CN104991635A - Electronic device and control method thereof - Google Patents

Abstract

The present invention discloses a control method of an electronic device. The electronic device comprises a physical switching unit and a control unit, wherein the physical switching unit is arranged at a preset position of a main body of the electronic device. The control method comprises: receiving a switching operation of a user by the physical switching unit; and generating a corresponding operation instruction according to the switching operation by the control unit, controlling the electronic device to be switched between a first operating mode and a second operating mode on the basis of the operation instruction, wherein power consumption of the electronic device in the second operating mode is different from that of the electronic device in the first operating mode, the electronic device is in the first operating mode when the physical switching unit is in a first state, and when the physical switching unit is in a second state, the electronic device is in the second operating mode.

Description

Electronic equipment and control method thereof

Technical field

The present invention relates to a kind of electronic equipment and control method thereof, particularly relate to a kind of electronic equipment and the control method thereof that can enter battery saving mode according to the operation of user fast.

Background technology

Along with the widespread use of smart mobile phone, panel computer, wearable device etc., the flying power of people to this class of electronic devices is had higher requirement.But, be limited by size and the weight demands of electronic equipment, size and the capacity of its battery are restricted too, therefore, in the routine use of electronic equipment, reduce unnecessary power consumption at any time become a kind of effective way extending flying power, so " a key power saving " technology is arisen at the historic moment.But a current key power conservation techniques is realized by application software usually, and user operation process is more loaded down with trivial details.For smart mobile phone, first user needs the touch-screen opening smart mobile phone, is then unlocked touch-screen by the mode of finger sliding, and then slip finger finds power saving to apply, finally click this power saving application, thus final realization enters battery saving mode.Again such as, when user is by smart mobile phone viewing video, system prompt battery electric quantity is too low, if now user wants to start battery saving mode, usually need close video or return to the main interface of smart mobile phone, then select power saving application, enter battery saving mode, and then reopen video, have impact on the experience of user thus.

Summary of the invention

In order to solve the problems of the technologies described above, the object of the present invention is to provide a kind of electronic equipment and the control method thereof that can enter battery saving mode according to the operation of user fast.

According to an aspect of the present invention, a kind of control method of electronic equipment is provided, described electronic equipment comprises physics switch unit and control module, wherein said physics switch unit is arranged on the pre-position of the main body of described electronic equipment, and described control method comprises: the blocked operation being received user by described physics switch unit; Corresponding operational order is generated according to described blocked operation by described control module, control described electronic equipment based on described operational order to switch between the first operational mode and the second operational mode, wherein, the power consumption being in the electronic equipment of described second operational mode is different from the power consumption of the electronic equipment being in described first operational mode, wherein, when described physics switch unit is in the first state, described electronic equipment is in described first operational mode; And when described physics switch unit is in the second state, described electronic equipment is in described second operational mode.

In addition, according to one embodiment of present invention, the power consumption being in the electronic equipment of described second operational mode is lower than the predetermined power consumption threshold value of the power consumption of the electronic equipment being in described first operational mode.

In addition, according to one embodiment of present invention, described electronic equipment also comprises display unit, wherein, and the brightness value of the display unit when brightness value of display unit when described electronic equipment is in described second operational mode is in described first operational mode lower than described electronic equipment.

In addition, according to one embodiment of present invention, described precalculated position is the lateral edges of the main body of described electronic equipment.

In addition, according to one embodiment of present invention, described physics switch unit is change-over switch, wherein, when described change-over switch is positioned at primary importance, described change-over switch is in described first state, and when described change-over switch is positioned at the second place, described change-over switch is in described second state.

According to a further aspect in the invention, a kind of electronic equipment is provided, comprises: physics switch unit, be arranged on the pre-position of the main body of described electronic equipment and configure the blocked operation receiving user; And control module, configuration generates corresponding operational order according to described blocked operation, control described electronic equipment based on described operational order to switch between the first operational mode and the second operational mode, wherein, the power consumption being in the electronic equipment of described second operational mode is different from the power consumption of the electronic equipment being in described first operational mode, wherein, when described physics switch unit is in the first state, described electronic equipment is in described first operational mode; And when described physics switch unit is in the second state, described electronic equipment is in described second operational mode.

In addition, according to one embodiment of present invention, the power consumption being in the electronic equipment of described second operational mode is lower than the predetermined power consumption threshold value of the power consumption of the electronic equipment being in described first operational mode.

In addition, according to one embodiment of present invention, the brightness value of the display unit when brightness value of display unit when described electronic equipment is in described second operational mode is in described first operational mode lower than described electronic equipment.

In addition, according to one embodiment of present invention, described precalculated position is the lateral edges of the main body of described electronic equipment.

In addition, according to one embodiment of present invention, described physics switch unit comprises change-over switch, wherein, when described change-over switch is positioned at primary importance, described physics switch unit is in described first state, and when described change-over switch is positioned at the second place, described physics switch unit is in described second state.

As can be seen here, according to electronic equipment of the present invention and control method thereof, by arranging for described electronic equipment the blocked operation that physics switch unit receives user, and generate corresponding operational order and enter battery saving mode to make described electronic equipment, thereby reduce the operation steps of user, solve in prior art the problem of complex operation when switching battery saving mode, no matter the current running status of electronic equipment (such as watches video, screen locking etc.), all can directly respond the blocked operation of user and directly enter corresponding battery saving mode, improve Consumer's Experience.In addition, by adjusting the position of change-over switch, can also realize user's one hand can carry out blocked operation, improves Consumer's Experience further.

Accompanying drawing explanation

More fully can understand above-mentioned and other object, advantage and feature of the present invention in conjunction with the drawings, in the accompanying drawings:

Fig. 1 is the process flow diagram of the control method that the electronic equipment be applied to according to the embodiment of the present invention is shown;

Fig. 2 is the diagram of the configuration of the electronic equipment illustrated according to the embodiment of the present invention; And

Fig. 3 is the diagram of the physics switch unit of the electronic equipment illustrated according to the embodiment of the present invention.

Accompanying drawing is intended to describe exemplary embodiment of the present invention, and should not be interpreted as limiting the scope of the invention.Unless explicitly stated otherwise, otherwise accompanying drawing should not be considered as drawing in proportion.

Embodiment

Hereinafter, the preferred embodiments of the present invention are described in detail with reference to the accompanying drawings.In the present description and drawings, will element identical substantially and function be used the same reference numerals to represent, and will the duplicate explanation to these elements and function be omitted.In addition, for clarity and brevity, the explanation for function known in the art and structure can be omitted.

With reference to the accompanying drawings to a preferred embodiment of the present invention will be described in detail.

Referring to Fig. 1, control method 100 according to the present invention is described in detail.Fig. 1 is the process flow diagram that the control method 100 be applied to according to the electronic equipment of the embodiment of the present invention is shown.Control method 100 according to the present invention can be applied to the electronic equipment that such as notebook computer, panel computer, smart mobile phone, personal digital assistant, intelligent wearable device etc. are such.Hereinafter, for convenience of description, be described using smart mobile phone as the example of electronic equipment.Described smart mobile phone comprises physics switch unit and control module, and wherein said physics switch unit is arranged on the pre-position of the main body of described electronic equipment.

As shown in fig. 1, in step S101, received the blocked operation of user by described physics switch unit.

Particularly, physics switch unit is arranged on the pre-position of the main body of smart mobile phone and receives the blocked operation of user.Physics switch unit is preferably switch element, but the present invention is not limited to this, physics switch unit can also be physical button or the button of the pre-position of the main body being arranged on smart mobile phone, as long as physics switch unit can switch between different conditions in response to the blocked operation of user.User's blocked operation that described physics switch unit is carried out will be described in detail after a while.Physics switch unit produces switching signal and this switching signal is sent to control module after the blocked operation receiving user.

Preferably, physics switch unit is arranged on a side edge of the main body of smart mobile phone, and namely described precalculated position is preferably the ad-hoc location of the side of the main body of smart mobile phone, carries out blocked operation to facilitate user with finger to it.More preferably, described precalculated position is the ad-hoc location of the side on the long limit of the main body of smart mobile phone, can carry out blocked operation to facilitate user when being hold by one hand smart mobile phone by one hand to physics switch unit.But the present invention is not limited to this, those skilled in the art can also arrange the position of physics switch unit according to actual needs, and such as, physics switch unit can also be arranged on the specific location of the side of the minor face of the main body of smart mobile phone.

In step S102, corresponding operational order is generated according to described blocked operation by described control module, control described electronic equipment based on described operational order to switch between the first operational mode and the second operational mode, wherein, the power consumption being in the electronic equipment of described second operational mode is different from the power consumption of the electronic equipment being in described first operational mode, wherein, when described physics switch unit is in the first state, described electronic equipment is in described first operational mode; And when described physics switch unit is in the second state, described electronic equipment is in described second operational mode.

Particularly, smart mobile phone is different from the power consumption of the second operational mode in the first operational mode, thus, user can by changing the operational mode of smart mobile phone to the blocked operation of physics switch unit, and then reach the object of the power consumption state changing smart mobile phone, such as enter battery saving mode from normal-power mode or return to normal-power mode from battery saving mode.For convenience of description, will be hereafter that battery saving mode (that is, the power consumption of the second operational mode is lower than the power consumption of the first operational mode) is described in detail the preferred embodiment of smart mobile phone according to the present invention in the second operating mode.

Preferably, the power consumption being in the smart mobile phone of described second operational mode is lower than the predetermined power consumption threshold value of the power consumption of the smart mobile phone being in described first operational mode.Described power consumption threshold value is preferably 1000mW.Such as, smart mobile phone power consumption is in the first operating mode 1500mW, and power consumption is in the second operating mode 500mW.In other words, when switching to the second operational mode when blocked operation received during smart mobile phone is in response to step S101 from the first operational mode, power consumption is reduced to 500mW from 1500mW by smart mobile phone.Although foregoing illustrates power consumption threshold value is 1000mW, but the present invention is not limited to this, those skilled in the art can also be arranged described power consumption threshold value according to actual needs, as long as can realize the second operational mode than the power saving more of the first operational mode.

In addition, what it will be understood by those skilled in the art that is, illustrated above " being reduced to 500mW from 1500mW " is not operational means, but operating result, its one being actually the handoff procedure of the operational mode to smart mobile phone quantizes the form of expression, this handoff procedure is different from the effect touching on the brake to reduce the speed of a motor vehicle to the automobile in travelling, but on the basis ensureing the basic service condition of smart mobile phone, some hardware and/or software are adjusted, finally to reach lower power consumption to the object of 500mW.Below in conjunction with preferred embodiment, the handoff procedure representated by the quantification form of expression is above described in detail.

Preferably, smart mobile phone also can comprise display unit, wherein, and the brightness value of the display unit when brightness value of display unit when smart mobile phone is in the second operational mode is in the first operational mode lower than smart mobile phone.In other words, in step S102, smart mobile phone is made to enter battery saving mode by the brightness reducing display unit.Smart mobile phone is by reducing the brightness of display unit by power consumption threshold value (being such as reduced to 500mW from 1500mW) predetermined described in lower power consumption.

It should be noted, although the brightness that foregoing illustrates by reducing display unit can make power consumption threshold value predetermined described in the lower power consumption of smart mobile phone, but the present invention is not limited to this, reducing the brightness of display unit can be a part in many adjustment carried out hardware and/or software as described above, in other words, the brightness adjustment of display unit can combine with to the adjustment of other hardware and/or software by smart mobile phone, finally reaches the object making power consumption threshold value predetermined described in lower power consumption.Such as, smart mobile phone can also comprise wifi unit, then, in step s 102, on the basis of brightness reducing display unit as described above, smart mobile phone can also close wifi unit according to the operational order from control module, thus saves electric power.

Although foregoing illustrates the brightness of reduction display unit, closedown wifi unit reach and makes smart mobile phone enter battery saving mode, but the present invention is not limited to this, smart mobile phone can also by closing the such application program of such as music player, reduce the operation such as process frequency of control module and realize entering battery saving mode.Those skilled in the art can be arranged the second operational mode of smart mobile phone according to actual needs, as long as can realize the second operational mode than the first operational mode power saving, repeat no longer one by one here.

It should be noted, control module can control smart mobile phone according to the blocked operation of user to physics switch unit and switch between the first operational mode and the second operational mode, therefore those skilled in the art should be understood that, it is reversible that smart mobile phone mentioned above switches to the second operational mode from the first operational mode, in other words, when physics switch unit is switched to the first state from the second state by user, smart mobile phone can by such as recovering the brightness of (or increase) display unit, open wifi unit, recover (or startup) application-specific, recover the operations such as the process frequency of (or raising) control module and return to normal-power mode.

Therefore, can smart mobile phone can be made to enter battery saving mode or return to normal-power mode from battery saving mode by the simple blocked operation received from user according to control method 100 of the present invention, thereby reduce the operation steps of user, solve in prior art the problem of complex operation when switching battery saving mode.No matter the running status that smart mobile phone is current (such as watching video, screen locking etc.), all can directly respond the blocked operation of user and directly enter corresponding battery saving mode or normal-power mode, simple operation, improve Consumer's Experience.In addition, by physics switch unit being arranged at the appropriate position of the main body of smart mobile phone, can also realize user's one hand can carry out blocked operation, improves Consumer's Experience further.

Fig. 2 is the diagram of the configuration of the electronic equipment illustrated according to the embodiment of the present invention.Electronic equipment can be the electronic equipment that such as notebook computer, panel computer, smart mobile phone, personal digital assistant, intelligent wearable device etc. are so according to an embodiment of the invention.Hereinafter, for convenience of description, be described using smart mobile phone as the example of electronic equipment.Although electronic equipment of the present invention is depicted as smart mobile phone by Fig. 2, but the present invention is not limited to this, principle of the present invention can be applied to various electronic equipments mentioned above according to description of the invention and instruction by those skilled in the art.

As shown in Figure 2, smart mobile phone 1 comprises physics switch unit 11 and control module 12.

Physics switch unit 11 is arranged on the pre-position of the main body of smart mobile phone 1 and configures the blocked operation receiving user.Physics switch unit 11 is preferably switch element, but the present invention is not limited to this, physics switch unit 11 can also be physical button or the button of the pre-position of the main body being arranged on smart mobile phone 1, as long as physics switch unit 11 can switch between different conditions in response to the blocked operation of user.To be described in detail to physics switch unit 11 after a while.Physics switch unit 11, after the blocked operation receiving user, can produce switching signal and this switching signal is sent to control module 12.

Preferably, physics switch unit 11 is arranged on a side edge of the main body of smart mobile phone 1, and namely described precalculated position is preferably the ad-hoc location of the side of the main body of smart mobile phone 1, carries out blocked operation to facilitate user with finger to it.More preferably, described precalculated position is the ad-hoc location of the side on the long limit of the main body of smart mobile phone 1, can carry out blocked operation to facilitate user when being hold by one hand smart mobile phone 1 by singlehanded to physics switch unit 11.But the present invention is not limited to this, those skilled in the art can also arrange the position of physics switch unit 11 according to actual needs, and such as, physics switch unit 11 can also be arranged on the specific location of the side of the minor face of the main body of smart mobile phone 1.

Control module 12 configuration generates corresponding operational order according to described blocked operation, control smart mobile phone 1 based on described operational order to switch between the first operational mode and the second operational mode, wherein, the power consumption being in the smart mobile phone 1 of described second operational mode is different from the power consumption of the smart mobile phone 1 being in described first operational mode, wherein, when physics switch unit 11 is in the first state, smart mobile phone 1 is in described first operational mode; And when physics switch unit 11 is in the second state, smart mobile phone 1 is in described second operational mode.Control module 12 can be the processor that such as CPU (central processing unit) (CPU) is such, also can be realized by embedded controller (EC), and control module 12 can receive the switching signal from physics switch unit 11.

As described above, smart mobile phone 1 is different from the power consumption of the second operational mode in the first operational mode, thus, user can by changing the operational mode of smart mobile phone 1 to the blocked operation of physics switch unit 11, and then reach the object of the power consumption state changing smart mobile phone 1, such as enter battery saving mode from normal-power mode or return to normal-power mode from battery saving mode.For convenience of description, will be hereafter that battery saving mode (that is, the power consumption of the second operational mode is lower than the power consumption of the first operational mode) is described in detail the preferred embodiment of smart mobile phone 1 according to the present invention in the second operating mode.

Preferably, the power consumption being in the smart mobile phone 1 of described second operational mode is lower than the predetermined power consumption threshold value of the power consumption of the smart mobile phone 1 being in described first operational mode.Described power consumption threshold value is preferably 1000mW.Such as, smart mobile phone 1 power consumption is in the first operating mode 1500mW, and power consumption is in the second operating mode 500mW.In other words, when smart mobile phone 1 switches to second operational mode to the blocked operation of physics switch unit 11 from the first operational mode in response to user, power consumption is reduced to 500mW from 1500mW by smart mobile phone 1.Although foregoing illustrates power consumption threshold value is 1000mW, but the present invention is not limited to this, those skilled in the art can also be arranged described power consumption threshold value according to actual needs, as long as can realize the second operational mode than the power saving more of the first operational mode.

In addition, what it will be understood by those skilled in the art that is, illustrated above " being reduced to 500mW from 1500mW " is not operational means, but operating result, its one being actually the handoff procedure of the operational mode to smart mobile phone 1 quantizes the form of expression, this handoff procedure is different from the effect touching on the brake to reduce the speed of a motor vehicle to the automobile in travelling, but on the basis ensureing the basic service condition of smart mobile phone 1, some hardware and/or software are adjusted, finally to reach lower power consumption to the object of 500mW.Below in conjunction with preferred embodiment, the handoff procedure representated by the quantification form of expression is above described in detail.

Preferably, as shown in Figure 2, smart mobile phone 1 also comprises display unit 13, wherein, and the brightness value of the display unit 13 when the brightness value of the display unit 13 when smart mobile phone 1 is in the second operational mode is in the first operational mode lower than smart mobile phone 1.In other words, reach by the brightness reducing display unit 13 object making smart mobile phone 1 enter battery saving mode according to the smart mobile phone 1 of the embodiment of the present invention.Smart mobile phone 1 is by reducing the brightness of display unit 13 by power consumption threshold value (being such as reduced to 500mW from 1500mW) predetermined described in lower power consumption.

It should be noted, although the brightness that foregoing illustrates by reducing display unit 13 can make power consumption threshold value predetermined described in the lower power consumption of smart mobile phone 1, but the present invention is not limited to this, reducing the brightness of display unit 13 can be a part in many adjustment carried out hardware and/or software as described above, in other words, the brightness adjustment of display unit 13 can combine with to the adjustment of other hardware and/or software by smart mobile phone 1, finally reaches the object making power consumption threshold value predetermined described in lower power consumption.Such as, smart mobile phone 1 can also comprise wifi unit, then, on the basis of brightness reducing display unit 13 as described above, smart mobile phone 1 can also close wifi unit according to the operational order from control module 12, thus saves electric power.

Although foregoing illustrates the brightness of reduction display unit 13, closedown wifi unit reach and makes smart mobile phone 1 enter battery saving mode, but the present invention is not limited to this, smart mobile phone 1 can also by closing the such application program of such as music player, reduce the operation such as process frequency of control module 12 and realize entering battery saving mode.Those skilled in the art can be arranged the second operational mode of smart mobile phone 1 according to actual needs, as long as can realize the second operational mode than the first operational mode power saving, repeat no longer one by one here.

It should be noted, control module 12 can control smart mobile phone 1 according to the blocked operation of user to physics switch unit 11 and switch between the first operational mode and the second operational mode, therefore those skilled in the art should be understood that, it is reversible that smart mobile phone 1 mentioned above switches to the second operational mode from the first operational mode, in other words, when physics switch unit 11 is switched to the first state from the second state by user, smart mobile phone 1 can by such as recovering the brightness of (or increase) display unit 13, open wifi unit, recover (or startup) application-specific, recover the operations such as the process frequency of (or raising) control module 12 and return to normal-power mode.

Referring to Fig. 3, the physics switch unit 11 of the smart mobile phone 1 according to the embodiment of the present invention is described in detail.Fig. 3 is the diagram of the physics switch unit 11 of the smart mobile phone 1 illustrated according to the embodiment of the present invention.

As shown in Figure 3, physics switch unit 11 is arranged on a side edge of the main body of smart mobile phone 1, and physics switch unit 11 comprises change-over switch 110.Change-over switch 110 is current is in primary importance 111, and can switch back and forth between primary importance 111 and the second place 112 (dotted line illustrates).When change-over switch 110 is positioned at primary importance 111, physics switch unit 11 is in the first state, and when change-over switch 110 is positioned at the second place 112, physics switch unit 11 is in the second state.

First state of physics switch unit 11 is corresponding with first operational mode (such as normal-power mode) of smart mobile phone 1, and the second state of physics switch unit 11 is corresponding with second operational mode (such as battery saving mode) of smart mobile phone 1.When smart mobile phone 1 is in the first operational mode, if change-over switch 110 is switched to the second place 112 from primary importance 111 by user, then control module 12 generates corresponding operational order and controls smart mobile phone 1 based on described operational order and switches to the second operational mode from the first operational mode, thus smart mobile phone 1 can be made to enter battery saving mode by a blocked operation.Correspondingly, when smart mobile phone 1 is in the second operational mode, if change-over switch 110 is switched to primary importance 111 from the second place 112 by user, then control module 12 generates corresponding operational order and controls smart mobile phone 1 based on described operational order and switches to the first operational mode from the second operational mode, thus smart mobile phone 1 can be made to leave battery saving mode and return to normal-power mode by a blocked operation.

By above-mentioned configuration, received the blocked operation of user by physics switch unit 11 according to the smart mobile phone 1 of the embodiment of the present invention, smart mobile phone 1 can be made to enter battery saving mode by a simple blocked operation or return to normal-power mode from battery saving mode, thereby reduce the operation steps of user, solve in prior art the problem of complex operation when switching battery saving mode.No matter the running status that smart mobile phone 1 is current (such as watching video, screen locking etc.), all can directly respond the blocked operation of user and directly enter corresponding battery saving mode or normal-power mode, simple operation, improve Consumer's Experience.In addition, by physics switch unit 11 being arranged at the appropriate position of the main body of smart mobile phone 1, can also realize user's one hand can carry out blocked operation, improves Consumer's Experience further.

It should be noted that, term as used in this specification only for the object describing particular implementation, and is not intended to limit the invention.Unless the context clearly indicates otherwise, otherwise as used herein " one ", " one " and " being somebody's turn to do " of singulative is also intended to comprise plural form.Term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thus make to comprise the process of a series of key element, method, article or equipment and not only comprise those key elements, but also comprise other key elements clearly do not listed, or also comprise by the intrinsic key element of this process, method, article or equipment.When not more restrictions, the key element limited by statement " comprising ... ", and be not precluded within process, method, article or the equipment comprising described key element and also there is other identical element.

Those skilled in the art can recognize, embodiment disclosed herein can realize with electronic hardware, computer software or the combination of the two, in order to the interchangeability of hardware and software is clearly described, generally describe composition and the step of each example in the above description according to function.These functions perform with hardware or software mode actually, depend on application-specific and the design constraint of technical scheme.Those skilled in the art can use distinct methods to realize described function to each specifically should being used for, but this realization should not thought and exceeds scope of the present invention.

Those skilled in the art should understand that: above each embodiment, only in order to technical scheme of the present invention to be described, is not intended to limit; Although with reference to foregoing embodiments to invention has been detailed description, those skilled in the art can modify to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein some or all of technical characteristic; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of claims of the present invention.

Claims (10)

1. a control method for electronic equipment, described electronic equipment comprises physics switch unit and control module, and wherein said physics switch unit is arranged on the pre-position of the main body of described electronic equipment, and described control method comprises:

The blocked operation of user is received by described physics switch unit;

Corresponding operational order is generated according to described blocked operation by described control module, control described electronic equipment based on described operational order to switch between the first operational mode and the second operational mode, wherein, the power consumption being in the electronic equipment of described second operational mode is different from the power consumption of the electronic equipment being in described first operational mode, wherein

When described physics switch unit is in the first state, described electronic equipment is in described first operational mode; And

When described physics switch unit is in the second state, described electronic equipment is in described second operational mode.

2. control method according to claim 1, wherein,

The power consumption being in the electronic equipment of described second operational mode is lower than the predetermined power consumption threshold value of the power consumption of the electronic equipment being in described first operational mode.

3. control method according to claim 2, wherein said electronic equipment also comprises display unit, wherein, the brightness value of the display unit when brightness value of display unit when described electronic equipment is in described second operational mode is in described first operational mode lower than described electronic equipment.

4. control method according to claim 1, wherein,

Described precalculated position is the lateral edges of the main body of described electronic equipment.

5. control method according to claim 1, wherein,

Described physics switch unit comprises change-over switch, wherein,

When described change-over switch is positioned at primary importance, described physics switch unit is in described first state, and

When described change-over switch is positioned at the second place, described physics switch unit is in described second state.

6. an electronic equipment, comprising:

Physics switch unit, is arranged on the pre-position of the main body of described electronic equipment and configures the blocked operation receiving user; And

Control module, configuration generates corresponding operational order according to described blocked operation, control described electronic equipment based on described operational order to switch between the first operational mode and the second operational mode, wherein, the power consumption being in the electronic equipment of described second operational mode is different from the power consumption of the electronic equipment being in described first operational mode, wherein

When described physics switch unit is in the first state, described electronic equipment is in described first operational mode; And

When described physics switch unit is in the second state, described electronic equipment is in described second operational mode.

7. electronic equipment according to claim 6, wherein,

The power consumption being in the electronic equipment of described second operational mode is lower than the predetermined power consumption threshold value of the power consumption of the electronic equipment being in described first operational mode.

8. electronic equipment according to claim 7, also comprise display unit, wherein, the brightness value of the display unit when brightness value of display unit when described electronic equipment is in described second operational mode is in described first operational mode lower than described electronic equipment.

9. electronic equipment according to claim 6, wherein,

Described precalculated position is the lateral edges of the main body of described electronic equipment.

10. electronic equipment according to claim 6, wherein,

Described physics switch unit comprises change-over switch, wherein,

When described change-over switch is positioned at primary importance, described physics switch unit is in described first state, and

When described change-over switch is positioned at the second place, described physics switch unit is in described second state.