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CN101441449A - Method for automatically switching power supply state - Google Patents

Method for automatically switching power supply state Download PDF

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Publication number
CN101441449A
CN101441449A CNA2007101936339A CN200710193633A CN101441449A CN 101441449 A CN101441449 A CN 101441449A CN A2007101936339 A CNA2007101936339 A CN A2007101936339A CN 200710193633 A CN200710193633 A CN 200710193633A CN 101441449 A CN101441449 A CN 101441449A
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CN
China
Prior art keywords
electronic installation
duty
down mode
power supply
appointed function
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Pending
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CNA2007101936339A
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Chinese (zh)
Inventor
陈柏桓
李信宜
刘聪平
周柏崴
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Asustek Computer Inc
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Asustek Computer Inc
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Priority to CNA2007101936339A priority Critical patent/CN101441449A/en
Publication of CN101441449A publication Critical patent/CN101441449A/en
Pending legal-status Critical Current

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Abstract

The invention discloses a method for automatically switching power states, which comprises the following steps: when an electronic device is in the state of power conservation and the current time reaches the wake-up time, the state of the electronic device is switched to the working state to automatically execute the designated function when the current time reaches the execution time; and the state of the electronic device is switched to the power-down state to achieve the effect of power conservation after the execution of the designated function is finished.

Description

The method of automatically switching power supply state
Technical field
The invention relates to a kind of method of Switching power state, and particularly relevant for a kind of can be in the front and back that appointed function is carried out, the method for automatically switching power supply state.
Background technology
Power management is a general desktop PC and a critical function that relies on the Portable interfacing equipment (for example notebook) of battery supplied electric power, environmental protection and energy saving consciousness surging now, people also can be the most a mental and physical efforts of environmental protection by power management simultaneously after enjoying computed facility.Not computed the time, can make computing machine enter shutdown, dormancy or armed state and come power saving, and also can reduce the generation of used heat.
Power management in the present computer system adopts advanced configuration and power interface (Advanced Configuration and Power Interface, ACPI) standard mostly.According to the ACPI standard, power supply status comprises S0 -The S5 state, wherein, the S0 state promptly is general so-called duty (working state), and S1 -The S5 state provides degree different power down modes for power supply.
Generally speaking, as long as computer system enters under the power down mode, just can not carry out any program.If the default computer system of user is when special time is carried out appointed function, just must continue computer system is remained under the S0 state, this measure not only expends electric power, gets off also can shorten the computer system life-span for a long time and influences degree of stability.On the other hand, if soon with the running of hardware circuit design collocation software, and allow computer system in certain time by power down mode under Auto Power On carry out appointed function, also can't make the power down mode of computer system before getting back to automatically.
For instance, if the user travels abroad a week, and with computer settings in the 3rd day Auto Power On at dusk, to record certain TV programme one hour.Yet, after television program record finishes, because computer system can't return to previous power supply status, thereby at ensuing four days, computer system must remain on open state, did not but carry out any action, not only waste electric power, also will make reduce the serviceable life of computer system.
Summary of the invention
The invention provides a kind of method of automatically switching power supply state, under electronic installation is in power down mode, can before carry out appointed function, switch to duty, and after executing appointed function, switch back power down mode.
The present invention proposes a kind of method of automatically switching power supply state, is applicable to an electronic installation, and this electronic installation has power down mode and duty.At first, under electronic installation is in power down mode, detect whether arrive wakeup time.When arriving wakeup time, electronic installation is switched to duty, with arrival execution time time at present, automatically perform appointed function, wherein wakeup time is before the execution time.And, after appointed function is carried out end, electronic installation is switched to power down mode.
In one embodiment of this invention, described electronic installation is switched to the step of duty, comprise the wake-up signal that triggers by chronograph mechanism, electronic installation is waken up to duty.
In one embodiment of this invention, before this wakeup time of described arrival, comprise also whether detection receives the input signal that the user triggers.With when receiving input signal, electronic installation is switched to duty, and when arriving the execution time, automatically perform appointed function, and after appointed function is carried out end, electronic installation is maintained under the duty.
In one embodiment of this invention, described after appointed function is carried out end, comprise also whether detection receives the input signal that the user triggers in first-class is treated the time.If not, then electronic installation is switched to power down mode; Otherwise, if then electronic installation is maintained under the duty.
In one embodiment of this invention, described power down mode is armed state, hibernation-like state or soft-off state.
The present invention proposes a kind of method of automatically switching power supply state, is applicable to an electronic installation, and this electronic installation has first power down mode, second power down mode and duty.At first, be under first power down mode, detect whether arrive first wakeup time at electronic installation.Then, when arriving first wakeup time, electronic installation is switched to duty.Afterwards, when arriving for first stand-by period, switch this electronic installation to this second power down mode, wherein this first power down mode than this second power down mode to the more power saving of this electronic installation.Then, when arriving second wakeup time, again electronic installation is switched to duty, to automatically perform appointed function during the execution time in time arrival at present.Wherein first wakeup time, stand-by period, second wakeup time and execution time produce in regular turn.At last, after appointed function is carried out end, electronic installation is switched to first power down mode.
In one embodiment of this invention, described electronic installation is switched to the step of duty, comprise the wake-up signal that triggers by chronograph mechanism, electronic installation is switched to duty.
In one embodiment of this invention, before this first wakeup time of described arrival, comprise also whether detection receives the input signal that the user triggers.With when receiving input signal, electronic installation is switched to duty, and when arriving the execution time, automatically perform appointed function, and after appointed function is carried out end, electronic installation is maintained under the duty.
In one embodiment of this invention, described first wakeup time comprises also whether detection receives the input signal that the user triggers in first stand-by period.With after receiving input signal, and when arriving the execution time, automatically perform appointed function, and after appointed function is carried out end, electronic installation is maintained under the duty.
In one embodiment of this invention, described first stand-by period comprises also between second wakeup time whether detection receives the input signal that the user triggers.With when receiving input signal, at once electronic installation is switched to duty, and when arriving the execution time, automatically perform appointed function, and after appointed function is carried out end, electronic installation is maintained under the duty.
In one embodiment of this invention, described after appointed function is carried out end, also comprise in one second stand-by period end is carried out in detection from this second wakeup time to this appointed function after whether receive the input signal that the user triggers.If not, then electronic installation is switched to first power down mode; Otherwise, if then electronic installation is maintained under the duty.
In one embodiment of this invention, described first power down mode is hibernation-like state or soft-off state, and second power down mode is an armed state.In addition, described appointed function for example is a recording function.
The present invention passes through an autostart function, under electronic installation is in power down mode, and can be when arriving the time of appointment, electronic installation is waken up to duty, prepare to carry out appointed function, treat that appointed function is finished after, again electronic installation is switched back power down mode, not only convenient but also power saving.
For described feature and advantage of the present invention can be become apparent, embodiment cited below particularly, and conjunction with figs. are described in detail below.
Description of drawings
Shown in Figure 1 is method flow diagram according to the automatically switching power supply state of first embodiment of the invention.
Shown in Figure 2 is the method flow diagram of automatically switching power supply state under the ACPI standard according to first embodiment of the invention.
Shown in Figure 3 is method flow diagram according to the automatically switching power supply state of second embodiment of the invention.
Shown in Figure 4 is the method flow diagram of automatically switching power supply state under the ACPI standard according to second embodiment of the invention.
Embodiment
In following examples, electronic installation for example possesses a timer and a self-starter system (for example, the mechanism of pre-recording of videocorder).Wherein, timer is in order to the present time of timing, and self-starter system then is to be used for can automatically performing appointed function when the present time arrives an execution time.Say further, for example possesses real-time clock (Real Time Clock in the electronic installation, RTC) timer, make the time of electronic installation can under power down mode, continue running, and when timer turns round to wakeup time, trigger one and wake instruction up and be sent to power supply unit, and electronic installation is waken up.
In addition, the power down mode in following examples can be divided into (standby) state of awaiting orders, hibernation (hibernate) state and soft-off (soft off) state according to the degree of power supply supply.Wherein, armed state for example suspends (Suspend to CPU) state for processor or internal memory suspends (Suspendto RAM, STR) state, hibernation-like state for example suspends (Suspend to Disk for hard disk, STD) state, the soft-off state then be only for a little electric power to some possess the peripheral device of arousal function, for example network card, keyboard etc.
In addition, the form that those skilled in the art can computer program realizes following embodiment, and utilizes computer-readable storage media to store this computer program, carries out the method for automatically switching power supply state in order to computing machine.So at this only for convenience of description, do not limit the scope of the invention with this.In order to make content of the present invention more clear, below the example that can implement according to this really as the present invention especially exemplified by embodiment.
First embodiment
Shown in Figure 1 is method flow diagram according to the automatically switching power supply state of first embodiment of the invention.Please refer to Fig. 1, at first, in step S101, under electronic installation was in power down mode, system detected the present time and whether arrives wakeup time, and wherein wakeup time is before the execution time.If the present time is the no show wakeup time still, then electronic installation will continue to maintain power down mode, and with when the present time arrives wakeup time, execution in step S103 wakes electronic installation to duty up.For example, the user is set at 14:00 with the execution time in the timer, and wakeup time is set to 13:50.
When the present time arrives wakeup time, enter step S103, electronic installation is switched to duty, with arrival execution time time at present, automatically perform appointed function, for example the mechanism of pre-recording of videocorder.With the wakeup time is 13:50, and when timer turned round to 13:50, timer was the wake-up signal and is sent to power supply unit, makes power supply unit begin to provide power supply to each member of electronic installation, and electronic installation is waken up to duty.
At last, after appointed function is carried out end, shown in step S105, electronic installation is switched to power down mode, save power supply according to this.For example, self-starter can transmit a power saving announcement information to power supply unit after appointed function is carried out end, to suspend the power supply of partial component.
To possess the videocorder of pre-recording function, the user can be in advance in videocorder, the execution time of pre-recording function is set at 14:00, and be 1 hour the service time of pre-recording function, and being set in preceding 5 minutes of execution time wakes videocorder up (also can be electronic installation inner preset) in power down mode, at this moment, wakeup time is 13:55.In view of the above, when videocorder is under the power down mode, and timer just wakes videocorder up (switching) to duty when turning round to 13:55.Then, when timer turns round to 14:00, pre-recording function will automatically perform recording function.After video recording was through 1 hour, constipation bundle recording function.At last, by pre-recording function, videocorder is reverted to original power down mode.
In practical application, (power down mode of present embodiment is the S1-S5 state for example for Advanced Configuration andPower Interface, ACPI) standard, and duty for example is the S0 state according to advanced configuration and power interface.Be example promptly below, further specify the method for automatically switching power supply state with the ACPI standard.
Shown in Figure 2 is the method flow diagram of automatically switching power supply state under the ACPI standard according to first embodiment of the invention.Please refer to Fig. 2, in the present embodiment, suppose Basic Input or Output System (BIOS) (Basic Input Output System, BIOS) the support S1 and the S3 state of electronic installation.At first, in step S201, electronic installation enters S1 or S3 state, to reduce the consumption of power supply.At this, can select S1 state or S3 state by the user, so that electronic installation enters power down mode.
Then, in step S203, before the present time of timer arrives wakeup time, system will detect whether receive the input signal that the user triggers.And input signal is for example pushed the power supply starting signal that power button triggers for the user.If then execution in step S205 switches to electronic installation the S0 state at once, and when timer arrives the execution time, can automatically perform appointed function by self-starter system, and after appointed function is carried out end, electronic installation be continued to maintain under the S0 state; Otherwise if not, then execution in step S207 when the present time arrives wakeup time, wakes electronic installation up to S0 state.When electronic installation wakes up to the S0 state, shown in step S209, when timer arrives the execution time, system will automatically perform appointed function.
With practical application, suppose that wakeup time is 13:55.After user's electronic installation is set to enter power down mode, if the user when 13:00 just by depressing power button, electronic installation will start immediately to S0 state this moment, and need not wait until that 13:55 wakes electronic installation up again.At this moment, because electronic installation is waken up by the user, this measure represents that the user may need to use electronic installation, thereby electronic installation is continued to maintain under the S0 state.Certainly, electronic installation is being waken up to the S0 state, if arrival also can automatically perform appointed function during the execution time.In addition, if before 13:55, electronic installation does not receive any wake-up signal, just can just wake electronic installation up to S0 state when timer arrives 13:55.
After appointed function is finished, shown in step S211, in stand-by period (for example 2 minutes) after appointed function is carried out end, in can detecting from the wakeup time to the stand-by period, whether receive the input signal (being sent) that the user triggers by input-output units such as mouse, keyboards.If the present desire of expression user is used electronic installation, then execution in step S213 maintains electronic installation under the S0 state.If not, then execution in step S215 then switches to electronic installation S1 or S3 state.
For instance, with recording function, after video recording finished, if the user touches keyboard or mouse in from the wakeup time to the stand-by period, the expression user may prepare to use electronic installation, so electronic installation will remain under the S0 state.If surpass 2 minutes stand-by period, electronic installation does not receive input signal, just electronic installation is switched to original S1 or S3 state, its mode of reaching can be by after detecting the execution recording function, design a control program or cooperate the detection mode of timer, can be returned to original power down mode with a hardware.
It should be noted that under different power down modes because the difference of the degree of power supply supply, electronic installation is waken up to the needed time of duty also can be inequality.So, when if power down mode is hibernation-like state (S4 state) or soft-off state (S5 state), electronic installation can waken up to duty (S0 state), switch to again in the armed state (S1 or S3 state) that can wake up fast, reduce expending of power supply according to this.Below promptly describe when electronic installation is in the lower power down mode of power consumption each step of the method for automatically switching power supply state again in detail for an embodiment.
Second embodiment
Shown in Figure 3 is method flow diagram according to the automatically switching power supply state of second embodiment of the invention.Please refer to Fig. 3, at first, in step S301, be under first power down mode at electronic installation, whether system arrives the present time of first detection. electronics in first wakeup time, and wherein first wakeup time is before the execution time.If time no show first wakeup time then maintains electronic installation first power down mode at present, with when the present time arrives first wakeup time, execution in step S303.Described first power down mode is that power consumption is lower, and needs the long period to wake up to duty, for example is hibernation-like state or soft-off state.
In step S303, when the present time arrived first wakeup time, system woke electronic installation to duty up.Because after electronic installation is switched to duty, may be also for some time apart from the execution time, for power saving, in step S305, to one first stand-by period the time, just electronic installation is switched to second power down mode (for example holding state), reach the effect that continues power saving according to this, but still can take into account the demand that enters duty rapidly.
Then, in step S307, when the present time arrived second wakeup time, system woke electronic installation to duty up again, to automatically perform appointed function in time arrival at present during the execution time.Described second wakeup time is between the execution time and first wakeup time, and for example, the execution time is 14:00, and first wakeup time is 13:50, and second wakeup time is 13:55.
At last, after appointed function was carried out end, shown in step S309, system switched to first power down mode with electronic installation, saves power supply according to this.
In practical application, according to the ACPI standard, duty for example is the S0 state, and first power down mode for example is S4 or S5 state, and second power down mode for example is S1 or S3 state.Be example promptly below, further specify the method for automatically switching power supply state with the ACPI standard.
Shown in Figure 4 is the method flow diagram of automatically switching power supply state under the ACPI standard according to second embodiment of the invention.Please refer to Fig. 4, in the present embodiment, suppose that the BIOS of electronic installation supports S1 and S3 state.At first, in step S401, electronic installation enters S4 or S5 state, to reduce the consumption of power supply.
Then, in step S403, before the present time of timer institute timing arrives first wakeup time, system will detect whether receive the input signal that the user triggers, and for example, push the power supply starting signal that power button triggers by the user.If receive the input signal that the user triggers, then execution in step S405 switches to electronic installation the S0 state at once, and when the present time arrives the execution time, automatically perform appointed function, and after appointed function is carried out end, electronic installation is continued to maintain under the S0 state.
If step S403 is not for receiving the input signal that the user triggers, then execution in step S407 when the present time arrives first wakeup time, wakes electronic installation up to S0 state.
Afterwards, in step S409, in first stand-by period (for example 30 seconds), detect whether receive the input signal (being sent) that the user triggers by mouse, keyboard at first wakeup time.For example, in 30 seconds after first wakeup time, system detects whether receive the input signal that the user triggers.If then execution in step S425 can automatically perform appointed function in time arrival at present by self-starter system during the execution time, and after appointed function is carried out end, electronic installation be maintained under the S0 state.
If step S409 is not for to receive the input signal that the user triggers, then execution in step S411 switches to S1 or S3 state with electronic installation.At this, can enter S1 or S3 state by the systemic presupposition decision, also or by the user select, do not limit at this.
Then, step S413 and described step S403 are same or similar, so be not described in detail in this.In step S413, before the present time of timer institute timing arrived second wakeup time from first stand-by period, system still detected whether receive the input signal that the user triggers.If, execution in step S405 then; Otherwise if not, then execution in step S415 when the present time arrives second wakeup time, wakes electronic installation up to S0 state.
Briefly, because electronic installation is when S4 or S5 state wake up to the S1 state, required time is more of a specified duration, therefore, is waking up earlier before the execution time to the S0 state, switches to the S1 or the S3 state that can wake up rapidly again and comes standby.When near the execution time, can wake to S0 state fast up.
Then, in step S417, when the present time arrives the execution time, can automatically perform appointed function by self-starter system.After appointed function is finished, shown in step S419, after appointed function is carried out end, detect from second wakeup time in second stand-by period, whether receive the input signal (being sent) that the user triggers by input-output units such as mouse, keyboards.If the present desire of expression user is used electronic installation, then execution in step S421 maintains electronic installation under the S0 state.If not, then execution in step S423 then switches to electronic installation S4 or S5 state.
In actual applications, with media center version (Media Center Edition, MCE) " electronic programming forms " are example, and the user can preestablish the TV programme of desiring to record, and with the computer system settings TV programme that 14:00 to 16:00 automatic recording is preset in every day.In addition, suppose that computer system is under the S4 state, its first wakeup time decided at the higher level but not officially announced is preceding 10 minutes of execution time, and second wakeup time is preceding 5 minutes of execution time.
In view of the above, arrive 14:00 preceding 10 minutes (being 13:50) in the present time of computer system and just can enter to the S0 state by Auto Power On.After treating that start is finished, enter the S3 state immediately to continue power saving.Then,, wake state up by the S3 state again, begin video recording with wait to S0 in preceding 5 minutes of the execution time (being 13:55).When treating that the present time arrives 14:00, promptly record a video automatically.And after 16:00 video recording finished, computer system was convenient to 16:02 and is got back to previous power supply status (being the S4 state) automatically.
In the middle of described process, if the user presses power button, keyboard, remote controller buttons during 13:50-16:02, or rolling mouse, press mouse button etc., then computer system will judge automatically that the user has the demand of operational computations machine, and with system held in the S0 state.Certainly, when at present the time arrives 14:00, the computer system action of also can recording a video automatically.
In sum, in described embodiment, can when not using, electronic installation enter power down mode, before desire is carried out appointed function, again electronic installation is waken up automatically performing appointed function, and after complete, switch back power down mode, reach less electricity consumption according to this, also make lifetime of system prolong simultaneously.
Though the present invention discloses as above with preferred embodiment; right its is not in order to limit the present invention; have in the technical field under any and know the knowledgeable usually; without departing from the spirit and scope of the present invention; when can doing a little change and retouching, so protection scope of the present invention is as the criterion when looking claims person of defining.

Claims (14)

1. the method for an automatically switching power supply state is applicable to an electronic installation, and described electronic installation has a power down mode and a duty, it is characterized in that, described method comprises:
Be under the described power down mode at described electronic installation, detect whether arrive a wakeup time;
When arriving described wakeup time, switch described electronic installation to described duty, when arriving an execution time, automatically perform an appointed function, wherein said wakeup time is before the described execution time; And
After described appointed function is carried out end, switch described electronic installation to described power down mode.
2. the method for automatically switching power supply state according to claim 1 is characterized in that, wherein switches the step of described electronic installation to described duty, comprising:
A wake-up signal that is triggered by a chronograph mechanism is to switch described electronic installation to described duty.
3. the method for automatically switching power supply state according to claim 1 is characterized in that, wherein before arriving described wakeup time, also comprises:
Detect and whether receive the input signal that a user is triggered; And
If, then switch described electronic installation to described duty, and when arriving described execution time, automatically perform described appointed function, and described appointed function carry out finish after, described electronic installation maintains described duty.
4. the method for automatically switching power supply state according to claim 1 is characterized in that, wherein after described appointed function is carried out end, also comprises:
The first-class that detection is carried out after finishing to described appointed function from described wakeup time is treated in the time whether receive the input signal that a user is triggered;
If not, then switch described electronic installation to described power down mode; And
If then keep described electronic installation under described duty.
5. the method for automatically switching power supply state according to claim 1 is characterized in that, wherein said appointed function is a recording function.
6. the method for automatically switching power supply state according to claim 1 is characterized in that, wherein said power down mode be an armed state, a hibernation-like state and a soft-off state one of them.
7. the method for an automatically switching power supply state is applicable to an electronic installation, and described electronic installation has one first power down mode, one second power down mode and a duty, it is characterized in that, described method comprises:
Be under described first power down mode at described electronic installation, detect whether arrive one first wakeup time;
When arriving described first wakeup time, switch described electronic installation to described duty;
When arriving for one first stand-by period, switch described electronic installation to described second power down mode, wherein said first power down mode than described second power down mode to the more power saving of described electronic installation;
When arriving one second wakeup time, switch described electronic installation to described duty, when arriving an execution time, automatically perform an appointed function, wherein said first wakeup time, described stand-by period, described second wakeup time and described execution time produce in regular turn; And
After described appointed function is carried out end, switch described electronic installation to described first power down mode.
8. the method for automatically switching power supply state according to claim 7 is characterized in that, wherein switches the step of described electronic installation to described duty, comprising:
By the wake-up signal that a chronograph mechanism is triggered, switch described electronic installation to described duty.
9. the method for automatically switching power supply state according to claim 7 is characterized in that, wherein arrives before described first wakeup time, also comprises:
Detect and whether receive the input signal that a user is triggered; And
If, then switch described electronic installation to described duty, and when arriving described execution time, automatically perform described appointed function, and described appointed function carry out finish after, described electronic installation maintains described duty.
10. the method for automatically switching power supply state according to claim 7 is characterized in that, wherein said first wakeup time also comprised in described first stand-by period:
Detect and whether receive the input signal that a user is triggered; And
If, then when arriving described execution time, automatically perform described appointed function, and described appointed function carry out finish after, described electronic installation maintains described duty.
11. the method for automatically switching power supply state according to claim 7 is characterized in that, wherein said first stand-by period also comprises between described second wakeup time:
Detect and whether receive the input signal that a user is triggered; And
If, then switch described electronic installation to described duty, and when arriving described execution time, automatically perform described appointed function, and described appointed function carry out finish after, described electronic installation maintains described duty.
12. the method for automatically switching power supply state according to claim 7 is characterized in that, wherein after described appointed function is carried out end, also comprises:
In one second stand-by period after detection finishes from described second wakeup time to described appointed function execution, whether receive the input signal that a user is triggered;
If not, then switch described electronic installation to described first power down mode; And
If then keep described electronic installation under described duty.
13. the method for automatically switching power supply state according to claim 7 is characterized in that, wherein said appointed function is a recording function.
14. the method for automatically switching power supply state according to claim 7 is characterized in that, wherein said first power down mode be a hibernation-like state and a soft-off state the two one of, described second power down mode is an armed state.
CNA2007101936339A 2007-11-23 2007-11-23 Method for automatically switching power supply state Pending CN101441449A (en)

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CN102109900A (en) * 2009-12-25 2011-06-29 比亚迪股份有限公司 Method and system for reducing static power consumption of electronic equipment in power-down mode
CN102163073A (en) * 2010-02-23 2011-08-24 华为终端有限公司 Terminal power consumption optimization processing method and device
CN102346562A (en) * 2010-08-04 2012-02-08 郭青松 Automatic computer switching device
CN102621912A (en) * 2011-01-27 2012-08-01 赛酷特(北京)信息技术有限公司 Automatic power-saving method of micro controller unit
CN103186424A (en) * 2011-12-31 2013-07-03 联想(北京)有限公司 Information processing method and electronic equipment
CN103777973A (en) * 2012-10-24 2014-05-07 英业达科技有限公司 Computer device and arousing method thereof
CN112945998A (en) * 2020-10-19 2021-06-11 佛山格捷锐信息技术有限公司 Method and device for automatically turning off power supply of handheld XRF spectrometer in standby state

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102109900A (en) * 2009-12-25 2011-06-29 比亚迪股份有限公司 Method and system for reducing static power consumption of electronic equipment in power-down mode
CN102163073A (en) * 2010-02-23 2011-08-24 华为终端有限公司 Terminal power consumption optimization processing method and device
CN102163073B (en) * 2010-02-23 2012-11-21 华为终端有限公司 Terminal power consumption optimization processing method and device
CN102346562A (en) * 2010-08-04 2012-02-08 郭青松 Automatic computer switching device
CN102621912A (en) * 2011-01-27 2012-08-01 赛酷特(北京)信息技术有限公司 Automatic power-saving method of micro controller unit
CN103186424A (en) * 2011-12-31 2013-07-03 联想(北京)有限公司 Information processing method and electronic equipment
CN103186424B (en) * 2011-12-31 2016-08-17 联想(北京)有限公司 Information processing method and electronic equipment
CN103777973A (en) * 2012-10-24 2014-05-07 英业达科技有限公司 Computer device and arousing method thereof
CN112945998A (en) * 2020-10-19 2021-06-11 佛山格捷锐信息技术有限公司 Method and device for automatically turning off power supply of handheld XRF spectrometer in standby state

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Application publication date: 20090527