CN103294157A - Method and system for optimizing power consumption of electronic device and electronic device - Google Patents

Abstract

The invention discloses a method and a system for optimizing power consumption of an electronic device and an electronic device. According to the method and the system, after a user instruction sent by a user is acquired, the user instruction can be identified, a working state of a processing system in the electronic device is adjusted according to the user instruction, and low power display units can be used for operation when needed. Operation of the display units with different power can be adjusted according to the user instruction, so that the user can selectively use the low power display units, electric energy is effectively saved, and power consumption of the electronic device is optimized.

Description

A kind of power consumption optimization method of electronic equipment, system and a kind of electronic equipment

Technical field

The present invention relates to the optimised power consumption technical field, particularly relate to a kind of power consumption optimization method, system and a kind of electronic equipment of electronic equipment.

Background technology

Along with science and technology development, electronic equipments such as mobile phone, panel computer are also more and more intelligent.For instance, mobile phone had wifi, multiple function such as the shooting of surfing the Net, take pictures, audio-visual broadcast, gravity sensing, recreation, bluetooth.

And these sophisticated functionss all are to be based upon on the disposal system of high efficiency smart, and this disposal system is applied in the realization that just can perfectly support above multiple function on the high performance processor.More than these multiple functions all needing without exception use high-resolution screen to show.Yet, no matter be this high-resolution screen or the disposal system of this high efficiency smart, their power consumption is unusual height all.And for electronic equipments such as mobile phone, panel computer, audio and video players, the height of power consumption is weighed an important technology index of these electronic equipments beyond doubt.

Therefore, how the power consumption of effective optimization electronic equipment still is the technical barrier of pendulum in face of the research staff of this area.

Summary of the invention

For solving the problems of the technologies described above, the embodiment of the invention provides a kind of power consumption optimization method, system and a kind of electronic equipment of electronic equipment, and to realize optimizing the purpose of electronic equipment power consumption, technical scheme is as follows:

A kind of power consumption optimization method of electronic equipment, in electronic equipment, comprise: first disposal system, second disposal system, first display unit and second display unit, described first disposal system is controlled the operation of first display unit, described second disposal system is controlled described second display unit operation, the power input of described first display unit is lower than the power input of described second display unit, and described method comprises:

Obtain the user instruction that the user sends, wherein, described user instruction comprises first instruction at least;

Described user instruction is identified, when described user instruction is first instruction, made described first disposal system in running order, make described second disposal system be in off working state.

Preferably, described user instruction also comprises: second instruction, and when the described user instruction of identification is second instruction, make described second disposal system in running order, make described first disposal system be in off working state.

Preferably, described user instruction also comprises: the 3rd instruction when the described user instruction of identification is the 3rd instruction, makes described first disposal system and described second disposal system all in running order.

Preferably, the frequency of operation of described first disposal system is lower than the frequency of operation of described second disposal system.

Preferably, described first instruction will be for will work as the instruction that preprocessing system switches to described first disposal system, and described second instruction will be for will work as the instruction that preprocessing system switches to described second disposal system.

Preferably, described first instruction is for starting first instruction of using in the described electronic equipment, and described second instructs to starting second instruction of using in the described electronic equipment, and wherein, described second uses required electric energy is higher than the required electric energy of described first application.

Preferably, described off working state is: holding state or closed condition.

Preferably, when described off working state was closed condition, in running order disposal system took the full memory space.

Preferably, when described off working state was holding state, the shared memory headroom of the shared memory headroom of described first disposal system and described second disposal system was different.

Preferably, when described first disposal system was in running order, at least one hardware unit did not power in the described electronic equipment.

The present invention also provides a kind of optimised power consumption system of electronic equipment, described electronic equipment comprises: first disposal system, second disposal system, first display unit and second display unit, described first disposal system is controlled the operation of first display unit, described second disposal system is controlled described second display unit operation, the power input of described first display unit is lower than the power input of described second display unit, and described optimised power consumption system comprises:

User instruction obtains module, is used for obtaining the user instruction that the user sends, and wherein, described user instruction comprises first instruction at least;

First system's handover module is used for described user instruction is identified, and when described user instruction is first instruction, makes described first disposal system in running order, makes described second disposal system be in off working state.

Preferably, described user instruction also comprises: second instruction, described optimised power consumption system also comprises: second system's handover module, be used for when the described user instruction of identification be second when instructing, make described second disposal system in running order, make described first disposal system be in off working state.

Preferably, described user instruction also comprises: the 3rd instruction, described optimised power consumption system also comprises: the 3rd system's handover module, be used for when the described user instruction of identification be the 3rd when instructing, make described first disposal system and described second disposal system all in running order.

Preferably, the frequency of operation of described first disposal system is lower than the frequency of operation of described second disposal system.

Preferably, described first instruction will be for will work as the instruction that preprocessing system switches to described first disposal system, and described second instruction will be for will work as the instruction that preprocessing system switches to described second disposal system.

Preferably, described first instruction is for starting first instruction of using in the described electronic equipment, and described second instructs to starting second instruction of using in the described electronic equipment, and wherein, described second uses required electric energy is higher than the required electric energy of described first application.

Preferably, described off working state is: holding state or closed condition;

When described off working state was closed condition, in running order disposal system took the full memory space;

When described off working state was holding state, the shared memory headroom of the shared memory headroom of described first disposal system and described second disposal system was different.

Preferably, when described first disposal system was in running order, at least one hardware unit did not power in the described electronic equipment.

The present invention also provides a kind of electronic equipment, comprises the optimised power consumption system of above-mentioned a kind of electronic equipment.

By using above technical scheme, the power consumption optimization method of a kind of electronic equipment that the embodiment of the invention provides, system and a kind of electronic equipment, can identify user's instruction, and adjust the duty of disposal system in the electronic equipment according to user's instruction, thereby can make lower powered display unit operation when needed.Owing to can regulate the operation of the display unit of different capacity according to user instruction, so the user can selectively use the display unit of low-power consumption, thereby effectively saves electric energy, optimizes the power consumption of electronic equipment.

Description of drawings

In order to be illustrated more clearly in the embodiment of the invention or technical scheme of the prior art, to do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art below, apparently, the accompanying drawing that describes below only is some embodiment that put down in writing among the present invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

The structural representation of a kind of electronic equipment that Fig. 1 provides for the embodiment of the invention;

The schematic flow sheet of the power consumption optimization method of a kind of electronic equipment that Fig. 2 provides for the embodiment of the invention;

The schematic flow sheet of the power consumption optimization method of the another kind of electronic equipment that Fig. 3 provides for the embodiment of the invention;

The schematic flow sheet of the power consumption optimization method of the another kind of electronic equipment that Fig. 4 provides for the embodiment of the invention;

The schematic flow sheet of the power consumption optimization method of the another kind of electronic equipment that Fig. 5 provides for the embodiment of the invention;

The structural representation of the another kind of electronic equipment that Fig. 6 provides for the embodiment of the invention;

The structural representation of the optimised power consumption system of a kind of electronic equipment that Fig. 7 provides for the embodiment of the invention;

The structural representation of the optimised power consumption system of the another kind of electronic equipment that Fig. 8 provides for the embodiment of the invention;

The structural representation of the optimised power consumption system of the another kind of electronic equipment that Fig. 9 provides for the embodiment of the invention;

The structural representation of the optimised power consumption system of the another kind of electronic equipment that Figure 10 provides for the embodiment of the invention.

Embodiment

In order to make those skilled in the art person understand technical scheme among the present invention better, below in conjunction with the accompanying drawing in the embodiment of the invention, technical scheme in the embodiment of the invention is clearly and completely described, obviously, described embodiment only is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment among the present invention, those of ordinary skills should belong to the scope of protection of the invention not making the every other embodiment that obtains under the creative work prerequisite.

In the power consumption optimization method of a kind of electronic equipment that the embodiment of the invention provides, as shown in Figure 1, this electronic equipment can comprise: first disposal system 100, second disposal system 200, first display unit 110 and second display unit 120,110 operations of first disposal system, 100 controls, first display unit, 210 operations of second disposal system, 200 controls, second display unit, the power input of first display unit 110 is lower than the power input of second display unit 210, as shown in Figure 2, this method can comprise:

The user instruction that S101, acquisition user send, wherein, described user instruction comprises first instruction at least;

Wherein, user instruction can be imported by the input equipment on the electronic equipment, as by the button on the electronic equipment, switch, button, light sensitive component etc.

S102, user instruction is identified, when user instruction is first instruction, made first disposal system 100 in running order, make second disposal system 200 be in off working state.

Wherein, off working state can be holding state or closed condition etc.Be understandable that to have a plurality of disposal systems in the electronic equipment, in this electronic equipment, do not need all disposal systems all in running order.For the purpose of optimizing power consumption, can only allow wherein one or more in running order get final product, the disposal system that other and this electronic equipment work at present has nothing to do can be in off working state.

Wherein, first instruction can switch to the instruction of first disposal system 100 for working as preprocessing system.Certainly, first instruction can also be for starting first instruction of using in the electronic equipment.Be understandable that when the user sent the instruction that starts certain application, electronic equipment just can be selected the disposal system with this application coupling, and makes this disposal system in running order.In actual applications, the multiple corresponding relation that is applied between a plurality of disposal systems can preestablish.For example, be example with the mobile phone, first is applied as the transmission note, and second is applied as bluetooth, and first disposal system 100 is non intelligent cell phone system, and second disposal system 200 is intelligent mobile phone system; Because first application is not intelligent use, therefore that first application is corresponding with first disposal system 100, and second application is intelligent use, therefore that second application is corresponding with second disposal system 200.Be understandable that, send the required electric energy of note and be generally less than the required electric energy of use bluetooth.Certainly, second application can also be other intelligent use, as: wifi, the shooting of surfing the Net, take pictures, audio-visual broadcast, gravity sensing, recreation etc.; First use can also for converse, setting alarm clock, adjusting date, inquiry address list etc.Be understood that easily under this scheme, the switching of disposal system is carried out in the application that the present invention can start according to the user automatically, thereby carry out manual switchover without the user, shortened user's operating process, improved user's use impression, made that also electronic equipment is more intelligent.

What need explanation a bit is, when electronic equipment makes certain processing system in running order according to user instruction, and when making other disposal systems be in off working state, in running order disposal system just can be controlled corresponding display unit and move.When electronic equipment makes first disposal system 100 in running order, when second disposal system 200 was in off working state, first disposal system 100 just can be controlled 110 operations of first display unit.Concrete, when the user sends the instruction that sends note, electronic equipment control first disposal system 100 in running order after, first disposal system 100 just can be controlled the interface of first display unit, 110 output edit notes.Wherein, first display unit 110 can be electric ink screen (EINK screen), and second display unit 210 can be Thin Film Transistor (TFT) display screen (TFT screen).Certainly, when user instruction switched to the instruction of certain processing system for working as preprocessing system, electronic equipment also can make in running order disposal system control corresponding display unit operation according to user's instruction.Be understandable that the power consumption of different display units generally can be embodied by power input, power input is more big, and the electric energy that then consumes is just more many.

EINK screen has legibility, flexibility, easy cheap the manufacturing and characteristics such as low-power consumption, be very suitable for for showing such as contents such as note, calendars, and power consumption is very low.The TFT screen is that each the liquid crystal pixel point on the LCD all is to be driven by the thin film transistor (TFT) that is integrated in thereafter, it can be accomplished at a high speed, high brightness is high, contrast display screen information, and Thin Film Transistor-LCD (TFT-LCD) is a kind of of most LCD.TFT screen is the screen that generally adopts in the colour screen handset of present middle and high end, divides three kinds of 65536 looks, 260,000 looks and 1,600 ten thousand looks, and its display effect is very outstanding, but power consumption is also very big.

Certainly, first display unit 110 can also be super-twist nematic liquid crystal display (STN, SuperTwisted Nematic) screen.Second display unit 210 can also be ASV (Advanced SuperView), organic light emitting display OLED, thin film diode half-penetration type LCDs TFD or UFB screens such as (Ultra Fine Bright).Need to prove that the research staff can adopt at least two different screens of power consumption to get final product as required, so just can use different screens according to actual operating position, to play the effect of optimizing power consumption.

Wherein, when described off working state was closed condition, in running order disposal system took the full memory space.That is: when first disposal system 100 was in running order, first disposal system 100 took the full memory space; When second disposal system 200 was in running order, second disposal system 200 took the full memory space.When described off working state was holding state, the shared memory headroom of the shared memory headroom of described first disposal system 100 and described second disposal system 200 was different.Owing under the holding state, still have subprogram in operation in the disposal system, need take certain memory headroom, therefore do not disturb mutually for different disposal systems, can distribute different memory headrooms for them.Because the shared memory headroom of the shared memory headroom of first disposal system 100 and second disposal system 200 is different, so they conduct interviews to oneself shared memory headroom and are independent of each other.Be understandable that the shared memory headroom of non intelligent disposal system is less, therefore integrated on the processor in the electronic equipment of supporting intelligent processing system easily, and can not influence the normal use of intelligent processing system.

Wherein, the frequency of operation of first disposal system 100 can be lower than the frequency of operation of second disposal system 200.Be understandable that the frequency of operation of different disposal systems also is not quite similar.Generally speaking, the frequency of operation of intelligent processing system is higher than the frequency of operation of non intelligent disposal system, and this has also brought the high power consumption of intelligent processing system.Certainly, first disposal system 100 and second disposal system 200 can be moved in same processor, also can move in different processors.

Concrete, as shown in Figure 3, step S102 can comprise:

S102A, user instruction is identified;

S102B, when user instruction was first when instruction, make first disposal system 100 in running order, make second disposal system 200 be in off working state.

Certainly, except display module, can also comprise other devices in the electronic equipment.In other embodiments of the invention, different disposal systems can also be controlled different device operations, with further optimization power consumption.Wherein, when described first disposal system 100 was in running order, at least one hardware unit can not power in the described electronic equipment.For example: suppose that first disposal system 100 is non intelligent disposal system, so when first disposal system 100 is in running order, first disposal system 100 use less than all can not power on such as hardware units such as gravity sensor, acoustic control device, wifi, can further improve power savings like this.

The power consumption optimization method of a kind of electronic equipment that the embodiment of the invention provides can be identified user's instruction, and adjusts the duty of disposal system in the electronic equipment according to user's instruction, thereby can make lower powered display unit operation when needed.Owing to can regulate the operation of the display unit of different capacity according to user instruction, so the user can selectively use the display unit of low-power consumption, thereby effectively saves electric energy, optimizes the power consumption of electronic equipment.

As shown in Figure 4, in the power consumption optimization method of another kind of electronic equipment provided by the invention, described user instruction can also comprise: second instruction, and this method can also comprise:

S103, when the described user instruction of identification was second when instruction, make described second disposal system in running order, make described first disposal system be in off working state.

Wherein, the execution sequence of step S103 and step S102 does not limit, and they can be carried out simultaneously, also can successively carry out, and are concrete, and step S103 also can carry out behind step S102, can carry out before step S102 yet.

Wherein, first instruction can switch to the instruction of first disposal system 100 for work as preprocessing system, and second instructs and can switch to the instruction of second disposal system 200 for working as preprocessing system.Certainly, in determining electronic equipment under the prerequisite of disposal system number and arrangement mode, first instruction and second is instructed and can be switched to the instruction of next disposal system in fixed the putting in order for working as preprocessing system, at this moment, first instruction can be identical with second instruction, can claim first instruction and second instruction to be switching command in this case.For instance, suppose only to have in this electronic equipment first disposal system 100 and second disposal system 200, so when obtaining first instruction that the user sends or second instruction, just can working as preprocessing system and switch to another disposal system this electronic equipment.Concrete, when when preprocessing system is first disposal system 100, will works as preprocessing system and switch to second disposal system 200; When preprocessing system is second disposal system 200, will works as preprocessing system and switch to first disposal system 100.Be understandable that the disposal system among the present invention can also comprise more kinds of.Wherein, the number of multiple disposal system and arrangement mode can be set and be revised by user or technician in this electronic equipment, and the present invention does not do restriction at this.Preferably, can in electronic equipment, set button and be used for switching processing system.

Certainly, first instruction can also be for starting the instruction of first application in the electronic equipment, and second instruction can also be to start second instruction of using in the electronic equipment, and wherein, second uses required electric energy is higher than the required electric energy of first application.Be understandable that when the user sent the instruction that starts certain application, electronic equipment just can be selected the disposal system with this application coupling, and makes this disposal system in running order.In actual applications, the multiple corresponding relation that is applied between a plurality of disposal systems can preestablish.For example, be example with the mobile phone, first is applied as the transmission note, and second is applied as bluetooth, and first disposal system 100 is non intelligent cell phone system, and second disposal system 200 is intelligent mobile phone system; Because first application is not intelligent use, therefore that first application is corresponding with first disposal system 100, and second application is intelligent use, therefore that second application is corresponding with second disposal system 200.Be understandable that, send the required electric energy of note and be generally less than the required electric energy of use bluetooth.Certainly, second application can also be other intelligent use, as: wifi, the shooting of surfing the Net, take pictures, audio-visual broadcast, gravity sensing, recreation etc.; First use can also for converse, setting alarm clock, adjusting date, inquiry address list etc.Be understood that easily under this scheme, the switching of disposal system is carried out in the application that the present invention can start according to the user automatically, thereby carry out manual switchover without the user, shortened user's operating process, improved user's use impression, made that also electronic equipment is more intelligent.

As shown in Figure 5, in the power consumption optimization method of another kind of electronic equipment provided by the invention, described user instruction can also comprise: the 3rd instruction, and this method can also comprise:

S104, when the described user instruction of identification was the 3rd when instruction, make described first disposal system and described second disposal system all in running order.

Wherein, the execution sequence of step S104, step S103 and step S102 does not limit, and they can be carried out simultaneously, also can successively carry out.

Certainly, in actual applications, the situation that needs improve display effect may appear, in this case, can make first disposal system 100 and second disposal system 200 all in running order, thereby win display unit 110 and second display unit 210 are shown simultaneously, can improve display effect.Be understandable that, though simple allow the in running order optimizations that are unfavorable for power consumption simultaneously of two disposal systems, but because the situation that needs two disposal systems to work simultaneously is less, scheme before still can using is in other cases carried out optimised power consumption, therefore from whole proposal, still can play the effect of optimised power consumption.

Wherein, first display unit 110 and second display unit 120 can overlappingly be placed, and concrete embodiment has multiple, as: first display unit 110 is arranged to identical display size with second display unit 120, and with they overlapping placements up and down.Preferably, first display unit 110 and 120 of second display units can also be provided with the touch array, are used for perception user's touching operation.In this case, second display unit 120 of first display unit 110 of first disposal system, 100 controls and 200 controls of second control system can have touch-input function, can effectively improve the intelligent of electronic equipment like this, also improve user's use impression.Certainly, it will be appreciated by persons skilled in the art that to touch the outside that array also can be positioned at these two display units, can realize allowing two display units have the purpose of touch-input function equally.

Certainly, in another embodiment, first display unit 110 and second display unit 120 can also be stitched together, and be controlled by same disposal system.In this case, this disposal system just can use first display unit 110 and second display unit, 120 these two display units to carry out the demonstration of displaying contents simultaneously, can enlarge display area and improve display effect, improves the user and uses impression.

Certainly, first display unit 110 and second display unit 120 also can divide and be arranged, as: first display unit 110 and second display unit 120 lay respectively at two of electronic equipment not on the ipsilateral.For example: for clamshell phone, first display unit 110 can be arranged in the outside that clamshell phone is renovated, and second display unit 120 can be positioned at the inboard of renovating.Certainly, the loam cake that be used for to show on the notebook computer also can similarly arrange: two surfaces up and down that respectively first display unit 110 and second display unit 120 are arranged on loam cake.Certainly, for panel computer, first display unit 110 and second display unit 120 also can lay respectively on the upper surface and lower surface of panel computer.

Corresponding to top method embodiment, the present invention also provides a kind of optimised power consumption system of electronic equipment.

In the optimised power consumption system of a kind of electronic equipment that the embodiment of the invention provides (being designated hereinafter simply as " optimised power consumption system "), as shown in Figure 6, this electronic equipment can comprise: first disposal system 100, second disposal system 200, first display unit 110 and second display unit 210,110 operations of first disposal system, 100 controls, first display unit, 210 operations of second disposal system, 200 controls, second display unit, the power input of first display unit 110 is lower than the power input of second display unit 210, as shown in Figure 7, this optimised power consumption system can comprise:

User instruction obtains module 310, is used for obtaining the user instruction that the user sends, and wherein, described user instruction comprises first instruction at least;

Wherein, user instruction obtains module 310 can be the input equipment on the electronic equipment, as button, switch, button, light sensitive component etc.

First system's handover module 320 is used for user instruction is identified, and when user instruction is first instruction, makes first disposal system 100 in running order, makes second disposal system 200 be in off working state.

Wherein, this optimised power consumption system can be arranged in this electronic equipment, can certainly be arranged in other equipment that are connected with this electronic equipment, as detachable control module.Wherein, off working state can be holding state or closed condition etc.Be understandable that to have a plurality of disposal systems in the electronic equipment, in this electronic equipment, do not need all disposal systems all in running order.For the purpose of optimizing power consumption, can only allow wherein one or more in running order get final product, the disposal system that other and this electronic equipment work at present has nothing to do can be in off working state.

Wherein, first instruction can switch to the instruction of first disposal system 100 for working as preprocessing system.

Certainly, first instruction can also be for starting first instruction of using in the electronic equipment.Be understandable that when the user sent the instruction that starts certain application, electronic equipment just can be selected the disposal system with this application coupling, and makes this disposal system in running order.In actual applications, the multiple corresponding relation that is applied between a plurality of disposal systems can preestablish.For example, be example with the mobile phone, first is applied as the transmission note, and second is applied as bluetooth, and first disposal system 100 is non intelligent cell phone system, and second disposal system 200 is intelligent mobile phone system; Because first application is not intelligent use, therefore that first application is corresponding with first disposal system 100, and second application is intelligent use, therefore that second application is corresponding with second disposal system 200.Be understandable that, send the required electric energy of note and be generally less than the required electric energy of use bluetooth.Certainly, second application can also be other intelligent use, as: wifi, the shooting of surfing the Net, take pictures, audio-visual broadcast, gravity sensing, recreation etc.; First use can also for converse, setting alarm clock, adjusting date, inquiry address list etc.Be understood that easily under this scheme, the switching of disposal system is carried out in the application that the present invention can start according to the user automatically, thereby carry out manual switchover without the user, shortened user's operating process, improved user's use impression, made that also electronic equipment is more intelligent.

What need explanation a bit is, when first system's handover module 320 makes certain processing system in running order according to user instruction, and when making other disposal systems be in off working state, in running order disposal system just can be controlled corresponding display unit operation.When first system's handover module 320 makes first disposal system 100 in running order, when second disposal system 200 was in off working state, first disposal system 100 just can be controlled 110 operations of first display unit.Concrete, when the user sent the instruction that sends note, after first system's handover module 320 controls, first disposal system 100 was in running order, first disposal system 100 just can be controlled first display unit 110 and export the short message editing interfaces.Wherein, first display unit 110 can be electric ink screen (EINK screen), and second display unit 210 can be Thin Film Transistor (TFT) display screen (TFT screen).Certainly, when user instruction switched to the instruction of certain processing system for working as preprocessing system, first system's handover module 320 also can make in running order disposal system control corresponding display unit operation according to user's instruction.Be understandable that the power consumption of different display units generally can be embodied by power input, power input is more big, and the electric energy that then consumes is just more many.

EINK screen has legibility, flexibility, easy cheap the manufacturing and characteristics such as low-power consumption, be very suitable for for showing such as contents such as note, calendars, and power consumption is very low.The TFT screen is that each the liquid crystal pixel point on the LCD all is to be driven by the thin film transistor (TFT) that is integrated in thereafter, it can be accomplished at a high speed, high brightness is high, contrast display screen information, and Thin Film Transistor-LCD (TFT-LCD) is a kind of of most LCD.TFT screen is the screen that generally adopts in the colour screen handset of present middle and high end, divides three kinds of 65536 looks, 260,000 looks and 1,600 ten thousand looks, and its display effect is very outstanding, but power consumption is also very big.

Certainly, first display unit 110 can also be super-twist nematic liquid crystal display (STN, SuperTwisted Nematic) screen.Second display unit 210 can also be ASV (Advanced SuperView), organic light emitting display OLED, thin film diode half-penetration type LCDs TFD or UFB screens such as (Ultra Fine Bright).Need to prove that the research staff can adopt at least two different screens of power consumption to get final product as required, so just can use different screens according to actual operating position, to play the effect of optimizing power consumption.

Wherein, when described off working state was closed condition, in running order disposal system took the full memory space.That is: when first disposal system 100 was in running order, first disposal system 100 took the full memory space; When second disposal system 200 was in running order, second disposal system 200 took the full memory space.When described off working state was holding state, the shared memory headroom of the shared memory headroom of described first disposal system 100 and described second disposal system 200 was different.Owing under the holding state, still have subprogram in operation in the disposal system, need take certain memory headroom, therefore do not disturb mutually for different disposal systems, can distribute different memory headrooms for them.Because the shared memory headroom of the shared memory headroom of first disposal system 100 and second disposal system 200 is different, so they conduct interviews to oneself shared memory headroom and are independent of each other.Be understandable that the shared memory headroom of non intelligent disposal system is less, therefore integrated on the processor in the electronic equipment of supporting intelligent processing system easily, rather than influence the normal use of intelligent processing system.

Wherein, the frequency of operation of first disposal system 100 can be lower than the frequency of operation of second disposal system 200.Be understandable that the frequency of operation of different disposal systems also is not quite similar.Generally speaking, the frequency of operation of intelligent processing system is higher than the frequency of operation of non intelligent disposal system, and this has also brought the high power consumption of intelligent processing system.Certainly, first disposal system 100 and second disposal system 200 can be moved in same processor, also can move in different processors.

Certainly, except display module, can also comprise other devices in the electronic equipment.In other embodiments of the invention, different disposal systems can also be controlled different device operations, with further optimization power consumption.

Wherein, when described first disposal system 100 was in running order, at least one hardware unit can not power in the described electronic equipment.For example: suppose that first disposal system 100 is non intelligent disposal system, so when first disposal system 100 is in running order, first disposal system 100 use less than all can not power on such as hardware units such as gravity sensor, acoustic control device, wifi, can further improve power savings like this.

Certainly, different disposal system can be controlled different device operations generally speaking.As shown in Figure 8, first disposal system 100 can also be controlled 120 operations of first device, and second disposal system 200 is also controlled 220 operations of second device, and the power input of first device 120 is lower than the power input of second device 220.For instance, first disposal system 100 is non intelligent disposal system, and second disposal system 200 is intelligent processing system, and first disposal system 100 can also be controlled the button operation so, and second disposal system 200 can be controlled the touch-screen operation.Be understandable that generally speaking, the power input of button is less than the power input of touch-screen, so the power consumption of button is also less than the power consumption of touch-screen.

The optimised power consumption system of a kind of electronic equipment that the embodiment of the invention provides can identify user's instruction, and adjusts the duty of disposal system in the electronic equipment according to user's instruction, thereby can make lower powered display unit operation when needed.Owing to can regulate the operation of the display unit of different capacity according to user instruction, so the user can selectively use the display unit of low-power consumption, thereby effectively saves electric energy, optimizes the power consumption of electronic equipment.

As shown in Figure 9, in the optimised power consumption system of another kind of electronic equipment provided by the invention, described user instruction can also comprise: second instruction, this optimised power consumption system can also comprise: second system's handover module 330, be used for when the described user instruction of identification is second instruction, make described second disposal system 200 in running order, make described first disposal system 100 be in off working state.

Wherein, first system's handover module 320 and second system's handover module 330 can be arranged to a module, also can be arranged to two modules.

Wherein, first instruction can switch to the instruction of first disposal system 100 for work as preprocessing system, and second instructs and can switch to the instruction of second disposal system 200 for working as preprocessing system.Certainly, in determining electronic equipment under the prerequisite of disposal system number and arrangement mode, first instruction and second is instructed and can be switched to the instruction of next disposal system in fixed the putting in order for working as preprocessing system, at this moment, first instruction can be identical with second instruction, can claim first instruction and second instruction to be switching command in this case.For instance, suppose only to have in this electronic equipment first disposal system 100 and second disposal system 200, so when obtaining first instruction that the user sends or second instruction, just can working as preprocessing system and switch to another disposal system this electronic equipment.Concrete, when when preprocessing system is first disposal system 100, will works as preprocessing system and switch to second disposal system 200; When preprocessing system is second disposal system 200, will works as preprocessing system and switch to first disposal system 100.Be understandable that the disposal system among the present invention can also comprise more kinds of.Wherein, the number of multiple disposal system and arrangement mode can be set and be revised by user or technician in this electronic equipment, and the present invention does not do restriction at this.Preferably, can in electronic equipment, set button and be used for switching processing system.

Certainly, first instruction can also be for starting the instruction of first application in the electronic equipment, and second instruction can also be to start second instruction of using in the electronic equipment, and wherein, second uses required electric energy is higher than the required electric energy of first application.Be understandable that when the user sent the instruction that starts certain application, electronic equipment just can be selected the disposal system with this application coupling, and makes this disposal system in running order.In actual applications, the multiple corresponding relation that is applied between a plurality of disposal systems can preestablish.For example, be example with the mobile phone, first is applied as the transmission note, and second is applied as bluetooth, and first disposal system 100 is non intelligent cell phone system, and second disposal system 200 is intelligent mobile phone system; Because first application is not intelligent use, therefore that first application is corresponding with first disposal system 100, and second application is intelligent use, therefore that second application is corresponding with second disposal system 200.Be understandable that, send the required electric energy of note and be generally less than the required electric energy of use bluetooth.Certainly, second application can also be other intelligent use, as: wifi, the shooting of surfing the Net, take pictures, audio-visual broadcast, gravity sensing, recreation etc.; First use can also for converse, setting alarm clock, adjusting date, inquiry address list etc.Be understood that easily under this scheme, the switching of disposal system is carried out in the application that the present invention can start according to the user automatically, thereby carry out manual switchover without the user, shortened user's operating process, improved user's use impression, made that also electronic equipment is more intelligent.

As shown in figure 10, in the optimised power consumption system of another kind of electronic equipment provided by the invention, described user instruction can also comprise: the 3rd instruction, this optimised power consumption system can also comprise: the 3rd system's handover module 340, be used for when the described user instruction of identification is the 3rd instruction, making described first disposal system 100 and described second disposal system 200 all in running order.

Wherein, first system's handover module 320, second system's handover module 330 and the 3rd system's handover module 340 also can be arranged to a module, also can be arranged to two or three modules.

Certainly, in actual applications, the situation that needs improve display effect may appear, in this case, can make first disposal system 100 and second disposal system 200 all in running order, thereby win display unit 110 and second display unit 210 are shown simultaneously, can improve display effect.Be understandable that, though simple allow the in running order optimizations that are unfavorable for power consumption simultaneously of two disposal systems, but because the situation that needs two disposal systems to work simultaneously is less, scheme before still can using is in other cases carried out optimised power consumption, therefore from whole proposal, still can play the effect of optimised power consumption.

Wherein, first display unit 110 and second display unit 120 can overlappingly be placed, and concrete embodiment has multiple, as: first display unit 110 is arranged to identical display size with second display unit 120, and with they overlapping placements up and down.Preferably, first display unit 110 and 120 of second display units can also be provided with the touch array, are used for perception user's touching operation.In this case, second display unit 120 of first display unit 110 of first disposal system, 100 controls and 200 controls of second control system can have touch-input function, can effectively improve the intelligent of electronic equipment like this, also improve user's use impression.Certainly, it will be appreciated by persons skilled in the art that to touch the outside that array also can be positioned at these two display units, can realize allowing two display units have the purpose of touch-input function equally.

Certainly, in another embodiment, first display unit 110 and second display unit 120 can also be stitched together, and be controlled by same disposal system.In this case, this disposal system just can use first display unit 110 and second display unit, 120 these two display units to carry out the demonstration of displaying contents simultaneously, can enlarge display area and improve display effect, improves the user and uses impression.

Certainly, first display unit 110 and second display unit 120 also can divide and be arranged, as: first display unit 110 and second display unit 120 lay respectively at two of electronic equipment not on the ipsilateral.For example: for clamshell phone, first display unit 110 can be arranged in the outside that clamshell phone is renovated, and second display unit 120 can be positioned at the inboard of renovating.Certainly, the loam cake that be used for to show on the notebook computer also can similarly arrange: two surfaces up and down that respectively first display unit 110 and second display unit 120 are arranged on loam cake.Certainly, for panel computer, first display unit 110 and second display unit 120 also can lay respectively on the upper surface and lower surface of panel computer.

Corresponding to top system embodiment, the present invention also provides a kind of electronic equipment.

The optimised power consumption system of described a kind of electronic equipment before a kind of electronic equipment that the embodiment of the invention provides comprises.

As shown in Figure 7, this optimised power consumption system can comprise:

User instruction obtains module 310, is used for obtaining the user instruction that the user sends, and wherein, described user instruction comprises first instruction at least;

First system's handover module 320 is used for user instruction is identified, and when user instruction is first instruction, makes first disposal system 100 in running order, makes second disposal system 200 be in off working state.

Because the optimised power consumption system is identical with former described optimised power consumption system in the present embodiment, so detailed content partly gets final product referring to the optimised power consumption system embodiment, and the present invention does not repeat them here.Preferably, as shown in Figure 7, this electronic equipment can also comprise: first disposal system 100, second disposal system 200, first display unit 110 and second display unit 210,110 operations of first disposal system, 100 controls, first display unit, 210 operations of second disposal system, 200 controls, second display unit, the power input of first display unit 110 is lower than the power input of second display unit 210.

For the convenience of describing, be divided into various unit with function when describing above the device and describe respectively.Certainly, when enforcement is of the present invention, can in same or a plurality of softwares and/or hardware, realize the function of each unit.

As seen through the above description of the embodiments, those skilled in the art can be well understood to the present invention and can realize by the mode that software adds essential general hardware platform.Based on such understanding, the part that technical scheme of the present invention contributes to prior art in essence in other words can embody with the form of software product, this computer software product can be stored in the storage medium, as ROM/RAM, magnetic disc, CD etc., comprise that some instructions are with so that a computer equipment (can be personal computer, server, the perhaps network equipment etc.) carry out the described method of some part of each embodiment of the present invention or embodiment.

Each embodiment in this instructions all adopts the mode of going forward one by one to describe, and identical similar part is mutually referring to getting final product between each embodiment, and each embodiment stresses is difference with other embodiment.Especially, for device or system embodiment, because it is substantially similar in appearance to method embodiment, so describe fairly simplely, relevant part gets final product referring to the part explanation of method embodiment.Apparatus and system embodiment described above only is schematic, wherein said unit as the separating component explanation can or can not be physically to separate also, the parts that show as the unit can be or can not be physical locations also, namely can be positioned at a place, perhaps also can be distributed on a plurality of network element.Can select wherein some or all of module to realize the purpose of present embodiment scheme according to the actual needs.Those of ordinary skills namely can understand and implement under the situation of not paying creative work.

The present invention can be used in numerous general or special purpose computingasystem environment or the configuration.For example: personal computer, server computer, handheld device or portable set, plate equipment, multicomputer system, the system based on microprocessor, set top box, programmable consumer-elcetronics devices, network PC, small-size computer, mainframe computer, comprise distributed computing environment of above any system or equipment etc.

The present invention can describe in the general context of the computer executable instructions of being carried out by computing machine, for example program module.Usually, program module comprises the routine carrying out particular task or realize particular abstract data type, program, object, assembly, data structure etc.Also can in distributed computing environment, put into practice the present invention, in these distributed computing environment, be executed the task by the teleprocessing equipment that is connected by communication network.In distributed computing environment, program module can be arranged in the local and remote computer-readable storage medium that comprises memory device.

Need to prove, in this article, relational terms such as first and second grades only is used for an entity or operation are made a distinction with another entity or operation, and not necessarily requires or hint and have the relation of any this reality or in proper order between these entities or the operation.

The above only is the specific embodiment of the present invention; should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the principle of the invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (19)

1. the power consumption optimization method of an electronic equipment, it is characterized in that, in electronic equipment, comprise: first disposal system, second disposal system, first display unit and second display unit, described first disposal system is controlled the operation of first display unit, described second disposal system is controlled described second display unit operation, the power input of described first display unit is lower than the power input of described second display unit, and described method comprises:

Obtain the user instruction that the user sends, wherein, described user instruction comprises first instruction at least;

Described user instruction is identified, when described user instruction is first instruction, made described first disposal system in running order, make described second disposal system be in off working state.

2. method according to claim 1, it is characterized in that described user instruction also comprises: second instruction, when the described user instruction of identification is second instruction, make described second disposal system in running order, make described first disposal system be in off working state.

3. method according to claim 1 is characterized in that, described user instruction also comprises: the 3rd instruction when the described user instruction of identification is the 3rd instruction, makes described first disposal system and described second disposal system all in running order.

4. method according to claim 1 is characterized in that, the frequency of operation of described first disposal system is lower than the frequency of operation of described second disposal system.

5. method according to claim 2 is characterized in that, described first instruction will be for will work as the instruction that preprocessing system switches to described first disposal system, and described second instruction will be for will work as the instruction that preprocessing system switches to described second disposal system.

6. method according to claim 2, it is characterized in that, described first instruction is for starting first instruction of using in the described electronic equipment, described second instruction is for starting second instruction of using in the described electronic equipment, wherein, the required electric energy of described second application is higher than the required electric energy of described first application.

7. method according to claim 1 and 2 is characterized in that, described off working state is: holding state or closed condition.

8. method according to claim 7 is characterized in that, when described off working state was closed condition, in running order disposal system took the full memory space.

9. method according to claim 7 is characterized in that, when described off working state was holding state, the shared memory headroom of the shared memory headroom of described first disposal system and described second disposal system was different.

10. method according to claim 1 is characterized in that, when described first disposal system was in running order, at least one hardware unit did not power in the described electronic equipment.

11. the optimised power consumption system of an electronic equipment, it is characterized in that, described electronic equipment comprises: first disposal system, second disposal system, first display unit and second display unit, described first disposal system is controlled the operation of first display unit, described second disposal system is controlled described second display unit operation, the power input of described first display unit is lower than the power input of described second display unit, and described optimised power consumption system comprises:

User instruction obtains module, is used for obtaining the user instruction that the user sends, and wherein, described user instruction comprises first instruction at least;

First system's handover module is used for described user instruction is identified, and when described user instruction is first instruction, makes described first disposal system in running order, makes described second disposal system be in off working state.

12. optimised power consumption according to claim 11 system, it is characterized in that, described user instruction also comprises: second instruction, described optimised power consumption system also comprises: second system's handover module, be used for when the described user instruction of identification is second instruction, make described second disposal system in running order, make described first disposal system be in off working state.

13. optimised power consumption according to claim 11 system, it is characterized in that, described user instruction also comprises: the 3rd instruction, described optimised power consumption system also comprises: the 3rd system's handover module, be used for when the described user instruction of identification is the 3rd instruction, making described first disposal system and described second disposal system all in running order.

14. optimised power consumption according to claim 11 system is characterized in that the frequency of operation of described first disposal system is lower than the frequency of operation of described second disposal system.

15. optimised power consumption according to claim 12 system, it is characterized in that, described first instruction will be for will work as the instruction that preprocessing system switches to described first disposal system, and described second instruction will be for will work as the instruction that preprocessing system switches to described second disposal system.

16. optimised power consumption according to claim 12 system, it is characterized in that, described first instruction is for starting first instruction of using in the described electronic equipment, described second instruction is for starting second instruction of using in the described electronic equipment, wherein, the required electric energy of described second application is higher than the required electric energy of described first application.

17. according to claim 11 or 12 described optimised power consumption systems, it is characterized in that described off working state is: holding state or closed condition;

When described off working state was closed condition, in running order disposal system took the full memory space;

When described off working state was holding state, the shared memory headroom of the shared memory headroom of described first disposal system and described second disposal system was different.

18. optimised power consumption according to claim 11 system is characterized in that when described first disposal system was in running order, at least one hardware unit did not power in the described electronic equipment.

19. an electronic equipment is characterized in that, comprises the optimised power consumption system as any described a kind of electronic equipment in the claim 11 to 18.

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