JP6770632B2 - Electronic devices, calculation methods and programs - Google Patents

Description

The present invention relates to electronic devices, calculation methods and programs.

In recent years, the need for low current consumption in electronic devices has increased. Therefore, it is required to grasp the current consumption of electronic devices. Patent Document 1 discloses a computer that measures current consumption using a measuring circuit that measures the amount of power supplied from an external power source and displays the state of the measured current consumption.

Japanese Unexamined Patent Publication No. 2013-77251

In the conventional technique, the current consumption is measured by using an electric circuit for measuring the current consumption, so that it is necessary to measure the current consumption while actually operating the electronic device. Therefore, in order to measure the current consumption when the electronic device is operated in various modes, it is necessary to actually operate the electronic device in various modes, so that the battery life of the electronic device can be measured. It took a long time.

Therefore, the present invention has been made in view of these points, and an object of the present invention is to shorten the measurement time of the battery life of an electronic device.

The electronic device of the first aspect of the present invention is an electronic device that consumes current, and the execution unit that executes a plurality of processes corresponding to a predetermined usage mode and the execution unit perform each of the plurality of processes. The electronic device in the usage mode is based on the current consumption of each of the plurality of components determined based on the actual operating time of each of the plurality of components of the electronic device when executed for a predetermined time. Calculation of total current consumption, which is the total current consumption, and calculation of the time during which the electronic device can operate using the battery based on the calculated total current consumption and the capacity of the battery of the electronic device. It has a part and.

The electronic device further includes an operation time specifying unit that specifies the actual operating time of each of the plurality of components in the usage mode, and the calculation unit consumes current consumption per unit time of each of the plurality of components. And the actual operating time of each of the plurality of components are multiplied to calculate the current consumption of each of the plurality of components when the plurality of processes included in the usage mode are executed. The total current consumption may be calculated by adding up the current consumption of each of the components.

The electronic device further has a storage unit that stores breakdown information indicating the breakdown of the operating time of each of the plurality of processes in association with the usage type information indicating the type of the usage mode, and the operating time specifying unit further includes a storage unit. , The actual operating time of each of the plurality of components in the usage mode may be specified based on the operating time indicated by the breakdown information.

By executing the current consumption calculation program, the execution unit operates the plurality of components of the electronic device for each operation content, and in the operation time specifying unit, the execution unit executes the current consumption calculation program. The actual operating time may be specified during execution.

The electronic device may further have an output unit for displaying the plurality of the operable times on the display unit of the electronic device in association with the plurality of usage modes.

The method for calculating the current consumption according to the second aspect of the present invention includes a step of executing a plurality of processes corresponding to a predetermined usage mode executed by an electronic device consuming the current, and a predetermined step for each of the plurality of processes. The entire electronic device in the usage mode is based on the current consumption of each of the plurality of components determined based on the actual operating time of each of the plurality of components of the electronic device when executed for only a time. A step of calculating the total current consumption, which is the current consumption, and a step of calculating the operating time of the electronic device using the battery based on the calculated total current consumption and the capacity of the battery of the electronic device. And have.

The program of the third aspect of the present invention includes a step of executing a plurality of processes corresponding to a predetermined usage mode on a processor of an electronic device consuming current, and executing each of the plurality of processes for a predetermined time. In this case, the total current consumption of the electronic device in the usage mode is based on the current consumption of each of the plurality of components determined based on the actual operating time of each of the plurality of components of the electronic device. A step of calculating a certain total current consumption and a step of calculating the time during which the electronic device can operate using the battery based on the calculated total current consumption and the capacity of the battery of the electronic device. Let it run.

According to the present invention, there is an effect that the battery life of an electronic device can be shortened.

It is a figure for demonstrating the outline of operation of a mobile terminal. It is a figure for demonstrating the content of the operation performed by the mobile terminal in the 1st use model. It is a figure for demonstrating the content of the operation performed by the mobile terminal in the 2nd use model. It is a figure which shows the relationship between the elapsed time and the current consumption in the operation which displays the screen of a website. It is an enlarged view of the relationship between the elapsed time and the current consumption shown in FIG. It is a figure which shows the structure of the mobile terminal of this embodiment. It is a table which shows an example of the average usage rate of each component specified by the usage rate identification part. It is a table which shows an example of the actual operation time of each component determined by the operation time identification part. It is a table which shows the example of the current consumption by element of each component. It is a table which shows the value of the current consumption obtained by multiplying the actual operation time of each component by the current consumption for each element. It is a flowchart of the operation which a CPU calculates the current consumption.

[Outline of operation of mobile terminal 1]
FIG. 1 is a diagram for explaining an outline of the operation of the mobile terminal 1 which is an electronic device of the present embodiment. The mobile terminal 1 is an electronic device capable of transmitting and receiving data to and from other communication terminals via a base station of a mobile phone network. A program for calculating the current consumption (hereinafter referred to as a current consumption calculation program) is installed in the mobile terminal 1.

The current consumption calculation program is, for example, a program used by a quality control person such as a manufacturer or a communication carrier that provides the mobile terminal 1. In the present specification, a quality control person or the like who specifies the current consumption of the mobile terminal 1 by using the current consumption calculation program is referred to as a terminal evaluator, and a person who purchases and uses the mobile terminal 1 is referred to as a user.

The current consumption calculation program causes a plurality of components built in the mobile terminal 1 to simulate various operation contents based on a usage model, which is an average usage mode when the user uses the mobile terminal 1. Details of the components will be described later, but the components are, for example, a CPU (Central Processing Unit), a display, a communication unit, and the like. The operation contents include, for example, starting the application software, transitioning the display page while the application software is being executed, scrolling the screen, and standby operation with low power consumption.

By executing the current consumption calculation program, the mobile terminal 1 operates each component for a predetermined time (for example, 1 minute) for each operation content, and specifies the actual operation time of each component within the predetermined time. To do. Then, the mobile terminal 1 calculates the current consumption of the mobile terminal 1 by multiplying the specified actual operating time by the element-specific current consumption per unit time of each component. The mobile terminal 1 calculates the battery duration based on the calculated current consumption and the battery capacity.

FIG. 2 is a diagram for explaining the content of the operation executed by the mobile terminal 1 in the first usage model. FIG. 2 shows a usage model of the mobile terminal 1 by a user who spends a long time executing the application software of the game on the mobile terminal 1. In FIG. 2A, the usage category and the usage time are associated with each other. The usage category is information indicating the usage type of the application software that the user uses in a day. The usage time is the time during which the user operates the mobile terminal 1 using the application software of each usage category during the day. FIG. 2A shows an example in which a user uses application software for games, browsers, SNS, video viewing, etc. for a total of 180 minutes.

FIG. 2B shows that the user using the mobile terminal 1 uses a plurality of application software (games A to D, etc.) belonging to the game category. FIG. 2C shows the operation content executed while the mobile terminal 1 executes the application software of the game A, and the breakdown of the time during which the operation content is executed.

If the current consumption per unit time (for example, 1 minute) in each operation content shown in FIG. 2C is known, the mobile terminal 1 can be used in the usage model shown in FIG. 2 by multiplying the execution time of each operation content. Can calculate the current consumption when the application software of the game A is executed. If the current consumption is calculated for all the application software, the estimated daily current consumption of the mobile terminal 1 of the usage model shown in FIG. 2 can be calculated. When the mobile terminal 1 is operated by a battery, the mobile terminal 1 is used in the usage model shown in FIG. 2 after the battery is fully charged based on the relationship between the current capacity of the battery and the estimated current consumption. In addition, the time until the remaining battery level becomes zero (hereinafter referred to as the battery duration) can be specified.

Therefore, in the mobile terminal 1 of the present embodiment, by executing the current consumption calculation program, the time during which each component is actually operating within the unit time for executing each operation content (hereinafter referred to as the actual operation time). ) Is specified, and the current consumption per unit time in each operation content is calculated based on the known current consumption and the actual operation time when each component operates. Then, the mobile terminal 1 can calculate the total current consumption and the battery duration of the mobile terminal 1 in the usage model based on the execution time of each operation content in the usage model for which the current consumption is calculated. .. By doing so, the terminal evaluator who wants to confirm the current consumption of the mobile terminal 1 calculates the current consumption and the battery life of the mobile terminal 1 in a short time without connecting the mobile terminal 1 to the current measuring device. be able to.

FIG. 3 is a diagram for explaining the content of the operation executed by the mobile terminal 1 in the second usage model. FIG. 3 shows a usage model of the mobile terminal 1 by a user who spends a long time executing the application software of the browser on the mobile terminal 1. In this way, the breakdown of the execution time of each operation content differs depending on the assumed usage model. Therefore, in the current consumption calculation program, the terminal evaluator can select the usage model for which the current consumption is calculated. ing.

The current consumption calculation program may allow the terminal evaluator to select one or more operation contents to be included in the usage model from a plurality of preset operation contents and set the execution time of each selected operation content. .. By doing so, the terminal evaluator can easily set an arbitrary usage model.

FIG. 4 is a diagram showing the relationship between the elapsed time and the current consumption (actual measurement value) in the operation of displaying the screen of the website by the mobile terminal 1 executing the application software of the browser. The current consumption shown in FIG. 4 shows the change in the current value actually measured while the browser is actually operated. It can be seen that the current consumption fluctuates with the passage of time, and the current consumption increases at the timing when the browser is started and the timing when the page to be displayed is changed.

FIG. 5 is an enlarged view of the relationship between the elapsed time and the current consumption (measured value) shown in FIG. It can be seen that the current consumption fluctuates at startup, startup processing, scroll display, page transition, and standby display, but the average current consumption differs depending on the operation content. The mobile terminal 1 according to the present embodiment continuously consumes current as shown in FIGS. 4 and 5 by utilizing the characteristic of the electronic device that the average current consumption is determined for each operation content. It is characterized in that the current consumption in each operation content is estimated and the battery life is specified without actually measuring.
Hereinafter, the configuration and operation of the mobile terminal 1 will be described in detail.

[Configuration of mobile terminal 1]
FIG. 6 is a diagram showing the configuration of the mobile terminal 1 of the present embodiment. The mobile terminal 1 has a plurality of components that consume electric current. Specifically, the mobile terminal 1 includes a battery 11, a display 12, a touch panel 13, a communication unit 14, a sensor 15, a camera 16, a GPU (Graphic Processing Unit) 17, and a ROM 18 as a storage unit. , RAM 19 and CPU 20. The display 12, the touch panel 13, the communication unit 14, the sensor 15, the camera 16, the GPU 17, the ROM 18, the RAM 19, and the CPU 20 are connected to each other by signal lines such as a data bus and an address bus.

The battery 11 supplies an electric current for operating each part of the mobile terminal 1. The battery 11 is, for example, a lithium ion battery, a lithium polymer battery, or a nickel cadmium battery, and can be charged by connecting to an external power source.

The display 12 is, for example, a liquid crystal display (LCD) or an organic EL (Electroluminescence) display. The display 12 displays information based on the control of the CPU 20.
The touch panel 13 is provided so as to be superimposed on the display 12, and detects a position on the display touched by the user. The touch panel 13 notifies the CPU 20 of coordinate information indicating the position touched by the user.

The communication unit 14 is a wireless communication interface such as LTE (Long Term Evolution) and BLE (Bluetooth (registered trademark) Low Energy). Based on the control of the CPU 20, the communication unit 14 transmits / receives data to / from a base station of a mobile phone network, and transmits / receives data to / from another communication terminal via BLE.

The sensor 15 is, for example, a gravity sensor or a temperature sensor that detects the state of the mobile terminal 1. The sensor 15 notifies the CPU 20 of a signal indicating the detected state.
The camera 16 has a lens and an image sensor, and generates an image of the photographed subject under the control of the CPU 20. The camera 16 inputs the generated captured image to the GPU 17.
The GPU 17 executes various image processing based on the control of the CPU 20.

The ROM 18 is, for example, an EEPROM (Electrically Erasable Programmable Read-Only Memory), which is a writable non-volatile memory. The program executed by the CPU 20 is stored. The RAM 19 temporarily stores various data used by the CPU 20 when executing a program.

The ROM 18 stores various setting data used when the CPU 20 executes a program. For example, the ROM 18 stores the type of usage model in association with a plurality of operation contents included in each usage model. Specifically, the ROM 18 stores an operation content table in which each operation content and the execution time in each usage model shown in FIGS. 2 and 3 are associated with each other.

Further, the ROM 18 stores the element-specific current consumption, which is the current consumption when each of the plurality of components of the mobile terminal 1 operates, in association with each of the plurality of components. The ROM 18 stores, for example, the current consumption for each element per unit time when each component operates in the mode in which the current is most consumed. When each component has a plurality of operation modes having different current consumption, the ROM 18 may store the current consumption for each element in association with the operation mode of each component. The value of the current consumption for each element stored in the ROM 18 is the current value actually measured at the time of development of the mobile terminal 1.

The CPU 20 controls each part of the mobile terminal 1 by executing the program stored in the ROM 18. By executing the program, the CPU 20 functions as an execution unit 201, a usage rate specifying unit 202, an operating time specifying unit 203, a calculation unit 204, and an output unit 205.

The execution unit 201 executes processing corresponding to a plurality of operation contents based on the current consumption calculation program started by the terminal evaluator. When the terminal evaluator selects a usage model via the touch panel 13, the execution unit 201 acquires usage type information indicating the selected usage model, and a plurality of operations included in the usage model corresponding to the acquired usage type information. Process the contents sequentially. For example, when the usage model shown in FIG. 2 is selected, the execution unit 201 sequentially executes a game start operation, a game start processing operation, a game menu display operation, a game operation, and the like.

The usage rate specifying unit 202 determines the usage rate of each of the plurality of components of the mobile terminal 1 within a predetermined measurement time while the execution unit 201 is executing the processing of one operation content selected from the plurality of operation contents. Identify. The usage rate specifying unit 202 specifies a predetermined measurement by, for example, specifying the operating state of a plurality of components of the mobile terminal 1 via the OS (Operating System) while executing the processing of one operation content. Identify utilization, which is the ratio of time each component is operating to time.

The usage rate specifying unit 202 has a measurement time (for example, 1 minute) longer than, for example, a fluctuation period of current consumption of a plurality of components (for example, the average time between peaks of current consumption shown in FIGS. 4 and 5). Monitor the utilization of multiple components over time. Then, the usage rate specifying unit 202 calculates the average usage rate, which is an average value within the measurement time of the usage rate of each component. The execution unit 201 notifies the operation time specifying unit 203 of the calculated average usage rate in association with a plurality of components.

When each component has a plurality of operation modes, the current consumption differs depending on the operation mode. Therefore, the usage rate specifying unit 202 may correct the usage rate according to the operation mode of each component. For example, when the current consumption is maximized when the display 12 is displaying the screen with high brightness, and the current consumption becomes 70% during the standby display when no operation is performed, the usage rate is specified. The unit 202 calculates the usage rate based on the value obtained by multiplying the operation time of the standby display by 70%.

FIG. 7 is a table showing an example of the average usage rate of each component specified by the usage rate specifying unit 202. In FIG. 7, the usage rate of each component is shown for each operation content. For example, the CPU usage rate is 70% at startup, while the CPU usage rate is 30% at standby display. In addition, the usage rate of the communication unit is 10% because it is not necessary to download the content at the time of scroll display, but the usage rate of the communication unit increases to 70% because it is necessary to download the content at the time of page transition. ing.

When the operation time specifying unit 203 executes a process corresponding to one or more operation contents specified in the usage model for a predetermined time based on the average usage rate of each component specified by the usage rate specifying unit 202. Specify the actual operating time of each of the plurality of components in. Specifically, the operation time specifying unit 203 specifies the execution time of each operation content based on the operation content table stored in the ROM 18, and the usage rate specifying unit 202 specifies each of the specified execution times. The actual operation time of each component is calculated by multiplying the average usage rate of each component in the operation content. Further, the operation time specifying unit 203 adds up the actual operation times of each component in each operation content included in the selected usage model, so that each configuration when the mobile terminal 1 is used based on the usage model. Calculate the total operating time, which is the actual operating time of the element.

FIG. 8 is a table showing an example of the actual operating time of each component determined by the operating time specifying unit 203. The numerical value in FIG. 8 is a numerical value obtained by multiplying the execution time of each operation content shown in FIG. 3 (c) by the usage rate of each component, and is the time (seconds) in which each component is operating. ) Is shown.
When the actual operating time of each component calculated in the past is stored in the ROM 18, the operating time specifying unit 203 reads the actual operating time stored in the ROM 18 to read the actual operating time of each of the plurality of components. The operating time may be determined.

The calculation unit 204 calculates the total current consumption It of the mobile terminal 1 based on the actual operation time and the current consumption for each element when the mobile terminal 1 executes a plurality of operation contents included in the selected usage model. To do. The element-specific current consumption is the current consumption per unit time of each component, and is provided as a current consumption profile by an OS such as Android (registered trademark).

For example, the calculation unit 204 calculates the current consumption of each component when a plurality of operation contents included in the usage model are executed by multiplying the current consumption of each element and the total actual operation time of each component. .. Then, the calculation unit 204 calculates the total current consumption It when the mobile terminal 1 executes a plurality of operation contents included in the usage model by adding up the current consumption of each component.
The calculation unit 204 consumes each component when each operation content is executed by multiplying the current consumption for each element and the actual operation time of each component in each operation content without using the total actual operation time. The total current consumption It may be calculated by calculating the current and adding up the calculated current consumption.

FIG. 9 is a table showing an example of the current consumption of each component for each element. FIG. 10 is a table showing the value of the current consumption obtained by multiplying the actual operating time of each component shown in FIG. 9 by the current consumption for each element. When the current consumption of the components shown in FIG. 10 is totaled, it can be seen that the current consumption required to execute a part of the operation of the game A shown in FIG. 2C is 2637 (μAh). The calculation unit 204 calculates the total current consumption It when the mobile terminal 1 executes all the operation contents of the usage model by executing such a calculation for all the components and all the operation contents. be able to.

In addition, the calculation unit 204 uses the current value consumed by the operation time specifying unit 203 to specify the actual operation time as the actual operation time and the current consumption for each element when the mobile terminal 1 executes a plurality of operation contents. The total current consumption of the mobile terminal 1 is calculated by subtracting it from the current consumption calculated based on the above. By doing so, it is possible to eliminate the influence of the current consumed by the CPU 20 executing the current consumption calculation program on the calculation result of the total current consumption of the mobile terminal 1, so that the calculation unit 204 can perform the calculation unit 204. The accuracy of the calculated current consumption is improved. In the calculation unit 204, not only the current value consumed by the operating time specifying unit 203 to specify the actual operating time, but also the current value consumed by the usage rate specifying unit 202 to specify the usage rate of each component. May be subtracted.

The calculation unit 204 calculates the period during which the mobile terminal 1 can operate using the battery 11 based on the capacity B of the battery 11 and the total current consumption It of the mobile terminal 1. For example, when the capacity B of the battery 11 is 2000 mAh and the total daily current consumption It of the mobile terminal 1 calculated by the calculation unit 204 is 1000 mAh, the calculation unit 204 uses the usage mode corresponding to the current consumption It. In, the period during which the battery 11 can be operated is calculated as B ÷ It = 2000 ÷ 1000 = 2 days.

The output unit 205 outputs the battery duration calculated by the calculation unit 204. For example, the output unit 205 displays the battery life on the display 12 or transmits the battery life to another electronic device via the communication unit 14. The output unit 205 may output a plurality of battery durations in association with a plurality of usage type information.

[Operation flowchart of CPU 20]
FIG. 11 is a flowchart of the operation in which the CPU 20 calculates the current consumption.
First, the operation time specifying unit 203 refers to the operation content table stored in the ROM 18 and acquires operation content information indicating a plurality of operation contents of the usage model for which the current consumption is to be calculated (S11). Subsequently, the operation time specifying unit 203 selects one operation content from a plurality of operation contents indicated by the operation content information (S12).

Subsequently, the operation time specifying unit 203 causes the execution unit 201 to execute the selected operation content (S13). At this time, the operation time specifying unit 203 causes the execution unit 201 to continue executing the operation content until a predetermined time elapses (S14), and monitors the usage state of each component during this period. When the predetermined time elapses, the operation time specifying unit 203 specifies the usage rate of each component in the operation content executed by the execution unit 201 in step S13 (S15).

The operation time specifying unit 203 determines whether or not the identification of the usage rate of each component in all the operation contents included in the usage model for which the current consumption is calculated has been completed (S16), and in all the operation contents. When the specification of the usage rate of each component is not completed, the process returns to step S12 and the processes from step S12 to step S15 are executed. When the operation time specifying unit 203 finishes specifying the usage rate of each component in all the operation contents, the process proceeds to step S17, and the calculation unit 204 specifies the actual operation time of each component (S17).

The calculation unit 204 calculates the total current consumption of the mobile terminal 1 based on the determined actual operation time and the element-specific current consumption stored in the ROM 18 (S18). Here, the calculation unit 204 corrects the current consumption by subtracting the current consumption caused by the mobile terminal 1 executing the current consumption calculation program from the current consumption calculated in step S18 (S19). The calculation unit 204 calculates the total current consumption of the mobile terminal 1 based on the corrected current consumption (S20).

Subsequently, the calculation unit 204 calculates the battery duration based on the current consumption calculated in step S20 and the capacity of the battery (S21). Then, the output unit 205 outputs the battery duration calculated by the calculation unit 204 (S22).

[Effect of mobile terminal 1 of this embodiment]
As described above, the mobile terminal 1 determines the actual operation time of each of the plurality of components in the plurality of operation contents included in the usage model selected by the terminal evaluator, and the mobile terminal 1 is included in the usage model. The total current consumption of the electronic device is calculated based on the actual operation time when a plurality of operation contents are executed and the current consumption when each component operates. By doing so, the terminal evaluator does not need to connect the measuring device for measuring the current consumption to the mobile terminal 1 and measure the current consumption while operating the mobile terminal 1 for a long time. It is possible to significantly reduce the measurement of current consumption and battery life.

Further, in the mobile terminal 1, the usage rate specifying unit 202 causes the execution unit 201 to execute a process corresponding to the operation content included in the selected usage model for a predetermined short time, and during that time, the usage rate of each component is used. To identify. By doing so, the terminal evaluator can specify the current consumption of the mobile terminal 1 with high accuracy even if the operating time of each component differs depending on the model of the mobile terminal. Become.

Further, in the mobile terminal 1, the ROM 18 stores an operation content table showing the execution time of a plurality of operation contents for each usage model selected by the terminal evaluator, and the calculation unit 204 stores the operation content table based on the operation content table. , Calculate the current consumption of each component when the mobile terminal 1 is used in the selected usage model. By doing so, the terminal evaluator can grasp the battery life for each usage model of the mobile terminal 1.

Further, in the mobile terminal 1, the calculation unit 204 corrects the current consumption calculated based on the result of the execution unit 201 executing the process based on the current consumed when the current calculation program is executed. By doing so, the influence of the current calculation program performed by the mobile terminal 1 can be eliminated, so that the mobile terminal 1 can calculate the current consumption and the battery life with high accuracy.

Although the present invention has been described above using the embodiments, the technical scope of the present invention is not limited to the scope described in the above embodiments. It will be apparent to those skilled in the art that various changes or improvements can be made to the above embodiments. In particular, the specific embodiments of the distribution / integration of the devices are not limited to those shown above, and all or a part thereof may be in arbitrary units according to various additions or the like, or according to the functional load. It can be functionally or physically distributed and integrated.

For example, in the above description, a mobile terminal in which the electronic device has a battery is illustrated, but the electronic device is not limited to the mobile terminal. The present invention can be applied to any electronic device, and is also effective in calculating the current consumption of a home electric appliance or the like that does not have a battery.
Further, in the above description, the operation time specifying unit 203 has described a method of specifying the actual operating time based on the usage rate of each component specified by the usage rate specifying unit 202. , The actual operating time may be specified by integrating the operating time of each component without using the usage rate.

Further, in the above description, a plurality of operation contents are included in the usage model, and an example in which the operation time specifying unit 203 specifies the actual operation time of a plurality of components for each operation content has been described. The present invention can also be applied when the model includes only one operation content. In this case, the calculation unit 204 calculates the current consumption of the entire usage model by specifying the actual operation time when the operation time specifying unit 203 executes the process corresponding to one operation content for a predetermined time. Can be done.

1 Mobile terminal 11 Battery 12 Display 13 Touch panel 14 Communication unit 15 Sensor 16 Camera 17 GPU
18 ROM
19 RAM
20 CPU
201 Execution unit 202 Usage rate specification unit 203 Operating time specification unit 204 Calculation unit 205 Output unit

Claims (7)

An electronic device that consumes electric current
An execution unit that executes a plurality of processes corresponding to a predetermined usage mode,
The current consumption of each of the plurality of components determined based on the actual operating time of each of the plurality of components of the electronic device when the execution unit executes each of the plurality of processes for a predetermined time. Based on this, the total current consumption, which is the total current consumption of the electronic device in the usage mode, is calculated, and based on the calculated total current consumption and the capacity of the battery of the electronic device, the battery is used. A calculation unit that calculates the time that an electronic device can operate,
Electronic equipment with. Further having an operation time specifying unit for specifying the actual operation time of each of the plurality of components in the usage mode.
The calculation unit executes the plurality of processes included in the usage mode by multiplying the current consumption per unit time of each of the plurality of components by the actual operating time of each of the plurality of components. The total current consumption is calculated by calculating the current consumption of each of the plurality of components in the case and adding up the current consumption of each of the plurality of components.
The electronic device according to claim 1. Further having a storage unit for storing breakdown information showing the breakdown of the operation time of each of the plurality of processes in association with the usage type information indicating the type of the usage mode.
The operation time specifying unit specifies the actual operation time of each of the plurality of components in the usage mode based on the operation time indicated by the breakdown information.
The electronic device according to claim 2. By executing the current consumption calculation program, the execution unit operates the plurality of components of the electronic device for each operation content.
The operating time specifying unit specifies the actual operating time while the executing unit is executing the current consumption calculation program.
The electronic device according to claim 2 or 3. Further having an output unit for displaying the plurality of the operable times on the display unit of the electronic device in association with the plurality of the usage modes.
The electronic device according to any one of claims 1 to 4. Performed by electronic devices that consume current,
A step of executing a plurality of processes corresponding to a predetermined usage mode,
The said, based on the current consumption of each of the plurality of components determined based on the actual operating time of each of the plurality of components of the electronic device when each of the plurality of processes is executed for a predetermined time. A step of calculating the total current consumption, which is the total current consumption of the electronic device in the usage mode, and
A step of calculating the operating time of the electronic device using the battery based on the calculated total current consumption and the capacity of the battery of the electronic device, and
Calculation method having. For processors in electronic devices that consume current
A step of executing a plurality of processes corresponding to a predetermined usage mode,
The said, based on the current consumption of each of the plurality of components determined based on the actual operating time of each of the plurality of components of the electronic device when each of the plurality of processes is executed for a predetermined time. A step of calculating the total current consumption, which is the total current consumption of the electronic device in the usage mode, and
A step of calculating the operating time of the electronic device using the battery based on the calculated total current consumption and the capacity of the battery of the electronic device, and
A program to execute.