KR20150058810A - Method for managing power in mobile terminal and the mobile terminal - Google Patents

Abstract

The present invention relates to a method for managing power of a mobile terminal by considering the temperature of generated heat. According to an embodiment of the present invention, the method includes the steps of: monitoring the temperature of generated heat of the mobile terminal; adjusting frequencies for predetermined time according to a basic dynamic heat management policy, whereby the temperature is lowered by decreasing a frequency when the temperature of generated heat is at temperature limit or higher and recovers the frequency to an extent of normal operation when the temperature of generated heat is lowered, when the temperature of generated heat of the mobile terminal is at temperature limit or higher; calculating an average frequency for predetermined time; setting a target frequency based on the calculated average frequency; and executing processes in the set target frequency.

Description

≪ Desc / Clms Page number 1 > METHOD FOR MANAGING POWER IN MOBILE TERMINAL AND THE MOBILE TERMINAL [

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power management method for a mobile terminal, and more particularly, to a power management method for a mobile terminal that manages power in consideration of a heat generation temperature.

In mobile devices such as smart phones and tablets, it is difficult to install cooling fans due to volume and power problems, so heat generation is very serious. That's why most of the Linux-based mobile devices have taken advantage of Linux's heat management. This heat management technique monitors the temperature of the device and lowers the temperature by lowering the CPU frequency when it exceeds a predefined thermal threshold. Thereafter, when the temperature drops, it is again performed at the normal frequency.

However, if the temperature continues to rise repeatedly with such a technique applied, it repeatedly performs at high frequency and low frequency alternately, which results in poor efficiency in terms of power consumption.

Korean Patent No. 10-0867589 discloses a portable device such as a notebook system having a cooling device such as a cooling fan. When a heat management according to a rise in the CPU temperature is required, an optimal heat management operation A method for managing the thermal management of a portable device according to remaining battery power, which makes it possible to more efficiently utilize a limited battery charging power in a state in which the performance of the CPU is optimized.

However, Korean Patent Registration No. 10-0867589 does not disclose a technology for managing the heat generation of a mobile device in an environment free of a cooling device such as a cooling fan.

Therefore, it is necessary to study a technology for managing the heat generation of a mobile device in an environment free of a cooling device such as a cooling fan.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a power management method and a mobile terminal of a mobile terminal for managing power in consideration of a heat generation temperature in a mobile terminal without a cooling device such as a cooling fan.

According to an aspect of the present invention, there is provided a power management method for a mobile terminal, the method comprising: monitoring a heating temperature of the mobile terminal; Adjusting a frequency for a predetermined period of time according to a basic dynamic thermal management policy when the temperature of the mobile terminal exceeds a limit temperature, the basic dynamic thermal management policy comprising the step of, when the temperature of the mobile terminal exceeds the limit temperature, Lowering the temperature to lower the temperature, and if the temperature of the heat is lowered, performing the operation at the set normal frequency again; Calculating an average frequency for the predetermined time; Setting a target frequency based on the calculated average frequency; And performing a task at the set target frequency.

According to an aspect of the present invention, there is provided a mobile terminal including a database storing a limit temperature and a basic dynamic management policy; A monitoring unit for monitoring a heat generation temperature of the mobile terminal; A first power management unit for adjusting a frequency for a predetermined time according to the basic dynamic thermal management policy when the heat temperature of the mobile terminal exceeds the limit temperature, The frequency is lowered to lower the temperature, and if the temperature of the heat is lowered, the mobile terminal performs the operation at the set normal frequency again; A second power management unit for calculating an average frequency for the predetermined time and setting a target frequency based on the calculated average frequency; And a control unit that controls the monitoring unit, the first power management unit, and the second power management unit to perform an operation at the set target frequency.

The heat generation problem can be effectively solved even in an environment where the power management method of the mobile terminal and the cooling device such as the mobile terminal cooling fan are not provided according to the embodiment of the present invention.

According to an embodiment of the present invention, high performance can be expected while reducing dynamic power consumption.

1 is a block diagram of a mobile terminal in accordance with an embodiment of the present invention.
2 is a flowchart illustrating a power management method of a mobile terminal according to an embodiment of the present invention.
3 is a flowchart illustrating a method of determining a target frequency according to an option among power management methods of the mobile terminal of FIG.
4 is a graph showing work execution time and energy consumption when the power optimizing option is selected in the power management method of the mobile terminal according to an embodiment of the present invention.
5 is a graph showing work execution time and energy consumption when a performance optimization option is selected in a power management method of a mobile terminal according to an embodiment of the present invention.
6 is a diagram for explaining a method of setting a target frequency using a frequency supported by a mobile terminal in a power management method of a mobile terminal according to an embodiment of the present invention.

Hereinafter, a power management method for a mobile terminal and a mobile terminal according to an embodiment of the present invention will be described with reference to the drawings.

As used herein, the singular forms "a", "an" and "the" include plural referents unless the context clearly dictates otherwise. In this specification, the terms "comprising ", or" comprising ", etc. should not be construed as necessarily including the various elements or steps described in the specification, Or may be further comprised of additional components or steps.

1 is a block diagram of a mobile terminal in accordance with an embodiment of the present invention.

The mobile terminal 100 may include a database 110, a monitoring unit 120, a first power management unit 130, a second power management unit 140, and a controller 150. The mobile terminal 100 may be implemented in various forms. For example, the mobile terminal 100 described herein may be a smart phone, a notebook computer, a digital broadcasting terminal, a PDA (Personal Digital Assistants), a PMP (Portable Multimedia Player), a navigation device, a tablet PC, and the like.

The database 110 may store a threshold temperature, a basic dynamic thermal management policy, a dynamic voltage and frequency scaling (DVFS) policy. The limit temperature may be defined in advance as a temperature set for managing the heat generation of the mobile terminal 100. The basic dynamic thermal management policy is a policy based on the heat management of Linux. It is a policy to lower the temperature by lowering the CPU frequency when the heating temperature is above the limit temperature, and to perform the operation with the normal frequency again when the heating temperature falls . DVFS is a policy for dynamically changing frequency and voltage during CPU use. DVFS can check the CPU usage and use a method to raise the frequency if it goes beyond any preset value.

The monitoring unit 120 checks the heating temperature of the mobile terminal 100. That is, the monitoring unit 120 monitors the temperature of the chip of the mobile terminal 100.

The first power management unit 130 manages power according to the DVFS policy when the heat generation temperature is low. If the heat generation temperature becomes equal to or higher than the limit temperature, the first power management unit 130 adjusts the frequency according to the basic dynamic thermal management policy for a predetermined period of time (e.g., 6 seconds).

The second power management unit 140 may calculate an average of the frequencies performed during the predetermined time (e.g., 6 seconds). The second power management unit 140 may set a target frequency based on the calculated average frequency. The target frequency is the target frequency that is ultimately used for heat management when the heat temperature rises above the limit temperature.

According to one embodiment of the present invention, one fixed frequency may be used at the target frequency. According to an embodiment of the present invention, even when a fixed frequency can not be used at a target frequency (i.e., when a plurality of frequencies are used as a target frequency), the variation width of a plurality of frequencies to be used is minimized You can select the target frequency.

Because, in general, dynamic power dissipation is known to be proportional to the cube of the frequency, the average of the cube by Jensen inequality is always greater than or equal to the average cube, It is good to do it in.

A specific method of setting the target frequency will be described later.

The control unit 150 controls the database 110, the monitoring unit 120, the first power management unit 130, and the second power management unit 140 to be controlled can do.

2 is a flowchart illustrating a power management method of a mobile terminal according to an embodiment of the present invention.

If the heat generation temperature is lower than the critical temperature, the first power management unit 130 may perform the power management according to the DVFS policy (S210).

The monitoring unit 120 may monitor the heat generation temperature of the mobile terminal 100 during power management according to the DVFS policy (S220).

If the heat generation temperature is lower than the critical temperature, the first power management unit 130 may continue power management according to the DVFS policy.

However, if the temperature of the heat reaches the limit temperature or more, the second power management unit 140 may determine the target frequency according to the option to perform dynamic thermal management (S230, S240).

The options may include power optimization options and performance optimization options. The power optimization option is an option for optimizing dynamic power consumption, and the performance optimization option is an option for optimizing work performance. The power optimization option and performance optimization option may be selected by the user.

If the target frequency is set according to the selected option, the control unit 150 may perform the operation at the set target frequency (S250).

If a situation occurs in which the dynamic thermal management of the second power management unit 140 should be interrupted, power management may be performed from step S210. An example of a situation in which the dynamic thermal management is to be stopped is that the dynamic thermal management of the second power management unit 140 causes the temperature of the heat to exceed the limit temperature, .

Hereinafter, a method of setting a target frequency according to the selected power optimization option and performance optimization option will be described.

3 is a flowchart illustrating a method of determining a target frequency according to an option among power management methods of the mobile terminal of FIG.

When the heat generation temperature reaches the limit temperature, the second power management unit 140 may calculate an average frequency for a predetermined period of time (S310).

When the temperature reaches the thermal threshold, the first power management unit 130 may change the frequency by adjusting the frequency according to the basic dynamic thermal management policy for a predetermined time (e.g., 6 seconds). The second power management unit 140 may calculate an average frequency for a predetermined time (e.g., 6 seconds) during which the frequency is changed.

The second power management unit 140 may set the calculated average frequency to the target frequency first (S320).

If the option selected by the user is a power optimization option, the second power management unit 140 may set the average frequency to the final target frequency.

The control unit 150 may perform the operation at the set final frequency (i.e., the average frequency) (S340).

If the option selected by the user is a performance optimization option, the average frequency may be set to a first target frequency and the operation may be performed at a sampling time (e.g., 6 seconds) at the first target frequency (S350). The sampling time may be preset to a period (for example, 6 seconds) for comparing and judging the exothermic temperature and the specific temperature for increasing the target frequency.

After the elapse of the sampling time, the second power management unit 140 determines whether the heating temperature is lower than a specific temperature (S360, S370). For example, the specific temperature may be a temperature slightly lower than the critical temperature (= critical temperature-margin).

As a result of the determination, if the heating temperature is lower than the specific temperature, the second power management unit 140 increases the first target frequency by a predetermined frequency (e.g., 10 Hz) and updates the second target frequency to the second target frequency (S380) To < RTI ID = 0.0 > S370. ≪ / RTI >

If it is determined that the heating temperature is lower than the specific temperature, the second power management unit 140 may set the first target frequency to the final target frequency. Then, the controller 150 may perform the operation at the final target frequency (i.e., the first target frequency) (S340).

The task execution time and the energy consumption are different depending on the power optimization option and the performance optimization option.

FIG. 4 is a graph showing work execution time and energy consumption when the power optimization option is selected, and FIG. 5 is a graph showing work execution time and energy consumption when the performance optimization option is selected.

When the power optimizing option is selected through FIGS. 4 and 5, the average task execution time is longer than that in the case where the performance optimizing option is selected, but the average energy consumption is smaller.

On the other hand, the hardware of the mobile terminal 100 may not support all the frequency steps. In this case, the second power management unit 140 may select two support frequencies immediately adjacent to the average frequency calculated in step S320, and may set the selected two support frequencies as an average target frequency.

6 is a diagram for explaining a method of setting a target frequency using a frequency supported by a mobile terminal in a power management method of a mobile terminal according to an embodiment of the present invention. It is assumed that the frequency unit shown in Fig. 4 is Hz.

4 shows a case where the frequency step supported by the hardware of the mobile terminal 100 increases in units of 100 Hz. If the average frequency is 1090 Hz, it is not a frequency step supported by the hardware. In this case, the second power management unit 140 selects two support frequencies (1000 Hz and 1100 Hz) immediately adjacent to the above average frequency and selects two supported frequencies (1000 Hz and 1100 Hz) Can be applied. For example, if the average frequency is 1090 Hz, you can achieve an effect similar to performing an operation on the average frequency on average, by setting 1100 Hz to 9 times the target frequency and 1000 Hz to 1 time the target frequency.

The power management method of the mobile terminal described above can effectively solve the heat generation problem even in an environment in which a cooling device such as a cooling fan is not provided. Also, the power management method of a mobile terminal can expect high performance while reducing dynamic power consumption.

The power management method of the mobile terminal described above can be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable recording medium. At this time, the computer-readable recording medium may include program commands, data files, data structures, and the like, alone or in combination. On the other hand, the program instructions recorded on the recording medium may be those specially designed and configured for the present invention or may be available to those skilled in the art of computer software.

The computer-readable recording medium includes a magnetic recording medium such as a magnetic medium such as a hard disk, a floppy disk and a magnetic tape, an optical medium such as a CD-ROM and a DVD, a magnetic disk such as a floppy disk, A magneto-optical media, and a hardware device specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like.

The recording medium may be a transmission medium, such as a light or metal line, a wave guide, or the like, including a carrier wave for transmitting a signal designating a program command, a data structure, and the like.

The program instructions also include machine language code, such as those generated by the compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

The power management method and the mobile terminal of the mobile terminal described above can be applied to the configuration and method of the embodiments described above in a limited manner, but the embodiments can be applied to all or some of the embodiments May be selectively combined.

100: mobile terminal
110: Database
120:
130: first power management unit
140: second power management unit
150:

Claims (10)

1. A power management method for a mobile terminal,
Monitoring a heat generation temperature of the mobile terminal;
Adjusting a frequency for a predetermined period of time in accordance with a basic dynamic thermal management policy when the temperature of the mobile terminal is higher than a limit temperature, Lowering the temperature to lower the temperature, and if the temperature of the heat is lowered, performing the operation at the set normal frequency again;
Calculating an average frequency for the predetermined time;
Setting a target frequency based on the calculated average frequency; And
And performing an operation at the set target frequency. The method of claim 1, wherein the target frequency setting step
And setting a target frequency based on the selected option. The method of claim 1, wherein the set target frequency is
And the average frequency is the average frequency. The method of claim 1, wherein the target frequency setting step
Setting the average frequency to a first target frequency;
Determining whether or not the heating temperature is lower than a predetermined temperature after the elapse of the sampling time, the sampling time being preset at a period for comparing and judging the heating temperature and the specific temperature for increasing the target frequency;
Updating the first target frequency to a second target frequency by increasing the first target frequency by a predetermined frequency when the heating temperature is lower than the specific temperature; And
And setting the first target frequency as a final target frequency when the heating temperature is equal to or higher than a predetermined temperature. The method of claim 1, wherein the target frequency setting step
Selecting a first support frequency and a second support frequency immediately adjacent to the calculated average frequency, the support frequency being a frequency supported by the mobile terminal; And
And performing an operation by applying the selected first support frequency and the second support frequency on an average basis as a target frequency. In the mobile terminal,
Limit temperature, and basic dynamic management policy;
A monitoring unit for monitoring a heat generation temperature of the mobile terminal;
A first power management unit for adjusting a frequency for a predetermined time according to the basic dynamic thermal management policy when the heat temperature of the mobile terminal exceeds the limit temperature, The frequency is lowered to lower the temperature, and if the temperature of the heat is lowered, the mobile terminal performs the operation at the set normal frequency again;
A second power management unit for calculating an average frequency for the predetermined time and setting a target frequency based on the calculated average frequency; And
And a controller for controlling the monitoring unit, the first power management unit, and the second power management unit to perform an operation at the set target frequency. 7. The apparatus of claim 6, wherein the second power management unit
And sets the target frequency based on the selected option. 7. The method of claim 6, wherein the set target frequency is
And the average frequency is the average frequency. 7. The apparatus of claim 6, wherein the second power management unit
The average frequency is set to a first target frequency, and after a lapse of a sampling time, it is determined whether the heating temperature is a set specific temperature or less,
Updating the first target frequency to a second target frequency by increasing the first target frequency by a predetermined frequency when the heating temperature is lower than a predetermined temperature,
Setting the first target frequency to a final target frequency when the heating temperature is higher than a predetermined temperature,
Wherein the sampling time is previously set in a period for comparing and judging the exothermic temperature and the specific temperature for increasing the target frequency. The method according to claim 6,
Wherein the second power management unit selects the first and second support frequencies immediately adjacent to the calculated average frequency and applies the selected first and second support frequencies as an average target frequency,
Wherein the support frequency is a frequency supported by the mobile terminal.

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