KR20150016044A - Method for reducing battery consumption in electronic device - Google Patents

Abstract

The present invention relates to an apparatus and method for reducing battery consumption in a low-power mode in an electronic device. The electronic device includes a measurement module configured to measure an amount of current consumed by a battery in a low-power mode, a determination module configured to determine cleanup time of at least one process, and a cleanup module configured to terminate at least one process being operated in the low-power mode when it is determined that at least one process is required to be cleaned up.

Description

METHOD FOR REDUCING BATTERY CONSUMPTION IN ELECTRONIC DEVICE FIELD OF THE INVENTION [0001]

To an apparatus and method for reducing battery consumption in a low power mode in an electronic device.

BACKGROUND ART [0002] With the recent rapid development of electronic devices, electronic devices capable of wireless voice communication and information exchange have become necessities of life. However, according to the development of the technology and the introduction of the wireless Internet, the electronic device can not only be used for a simple telephone call or a schedule management but also for a game, The remote control using a short distance communication, and the image taking by a digital camera equipped, the usage range thereof is getting larger and it satisfies a user's desire.

The amount of information to be processed or the amount of information to be displayed increases with the provision of the multimedia service. Accordingly, there is an increasing interest in an electronic device having a touch screen capable of increasing the size of a display unit by improving space utilization.

The touch screen is an input or display device for performing input and display of information on one screen. Accordingly, when the touch screen is used, the electronic device can increase the display area by removing a separate input device such as a keypad. For example, when the entire screen is a full-touch system using a touch screen, the screen size can be enlarged by using the front surface of the electronic apparatus as a screen.

Such an electronic device uses a power supply means called a battery, and a battery of a larger capacity is required due to the development of the electronic device.

However, the development of the battery is insufficient as compared with the development of the electronic device, so that the capacity of the battery can be limited.

The electronic device may enter a low power mode to reduce battery consumption. The low power mode may be an operation for causing the electronic device to apply a low power to a module in which power consumption exceeding a threshold value may be generated. For example, when the electronic device does not sense a user's input for a predetermined time, the electronic device can process low power such as a backlight and a short distance communication module.

An apparatus and method for reducing battery consumption in an electronic device according to various embodiments of the present disclosure can be provided.

An apparatus and method for reducing battery consumption by stopping the operation of at least one process that causes battery consumption based on the amount of battery current consumption in an electronic apparatus that enters a low power mode according to various embodiments of the present disclosure can be provided.

An apparatus and method for measuring the amount of battery current consumption in a low power mode based on the remaining amount of the battery, the voltage, the amount of charge input to and output from the battery, and the like in the electronic device according to various embodiments of the present disclosure.

An apparatus and method for defining a group of processes that interrupt operation according to the amount of battery current consumption in an electronic device according to various embodiments of the present disclosure.

According to one embodiment of the present disclosure, an electronic device includes a measurement module configured to measure the amount of battery drain current in a low power mode, a determination module configured to determine a cleanup time for at least one process, and a determination module And if so, at least one process operating in the low power mode.

The measurement module may measure the battery consumption current based on at least one of a state of charge (SOC) of the battery, a voltage of the battery, and an amount of charge input / output to / from the battery.

The measurement module may measure the battery consumption current based on a predetermined time period or the battery consumption current based on a change in at least one measurement value among a battery remaining amount, a voltage, and an amount of charge input / output to / from the battery .

The cleanup module may terminate the process that is automatically running at the time of cleanup of the at least one process or may terminate the process that is being operated upon the user's selection.

The clean up module may terminate the process in operation according to a level corresponding to at least one of the measured battery consumption current, remaining battery level, and battery voltage.

The cleanup module may terminate the process in operation according to the level, and then terminate the operation of at least one process in operation.

The cleanup module may terminate the operation of at least one process occupying the memory or processor.

The electronic device may further comprise an output module outputting operations for organizing the at least one process.

The output module may output at least one of an operation of selecting a process to be sorted at the time of process cleanup, an operation of notifying the time of the process cleanup operation, an operation of notifying the execution of the process cleanup operation, and a process cleanup result.

According to an embodiment of the present disclosure, a method of an electronic device includes the steps of: checking whether battery consumption exceeding a predetermined threshold value is generated based on a battery consumption current amount in a low power mode; And terminating the at least one process.

The amount of battery current consumption may be measured based on a predetermined period of time or based on a change in at least one of a remaining amount of the battery, a voltage of the battery, and an amount of charge input / output to / from the battery.

The process of terminating the at least one process may be performed in a state in which the low power mode is maintained or a state in which the low power mode is released.

The terminating the at least one process may include terminating an operating process based on the battery current consumption.

The terminating the at least one process may include terminating at least one process that causes the battery exhaustion, and terminating the operation of at least one of the processes in operation.

The terminating the at least one process may include terminating at least one currently operating process using an application that controls the operation of the process.

Checking whether the currently operating at least one process satisfies a predefined condition, and excluding at least one process conforming to the condition from a termination target, A preference degree, a frequency of use, and a priority.

Outputting the ending operation of the at least one process to at least one display device functionally connected to the electronic device or to at least one other electronic device communicably connected to the electronic device.

The at least one other electronic device communicatively coupled to the electronic device may include a wearable electronic device.

Wherein the operation of outputting to the display device or the other electronic device is an operation of selecting at least one of a process to be sorted at the time of process cleanup, an operation to notify the time of the process cleanup operation, an operation to notify the execution of the process cleanup operation, Operation.

According to one embodiment of the present disclosure, a computer readable medium includes a process of measuring a battery consumption current in a low power mode and determining a point of time when a battery consumption exceeding a threshold value occurs, and a process of consuming battery when a battery consumption exceeding a threshold value occurs And terminating the process of terminating the process of terminating the process.

As described above, the use time of the battery and the waiting time can be improved by stopping the operation of at least one process of measuring the amount of battery current consumption in the electronic device entering the low power mode and causing battery consumption.

1 is a block diagram illustrating the configuration of an electronic device for reducing battery consumption in a low power mode according to one embodiment of the present disclosure.
2 is a detailed block diagram of a processor for reducing battery consumption in a low power mode according to an embodiment of the present disclosure;
3 is a flow chart illustrating operation to reduce battery consumption in an electronic device according to an embodiment of the present disclosure.
4 is a flow chart illustrating operation to reduce battery consumption in an electronic device according to an embodiment of the present disclosure.
5 is a diagram illustrating a situation in which the amount of current consumption of the battery is measured at a predetermined time interval in an electronic device according to an embodiment of the present disclosure.
FIG. 6 is a diagram illustrating a situation in which an amount of current consumption of a battery is measured at a predetermined time interval in an electronic device according to an embodiment of the present disclosure. FIG.
7 is a diagram illustrating operation of an electronic device that reduces power consumption in a low power mode according to one embodiment of the present disclosure.
8 is a diagram illustrating another operation of an electronic device that reduces power consumption in a low power mode according to one embodiment of the present disclosure.
9 is a diagram illustrating another operational operation of an electronic device for reducing power consumption in a low power mode according to an embodiment of the present disclosure.

The operation principle of the present disclosure will be described in detail below with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present disclosure rather unclear. It is to be understood that the following terms are defined in consideration of the functions of the present disclosure and may vary depending on the user, the intention or custom of the operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

In the following description, a method and apparatus for reducing battery consumption in an electronic device according to various embodiments of the present disclosure will be described.

In general, the electronic device may enter a low power mode to reduce battery consumption. The low power mode allows a low power to be applied when the user does not sense the input for a predetermined time. For example, the electronic device can enter the low power mode while stopping the operation of the display.

The electronic device can determine that the user does not use the electronic device and enter the low power mode to reduce battery consumption.

Even if the user enters the low power mode as described above, battery consumption may occur in the electronic device. For example, current consumption may be caused by a situation in which a memory or a processor occupies even a part of functions or applications of the electronic device enter a low power mode.

The electronic device can measure a battery consumption current amount in a low power mode to determine a situation where abnormal current consumption is caused, for example, a consumption current amount exceeding a threshold value is measured in a low power mode. When an abnormal current consumption occurs If it is determined that the situation is such that the operation of at least one process or application can be interrupted. According to one embodiment, the electronic device may terminate the operation of at least one process or application. According to another embodiment, the electronic device may terminate the operation of at least one process or application for a predefined period of time. According to one embodiment, the predetermined time may be a time at which the battery starts to be charged. For example, the electronic device temporarily terminates the operation of at least one process or application when the amount of consumed current exceeding the threshold value is measured in the low power mode, and at the time when the battery is charged, It can be resumed.

The electronic device can confirm the amount of battery current consumption by using a change in state of charge (SOC) for a predetermined time.

Since the electronic device can measure the remaining amount of the battery based on the voltage of the battery, the amount of battery consumption current can be confirmed by using the change of the battery voltage for a predetermined time.

Since the electronic device can measure the amount of current consumed by the battery using the amount of charge input to and output from the battery, the amount of current consumed for a predetermined period of time can be confirmed using the amount of charge of the battery.

This is not limited to the data necessary for measuring the consumption current of the battery in the electronic device, but may also stop the operation of at least one process or application that generates battery consumption using various data.

When the electronic device determines that abnormal current consumption in the low power mode occurs, the electronic device automatically stops the process of causing the battery consumption or the operation of the application, or the operation of the process or the application causing the battery consumption according to the user's choice Can be stopped.

The electronic device according to the present disclosure may be a device including a communication function. For example, a smartphone, a tablet personal computer, a mobile phone, a videophone, an e-book reader, a desktop personal computer, a laptop personal computer, netbook computer, personal digital assistant, portable multimedia player (PMP), MP3 player, mobile medical device, electronic bracelet, electronic necklace, electronic apps, camera, Wearable devices, electronic clocks, wrist watches, smart white appliances such as refrigerators, air conditioners, vacuum cleaners, artificial intelligence robots, TVs, digital video disk (Eg, magnetic resonance angiography (MRA), magnetic resonance imaging (MRI), computed tomography (CT), a photographic machine, an ultrasonic machine, etc.) Navigation device, GPS reception a global positioning system receiver, an event data recorder (EDR), a flight data recorder (FDR), a set-top box, a TV box (eg, Samsung HomeSync ™, Apple TV ™, or Google TV ™) , Automotive infotainment devices, electronic equipment for ships (eg marine navigation devices, gyro compasses, etc.), avionics, security devices, electronic apparel, electronic keys, camcorders, A game console, a head-mounted display (HMD), a flat panel display device, an electronic album, a piece of furniture or a building / structure including communication functions, an electronic board, , An electronic signature receiving device or a projector, and the like.

It will be apparent to those skilled in the art that the electronic device according to the present disclosure is not limited to the devices described above.

1 is a block diagram illustrating the configuration of an electronic device for reducing battery consumption in a low power mode according to one embodiment of the present disclosure.

1, the electronic device 100 includes a memory 110, a processor unit 120, an audio processing unit 130, a communication system 140, an input / output control unit 150, a touch screen 160, or an input device 170. At least one of these configurations may exist in a plurality of configurations.

The components are as follows.

The memory 110 may include a program storage unit 111 for storing a program for controlling the operation of the electronic device 100 or a data storage unit 112 for storing data generated during program execution. For example, the data storage unit 112 stores various updatable storage data such as a phone book, an origination message, or a received message, and may store information of a process to be sorted according to a battery consumption current level.

The data storage unit 112 may store data necessary for measuring a consumption current of the battery.

The program storage unit 111 may include an operating system program 113, a measurement program 114, a determination program 115, a clearance program 116, an output program 117 or at least one application program 118 have. Here, the program included in the program storage unit 111 may be a set of instructions and may be represented by an instruction set.

The operating system program 113 may include various software components for controlling a general system operation. Control of these general system operations may mean, for example, memory management or control, storage hardware (device) control or management, power control or management, and the like. Such an operating system module 113 may also function to facilitate communication between various hardware (devices) and program components (modules).

The measurement program 114 may include various software components for measuring the remaining amount of the battery corresponding to the power supply means of the electronic device 100. [

The measurement program 114 can measure the amount of consumed current of the battery in a state in which it enters the low power mode. The measurement program 114 may measure a consumption current of the battery using the measured remaining amount of the battery.

Since the remaining amount of the battery can be measured based on the voltage of the battery, the measurement program 114 can measure the consumption current of the battery based on the voltage of the battery. As another example, the measurement program 114 may measure the amount of current consumed by the battery based on the amount of charge input to and output from the battery.

The determination program 115 may include various software components for determining the time of cleanup of at least one process.

The determination program 115 may determine a process clean-up time for stopping at least one process for generating battery consumption based on the battery consumption current measured in the low-power mode. For example, the determination program 115 may determine that at least one process that causes battery drain occurs when the amount of battery current consumption exceeding a predetermined threshold value is measured in the low power mode.

The cleanup program 116 may include various software components for stopping at least one process operating in the low power mode at a time when it is determined that cleanup of the process is necessary

The clean-up program 116 may process the battery power so that a battery consumption current is not generated more than a predetermined threshold value in the low power mode.

For example, the cleanup program 116 may suspend the functioning of the electronic device 100 or at least one or more applications that occupy the processor or memory when it is determined that cleanup of the process is needed. The cleanup program 116 may stop the operation of the entire process or the process defined in the level of the battery current consumption when it is determined that cleanup of the process is necessary.

The cleanup program 116 may automatically stop the operation of the process at the time when it is determined that the process should be cleaned, or may stop the operation of all or some of the processes according to the user's selection.

The cleanup program 116 may output to the at least one display device functionally coupled to the electronic device an operation to interrupt the operation of at least one process. According to one embodiment, the display device may be a cover having a display protection function installed in the electronic device.

According to various embodiments, the cleanup program 116 may output an operation that interrupts the operation of at least one process via at least one other electronic device communicatively coupled to the electronic device.

The output program 117 may include various software components for providing and displaying graphics on the touch screen 160. The term graphics refers to text, a web page, an icon, a digital image, video, animation, and the like.

The output program 117 may include various software components related to the user interface.

The output program 117 may output an operation for stopping the operation of at least one process operating at the time when it is determined that the process for the process is necessary.

The output program 117 may divide the amount of battery current consumption into a plurality of levels and output an operation of defining a process to be sorted according to each divided level.

The output program 117 may output a menu for determining whether or not to execute the process of organizing the process when the amount of consumed current exceeding the threshold value is measured in the low power mode.

The application program 118 may include a software component for at least one application program installed in the electronic device 100. As described above, the amount of current consumed by the battery may be measured, A program for stopping the operation of the generating process may also be included in the application program 118. This means that the ability to interrupt the operation of a process that causes battery drain in a low power mode can be provided as a single application.

The application program 118 may include an application that stops the operation of an unnecessary process, for example, a process that occupies memory or a processor. For example, when the amount of battery current consumption is equal to or greater than a threshold value in the low power mode, the electronic device 100 may stop an operation of a process for causing battery consumption by executing an application program.

In addition, the above-mentioned program may be a hardware configuration, and such a module may be expressed as a set of controllers.

The processor unit 120 may include at least one processor 122 or interface 124. Here, the processor 122 or interface 124 may be integrated into at least one integrated circuit or may be implemented as a separate component.

The interface 124 may serve as a memory interface for controlling the processor 122 and the memory 110 access.

The interface 124 may serve as a peripheral interface for controlling the connection of the processor 122 to the input / output peripheral device of the electronic device 100.

The processor 122 may use at least one software program to control the electronic device 100 from consuming the battery by the process of occupying the memory or processor in the low power mode. The processor 122 may control the amount of battery current consumption in the low power mode to be measured using the remaining amount of the battery.

The processor 122 may measure the amount of battery current consumption in the low power mode by using the battery voltage, the amount of charge input / output to / from the battery, and the like.

The processor 122 may execute at least one program stored in the memory 110 to perform a function corresponding to the program. The processor 122 may include a power management processor that manages the power of the electronic device 100. Such a power management processor may determine that the process needs to be cleaned based on the amount of battery current consumed in the low power mode, and may process the process of at least one process when it is necessary to clean up the process. For example, the power management processor may stop the operation of the memory or the process occupying the processor when the amount of battery current consumption is equal to or greater than a predetermined threshold value in the low power mode.

The function for preventing the power consumption of the electronic device 100 may be performed using software such as a program stored in the memory 110 or hardware such as the processor.

The audio processing unit 130 may provide an audio interface between the user and the electronic device 100 through the speaker 131 or the microphone 132.

The communication system 140 may perform a communication function for voice communication or data communication of the electronic device 100. [ At this time, the communication system 140 may be divided into a plurality of communication submodules supporting different communication networks. For example, a communication network may include but is not limited to a Global System for Mobile Communications (GSM) network, an Enhanced Data GSM Environment (EDGE) network, a Code Division Multiple Access (CDMA) network, a W- Access network, an LTE (Long Term Evolution) network, an OFDMA (Orthogonal Frequency Division Multiple Access) network, a wireless LAN, a Bluetooth network or a NFC (Near Field Communication).

The input / output control unit 150 may provide an interface between an input / output device such as the touch screen 160 or the input device 170 and an interface.

The touch screen 160 is an input / output device for outputting information or inputting information, and may include a touch input unit 161 and a display unit 162.

The touch input unit 161 may provide the touch information sensed through the touch panel to the processor unit 120 through the input / output control unit 150. At this time, the touch input unit 161 changes the touch information to a control unit structure such as a touch down, a touch movement (touch_move) or a touch up (touch_up) and provides it to the processor unit 120. In the low power mode It is possible to generate input data that defines the process to be sorted according to the battery current consumption level. The touch input unit 161 may generate input data that causes the memory or the processor to interrupt at least one process in the low power mode.

The display unit 162 may display status information of the electronic device 100, a character input by the user, a moving picture or a still picture. For example, the display unit 162 may output an operation for reducing battery consumption by stopping operations of at least one process occupying a memory or a processor, dividing the battery consumption current into a plurality of levels, ≪ RTI ID = 0.0 > and / or < / RTI > The display unit 162 may output a menu for executing a process of organizing a process when a battery is consumed due to an operation of a memory or a process occupying the processor in a low power mode.

The input device 170 may provide the input data generated by the user's selection to the processor unit 120 through the input / output control unit 150. For example, the input device 170 may include only a control button for controlling the electronic device 100. In another example, the input device 170 may be configured as a keypad for receiving input data from a user, and may generate input data defining a process to be sorted according to the battery consumption current level in the low power mode have. The input device 170 may generate input data that causes the operation of at least one process occupying the memory or processor to be suspended in the low power mode.

Although not shown, the electronic device 100 may include a broadcast receiving module for receiving broadcasts, a digital sound source playback module such as an MP3 module, a short range wireless communication module for short range wireless communication, an image sensor for acquiring image data, And proximity sensor module for providing additional functions and software for their operation.

2 shows a detailed block configuration of a processor for reducing battery consumption in a low power mode according to one embodiment of the present disclosure.

Referring to FIG. 2, the processor 122 may include a measurement module 201, a determination module 203, a cleanup module 205, and an output module 207.

The measurement module 201 may measure the remaining amount of the battery 210 mounted on the electronic device 100, the voltage of the battery, or the amount of charge input or output to the battery.

The measurement module 201 may measure the amount of current consumed by the battery 210 based on the measured remaining amount of the battery 210, the voltage of the battery, or the amount of charge input to or output from the battery.

The measurement module 201 can measure the amount of current consumed by the battery 210 while entering the low power mode and periodically measure the amount of current consumed by the battery 210 with a predetermined period of time.

The measurement module 201 can measure the amount of current consumed by the battery 210 at the time when the remaining amount of the battery 210 is changed.

The determination module 203 may determine a time to sort out at least one process for generating battery consumption based on the amount of current consumed by the battery 210. [

The determination module 203 may measure the amount of battery current consumption in the low power mode and determine when the battery consumption exceeds a threshold value.

The cleanup module 205 may suspend at least one process operating in the low power mode at a time when it is determined that cleanup of the process is required in the low power mode.

The cleanup module 205 may suspend at least one process occupying the processor or memory when it is determined that cleanup of the process is required in the low power mode.

The cleanup module 205 may stop the operation of the entire process or the process defined in the level of the battery current consumption at the time when it is determined that cleanup of the process is necessary in the low power mode.

The purging module 205 may automatically suspend the processor or the at least one process occupying the memory at a time when it is determined that cleanup of the process is necessary in the low power mode, or may stop the process according to the user's selection.

The output module 207 may output an operation for stopping the operation of at least one process operating at the time when it is determined that the process for the process is necessary. For example, the output module 207 may output an operation for defining a process to be rearranged at the time of process cleanup, an operation for notifying the time of the process cleanup operation, an operation for notifying the execution of the process cleanup operation, or a process cleanup result.

3 is a flow chart illustrating operation to reduce battery consumption in an electronic device according to an embodiment of the present disclosure.

Referring to FIG. 3, the electronic device may use a battery having a limited capacity as a power supply means, and may perform an operation to reduce battery consumption to support various functions with a limited capacity battery.

Such an electronic device may enter a low power mode to reduce battery consumption, The electronic device may enter the low power mode if no user input is sensed for a certain period of time.

The electronic device can measure the consumption current of the battery after entering the low power mode as in operation 303. [ At this time, the electronic device can measure the consumption current of the battery to check whether unnecessary battery consumption occurs in the low power mode. The low power mode may reduce battery consumption, but even in the low power mode, some functions or applications of the electronic device may occupy memory or processor and unnecessary battery consumption may occur.

The electronic device can measure the amount of current consumption of the battery according to various embodiments.

According to an embodiment of the present disclosure, the electronic device can check the amount of battery current consumption by using a change in the state of charge (SOC) of the battery for a predetermined time.

According to another embodiment of the present disclosure, the electronic device can confirm the amount of current consumption of the battery based on the voltage change of the battery. Generally, the remaining amount of the battery is measured based on the voltage of the battery, so that the consumption current of the battery can be measured based on the voltage change of the battery.

According to another embodiment of the present disclosure, the electronic device can confirm the amount of current consumption of the battery based on the amount of charge of the battery. Generally, the electronic device can measure the amount of electric charge input / output to / from the battery, so that the amount of electric current consumed by the battery can be measured based on the amount of electric charge input to and output from the battery.

The electronic device may measure battery consumption using Equation (1) below. Equation (1) may be used to measure the amount of battery current consumption using the remaining amount of the battery.

Here, x denotes the consumption current [A] of the battery and B denotes the total battery capacity [Ah]. In addition, s means the remaining amount of battery [%], and t can mean time [h].

Referring to Equation (1), it can be seen that the consumption current of the battery can be measured using the change of the battery remaining amount at the time tn and the time tn-1.

If the battery consumption current exceeds a threshold value in the state where the electronic apparatus enters the low power mode as in the operation 305, the electronic apparatus can process the function of generating the battery consumption.

For example, the electronic device may stop unnecessary processes or applications occupying the processor or memory if the current of the battery is abnormally drained in the low power mode.

At this time, when the electronic device determines that the battery current is abnormally consumed, it may automatically stop unnecessary processes or applications, or may stop unnecessary processes or applications according to the user's selection.

In addition, when the electronic device determines that the current of the battery is abnormally consumed, the electronic device may stop the operation of the function or the application causing the battery consumption to exceed the threshold value.

4 is a flow chart illustrating operation to reduce battery consumption in an electronic device according to an embodiment of the present disclosure.

Referring to FIG. 4, the electronic device can use a battery having a limited capacity as a power supply means, and can perform an operation to reduce battery consumption to support various functions with a battery having a limited capacity.

The electronic device may classify the amount of battery current consumption into at least one level, and define a function or an application type for stopping the operation according to the divided level.

This is because some of the elements that cause battery depletion (functions or applications of the electronic device) may require maintenance.

Elements that require the operation maintenance may be defined by the user or based on the user's preference, frequency of use, and the like.

The elements requiring the operation maintenance can be defined based on the amount of battery current consumption among functions of the electronic device.

Such an electronic device may enter a low power mode to reduce battery consumption, The electronic device may enter the low power mode if no user input is sensed for a certain period of time.

The electronic device can acquire data necessary for measuring the consumed current of the battery after entering the low power mode as in operation 403. [ Here, the electronic device can measure an amount of battery consumption current in order to determine an unnecessary function or an operation of the application in the low power mode.

The electronic device can measure the remaining amount of the battery using a fuel gauge.

The electronic device can use the remaining battery level for a predetermined period of time to measure battery consumption current.

The fuel gauge can measure the remaining amount of the battery based on the voltage of the battery.

The electronic device can use the battery voltage change for a predetermined time for battery consumption current measurement.

The electronic device can measure the consumption current of the battery by using various data in addition to the battery remaining amount and the voltage of the battery. For example, the electronic device can measure the amount of charge input / output to / from the battery, so that the amount of charge input to and output from the battery can be used to measure the consumption current of the battery.

The electronic device for measuring the amount of current consumed by the battery can acquire data such as the remaining amount of the battery, the voltage, the amount of charge input / output to / from the battery, etc., measured by the fuel gauge.

The electronic device can measure the consumption current of the battery using data that can be used for measuring the consumption current of the battery as in operation 405. [

For example, the electronic device can measure the amount of battery current consumption for a predetermined period of time using a remaining battery level for a predetermined time.

The electronic device can determine that the battery consumption current is high if the remaining amount of the battery is changed over a predetermined threshold value for a predetermined time.

In this case, the electronic device may measure battery consumption using Equation (2).

Here, x denotes the consumption current [A] of the battery and B denotes the total battery capacity [Ah]. In addition, s means the remaining amount of battery [%], and t can mean time [h].

Referring to Equation (2), it can be seen that the consumption current of the battery can be measured using the change of the battery remaining amount at the time tn and the time tn-1.

The fuel gauge can measure the remaining amount of the battery based on the voltage of the battery.

The electronic device can measure a battery consumption current for a predetermined time using a change in battery voltage for a predetermined time.

The electronic device can determine that the battery consumption current is high if the battery voltage for a predetermined time is changed to a predetermined threshold value or more.

The electronic device can measure the amount of battery current consumption by using the remaining amount of the battery, the voltage of the battery, and the amount of charge input / output to / from the battery.

The electronic device can stop the operation by confirming the type of the function or the application corresponding to the level of the battery consumption current measured in operation 407. [

For example, the electronic device may assume a situation where the amount of battery current consumption is defined from a first level to a third level.

The first level is defined as a range in which the battery consumption current falls below a threshold value, and the third level can be defined as a range in which the battery consumption current corresponds to a threshold value or more. And an intermediate range between the first level and the third level may be defined as a second level.

If the amount of consumed current of the battery corresponding to the third level is measured, the electronic device can stop unnecessary functions and operation of the application.

In addition, when the amount of consumed current of the battery corresponding to the first level is measured, the electronic device can stop only the operation of some functions and applications that generate a large amount of battery current consumption.

At this time, when the electronic device determines that the battery current is abnormally consumed, it may automatically stop unnecessary processes or applications, or may stop unnecessary processes or applications according to the user's selection.

5 is a diagram illustrating a situation in which the amount of current consumption of the battery is measured at a predetermined time interval in an electronic device according to an embodiment of the present disclosure.

Fig. 5 (a) is a graph showing the remaining amount of the battery measured by a predetermined period of time in the electronic device.

Referring to FIG. 5A, the electronic device can measure the remaining amount of the battery at intervals of t time. Of course, the electronic device can measure the remaining amount of the battery using a fuel gauge connected to the battery.

In the graph shown, the remaining battery level corresponding to 80% is measured at time t1, and the remaining battery level corresponding to 79% at time t2 can be measured. In the graph, it can be seen that the battery residual amount between the time t1 and the time t2 is changed by 1%.

In addition, it can be seen that the time from t3 to t4 is changed from the remaining 77% to the remaining 72%.

FIG. 5 (b) is a graph showing the battery consumption current based on the consumption current of the battery in the electronic device.

Referring to FIG. 5B, the electronic device can measure a consumed current amount of the battery using the remaining amount of the battery, the voltage, and the amount of charge input / output to / from the battery. In the following description, An example of measuring the amount of consumed current will be described.

As described above, such an electronic device can be used for measuring the amount of battery current consumption (Equation (3)).

Here, x denotes the consumption current [A] of the battery and B denotes the total battery capacity [Ah]. In addition, s means the remaining amount of battery [%], and t can mean time [h].

Referring to Equation (3), it can be seen that the consumption current of the battery can be measured using the change of the battery remaining amount at the time tn and the time tn-1.

The electronic device may define a reference value (threshold value) 501 for the consumed current of the battery, which allows the unnecessary processes to be sorted.

When the battery consumption current equal to or greater than the predetermined reference value is measured (503), the electronic device can stop the operation of the unnecessary process or process 505 to sort the memory.

The electronic device can accurately determine a time point at which unnecessary processes are cleaned when measuring the amount of battery current consumption using the remaining amount of battery measured every predetermined time. However, by periodically measuring the amount of battery current consumption, it takes a long time to increase the consumption current of the electronic device due to the unnecessary process, and the battery of the electronic device can be consumed. Accordingly, the electronic device can perform the operations as shown in FIG. 6 to solve this problem.

6 is a diagram illustrating a state in which the amount of current consumption of the battery is measured at the time when the remaining battery level changes in the electronic device according to the embodiment of the present disclosure.

Fig. 6 (a) is a graph showing the remaining amount of the battery measured by the electronic device at a predetermined period of time.

Referring to FIG. 6 (a), the electronic device can measure the remaining amount of the battery at intervals of time t. Of course, the electronic device can measure the remaining amount of the battery using a fuel gauge connected to the battery.

In the graph, the remaining battery amount corresponding to 80% is measured until t3, and the battery residual amount corresponding to 79% is measured between t3 and t3 '(601).

The electronic device can measure the amount of battery current consumption at the time when the battery remaining amount changes as described above.

FIG. 6 (b) is a graph showing the battery consumption current based on the consumption current of the battery in the electronic device.

Referring to FIG. 6B, the electronic device can measure a consumed current amount of the battery using the remaining amount of the battery, the voltage, and the amount of charge input / output to / from the battery. In the following description, An example of measuring the amount of consumed current will be described.

As described above, such an electronic device can be used for measuring the amount of battery current consumption (Equation (4)).

Here, x denotes the consumption current [A] of the battery and B denotes the total battery capacity [Ah]. In addition, s means the remaining amount of battery [%], and t can mean time [h].

Referring to Equation (4), it can be seen that the consumption current of the battery can be measured using the change of the battery remaining amount at the time tn and the time tn-1.

The electronic device may define a reference value (threshold value) for the consumed current of the battery to allow the unnecessary process to be sorted.

When the battery consumption current equal to or greater than the predetermined reference value is measured (603), the electronic device can stop the operation of unnecessary processes or process the memory to organize the memory.

The electronic device may measure the battery consumption current using the battery remaining amount measured at a predetermined time interval as shown in FIG. 5, but may measure the battery consumption current at the time when the remaining battery capacity changes as shown in FIG.

This means that it is possible to control the cycle for judging the amount of battery current consumption. For example, in the case where the cycle for determining the amount of battery current consumption is short, an unnecessary process can be detected quickly.

In the drawing, a section indicated by a dotted line represents a period for determining the amount of battery current consumption periodically, and a section indicated by a solid line represents a period for determining the amount of battery current consumption at the time when the remaining battery level changes.

7 is a diagram illustrating operation of an electronic device that reduces power consumption in a low power mode according to one embodiment of the present disclosure.

Referring to FIG. 7, the electronic device may use a battery having a limited capacity as a power supply means, and may perform an operation to reduce battery consumption to support various functions with a limited capacity battery.

The electronic device can enter the low power mode if the user's input is not detected for a certain period of time as shown in FIG. 7 (a).

In the drawing, the electronic device judging that the user does not use the electronic device may enter the low power mode by interrupting the operation of the display unit (e.g., LCD off), and the shaded screen 701 may be displayed on the display unit It can mean a situation where the operation is interrupted.

As described above, the electronic device which has entered the low power mode can measure the consumption current of the battery.

At this time, the electronic device can measure the consumption current of the battery using the remaining amount information of the battery. For example, when the electronic device confirms that the remaining battery level is equal to or greater than a predetermined threshold value, it can determine that the consumed current of the battery is high. The electronic device can measure a consumed current amount of the battery using a voltage of the battery, an amount of electric charge input / output to / from the battery, and the like, in addition to the remaining battery charge information.

The electronic device can measure the consumption current of the battery at predetermined intervals.

The electronic device can measure the consumption current of the battery at each time when the remaining amount of the battery is changed.

When the electronic device confirms that the consumed current of the battery is high, the electronic device can perform an operation 703 of arranging an unnecessary process as shown in FIG. 7 (b). At this time, the electronic device can stop the operation for the occupation of the processor and the memory in the low power mode.

The electronic device that has completed the operations that summarize the unnecessary processes as described above can output 705 the result of stopping the operation of the function capable of generating power consumption in the low power mode as shown in FIG. 7 (c).

In the above description, the situation where the electronic device clears the unnecessary processes after releasing the low power mode has been described. However, the electronic device can perform the operation of arranging the unnecessary processes while maintaining the low power mode. In this case, the electronic device may not output information indicating the execution and result of unnecessary process organizing operations as shown in FIGS. 7 (b) to 7 (c).

8 is a diagram illustrating another operation of an electronic device that reduces power consumption in a low power mode according to one embodiment of the present disclosure.

Referring to FIG. 8, the electronic device may use a battery having a limited capacity as a power supply means, and may perform an operation to reduce battery consumption to support various functions with a limited capacity battery.

The electronic device can enter the low power mode if the user's input is not sensed for a certain period of time as shown in Fig. 8 (a).

In the drawing, the electronic device judging that the user does not use the electronic device may enter the low power mode by interrupting the operation of the display unit (e.g., LCD off), and the shaded screen 801 may be displayed on the display unit It can mean a situation where the operation is interrupted.

As described above, the electronic device which has entered the low power mode can measure the consumption current of the battery.

At this time, the electronic device can measure the consumption current of the battery using the remaining amount information of the battery. For example, when the electronic device confirms that the remaining battery level is equal to or greater than a predetermined threshold value, it can determine that the consumed current of the battery is high. The electronic device can measure a consumed current amount of the battery using a voltage of the battery, an amount of electric charge input / output to / from the battery, and the like, in addition to the remaining battery charge information.

The electronic device can measure the consumption current of the battery at predetermined intervals.

The electronic device can measure the consumption current of the battery at each time when the remaining amount of the battery is changed.

When the electronic device confirms that the consumed current of the battery is high, the electronic device may output 803 a menu for selecting whether or not to perform an operation for arranging an unnecessary process as shown in FIG. 8B . Of course, as shown in FIG. 7, the electronic device can perform an operation of automatically arranging unnecessary processes when the consumption current of the battery is equal to or higher than a threshold value.

The electronic device can maintain the state in which the low power mode is entered when it is determined that the operation of arranging unnecessary processes is unnecessary.

If it is determined that an operation for organizing unnecessary processes is necessary, the electronic device may perform an operation 805 to sort unnecessary processes as shown in FIG. 8 (c).

At this time, the electronic device can stop the operation for the occupation of the processor and the memory in the low power mode.

The electronic device senses an input of a user and determines whether or not an unnecessary process is performed.

 The electronic device can perform an operation of clearing the unnecessary process after releasing the low power mode.

The electronic device that has completed the operation that summarizes the unnecessary processes as described above can output 807 the result of stopping the operation of the function capable of generating power consumption in the low power mode as shown in FIG. 8 (d).

As described above, the electronic device may arrange unnecessary processes not only in a state in which the low power mode is released but also in a state in which the low power mode is canceled or only a part of the functions are activated.

9 is a diagram illustrating another operation of an electronic device for reducing power consumption in a low power mode according to an embodiment of the present disclosure.

Referring to FIG. 9, the electronic device can use a battery having a limited capacity as a power supply means, and can perform an operation for reducing battery consumption to support various functions with a battery having a limited capacity.

The electronic device may classify the amount of battery current consumption into at least one level, and define a function or an application type for stopping operation according to the divided level.

This is because some of the elements that cause battery depletion (functions or applications of the electronic device) may require maintenance.

Elements that require the operation maintenance may be defined by the user or based on the user's preference, frequency of use, and the like.

The elements requiring the operation maintenance can be defined based on the amount of battery current consumption among functions of the electronic device.

The electronic device can enter the low power mode if the user's input is not sensed for a certain period of time as shown in Figure 9 (a).

In the drawing, the electronic device judging that the user does not use the electronic device may enter the low power mode by interrupting the operation of the display unit (e.g., LCD off), and the shaded screen 901 may be displayed on the display unit It can mean a situation where the operation is interrupted.

As described above, the electronic device which has entered the low power mode can measure the consumption current of the battery.

At this time, the electronic device can measure the consumption current of the battery using the remaining amount information of the battery. For example, when the electronic device confirms that the remaining battery level is equal to or greater than a predetermined threshold value, it can determine that the consumed current of the battery is high. The electronic device can measure a consumed current amount of the battery using a voltage of the battery, an amount of electric charge input / output to / from the battery, and the like, in addition to the remaining battery charge information.

The electronic device can measure the consumption current of the battery at predetermined intervals.

The electronic device can measure the consumption current of the battery at each time when the remaining amount of the battery is changed.

The electronic device can check whether there is a function to stop the operation at the measured battery consumption current amount.

The electronic device may output 903 a menu for selecting whether or not to perform an operation of arranging an unnecessary process corresponding to the measured battery consumption current as shown in FIG. 9 (b). Of course, as shown in FIG. 7, the electronic device can perform an operation of automatically arranging unnecessary processes when the consumption current of the battery is equal to or higher than a threshold value.

In the figure, the electronic device measures a battery consumption current corresponding to a level 2 and then outputs a menu for confirming whether or not the process defined in the level 2 is cleaned.

The electronic device can maintain the state in which the low power mode is entered when it is determined that the operation of arranging unnecessary processes is unnecessary.

When it is determined that an operation to clean up an unnecessary process is necessary, the electronic device performs an operation of organizing an unnecessary process, and then, as shown in FIG. 9 (c), performs a function of generating power in a low power mode The result of discontinuing the operation can be output 905.

At this time, in the low power mode, the electronic device stops only the function corresponding to the battery consumption current level among the functions occupying the processor and the memory, and some functions may continuously generate power consumption.

Accordingly, the electronic device can output (907) a menu for confirming whether or not the process organizing operation for the function generating the current power consumption is performed, as shown in FIG. 9 (d).

In the figure shown, it may be a situation to notify the user that the process for level 1 is causing power consumption and to confirm whether to perform the cleanup of such a process.

If the electronic device determines that it is unnecessary to arrange an unnecessary process, the electronic device can enter the low power mode after arranging only processes corresponding to the amount of battery current consumption.

If it is determined that an operation to organize unnecessary processes is necessary, the electronic device performs an operation to sort unnecessary processes according to the user's selection, and then generates additional power consumption as shown in FIG. 9 (e) The result of discontinuing the operation of the function that can be output 909 can be output.

According to the present disclosure, the electronic device can output process termination information to at least one display device functionally connected to the electronic device. According to one embodiment, the display device may be a cover having a display protection function installed in the electronic device.

According to various embodiments, the electronic device may output process termination information via at least one other electronic device communicably coupled to the electronic device. According to one embodiment, the electronic device can be set to be able to communicate with at least one other electronic device using a wired or wireless communication method. According to one embodiment, the wireless communication scheme may include a short-range communication scheme. According to one embodiment, the local area communication method may be at least one of Bluetooth communication, RF communication, infrared communication, WiFi communication, medium communication, NFC communication, and zigbee communication. According to one embodiment, the at least one other electronic device may be a wearable electronic device. According to one embodiment, the wearable electronic device may be a watch-type electronic device. According to one embodiment, the electronic device may be worn on the head portion of the human body or worn on the arm.

Although a detailed description of the present disclosure has been provided for specific embodiments, various modifications are possible within the scope of the present disclosure. Therefore, the scope of the present disclosure should not be limited to the embodiments described, but should be determined by the scope of the appended claims, as well as the appended claims.

Claims (20)

In an electronic device,
A measurement module configured to measure a battery current consumption in a low power mode;
A determination module configured to determine a cleanup point for at least one process;
And a cleanup module configured to terminate at least one process operating in the low power mode if it is determined that cleanup of at least one process is needed.
The method according to claim 1,
The measurement module comprising:
Wherein the amount of battery consumption current is measured based on at least one of a state of charge (SOC) of the battery, a voltage of the battery, and an amount of charge input / output to / from the battery.
The method according to claim 1,
The measurement module comprising:
And measure the battery consumption current based on a change in at least one of a remaining amount of the battery, a voltage, and an amount of charge input / output to / from the battery based on a predetermined time period.
The method according to claim 1,
The clean-
And to terminate a process that is automatically running at the time of cleaning the at least one process, or to terminate an active process upon receipt of a user's selection.
The method according to claim 1,
The clean-
And to terminate the process in operation according to a level corresponding to at least one of a measured battery consumption current, a remaining battery level, and a voltage of the battery.
6. The method of claim 5,
The clean-
And terminate the process in operation according to the level, and to further terminate the operation of at least one process in operation.
The method according to claim 1,
The clean-
And to terminate operation of at least one process occupying the memory or processor.
The method according to claim 1,
The electronic device includes:
Further comprising an output module for outputting an action to clean up said at least one process.
9. The method of claim 8,
The output module includes:
And outputting at least one of an operation for selecting a process to be cleaned at a process cleanup time, an operation for notifying the time of the process cleanup operation, an operation for notifying the execution of the process cleanup operation, and a process cleanup result.
A method of an electronic device,
Checking whether battery consumption exceeding a predetermined threshold value is generated based on the battery consumption current in the low power mode; And
And terminating at least one currently operating process if battery consumption is greater than or equal to the threshold.
11. The method of claim 10,
The amount of battery consumption current may be,
A method of measuring a predetermined time periodically or based on a change in at least one of a remaining amount of a battery, a voltage of the battery, and a charge input / output to / from the battery.
11. The method of claim 10,
The process of terminating the at least one process comprises:
Wherein the low power mode is maintained or the low power mode is released.
11. The method of claim 10,
The process of terminating the at least one process comprises:
And terminating the running process based on the battery drain current.
11. The method of claim 10,
The process of terminating the at least one process comprises:
Terminating at least one process causing the battery exhaustion; And
Further terminating the operation of at least one of the operating processes.
11. The method of claim 10,
The process of terminating the at least one process comprises:
And terminating at least one currently operating process using an application that controls the operation of the process.
11. The method of claim 10,
Checking whether the currently operating at least one process satisfies a predefined condition; And
Further comprising the step of excluding at least one process that meets the condition from the termination target,
The pre-
The priority of the process, the frequency of use, and the priority.
11. The method of claim 10,
Further comprising the step of outputting to the at least one display device operatively connected to the electronic device or to at least one other electronic device communicatively coupled to the electronic device an operation of terminating the at least one process.
18. The method of claim 17,
Wherein the at least one other electronic device communicatively coupled to the electronic device comprises a wearable electronic device.
18. The method of claim 17,
And outputting to the display device or the other electronic device,
Selecting a process to be cleaned at a process cleanup time, notifying a time of a process cleanup operation, notifying execution of a process cleanup operation, and process cleanup result.
Measuring a battery consumption current in a low power mode and determining when a battery consumption exceeding a threshold value occurs; And
And terminating a process of causing battery consumption when a battery consumption exceeding a threshold value is generated.

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