CN101727168B - Power supply management method of input device - Google Patents
Power supply management method of input device Download PDFInfo
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Abstract
The invention provides a power supply management method of an input device, comprising the following steps of: after the input device enters a shallow sleep mode, beginning timing and recording a trigger time of the input device; and updating the start time of a deep sleep according to the trigger time. After the input device is in idle for a period of time, the input device enters the shallow sleep mode, the trigger time of the input device returning from the shallow sleep mode to a working mode because of an operation of a user is recorded during the shallow sleep, and accordingly, the record of the trigger time is used as a mode for dynamically updating the start time of the deep sleep so as to achieve better energy saving efficiency.
Description
Technical field
The invention relates to a kind of method for managing power supply, and particularly dynamically adjust the electricity saving method that input media (for example wireless mouse) enters the time of battery saving mode according to the use pattern analysis relevant for a kind of.
Background technology
In recent years, every peripheral equipment of computer moves towards wireless penetration gradually, and is the most universal with wireless mouse especially.Wireless mouse makes the mouse data to be transmitted back to computer by connecting line by Radio Transmission Technology, but simultaneously in the constraint of removing connecting line, the required electric power of mouse also can't be provided by computer again, so wireless mouse makes the limited battery of power consumption as power source.In order not allow the frequent replacing battery of user or charge, therefore when the design wireless mouse, must consider electric quantity consumption and power management especially, so that prolong the service time of wireless mouse.
The power saving mode of general wireless mouse mainly is by when mouse is idle displacement sensing and wireless transmission module being closed the effect that reaches energy savings, then coming the wake on wireless mouse to start buttoned-up module by mousebutton when the user desires to re-use mouse.Yet, how to judge that whether mouse leaves unused then is a difficult problem, normally at idle timer of mouse firmware design, when operating mouse, the user do not pick up counting, when yet mouse not being carried out any operation, judge that then mouse enters idle state and can enter battery saving mode through user behind the setting-up time.But the time of this timer settings is generally a fixed value, and the user uses the operator scheme of mouse different separately because of the operation purpose, if it is too short that judgement enters the idle state time set, then for the long user of operation mouse dwell interval, the mouse current state is judged in possible errors; But, then can make the deterioration of efficiency of power saving if judge that setting standby time is long.
Summary of the invention
In view of this, the present invention proposes a kind of wireless mouse method for managing power supply that can analyze according to operator scheme.By the use pattern of record user in a period of time, selecting a suitable standby time according to this sets, make the wireless mouse pattern that can dynamically be used adjust the time that enters battery saving mode voluntarily, be issued to better energy-saving efficiency in the situation that does not influence ease of use whereby.
Hold above-mentionedly, the present invention proposes a kind of method for managing power supply of input media, comprises the following steps: a triggered time that picks up counting and write down above-mentioned input media behind the shallow degree park mode entering; Upgrade a dormancy start-up time than the degree of depth (or be called deep-sleep start-up time) according to this in triggered time; And follow-uply surpass this dormancy and then enter park mode (or being called deep power down mode) during start-up time than the degree of depth than the degree of depth when this input media is idle.
In an embodiment of the present invention, wherein promptly entering this shallow degree park mode above after the set time when this input media is idle.When entering shallow degree park mode and start detection return back to triggered time of mode of operation because of user's operation to write down this input media.
In an embodiment of the present invention, wherein stating the step in triggered time documentarily more comprises: start a timer after entering this shallow degree park mode, to be checked when measuring mouse action, write down this time value (being the triggered time), and according to corresponding relation corresponding record one index value of this time value and a plurality of time intervals, and replace a oldest index record value with the index value that is write down.
In an embodiment of the present invention, above-mentionedly write down 8 groups of nearest index record values altogether.
In an embodiment of the present invention, wherein more comprise upgrading this step according to 8 groups of nearest index record values: according to record order, upgrade the oldest index value, record N group record with this new index value than dormancy start-up time of the degree of depth; N is a positive integer; And upgrade dormancy start-up time than the degree of depth according to those index record values.
In an embodiment of the present invention, wherein more comprise upgrading this step than dormancy start-up time of the degree of depth according to those index values: the accumulated value according to those index values calculates an average index value; And should be as upgrading than deep-sleep start-up time according to interval intermediate value of the time of adding behind this average index value, weighting one numerical value.
In an embodiment of the present invention, above-mentioned method for managing power supply more comprises the following steps: to upgrade a dormancy start-up time than the degree of depth according to this triggered time; And surpass this dormancy and then enter a park mode than the degree of depth during start-up time than the degree of depth when this input media is idle.
In an embodiment of the present invention, wherein more comprise: when input media is idle when entering deep power down mode in the step of upgrading those index record values, then stop timing and upgrade the oldest index record value according to deep-sleep corresponding record start-up time one weighted indexing value and with above-mentioned weighted indexing value, wherein the weighted indexing value is greater than one of deep-sleep pairing those index values start-up time.
In an embodiment of the present invention, wherein above-mentioned input media is a wireless mouse, a wire mouse or a keyboard, and the above-mentioned triggered time is write down this input media returns back to mode of operation because of user's operation triggered time; Promptly represent in the adjacent process that triggers input media (move or push button) for twice of a user to enter the interval time that shallow degree park mode returns back to mode of operation again.
The present invention is because of the use pattern by the record user, select a suitable standby time according to this, the difference that makes wireless mouse can be used pattern is adjusted the time that enters battery saving mode voluntarily, and reaching whereby not influence has better energy-saving efficiency again under the ease of use.
Description of drawings
For above-mentioned purpose of the present invention, feature and advantage can be become apparent, below in conjunction with accompanying drawing the specific embodiment of the present invention is elaborated, wherein:
Fig. 1 is the computing method synoptic diagram of dormancy start-up time of mouse according to an embodiment of the invention.
Fig. 2 A and Fig. 2 B are according to the index value of present embodiment and dormancy contrast start-up time figure.
Fig. 3 is the mouse method for managing power supply process flow diagram according to present embodiment.
Fig. 4 is the method for managing power supply process flow diagram according to the input media of present embodiment.
The main element symbol description:
T
MINLower limit T
MAXInitial value
0~15 index value T
xTime interval
ST deep-sleep R1~R8 start-up time, RX1, RX2 standby time
The time value of T1, T2 deep-sleep ST start-up time
The step of the method for managing power supply of S305~S360 mouse
The step of the method for managing power supply of S410~S430 input media
Embodiment
Because the user uses the pattern difference for the operation of input media (for example mouse), so the present invention can get off user's use mode record, and dynamically adjusts the dormancy start-up time that mouse enters battery saving mode according to operator scheme.When the interval of operation mouse usually more in short-term, for example during web page browsing, the present invention can be set at the short time with the deep-sleep of mouse start-up time.When the user operates the interval of mouse when longer usually, for example during the literal mode of operation, the present invention can be set at the long time to meet the demand of user and environment for use thereof and custom with the deep-sleep of mouse start-up time.
Next, be example with the mouse, further specify the method for managing power supply of input media of the present invention, please refer to Fig. 1, Fig. 1 is the computing method synoptic diagram of dormancy start-up time of mouse according to an embodiment of the invention.Unit state is represented the operator scheme of present mouse, and wherein normal manipulation mode represents that mouse is under the normal user mode.When the user stops using mouse, mouse can enter idle state, system utilizes timer to go the timing triggered time, and the so-called triggered time promptly is meant the input device because of the user, and makes input media by entering the interval time that shallow degree park mode returns back to mode of operation again.
According to the time span in triggered time (be standby time R1~R8 greater than set time T
MINPart, represent with horizontal line) corresponding record one index value (0~15).Index value is then decided according to time interval, can set DT between a detection period in the present embodiment, and DT is between set time T between detection period
MINWith higher limit T
MAXBetween, wherein surpass set time T when input media is idle
MINAfter promptly can enter shallow degree park mode.DT can be divided into a plurality of time intervals between detection period, and each time interval in the present embodiment, will be divided into 16 time intervals (as T altogether corresponding to an index value between detection period
x), correspond respectively to index value 0~15.After input media entered shallow degree park mode, timer can start and write down its triggered time automatically.R1 is an example with standby time, and its corresponding index value is 0 (because its triggered time is corresponding to the 1st time interval), and the pairing index value of R2 standby time is 5 (because its triggered time is corresponding to the 5th time intervals), and the rest may be inferred by analogy for it.When detecting new triggered time, an index record value then its corresponding index value can being upgraded record the earliest is to dynamically update deep-sleep ST start-up time.
When mouse left unused above deep-sleep ST start-up time, mouse can enter deep power down mode with further minimizing power consumption.At this moment, according to the design requirement of power saving, timer can stop timing simultaneously, upgrades a document of the oldest in the index record value (record the earliest) then with the pairing weighted indexing value of deep-sleep ST start-up time.Above-mentioned weighted indexing value can for example add the pairing index value of deep-sleep ST start-up time one preset value or get its multiple to be used as the weighted indexing value in the present embodiment greater than the pairing index value of existing deep-sleep ST start-up time.In other words, after mouse enters shallow degree park mode each time, system just can dynamically update deep-sleep ST start-up time according to the length in its triggered time, then can decide according to design requirement as for the setting of index value and weighted indexing value, and present embodiment is not limited.
Deep-sleep ST start-up time calculates and gets according to the index value (being the index record value) that has write down, and can dynamically adjust deep-sleep ST start-up time according to the new detected triggered time.In the present embodiment, if before deep-sleep ST start-up time be time T 1, when receiving new standby time during R8, can deep-sleep ST start-up time be updated to time T 2 according to pairing index value of its triggered time (4).Therefore, after receiving R8 standby time, the deep-sleep that mouse enters deep power down mode promptly can be revised as T2 start-up time after recomputating.In other words, present embodiment can dynamically update deep-sleep ST start-up time according to user's use pattern, allows mouse enter deep power down mode in due course, to meet the operator scheme under the individual work.The account form of deep-sleep ST start-up time that desire is upgraded is shown below:
T2=T
MIDDLE+a×I
Wherein, I represents the average index value of N index record value, and N then is number of samples (present embodiment is 8), R
iExpression pairing index value of triggered time, parameter a express time length of an interval degree, for example 10 seconds.It should be noted that the mode that average index value I can take to round up gets its round values, average in the present embodiment index value I can fall between 0~15 T
MIDDLEIntermediate value for time interval; For example 10 seconds intermediate value is got 5 stopwatches and is shown; The time value of dormancy ST start-up time after T2 then represents to upgrade.
By the account form of above-mentioned dormancy ST start-up time as can be known, present embodiment takes the mean value of 8 index record values to dynamically update deep-sleep ST start-up time, when producing the new triggered time, as R8, mouse can upgrade the index record value that is used for calculating the oldest among the average index value I (record the earliest) originally according to the record order with its corresponding index value (4).That is to say, average index value I only need use 8 index record values to calculate, whenever receive a new index value, the index record value that just is used for replacing a Geju City dynamically updates the time of deep-sleep ST start-up time then to upgrade the calculating benchmark of average index value I.
In addition, it should be noted that the number of samples N of present embodiment is not limited to 8, also can be 10 or 20 or other number of samples.The account form of deep-sleep ST start-up time is not subject to above-mentioned formula yet, also can do suitably to adjust according to design requirement.Parameter a and T
MIDDLECan adjust according to design requirement, the present invention is not limited yet.The pairing index value of respective time interval also can be adjusted according to design requirement, is not limited to 0~15 numerical value such as grade.In addition, I also is not limited as an arithmetical mean, also may be with mode or the weighted mean after weighting ... Deng.Moreover, according to design requirement, after entering deep power down mode, can stop timer, therefore only can equal deep-sleep ST start-up time instantly the standby time (as R8) of last record, so amplify this standby time to infer that replaces this notes record the standby time of length with a weighted value.The standby time of being write down (R4) then may be greater than present deep-sleep ST start-up time before.This is because due to the reason that the time value of pairing deep-sleep ST start-up time is bigger when record R4 standby time.
Next, please refer to Fig. 2 A and Fig. 2 B, Fig. 2 A and Fig. 2 B are according to the index record value of present embodiment and dormancy contrast start-up time figure.Shown in Fig. 2 A, if 8 index record values of record are respectively 3,13,1,6,3,12,2 and 8 in regular turn, then its average index value that calculates is 6 (calculating in the mode of rounding up), and its corresponding deep-sleep ST start-up time then is updated to 65 (making a=10).Shown in 2B, if 8 index record values of record are respectively 13,1,6,3,12,2,8 and 4 in regular turn, then its average index value that calculates is 7 (calculating in the mode of rounding up), and its corresponding deep-sleep ST start-up time then is updated to and (makes a=10 75 (seconds); T
MIDDLE=5).Remaining index value combination deep-sleep start-up time ST corresponding with it then can analogize according to above-mentioned formula, do not repeat them here.
In addition, it should be noted that because mouse may have the park mode of multiple different brackets, and can enter the park mode of different brackets according to the length of standby time.Therefore, present embodiment not only can be applicable to the dormancy start-up time of set depth park mode, while also is applicable to the park mode of various different brackets, as long as correspondence is set the dormancy start-up time that timer corresponding with increasing index record table (record corresponding index value) and setting between detection period can dynamically be set multiple different brackets.Via illustrating in the foregoing description, the present technique field has knows that usually the knowledgeable should know its embodiment easily by inference, does not repeat them here.
Comprehensively above-mentioned, present embodiment can be summarized a kind of mouse method for managing power supply, and as shown in Figure 3, Fig. 3 is the mouse method for managing power supply process flow diagram according to present embodiment.At first, set initial value, be about to each index value and initial depth dormancy ST start-up time parameter setting one appropriate initial value, for example 0~15 to calculate initial depth dormancy ST start-up time with intermediate value 7 table index values be 75 (step S305), and setting mouse then is mode of operation (step S310).Next, judge whether mouse enters shallow degree park mode (being whether standby time is greater than a set time) (step S315).If, then start the triggered time of timer with the timing mouse, in timing course, if the user operates mouse, allow mouse apparatus that data or signal output (step S325) are arranged, then replace a oldest index record value (step S326) with pairing index value of triggered time, calculate new deep-sleep start-up time and the start-up time (step S328) of upgrading next deep-sleep according to present record then, remove timer (step S329) then, then get back to step S310 mouse is reset to mode of operation.
If the user does not operate mouse, then judge whether to enter deep power down mode (step S330), if not, then get back to step S325, continue to detect the user and whether operate mouse; If decision will enter deep power down mode, then with pairing index value of existing triggered time; (for example: add a weighted value 3, but if surpass T calculate a weighted indexing value with a weighting algorithm
MAXThen with T
MAXPairing index value substitutes its index value) the oldest index record value (step S335) of replacement.Then, the start-up time (step S340) of calculating new dormancy start-up time and upgrading next deep-sleep, remove timer (step S342) then.Next, mouse is set at deep power down mode (step S345).Then, judge whether the user operates mouse (step S350), if then get back to step S310; If not, judge then whether standing state is best battery saving mode (step S355).If best battery saving mode has been set and finished, then same principle continues to detect whether enter next battery saving mode (battery saving mode of every increase then must increase an index value record sheet again) (step S360) according to this.
In addition, in the process flow diagram of Fig. 3, it should be noted that, mouse can continue to detect the user and whether operate mouse (for example move or push button), if have, just can be set at mode of operation with being about to mouse, the step of its detection has more than and is defined in step S325 and S350.Moreover, when mouse is obtained new index value, just can dynamically update dormancy start-up time according to the computing formula of new index value and its dormancy start-up time.Present embodiment is considered by mouse itself and is finished calculating, if when index value is upgraded in shallow degree dormancy, and carry out the deep-sleep calculating of start-up time immediately, and easily cause system burden and produce and reply to postpone, therefore also can consider only before entering deep-sleep, to remake update calculation.As for the calculating of dormancy start-up time with store and can finish or utilize system's (as host computer) to carry out by mouse itself, present embodiment is not limited.
The content of comprehensive the foregoing description, the present invention can summarize the method for managing power supply of a kind of input media (for example wireless mouse, wire mouse or keyboard), utilize the detected triggered time, dynamically adjust the start-up time that input media enters the power saving park mode.Please refer to Fig. 4, Fig. 4 is the method for managing power supply process flow diagram according to the input media of present embodiment.At first, the triggered time (step S410) that after entering shallow degree park mode, picks up counting and write down input media.In this step, can produce an index value according to pairing time interval of triggered time.Then according to upgrading deep-sleep start-up time (step S420) according to pairing index value of triggered time, the computing formula of deep-sleep start-up time then as above-mentioned, when obtaining a new index value, just deep-sleep can upgrade start-up time thereupon.Then, then enter a park mode (step S430) when this input media is idle during start-up time above this deep-sleep.
It should be noted that if input media need be set the park mode of multiple different brackets according to its design requirement,, just can repeat above-mentioned steps S410~S430, dynamically update the dormancy start-up time of different park modes as long as set between different detection periods.In addition,, then can in step S420, utilize different number of samples or index value, set the dormancy start-up time of different park modes simultaneously if comprise multiple park mode between detection period.Input media can switch in a plurality of battery saving modes in various degree, and can determine when to enter next preferable battery saving mode.Please refer to the explanation of the foregoing description about all the other details of operations of Fig. 4, do not add at this and give unnecessary details.
In addition, the method for managing power supply of the input media of present embodiment is not only applicable to wireless mouse or wire mouse, simultaneously, present embodiment is applicable to that also other need save the input media of power consumption, for example Wireless Keyboard etc. can use the triggered time of Wireless Keyboard to set best dormancy start-up time by the user equally.Present embodiment does not limit the input media type that is suitable for.The present technique field has common knowledge, after via exposure of the present invention, should know its application mode easily by inference, does not add at this and gives unnecessary details.
In sum, the present invention is by the use habit that detects the user, select a suitable dormancy start-up time according to this, the difference that makes wireless mouse can be used pattern is adjusted the time that enters battery saving mode voluntarily, is issued to better energy-saving efficiency in the situation that does not influence ease of use whereby.
Though the present invention discloses as above with preferred embodiment; right its is not in order to qualification the present invention, any those skilled in the art, without departing from the spirit and scope of the present invention; when can doing a little modification and perfect, so protection scope of the present invention is when with being as the criterion that claims were defined.
Claims (3)
1. the method for managing power supply of an input media comprises:
Enter a triggered time that picks up counting and write down this input media behind the shallow degree park mode at this input media, wherein promptly enter this shallow degree park mode above after the set time when this input media is idle, in addition, writing down the step in this triggered time more comprises: start a timer to obtain this triggered time after entering this shallow degree park mode; Set between a detection period, between this set time and a higher limit, and will be divided into a plurality of time intervals between this detection period between this detection period, those time intervals correspond respectively to a plurality of index values; And according to one of these pairing those time intervals of triggered time, one of those index values of corresponding record;
Upgrade deep-sleep start-up time according to this triggered time, wherein upgrading the step of this deep-sleep start-up time according to this triggered time comprises: according to record order, with the oldest index record value in N index record value of one of these pairing those index values of triggered time renewal, N is a positive integer; And upgrade this deep-sleep start-up time according to those index record values; And
Then enter a deep power down mode when this input media is idle during start-up time above this deep-sleep;
Wherein, upgrading the step of this deep-sleep start-up time according to those index record values more comprises: the accumulated value according to those index record values calculates an average index value; And upgrade this dormancy start-up time according to the length of this average index value, this time interval and interval intermediate value of a time;
Wherein, upgrading the step of this deep-sleep start-up time according to the length of this average index value, this time interval and this time interval intermediate value more comprises: with the product of this average index value and this time interval and this time interval intermediate value with upgrade this deep-sleep start-up time;
Wherein, the step of upgrading those index record values more comprises: when this input media is idle when entering this deep power down mode, then stop timing and upgrade this oldest index record value according to this deep-sleep corresponding record start-up time one weighted indexing value and with this weighted indexing value, wherein this weighted indexing value is greater than one of these deep-sleep pairing those index values start-up time;
Wherein, this triggered time represents that this input media enters an interval time that returns back to a mode of operation behind the shallow degree park mode because of user operation.
2. method for managing power supply as claimed in claim 1 is characterized in that N equals 8.
3. method for managing power supply as claimed in claim 1 is characterized in that, this input media is a wireless mouse, a wire mouse or a keyboard.
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| CN103838414B (en) * | 2012-11-27 | 2018-10-12 | 联想(北京)有限公司 | A kind of recognition methods and a kind of electronic equipment |
| CN103869923B (en) * | 2012-12-07 | 2018-10-12 | 联想(北京)有限公司 | A kind of method and device of state switching |
| CN103425233A (en) * | 2013-07-12 | 2013-12-04 | 深圳市福田区青少年科技教育协会 | Power-saving mouse |
| FR3018409B1 (en) * | 2014-03-06 | 2018-01-05 | Sagemcom Broadband Sas | SYSTEM AND METHOD FOR REDUCING THE ENERGY CONSUMPTION OF AN INTERCONNECTION DEVICE |
| JP6240567B2 (en) * | 2014-06-25 | 2017-11-29 | 株式会社日立製作所 | Elevator control power monitoring device and elevator control power monitoring method |
| US9496887B1 (en) * | 2015-05-12 | 2016-11-15 | Microchip Technology Incorporated | Analog to digital converter with internal timer |
| CN105353864A (en) * | 2015-10-19 | 2016-02-24 | 珠海全志科技股份有限公司 | Static power consumption management method and system for electronic device |
| CN105892614A (en) * | 2015-12-18 | 2016-08-24 | 乐视移动智能信息技术(北京)有限公司 | Power consumption management and control method and system of intelligent terminal |
| CN110908719A (en) * | 2018-09-17 | 2020-03-24 | 梅特勒-托利多(常州)测量技术有限公司 | Dynamic power consumption management and awakening method and application system thereof |
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| CN1540479A (en) * | 2003-04-22 | 2004-10-27 | 启�科技股份有限公司 | Method and device for managing power source of electronic equipment |
| CN1690955A (en) * | 2004-04-29 | 2005-11-02 | 钜格系统科技股份有限公司 | Power supply management method for hand-held information processing apparatus |
| CN2867439Y (en) * | 2005-04-30 | 2007-02-07 | 陆航 | Wireless mouse and its dump-free dormant circuit |
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| CN1540479A (en) * | 2003-04-22 | 2004-10-27 | 启�科技股份有限公司 | Method and device for managing power source of electronic equipment |
| CN1690955A (en) * | 2004-04-29 | 2005-11-02 | 钜格系统科技股份有限公司 | Power supply management method for hand-held information processing apparatus |
| CN2867439Y (en) * | 2005-04-30 | 2007-02-07 | 陆航 | Wireless mouse and its dump-free dormant circuit |
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