, when the mobile terminal is restarted in the following process, namely the mobile terminal is restarted, whether the starting-up reason is caused by the crash of the mobile terminal can be judged by identifying whether the storage bit setting of the starting-up reason in the power-down nonvolatile memory is 0 or 1.

Based on the above embodiments, the present invention further provides a control system for preventing card burning when the mobile terminal is powered on, please refer to fig. 2, where fig. 2 is a functional schematic block diagram of a preferred embodiment of the control system for preventing card burning when the mobile terminal is powered on.

As shown in fig. 2, the system includes:

the presetting module 210 is used for presetting a storage bit specially used for identifying a starting reason in a power-down nonvolatile memory of the mobile terminal; as described above.

A power-on detection module 220, configured to detect a power-on state of the mobile terminal when the mobile terminal is powered on; as described above.

A power supply mode selection module 230, configured to start a SD card power supply voltage to be a normal supply mode when the mobile terminal detects that the power-on state is a dead halt, so as to prevent burning out the SD card, and start the SD card power supply voltage to be a normal mode when the mobile terminal detects that the power-on state is a normal power-on state; as described above.

The first identification module 240 is configured to set a storage bit, which is used for identifying a boot reason, in the power-down memory to 0 after the mobile terminal is booted, that is, the mobile terminal is booted in a halt mode; as described above.

The second identification module 250 is configured to set a storage bit, which is used for specifically identifying a power-on reason, in the power-down memory to 1 when the mobile terminal is powered off, that is, the mobile terminal is normally powered on; as described above.

Further, the mobile terminal powers on the control system for preventing card burn, wherein the power on detection module specifically includes:

the starting-up state setting unit is used for distinguishing and setting starting-up states in advance, and the starting-up states comprise: normal starting and dead starting, wherein 1 represents normal starting, and 0 represents dead starting; as described above.

The recording and storing unit is used for detecting the starting-up state of the mobile terminal when the mobile terminal is started up and recording and storing the starting-up state after the starting-up state is set; as described above.

The mobile terminal is started up and the card burning is prevented, wherein the power supply mode selection module specifically comprises:

the first power supply unit is used for restarting the mobile terminal when the mobile terminal detects that the starting state is a dead halt, then storing relevant data information of the dead halt into the SD card, and starting the power supply voltage of the SD card to be in a normal supply mode in the process of storing the data information; as described above.

The second power supply unit is used for starting the SD card power supply voltage to be in a normal mode when the mobile terminal detects that the starting state is normal starting without storing data information in the SD card, namely the SD card power supply voltage is not required to be started to be in a normal supply mode; as described above.

The mobile terminal is started up to prevent the card from being burnt, wherein the normal supply mode is set to enable the power supply voltage of the SD card to be supplied continuously until the related data information of the crash is completely stored in the SD card; the normal mode is set to enable the power supply voltage of the SD card to be supplied by the restarted system according to the normal state; as described above.

In summary, the present invention discloses a control method and system for preventing card burn when a mobile terminal is powered on, wherein the method comprises: setting a storage bit specially used for identifying a starting-up reason in a power-down nonvolatile memory of a mobile terminal in advance; detecting the starting-up state of the mobile terminal when the mobile terminal is started up; when the mobile terminal detects that the starting state is a dead halt state, the SD card power supply voltage is started to be in a normal mode to prevent burning out of the SD card, and when the mobile terminal detects that the starting state is a normal starting state, the SD card power supply voltage is started to be in a normal mode. When the mobile terminal detects that the starting state is a dead halt, the SD card power supply voltage is started to be in a normal supply mode, so that the problem that the SD card is burnt out due to the fact that other pins in the SD card touch the power supply pins of the SD card when the SD card is plugged and pulled out, the mobile terminal vibrates, drops and the like in the starting process is solved.

Of course, it will be understood by those skilled in the art that all or part of the processes of the methods of the above embodiments may be implemented by a computer program instructing relevant hardware (such as a processor, a controller, etc.), and the program may be stored in a computer readable storage medium, and when executed, the program may include the processes of the above method embodiments. The storage medium may be a memory, a magnetic disk, an optical disk, etc.

It is to be understood that the invention is not limited to the examples described above, but that modifications and variations may be effected thereto by those of ordinary skill in the art in light of the foregoing description, and that all such modifications and variations are intended to be within the scope of the invention as defined by the appended claims.

Claims (8)

1. A control method for preventing card burning when a mobile terminal is started is characterized by comprising the following steps:

step A, detecting the starting-up state of the mobile terminal when the mobile terminal is started up;

step B, when the mobile terminal detects that the starting state is a halt state, the SD card power supply voltage is started to be in a normal supply mode, namely the SD card power supply voltage is set to be continuously supplied until relevant data information of the halt state is completely stored in the SD card, and the SD card is prevented from being burnt out;

the step B specifically comprises the following steps:

b1, when the mobile terminal detects that the power-on state is a dead halt, the mobile terminal is restarted, then relevant data information of the dead halt is stored in the SD card, and in the process of storing the data information, the power supply voltage of the SD card is started to be in a normal supply mode;

b2, when the mobile terminal detects that the power-on state is normal power-on, it does not need to store data information in the SD card, and then starts the SD card power supply voltage to be in the normal mode, i.e. it does not need to start the SD card power supply voltage to be in the normal mode;

when the mobile terminal detects that the power-down nonvolatile memory is used for identifying the storage bit of the starting-up reason is 0, judging that the restarting reason is caused by the crash, and starting the power supply voltage of the SD card to be in a normal supply mode to prevent the SD card from being burnt out; when the mobile terminal detects that the power-down nonvolatile memory is used for identifying the storage bit of the starting-up reason to be 1, judging that the restarting reason is normal starting, and starting the power supply voltage of the SD card to be in a normal mode.

2. A method for controlling a mobile terminal to prevent card burn when being powered on according to claim 1, further comprising before the step a:

and S, setting a storage bit specially used for identifying the starting reason in a power-down nonvolatile memory of the mobile terminal in advance.

3. The method for controlling power-on of a mobile terminal to prevent burn-in of a card according to claim 1, further comprising, after the step B:

step C, after the mobile terminal is started, the storage bit specially used for identifying the starting reason in the power-down loss-proof memory is set to be 0, namely the mobile terminal is started in a halt mode;

and D, when the mobile terminal is powered off, setting the storage bit specially used for identifying the starting reason in the power-down loss-proof memory to be 1, namely normally starting the mobile terminal.

4. The method for controlling power-on of a mobile terminal to prevent card burn according to claim 1, wherein the step a specifically comprises:

a1, distinguishing and setting a startup state in advance, wherein the startup state comprises: normal starting and dead starting, wherein 1 represents normal starting, and 0 represents dead starting;

and A2, detecting the power-on state of the mobile terminal when the mobile terminal is powered on and recording and storing the power-on state after the power-on state is set.

5. The method as claimed in claim 1, wherein the normal mode is configured to enable the SD card power supply voltage to be supplied by the restarted system in a normal state.

6. A control system for preventing card burning when a mobile terminal is started is characterized by comprising:

the starting-up detection module is used for detecting the starting-up state of the mobile terminal when the mobile terminal is started up;

the power supply mode selection module is used for starting the SD card power supply voltage to be in a normal power supply mode when the mobile terminal detects that the starting state is a halt state, namely the power supply voltage of the SD card is continuously provided until relevant data information of the halt state is completely stored in the SD card, and the SD card is prevented from being burnt out;

the power supply mode selection module specifically comprises:

the first power supply unit is used for restarting the mobile terminal when the mobile terminal detects that the starting state is a dead halt, then storing relevant data information of the dead halt into the SD card, and starting the power supply voltage of the SD card to be in a normal supply mode in the process of storing the data information;

the second power supply unit is used for starting the SD card power supply voltage to be in a normal mode when the mobile terminal detects that the starting state is normal starting without storing data information in the SD card, namely the SD card power supply voltage is not required to be started to be in a normal supply mode;

when the mobile terminal detects that the power-down nonvolatile memory is used for identifying the storage bit of the starting-up reason is 0, judging that the restarting reason is caused by the crash, and starting the power supply voltage of the SD card to be in a normal supply mode to prevent the SD card from being burnt out; when the mobile terminal detects that the power-down nonvolatile memory is used for identifying the storage bit of the starting-up reason to be 1, judging that the restarting reason is normal starting, and starting the power supply voltage of the SD card to be in a normal mode.

7. The system for controlling power-on of a mobile terminal to prevent card burn according to claim 6, further comprising:

the system comprises a presetting module, a starting-up reason storage module and a judging module, wherein the presetting module is used for presetting a storage bit specially used for marking a starting-up reason in a power-down nonvolatile memory of the mobile terminal;

the first identification module is used for setting a storage bit which is specially used for identifying a starting-up reason in the power-down loss-proof memory to be 0 after the mobile terminal is started up, namely, the mobile terminal is started up in a halt mode;

and the second identification module is used for setting the storage bit which is specially used for identifying the starting reason in the power-down memory to be 1 when the mobile terminal is powered off, namely, the mobile terminal is normally started.

8. The system for controlling power-on of a mobile terminal to prevent card burn according to claim 6, wherein the power-on detection module specifically comprises:

the starting-up state setting unit is used for distinguishing and setting starting-up states in advance, and the starting-up states comprise: normal starting and dead starting, wherein 1 represents normal starting, and 0 represents dead starting;

and the recording and storing unit is used for detecting the starting-up state of the mobile terminal when the mobile terminal is started up and recording and storing the starting-up state after the starting-up state is set.

Images