KR101180164B1 - Method and apparatus for controlling reset according to power state - Google Patents

Abstract

The present invention relates to a reset control device for an electronic terminal device having a display unit, comprising: a power information management unit for periodically checking a power supply, comparing a power supply value with a threshold value, and setting a reset flag; And an operating system for indicating that the reset flag is impossible to reset to the user through the display unit if the reset flag indicates that the reset flag is not reset.

Operating system, reset

Description

METHOD AND APPARATUS FOR CONTROLLING RESET ACCORDING TO POWER STATE}

1 is a block diagram of an apparatus for controlling reset according to a power state according to an embodiment of the present invention;

2 is a control flowchart for setting a reset flag according to the first embodiment of the present invention;

3 is a diagram illustrating a control flow for controlling reset according to a reset flag set according to FIG. 2;

4 is a control flowchart for setting an interrupt according to a reset terminal according to the second embodiment of the present invention;

5 is a diagram illustrating a control flow for controlling reset according to a reset terminal interrupt set in FIG. 4.

The present invention relates to an apparatus and method for controlling reset in accordance with a power state.

In general, reset means turning all or part of a processor to a predetermined state, which is performed when an error occurs in the processor or when a reset input is selected by a user. The reset function is implemented in most devices equipped with a processor, and is implemented in terminal devices such as PDAs (Personal Digital Assistants) and smart phones.

However, since the terminal device performs booting again when the reset is performed, a voltage drop occurs momentarily during the booting process. When the voltage drops below a predetermined voltage according to the voltage drop, the terminal device does not return to the normal state. The predetermined voltage means power fault or battery fault voltage. In other words, if a reset is performed when the power state is a low voltage state, a problem occurs that the terminal device does not turn on again. Therefore, the terminal device could operate up to a certain time if it remained on without performing a reset, but could not return to the normal state due to the voltage drop caused by the reset.

Accordingly, the present invention provides an apparatus and method for controlling reset according to the current voltage state of a terminal device.

The embodiment of the present invention does not execute the reset even if the user selects the reset input in a power state in which a power fault or a battery fault may occur at the time of reset.

To this end, the present invention provides a reset control device for an electronic terminal device having a display unit, wherein the power information management unit periodically checks a power supply, compares a power supply value with a threshold value, and sets a reset flag, and a reset signal generated in software. And an input system that, when input, indicates that the reset flag is non-resettable, to indicate that the user is non-resettable through the display unit without executing reset.

In addition, the present invention relates to a reset control device for an electronic terminal device having a display unit, comprising: a reset terminal for generating a reset signal when selected by a user, a power supply periodically checked, and a power supply value and a threshold value are compared to a reset terminal; And a power information management unit configured to set an interrupt according to the present invention and to indicate that the user cannot reset through the display unit without executing a reset when the set interrupt is a low power indication interrupt when the reset signal is generated.

Accordingly, the user can know that the power supply is not enough, and can increase the reliability of the terminal device and efficiently manage the power supply.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

1 shows a block diagram of an apparatus for controlling reset according to a power state according to an embodiment of the present invention. The reset control device is provided in a general electronic terminal device. As described above, the electronic terminal device may be a PDA or a smart phone.

Referring to FIG. 1, the reset control device includes a reset terminal 10, an operating system 20, a power supply information management unit 30, a display unit 40, and a power supply unit 50. The reset control device controls reset in software according to the first embodiment and reset in hardware according to the second embodiment.

Referring first to the first embodiment, the power information management unit 30 periodically checks the power and updates the reset flag 22. The reset flag 22 is implemented in the operating system 20 but the invention is not so limited.

In detail, the power information management unit 30 periodically acquires a power value of the power supply unit 50. The power supply unit 50 receives power from the battery and provides power to the terminal device including the reset control device as well as the reset control device. The power information manager 30 compares the power value with the threshold value. This threshold is either a power fault or a battery fault voltage. The power fault voltage or battery fault voltage represents a power supply value when the electronic terminal device can no longer perform normal operation. The power information management unit 30 sets the reset flag 22 according to the result of comparing the power value with the threshold value. For example, when the power value is greater than the threshold value, the power information management unit 30 sets the reset flag to 0 to indicate that it can be reset. When the power value is smaller than the threshold value, the power information management unit 30 sets the reset flag to 1 to indicate that it is impossible to reset. It is apparent to those skilled in the art that the value of the reset flag according to the present invention is not limited to this embodiment and can be implemented in various ways. In this way, the power information management unit 30 periodically checks the power of the power supply unit 50 and sets the reset flag.

When the reset signal is generated by software, the reset signal is input to the offrating system 20. The operating system 20 checks the reset flag 22 when a reset signal generated in software is input. The operating system 20 then looks at the reset flag 22 to determine whether to perform a reset. The operating system 20 performs a reset if the reset flag indicates that it is resettable. If the reset flag indicates that the reset is impossible, the operating system 20 returns without performing a reset. And the operating system 20 instructs the power source information management unit 30 to display on the display unit 40 that the reset is not possible due to lack of power. Accordingly, the power information management unit 30 displays on the display unit 40 that it is impossible to reset due to lack of power.

Next, a second embodiment of the present invention will be described. The power information manager 30 periodically checks the power and then clears the GPIO reset enable bit and generates a power short indication interrupt according to the GPIO reset terminal.

In detail, the power information management unit 30 periodically acquires a power value of the power supply unit 50. The power information manager 30 compares the obtained power value with a threshold value. The power information management unit 30 clears the GPIO reset enable bit when the power value is smaller than the threshold value. Then, the power information management unit 30 sets to generate a low power indication interrupt in accordance with the interrupt generated by this GPIO reset terminal.

The GPIO reset terminal 10 is for receiving a reset input from the user, and when a reset is input by the user, the GPIO reset terminal 10 provides a reset signal to the power information management unit 30. The power information management unit 30 generates an interrupt when a reset signal is generated according to the GPIO reset terminal 10. As described above, the interrupt is set in advance by the power supply information management unit 30 to determine whether it is a reset interrupt or a power short indication interrupt. That is, the power supply information management unit 30 generates a low power indication interrupt if the reset enable bit is cleared, and generates a reset interrupt if not. When the low power indication interrupt occurs, the power information management unit 30 indicates that the reset is impossible due to the low power on the display unit 40. When the reset interrupt occurs, the power information management unit 30 performs a reset.

Such embodiments according to the present invention will be described with reference to FIGS. 2 to 5.

2 is a flowchart illustrating a control for setting a reset flag according to the first embodiment of the present invention.

Referring to FIG. 2, the power information manager 30 determines whether the power check period has been reached in step 102. When the power check period has been reached, the power information manager 30 proceeds to step 104 to obtain a power value of the power supply unit 50. The power information manager 30 then compares the power value with the threshold in step 106. As described above, the threshold compared to the power supply value is a power fault or a battery fault voltage. The power fault voltage or battery fault voltage represents the power supply value when the electronic terminal device can no longer perform normal operation.

In operation 108, the power information manager 30 sets the reset flag 22 according to a result of comparing the power value with the threshold value. For example, when the power value is larger than the threshold value, the power information manager 30 may set the reset flag to 0 to indicate that the reset is possible. In addition, when the power value is smaller than the threshold value, the power information manager 30 may set the reset flag to 1 to indicate that it is impossible to reset. The power information management unit 30 determines whether the reset control device is powered off in step 110, and returns to step 102 if it is not powered off.

Next, a control flow for the operating system 20 to control the reset according to the set reset flag will be described with reference to FIG. 3.

Referring to FIG. 3, the operating system 20 first determines whether there is a reset request in step 120. That is, the operating system 20 determines whether the reset signal is input in software. If a software-generated reset signal is input, the operating system 20 checks the reset flag 22 in step 122. If the inspection indicates that the reset flag is resettable, the operating system 20 proceeds to step 128 to execute a reset. If the reset flag indicates that the reset flag is not reset, the operating system 20 proceeds to step 126 and returns without performing a reset. And the operating system 20 instructs the power source information management unit 30 to display on the display unit 40 that the reset is not possible due to lack of power. Accordingly, the power information management unit 30 displays on the display unit 40 that it is impossible to reset due to lack of power.

4 is a control flowchart for setting an interrupt according to a reset terminal according to the second embodiment of the present invention.

Referring to FIG. 4, first, the power information manager 30 determines whether the power check period has been reached in step 202. When the power check period has been reached, the power information manager 30 proceeds to step 204 to obtain a power value of the power supply unit 50. Subsequently, the power information manager 30 compares the obtained power value with a threshold value and determines whether the power value is greater than the threshold value. If the power supply value is not greater than the threshold, go to step 208 to clear the General Purpose Input Output (GPIO) reset enable bit. Then, in step 210, the power information management unit 30 sets to generate a low power indication interrupt according to the interrupt generated by the GPIO reset terminal. If the power supply value is larger than the threshold value, the power supply information management unit 30 does not clear the GPIO reset enable bit. Thus, if an interrupt occurs according to the GPIO reset stage 10, the reset is performed.

Next, a control flow for controlling the reset by the power information management unit 30 according to the set GPIO reset terminal interrupt will be described with reference to FIG. 5.

Referring to FIG. 5, the power information manager 30 determines whether the GPIO reset terminal 10 is selected by the user. When the GPIO reset terminal 10 is selected by the user, a reset signal is generated. The power information management unit 30 generates an interrupt in step 222 when a reset signal generated by the GPIO reset terminal 10 is generated. At this time, the interrupt is set in advance by the power supply information management unit 30 as a power short indication interrupt. Therefore, if the reset enable bit is cleared, the power information manager 30 generates a power short indication interrupt in step 224. When the low power indication interrupt occurs, the power information management unit 30 indicates that the reset is impossible due to the low power on the display unit 40.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of the present invention should not be limited by the described embodiments but should be determined by the equivalents of the claims and the claims.

According to the present invention as described above, it is possible to increase the reliability of the terminal device for the user and to efficiently manage power.

Claims (8)

A reset control device for an electronic terminal device having a display unit, The power is periodically checked to compare the power value with a threshold value, and as a result of the comparison, a reset flag is set to indicate that the reset flag is reset when the power value is greater than the threshold value, and the power value is smaller than the threshold value. A power information management unit which sets the reset flag to indicate that the reset flag is not reset; An operating system for indicating that the reset flag is impossible to reset to the user through a display unit without executing a reset if the reset flag indicates that the reset flag is impossible after the software-generated reset signal is input, The threshold value represents a power supply value when the electronic terminal apparatus cannot perform a reset operation. delete A reset control method in an electronic terminal apparatus having a display unit, Periodically checking the power supply and comparing the power supply value with a threshold value; Setting the reset flag to indicate that the reset flag is resettable if the power value is greater than the threshold as a result of the comparison; Setting the reset flag to indicate that the reset flag is not reset if the power value is less than the threshold value as a result of the comparison; Checking whether the reset flag indicates that the reset flag cannot be reset after input of a software generated reset signal; If the reset flag indicates that the reset flag is not reset, displaying the reset flag to the user through the display unit without executing a reset; The threshold value indicates a power supply value when the electronic terminal apparatus cannot perform a reset operation. delete A reset control device for an electronic terminal device having a display unit, A reset terminal for generating a reset signal when selected by the user; The power is periodically checked to compare a power value with a threshold value, and as a result of the comparison, the interrupt is set as a resettable interrupt when the power value is greater than the threshold value, and when the power value is less than the threshold value, the interrupt is reset. And a power information management unit configured to set an insufficient power interruption and, when the reset signal is generated, indicate that the user cannot be reset through the display unit without executing a reset if the interrupt is the low power interruption. The threshold value represents a power supply value when the electronic terminal apparatus cannot perform a reset operation. delete A reset control method in an electronic terminal apparatus having a display unit, Periodically checking the power supply and comparing the power supply value with a threshold value; Setting an interrupt to a resettable interrupt if the power value is greater than the threshold as a result of the comparison; Setting the interrupt to a low power interrupt when the result of the comparison is lower than the threshold; Generating a reset signal when selected by the user; If the interrupt is generated when the interrupt signal is the power-low interrupt, and not performing a reset to display a non-resettable to the user through a display unit, The threshold value indicates a power supply value when the electronic terminal apparatus cannot perform a reset operation. delete

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