CN107015629A - Processing method and electronic equipment - Google Patents
Processing method and electronic equipment Download PDFInfo
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- CN107015629A CN107015629A CN201710204824.4A CN201710204824A CN107015629A CN 107015629 A CN107015629 A CN 107015629A CN 201710204824 A CN201710204824 A CN 201710204824A CN 107015629 A CN107015629 A CN 107015629A
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- electronic equipment
- display
- auxiliary device
- data
- display screens
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/26—Power supply means, e.g. regulation thereof
- G06F1/32—Means for saving power
- G06F1/3203—Power management, i.e. event-based initiation of a power-saving mode
- G06F1/3234—Power saving characterised by the action undertaken
- G06F1/325—Power saving in peripheral device
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/26—Power supply means, e.g. regulation thereof
- G06F1/32—Means for saving power
- G06F1/3203—Power management, i.e. event-based initiation of a power-saving mode
- G06F1/3206—Monitoring of events, devices or parameters that trigger a change in power modality
- G06F1/3215—Monitoring of peripheral devices
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/26—Power supply means, e.g. regulation thereof
- G06F1/32—Means for saving power
- G06F1/3203—Power management, i.e. event-based initiation of a power-saving mode
- G06F1/3234—Power saving characterised by the action undertaken
- G06F1/325—Power saving in peripheral device
- G06F1/3265—Power saving in display device
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/26—Power supply means, e.g. regulation thereof
- G06F1/32—Means for saving power
- G06F1/3203—Power management, i.e. event-based initiation of a power-saving mode
- G06F1/3234—Power saving characterised by the action undertaken
- G06F1/325—Power saving in peripheral device
- G06F1/3268—Power saving in hard disk drive
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
- H04W52/0209—Power saving arrangements in terminal devices
- H04W52/0251—Power saving arrangements in terminal devices using monitoring of local events, e.g. events related to user activity
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
- H04W52/0209—Power saving arrangements in terminal devices
- H04W52/0261—Power saving arrangements in terminal devices managing power supply demand, e.g. depending on battery level
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
- H04W52/0209—Power saving arrangements in terminal devices
- H04W52/0261—Power saving arrangements in terminal devices managing power supply demand, e.g. depending on battery level
- H04W52/0267—Power saving arrangements in terminal devices managing power supply demand, e.g. depending on battery level by controlling user interface components
- H04W52/027—Power saving arrangements in terminal devices managing power supply demand, e.g. depending on battery level by controlling user interface components by controlling a display operation or backlight unit
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
- H04W52/0209—Power saving arrangements in terminal devices
- H04W52/0261—Power saving arrangements in terminal devices managing power supply demand, e.g. depending on battery level
- H04W52/0274—Power saving arrangements in terminal devices managing power supply demand, e.g. depending on battery level by switching on or off the equipment or parts thereof
- H04W52/028—Power saving arrangements in terminal devices managing power supply demand, e.g. depending on battery level by switching on or off the equipment or parts thereof switching on or off only a part of the equipment circuit blocks
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
- H04W52/0209—Power saving arrangements in terminal devices
- H04W52/0261—Power saving arrangements in terminal devices managing power supply demand, e.g. depending on battery level
- H04W52/0274—Power saving arrangements in terminal devices managing power supply demand, e.g. depending on battery level by switching on or off the equipment or parts thereof
- H04W52/028—Power saving arrangements in terminal devices managing power supply demand, e.g. depending on battery level by switching on or off the equipment or parts thereof switching on or off only a part of the equipment circuit blocks
- H04W52/0283—Power saving arrangements in terminal devices managing power supply demand, e.g. depending on battery level by switching on or off the equipment or parts thereof switching on or off only a part of the equipment circuit blocks with sequential power up or power down of successive circuit blocks, e.g. switching on the local oscillator before RF or mixer stages
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D30/00—Reducing energy consumption in communication networks
- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
Abstract
Present disclose provides a kind of processing method, methods described includes:Obtain switching command;Link information is obtained, whether the main interface that the link information is used to characterize the electronic equipment is connected with an auxiliary device;Determine whether to perform the switching command based on the link information;Wherein, based on the link information that the auxiliary device is connected with for characterizing the main interface, respond the switching command, control the working condition of the electronic equipment to be switched to ultra electric power-saving mode from mode of operation, the auxiliary device is used when the working condition of the electronic equipment is the ultra electric power-saving mode;Based on the link information for having the auxiliary device for characterizing the main interface to be not connected with, respond the switching command, the working condition of the electronic equipment is controlled to be switched to battery saving mode from mode of operation, the power consumption of the ultra electric power-saving mode of the electronic equipment is less than the battery saving mode of the electronic equipment.The disclosure additionally provides a kind of electronic equipment.
Description
Technical field
This disclosure relates to a kind of processing method and a kind of electronic equipment.
Background technology
With the fast development of electronic industry, various mobile terminals are increasingly being applied to work and daily life
In.Because increasing application and function are loaded into mobile terminal, the power consumption of mobile terminal is considerably increased.Therefore,
How in mobile terminal low battery, prolonged standby turn into influence Consumer's Experience one can also be kept crucial because
Element.
The content of the invention
An aspect of this disclosure provides a kind of processing method, including:Switching command is obtained, and obtains connection letter
Whether breath, the main interface that the link information is used for characterization of electronic equipment is connected with an auxiliary device, and true based on link information
It is fixed whether to perform switching command.Wherein:Based on the link information that auxiliary device is connected with for characterizing main interface, response switching refers to
Order, the working condition of control electronics is switched to ultra electric power-saving mode from mode of operation, and the working condition of electronic equipment is super
Auxiliary device is used during level battery saving mode, and based on the link information for having auxiliary device for characterizing main interface to be not connected with, is rung
Switching command is answered, the working condition of control electronics is switched to battery saving mode, the super power saving of electronic equipment from mode of operation
The power consumption of pattern is less than the battery saving mode of electronic equipment.
Alternatively, the working condition of electronic equipment includes for ultra electric power-saving mode:Predetermined configurations information is called, and is based on
Configuration information controls the bottom hardware of corresponding electronic equipment to be at the upper layer software (applications) of low power consumpting state and corresponding electronic equipment
In low power consumpting state.
Alternatively, the bottom hardware of electronic equipment includes auxiliary device, wherein, auxiliary device is E-ink display screens.
Alternatively, the bottom hardware of corresponding electronic equipment is controlled to be in low power consumpting state and corresponding electricity based on configuration information
The upper layer software (applications) of sub- equipment, which is in low power consumpting state, at least to be included:The display screen of electronic equipment is closed, the aobvious of electronic equipment is obtained
Registration evidence, and based on display data for electric once so that E-ink display screens show display data on E-ink display screens.
Alternatively, the working condition of electronic equipment is that ultra electric power-saving mode also includes:Obtain for the aobvious of E-ink display screens
Registration evidence is updated the data, and based on updating the data for E-ink display screens upper electricity again.
Alternatively, it is directed to based on display data electric once so that the display of E-ink display screens shows number on E-ink display screens
According to including:, there is buffer zone by the display data after processing in the display parameters processing display data based on E-ink display screens
In, buffer zone is the display number behind the buffer zone corresponding to E-ink display screens, and the processing stored based on buffer zone
According to control for electricity on E-ink display screens so that E-ink display screens show display data.
Another aspect of the disclosure provides a kind of electronic equipment, including:Main interface, for it is one or more attached
Equipment is connected, and processor, and the processor is connected with above-mentioned main interface, the computing device:Switching command is obtained, and is obtained
Link information is obtained, whether the main interface that the link information is used for characterization of electronic equipment is connected with an auxiliary device, and based on even
Information is connect to determine whether to perform switching command.Wherein:Based on the link information that auxiliary device is connected with for characterizing main interface, ring
Switching command is answered, the working condition of control electronics is switched to ultra electric power-saving mode, the work of electronic equipment from mode of operation
Auxiliary device is used when state is ultra electric power-saving mode, and based on the connection for having auxiliary device for characterizing main interface to be not connected with
Information, responds switching command, and the working condition of control electronics is switched to battery saving mode from mode of operation, wherein, electronics is set
The power consumption of the standby ultra electric power-saving mode is less than the battery saving mode of the electronic equipment.
Alternatively, the working condition of above-mentioned electronic equipment includes for ultra electric power-saving mode:Predetermined configurations information is called, and
Control upper strata of the bottom hardware in low power consumpting state and corresponding electronic equipment of corresponding electronic equipment soft based on configuration information
Part is in low power consumpting state.
Alternatively, the electronic equipment also includes display screen, wherein, the bottom hardware of electronic equipment includes auxiliary device, should
Auxiliary device is E-ink display screens.
Alternatively, it is above-mentioned based on the configuration information control the bottom hardware of corresponding electronic equipment be in low power consumpting state with
And the upper layer software (applications) of corresponding electronic equipment is in low power consumpting state and at least included:The display screen of electronic equipment is closed, electronics is obtained
The display data of equipment, and based on display data for electric once so that E-ink display screens are shown on E-ink display screens
Registration evidence.
Alternatively, the working condition of electronic equipment is that ultra electric power-saving mode also includes:Obtain for the aobvious of E-ink display screens
Registration evidence is updated the data, and based on updating the data for E-ink display screens upper electricity again.
Alternatively, it is above-mentioned to be based on the display data for electric once so that E-ink shows screen display on E-ink display screens
Show that display data includes:Display parameters processing display data based on E-ink display screens, the display data after processing is present slow
Deposit in region, buffer zone of the buffer zone corresponding to the E-ink display screens, and after the processing stored based on buffer zone
Display data control for electricity on E-ink display screens so that E-ink display screens show display data.
Another aspect of the present disclosure provides a kind of non-volatile memory medium, and be stored with computer executable instructions, institute
Stating instruction is used to realize method as described above when executed.
Brief description of the drawings
In order to be more fully understood from the disclosure and its advantage, referring now to the following description with reference to accompanying drawing, wherein:
Fig. 1 a and Fig. 1 b diagrammatically illustrate processing method in accordance with an embodiment of the present disclosure and the use field of electronic equipment
Scape;
Fig. 2 diagrammatically illustrates the flow chart of processing method in accordance with an embodiment of the present disclosure;
Fig. 3 diagrammatically illustrates the method flow of the processing method under ultra electric power-saving mode in accordance with an embodiment of the present disclosure
Figure;
The method that the control electronics that Fig. 4 is diagrammatically illustrated in accordance with an embodiment of the present disclosure are in the method for low-power consumption
Flow chart;
Fig. 5 diagrammatically illustrates the block diagram of electronic equipment in accordance with an embodiment of the present disclosure;
Fig. 6 diagrammatically illustrates the block diagram of the electronic equipment according to another embodiment of the present disclosure.
Embodiment
Hereinafter, it will be described with reference to the accompanying drawings embodiment of the disclosure.However, it should be understood that these descriptions are simply exemplary
, and it is not intended to limit the scope of the present disclosure.In addition, in the following description, the description to known features and technology is eliminated, with
Avoid unnecessarily obscuring the concept of the disclosure.
Term as used herein is not intended to limit the disclosure just for the sake of description specific embodiment.Used here as
Word " one ", " one (kind) " and "the" etc. should also include " multiple ", the meaning of " a variety of ", unless context clearly refers in addition
Go out.In addition, term " comprising " as used herein, "comprising" etc. indicate the presence of the feature, step, operation and/or part,
But it is not excluded that in the presence of or add one or more other features, step, operation or part.
All terms (including technology and scientific terminology) as used herein have what those skilled in the art were generally understood
Implication, unless otherwise defined.It should be noted that term used herein should be interpreted that with consistent with the context of this specification
Implication, without that should be explained with idealization or excessively mechanical mode.
Shown in the drawings of some block diagrams and/or flow chart.It should be understood that some sides in block diagram and/or flow chart
Frame or its combination can be realized by computer program instructions.These computer program instructions can be supplied to all-purpose computer,
The processor of special-purpose computer or other programmable data processing units, so that these instructions can be with when by the computing device
Create the device for realizing function/operation illustrated in these block diagrams and/or flow chart.
Therefore, the technology of the disclosure can be realized in the form of hardware and/or software (including firmware, microcode etc.).Separately
Outside, the technology of the disclosure can take the form of the computer program product on the computer-readable medium for the instruction that is stored with, should
Computer program product is available for instruction execution system use or combined command execution system to use.In the context of the disclosure
In, computer-readable medium can include, store, transmit, propagate or transmit the arbitrary medium of instruction.For example, calculating
Machine computer-readable recording medium can include but is not limited to electricity, magnetic, optical, electromagnetic, infrared or semiconductor system, device, device or propagation medium.
The specific example of computer-readable medium includes:Magnetic memory apparatus, such as tape or hard disk (HDD);Light storage device, such as CD
(CD-ROM);Memory, such as random access memory (RAM) or flash memory;And/or wire/wireless communication link.
At present, various mobile terminals (for example, mobile phone, tablet personal computer, personal intelligent assistant etc.) have become routine work
With instrument indispensable in life.With the fast development of electronic industry, the function and application loaded in mobile terminal also with
User demand and more and more (for example, touch-screen, music, game and global positioning system etc.), these functions
The electricity of mobile terminal can be hastily consumed with application.When the electricity of mobile terminal is less than certain value, mobile terminal has accordingly
Battery saving mode, after battery saving mode is entered, close network connection and some it is specific apply, and by the aobvious of electronic equipment
Display screen is dimmed.But, after mobile terminal enters battery saving mode, the display screen of mobile device in itself can be still used, even if meeting
The gray scale of display data is adjusted, yet with the high-resolution of the display screen used now, still very power consumption.
Embodiment of the disclosure provides the electricity of a kind of processing method for electronic equipment and the application processing method
Sub- equipment.This method includes obtaining switching command, and obtains link information, and determines whether that execution is cut based on link information
Change instruction.Wherein, whether link information is connected with an auxiliary device for the main interface of characterization of electronic equipment.When main interface connection
When having auxiliary device, switching command is responded, the working condition of control electronics is switched to ultra electric power-saving mode from mode of operation,
Wherein, the auxiliary device is used when the working condition of electronic equipment is ultra electric power-saving mode.There is attached set when main interface is not connected
When standby, switching command is responded, the working condition of control electronics is switched to battery saving mode from mode of operation.Electronic equipment it is upper
The power consumption for stating ultra electric power-saving mode is less than the battery saving mode of electronic equipment.Wherein, main interface is that electronic equipment enters with external equipment
The connecting interface of row information interaction.Auxiliary device represents to be connected and carry out information exchange with electronic equipment by main interface
Equipment.
Fig. 1 a and Fig. 1 b diagrammatically illustrate processing method in accordance with an embodiment of the present disclosure and the use field of electronic equipment
The example of scape.Wherein, Fig. 1 a are the application scenarios that electronic equipment is used alone, and Fig. 1 b are that electronic equipment makes with auxiliary device cooperation
Application scenarios.In this scenario, for ease of citing, electronic equipment is illustrated as mobile phone.According to the disclosure embodiment, electricity
Sub- equipment can also include tablet personal computer, notebook computer etc..Auxiliary device can include display device, camera, charging equipment
And video playback apparatus etc..
As shown in Figure 1a, electronic equipment 110 is used alone, i.e., the main interface 112 of electronic equipment 110 is not connected attached set
It is standby.When the electricity of electronic equipment 110 is less than certain value, the electronic equipment can be selected either automatically into province according to user
Power mode.Into after battery saving mode, still the display of display data is carried out using the display screen 111 of current electronic device.
As shown in Figure 1 b, electronic equipment 110 is used cooperatively with auxiliary device 210, i.e. the main interface 112 of electronic equipment 110
It is connected with the connecting interface 212 of auxiliary device 210.It will be appreciated by those skilled in the art that main interface 112 and connecting interface 212
Between connection can be wired connection or contact portion as shown in Figure 1 b, or equipment can be that by
Between data transfer other connected modes, the present invention it is unrestricted herein.
According to the embodiment of the present disclosure, auxiliary device 210, which is attached to electronic equipment 110, can use FLOW VISUALIZATION port
(Mobility DisplayPort, abbreviation MyDP) mode, it would however also be possible to employ Serial Peripheral Interface (SPI) (Serial Peripheral
Interface, abbreviation SPI) mode.
According to the embodiment of the present disclosure, auxiliary device 210 can include attached camera, for example, electronic equipment can be improved certainly
The pixel of body camera.Auxiliary device 210 can also include attached charger baby, for example, it is electronics on an electronic device that can connect
Equipment provides electric energy.Auxiliary device 210 can also include attached player, for example, electronic equipment itself player can be improved
Resolution ratio etc..
The functional module 211 of auxiliary device 210 can be equipment with camera function or with playing function
Equipment or equipment with charge function, can also be equipment with display function etc..People in the art
Member should be appreciated that auxiliary device can also include other functions, or, the group of two kinds or more kinds of functions can also be included
Close.
In accordance with an embodiment of the present disclosure, functional module 211 can have display function, for example, auxiliary device can be E-
Ink display screens.After auxiliary device 210 is linked into electronic equipment 110, electronic equipment has more than one display device, can be with
The display device (such as display screen 111) that electronic equipment itself is used alone is shown, connected attached can also be used alone
The display module (such as functional module 211) of category equipment is shown, the display module of electronic equipment itself can also be used simultaneously
Shown together with the display module of the auxiliary device connected.Electronic equipment itself display device and connected it is attached
When the display module of category equipment is used for display together, both can show identical content, or can show different interior
Hold.For example, when user paints on a display of the handset, external display screen can be with simultaneous display painting, can also not
Show and instead show the contents such as mobile phone screen protection.
In embodiment of the disclosure, functional module 211 can be the display module with display function, the display module
The small power consumption of the 211 power dissipation ratio display screen 111 in display data content., can be with when electric quantity for electronic equipment is less than certain value
The display screen 111 of electronic equipment is closed, and is shown using the display module 211 of auxiliary device, so that saving energy consumption is reached,
Increase the effect of electronic equipment stand-by time.
Fig. 2 diagrammatically illustrates the flow chart of processing method in accordance with an embodiment of the present disclosure.
As shown in Fig. 2 this method starts from operating S210.
S210 is operated, switching command is obtained.
S220 is operated, link information is obtained, whether the main interface that the link information is used for characterization of electronic equipment is connected with one
Auxiliary device.
S230 is operated, determines whether to perform switching command based on link information.Specifically, can be based on acquisition link information
Main interface is characterized to be connected with auxiliary device or characterize that main interface is not connected to have auxiliary device come really based on link information is obtained
It is fixed whether to perform switching command.For example, characterizing main interface based on acquisition link information is connected with auxiliary device, response switching refers to
Order, the working condition of control electronics is switched to ultra electric power-saving mode from mode of operation.The electronic device works are in super province
The auxiliary device is used during power mode.For example, being characterized based on link information, main interface is not connected auxiliary device, and response switching refers to
Order, the working condition of control electronics is switched to battery saving mode from mode of operation, wherein, electronic equipment states super power saving mould
The power consumption of formula is less than the battery saving mode of electronic equipment.
According to the embodiment of the present disclosure, it is single use or is used cooperatively with auxiliary device by judging electronic equipment, come
The working condition of control electronics, so that the control to electronic equipment is more diversified and personalization.Make the work of electronic equipment
Make state and more adapt to a variety of scenes.Also, in the disclosed embodiments, when electronic equipment is connected with auxiliary device, it surpasses
Battery saving mode when level battery saving mode is used alone than electronic equipment is low in energy consumption, can increase the stand-by time of electronic equipment.
With reference to embodiment of the disclosure, aforesaid operations S210-S230 is described.
In operation S210, switching command is obtained.According to the embodiment of the present disclosure, it can be selected by user to obtain switching command
Acquisition switching command is selected, for example, user sets the work shape that current working condition is adjusted to low-power consumption in the electronic device
State, or when electric quantity for electronic equipment is less than predetermined threshold value, point out user, user's selection switch operating status lamp.Switched
Instruction can also obtain switching command by responding a certain condition, for example, when electronic equipment current electric quantity is less than predetermined threshold value
When (such as electricity be less than 20%), electronic equipment automatically generates the working condition that current working condition is adjusted to low-power consumption
Switching command.In another example, it can also be when electronic equipment detects the information of external display auxiliary device access, electronics
Equipment automatically generates the switching command for the working condition that current working condition is adjusted to low-power consumption.
In operation S220, link information is obtained, whether the main interface that the link information is used for characterization of electronic equipment is connected with
One auxiliary device.Wherein, main interface can be the physical interface used when electronic equipment is interacted with external equipment, for example,
USB interface in mobile phone, contact interface etc..It can be that electronic equipment enters with external equipment that main interface, which can also include auxiliary device,
WiFi interfaces, blue tooth interface used during row interaction etc..Auxiliary device is that the equipment used is connected with electronic equipment, for example, can
To be attached display screen, after being connected with electronic equipment, it can be shown.
In accordance with an embodiment of the present disclosure, it can determine to obtain link information by user to obtain link information, for example, working as
When determining that electronic equipment is connected with auxiliary device, user is pointed out, believes that auxiliary device, or user's selection are determined in user's selection
The link information that an auxiliary device is connected with for the main interface of characterization of electronic equipment is obtained during access.Link information is obtained also may be used
To be to obtain link information by responding a certain condition, for example, while auxiliary device access is detected, electronic equipment is automatic
Generate the link information that an auxiliary device is connected with for the main interface of characterization of electronic equipment.In the disclosed embodiments, do not having
In the case of having auxiliary device access, or there is an auxiliary device access, but user's selection is not when believing that the auxiliary device, then obtains
The link information obtained characterizes the electronic equipment and is not connected to auxiliary device.
S230 is operated, determines whether to perform switching command based on link information.Main connect is characterized based on link information is obtained
Mouth is connected with auxiliary device, responds switching command, and the working condition of control electronics is switched to super power saving from mode of operation
Pattern.The electronic device works use the auxiliary device in ultra electric power-saving mode.Main connect is characterized based on link information is obtained
Mouth is not connected auxiliary device, responds switching command, and the working condition of control electronics is switched to power saving mould from mode of operation
Formula.Wherein, the power consumption of the ultra electric power-saving mode of electronic equipment is less than the battery saving mode of electronic equipment.
According to the embodiment of the present disclosure, whether it is connected with the different situations of auxiliary device in the main interface of electronic equipment, it is right
It is different so as to the method for control electronics in response switching command.When (that is, electronic equipment main interface is used alone in electronic equipment
It is not connected to have auxiliary device) in the case of, switching command is responded, the switching command can be that user is set, can also electricity
Triggered automatically when too low, control electronics enter battery saving mode.When electronic equipment and auxiliary device are with the use of (that is, electric
Sub- equipment main interface is connected with auxiliary device) in the case of, switching command is responded, control electronics enter super power saving mould
Formula.When the working condition of electronic equipment is under ultra electric power-saving mode, using auxiliary device, and power consumption now is less than electronics
Power consumption when equipment is used alone.
In the disclosed embodiments, switching command can be triggered while auxiliary device access main interface is detected, from
And control electronics enter ultra electric power-saving mode;It can also detect whether that auxiliary device connects after switching command is got
Enter the link information to electronic equipment, if so, the working condition for then responding the instruction control electronics enters super power saving
Pattern, otherwise, the working condition of control electronics enter battery saving mode.
According to the embodiment of the present disclosure, the working condition of electronic equipment is switched to battery saving mode can be bright including turning down screen
Degree, it might even be possible to which screen is adjusted to white and black displays mode;The program that cleaning backstage is currently running can also be included, and closed
Fall the application (for example, video player, GPS location and network connection etc.) of some power consumptions;Stopping electronics can also being included to set
Standby synchronous transfer.It will be appreciated by those skilled in the art that every function and application for needing to consume electric quantity for electronic equipment all may be used
Used with being stopped, or limitation is used.
According to the embodiment of the present disclosure, it is single use or is used cooperatively with auxiliary device by judging electronic equipment, come
The working condition of control electronics, so that the control to electronic equipment is more diversified and personalization.Make the work of electronic equipment
Make state and more adapt to a variety of scenes.Also, in the disclosed embodiments, when electronic equipment is connected with auxiliary device, it surpasses
Battery saving mode when level battery saving mode is used alone than electronic equipment is low in energy consumption, can increase the stand-by time of electronic equipment.
Fig. 3 is may be referred on the working condition under the ultra electric power-saving mode of electronic equipment, in conjunction with specific embodiments to Fig. 2
Operation S230 in shown method is described further.
Fig. 3 diagrammatically illustrates the method flow of the method for entrance ultra electric power-saving mode in accordance with an embodiment of the present disclosure
Figure.
As shown in figure 3, operation S230 starts from operating S231.
S231 is operated, predetermined configurations information is called.
S232 is operated, controls the bottom hardware of corresponding electronic equipment to be in low power consumpting state and corresponding based on configuration information
The upper layer software (applications) of electronic equipment is in low power consumpting state.
According to the embodiment of the present disclosure, when the working condition of electronic equipment is ultra electric power-saving mode, call first predetermined
Configuration information, the configuration information is used to indicate how each bottom hardware and each upper layer software (applications) of electronic equipment work, also, connects
Enter the configuration information to control corresponding bottom hardware to be in low power consumpting state and control corresponding upper layer software (applications) to be in low-power consumption
State, so as to realize the purpose of energy-conservation energy consumption.
With reference to embodiment of the disclosure, aforesaid operations S231-S232 is described.
In operation S231, predetermined configurations information is called.According to the embodiment of the present disclosure, electronic equipment is previously according to battery saving mode
And ultra electric power-saving mode sets configuration information.When the working condition of electronic equipment is switched to battery saving mode either super power saving
During pattern, the configuration information set in advance for the pattern is directly invoked.For example, the configuration information includes controlling some bottoms hard
The command information of closing or the dormancy of part, can also include the instruction for controlling the closing of some upper layer software (applications)s or prohibitting the use of
Information etc..
In operation S232, the bottom hardware for controlling corresponding electronic equipment based on configuration information is in low power consumpting state and phase
The upper layer software (applications) of electronic equipment is answered to be in low power consumpting state.According to the embodiment of the present disclosure, the auxiliary device of electronic equipment is accessed
Belong to the bottom hardware of the electronic equipment.After electronic equipment enters ultra electric power-saving mode, some bottoms are controlled according to configuration information
Layer hardware is in low power consumpting state, for example, close those hardware, or make those hardware in a dormant state.Meanwhile, according to
Confidence breath controls some pre-set upper layer software (applications)s to be in low power consumpting state, for example, close those softwares, or on forbidding
Layer software is based on system service and accesses bottom hardware, i.e. forbid some applications to go to wake up bottom hardware work.For example, control electricity
The program that sub- equipment cleaning backstage is currently running, and close the application of some power consumptions (for example, video player, GPS location
And network connection etc.).
Method on entering low-power consumption based on configuration information control electronics may be referred to Fig. 4, with reference to specific implementation
Example is described further to the operation S232 in the method shown in Fig. 3.
The control electronics that Fig. 4 is diagrammatically illustrated in accordance with an embodiment of the present disclosure enter the method for the method of low-power consumption
Flow chart.In the present embodiment, when electronic equipment enters low-power consumption, shown using external E-ink display screens.
As shown in figure 4, this method starts from operating S2321.
S2321 is operated, the display screen of electronic equipment is closed.
S2322 is operated, the display data of electronic equipment is obtained.
S2323 is operated, is directed to based on display data electric once so that E-ink display screens show this on E-ink display screens
Display data.
S2324 is operated, acquisition is updated the data for the display data of E-ink display screens.
S2325 is operated, is updated the data based on this and goes up electricity again for E-ink display screens.
According to the embodiment of the present disclosure, after electronic equipment enters ultra electric power-saving mode, auxiliary device, the auxiliary device are used
Can be E-ink display screens.Under ultra electric power-saving mode, the display screen of electronic equipment is closed, the display number of electronic equipment is obtained
According to showing the display data using auxiliary device E-ink display screens., replace electronic equipment original aobvious using E-ink display screens
Display screen is shown, because the low-power consumption feature of E-ink display screens, and upper electricity can once continue to keep the spy of display content
Point, can save powder consumption of electronic equipment.
With reference to embodiment of the disclosure, aforesaid operations S2321-S2325 is described.
In operation S2321, the display screen of electronic equipment is closed.According to the embodiment of the present disclosure, enter super in electronic equipment
After battery saving mode, then shown without using current display screen.The display screen for closing electronic equipment can enter super
During battery saving mode, triggering out code make it that the display screen of electronic equipment is closed or response user determines switching display
The instruction of screen is so as to close the display screen of electronic equipment.
In operation S2322, the display data of electronic equipment is obtained.According to the embodiment of the present disclosure, under ultra electric power-saving mode,
The display data of electronic equipment is not transmitted further to the display screen of electronic equipment.But the display data is obtained, it is transferred to external
E-ink display screens.
In operation S2323, it is directed to based on display data electric once so that E-ink display screens are shown on E-ink display screens
The display data.
The display data acquired according to the embodiment of the present disclosure, the display parameters processing based on E-ink display screens.Attached
Category equipment is linked into after electronic equipment, and the display parameters of itself will be uploaded to electronic equipment by auxiliary device, for example, physics chi
The parameters such as very little, resolution ratio, display color locating depth.Electronic equipment is handled according to the display parameters of obtained E-ink display screens and shown
Data.For example, changing the length-width ratio in display data to be adapted to the length-width ratio of E-ink display screens, or display data is carried out
Gray count so that the color of the display data can be shown by E-ink display screens.
According to the embodiment of the present disclosure, the display data after processing is stored in buffer zone, the buffer zone is E-ink
The corresponding buffer zone of display screen.In the disclosed embodiments, electronic equipment generates one piece of Framebuffer buffer, will locate
Display data after reason is stored in Framebuffer.
According to the embodiment of the present disclosure, the display data control after the processing stored based on buffer zone is shown for E-ink
Electricity is so that E-ink display screens show the display data on screen.In the disclosed embodiments, electronic equipment is by the display number after processing
The form of piecemeal is stored in buffer zone according to this, and gives E-ink display screens by total block data and each piece of numbered transmission.
E-ink display screens obtain display data from buffer zone, or electronic equipment gives the display data transmissions in buffer zone
E-ink display screens.By verification, after E-ink obtains whole display datas, so that E- to electricity on E-ink display screens once
Ink display screens can show the display data.In embodiment of the disclosure, on E-ink display screens can also be constantly in and be
Electricity condition, gets after display data each time, and the content before can directly refreshing is to show new display data.
According to the embodiment of the present disclosure, pass through the processing to display data so that the display data after processing more adapts to E-
Ink display screens.Also, the corresponding buffer zone of E-ink display screens is stored in by the display data after processing is same, facilitates E-
The reading and verification of ink display screens.
In operation S2324, acquisition is updated the data for the display data of E-ink display screens.In the disclosed embodiments,
When display data updates, new display data can be generated for example, there is phone incoming call, or situations such as have short message prompt, then is obtained
Take the display data of the renewal.Obtaining updating the data for display data can include obtaining updating the data under the whole circumstances,
Can obtain updating the data under particular case.For example, only obtaining has what is produced during phone incoming call to update the data.
S2325 is operated, is updated the data based on this and goes up electricity again for E-ink display screens.Obtaining the display data of renewal
Afterwards, the description for operating S2323 is handled and stored to the data referring to Fig. 4, and to E-ink display screens again it is upper electric with
E-ink display screens are allow to show the display data after updating.
According to the embodiment of the present disclosure, by determining link information to respond switching command, so that control electronics are not with
Same pattern is operated.The working condition of electronic equipment can be made to adapt to more scenes.
In the disclosed embodiments, when the main interface of electronic equipment is connected to auxiliary device, switching command, control electricity are responded
The mode of operation of sub- equipment switches to ultra electric power-saving mode, in this mode, worked using auxiliary device, and auxiliary device can be
E-ink display screens, then under ultra electric power-saving mode, shown using E-ink display screens, instead of the original display of electronic equipment
Screen, to reach the effect for saving power consumption.
Fig. 5 diagrammatically illustrates the block diagram of electronic equipment 500 in accordance with an embodiment of the present disclosure.
As shown in figure 5, electronic equipment 500 includes main interface 510 and processor 520.The electronic equipment 500 can be performed
Face refers to the method that Fig. 2-Fig. 4 is described, to realize the processing for saving electricity.
Specifically, main interface 510, for being connected with one or more auxiliary devices.
Processor 520 is connected with main interface 510, and processor 520 is performed:Switching command is obtained, and is connected
Whether information, the main interface that the link information is used for characterization of electronic equipment is connected with an auxiliary device, and based on link information
Determine whether to perform switching command.Wherein:Based on the link information that auxiliary device is connected with for characterizing main interface, response switching
Instruction, the working condition of control electronics is switched to ultra electric power-saving mode from mode of operation, and the working condition of electronic equipment is
Auxiliary device is used during ultra electric power-saving mode, and based on the link information for having auxiliary device for characterizing main interface to be not connected with,
Switching command is responded, the working condition of control electronics is switched to battery saving mode from mode of operation, wherein, the institute of electronic equipment
The power consumption for stating ultra electric power-saving mode is less than the battery saving mode of the electronic equipment.
In the present embodiment, main interface 510 can be Wifi interfaces, and electricity can be blue tooth interface, can also be physical interface
Etc..The link information whether main interface 510 can access auxiliary device passes to processor 520.
In the present embodiment, processor 520, which is performed, includes the processing side of any one in Fig. 2-Fig. 4 or any number of combinations
Other processing methods listed in method, and the disclosure.
The processor 520 of the present embodiment, in the case where the working condition of electronic equipment is ultra electric power-saving mode, can be called predetermined
Configuration information, and control the bottom hardware of corresponding electronic equipment to be in low power consumpting state and corresponding electronics based on configuration information
The upper layer software (applications) of equipment is in low power consumpting state.Wherein, the electronic equipment also includes display screen, wherein, the bottom of electronic equipment
Hardware includes auxiliary device, and the auxiliary device is E-ink display screens.
Specifically, processor 520 is controlling the bottom hardware of corresponding electronic equipment to be in low work(based on the configuration information
The upper layer software (applications) of consumption state and corresponding electronic equipment at least includes when being in low power consumpting state:Close the display of electronic equipment
Screen, obtains the display data of electronic equipment, and based on display data for electric once so that E-ink on E-ink display screens
Display screen shows display data.Wherein, it is directed to based on the display data electric once so that E-ink is aobvious on E-ink display screens
Display screen shows that display data includes:Display parameters processing display data based on E-ink display screens, by the display data after processing
Exist in buffer zone, buffer zone is the buffer zone corresponding to the E-ink display screens, and stored based on buffer zone
Display data control after processing is for electricity on E-ink display screens so that E-ink display screens show display data.
Specifically, the display data that processor 520 can also be obtained for E-ink display screens is updated the data, Yi Jiji
It is upper electric again for E-ink display screens in updating the data.
According to the embodiment of the present disclosure, by determining link information to respond switching command, so that control electronics are not with
Same pattern is operated.The working condition of electronic equipment can be made to adapt to more scenes.
In the disclosed embodiments, when the main interface of electronic equipment is connected to auxiliary device, switching command, control electricity are responded
The mode of operation of sub- equipment switches to ultra electric power-saving mode, in this mode, worked using auxiliary device, and auxiliary device can be
E-ink display screens, then under ultra electric power-saving mode, shown using E-ink display screens, instead of the original display of electronic equipment
Screen, to reach the effect for saving power consumption.The specific description that may refer to above with reference to Fig. 2~Fig. 4, is not repeated herein.
The present embodiment provides a kind of information processing method, applied in the first electronic equipment, including:
Step S110:The company of the auxiliary device including E-ink display screens is connected with based on sign first electronic equipment
Information is connect, the transmission link with the auxiliary device is set up;
Step S120:By the transmission link, the display parameters of the E-ink display screens of the auxiliary device are obtained;
Step S130:Obtain display content;
Step S140:According to the display parameters, it is suitable in the E-ink display screens that the display content is converted into
First display data of display;
Step S150:By the transmission link, first display data is sent to the auxiliary device, wherein,
First display data, the display for the auxiliary device for the E-ink display screens.
First electronic equipment described in the present embodiment can be the various electronic equipments that can be connected with the auxiliary device.At this
First electronic equipment described in embodiment can be the various electronic equipments such as mobile phone or tablet personal computer.
The first electronic equipment can detect the link information described in step S110 in the present embodiment, if detecting
When stating link information, then transmission link is set up with the auxiliary device.The transmission link can be used for the transmission of various information.
The transmission link can be used for the transmission of control instruction, can be used for the transmission of display data.In some implementations
In order to accelerate the display speed of the E-ink display screens in example, display delayed is reduced.The transmission link can be divided into parallel
One sublink and the second sublink;First sublink is used to transmit various control instructions;Second sublink is used for institute
State first display data of first electronic equipment to the auxiliary device.So control instruction and display separately transmission, then need
When transmitting control instruction, the bandwidth of the link without taking transmitting display data.In certain embodiments, first sublink
Peak transfer rate be less than second sublink peak transfer rate.In further embodiments, the transmission link
The first sublink and the second sublink can also not differentiated between out;First electronic equipment sends data to the auxiliary device
During, control instruction described in time sharing transmissions and first display data.For example, including the in a Transmission Time Interval
One son interval and the second son interval;First son is spaced for transmitting the control instruction, and second son is spaced for passing
Defeated first display data.First son is spaced the second duration that corresponding first duration is less than the described second son interval.
The transmission link is for before transmitting first data, can be also used for the auxiliary device to described
The various data that display parameters etc. described in one electronic equipment feed back to the first electronic equipment.
In the present embodiment after the transmission link is established, first electronic equipment can pass through the chain
Road obtains the display parameters of the E-ink display screens of the auxiliary device.The display parameters may include E-ink in the present embodiment
Physical size, resolution ratio and color digit of display screen etc..The physical size may include the length of E-ink display screens and wide
Refer specifically to.The resolution ratio may include the pixel that the E-ink display screens include, row pixel count and/or row pixel count.The color
Color digit, how many bit of one pixel of the E-ink display screens of expression is used to indicate color.Usual digit is more, then
The color of E-ink display screens is abundanter, and displayable color category is more.The E-ink display screens can in the present embodiment
For white and black displays screen, or colorful display screen.It is generally when the E-ink display screens are white and black displays screen, then described aobvious
Show that parameter can not include the color digit.
Can obtain in step s 130 needs to be wrapped by the display content of the E-ink display screens, specific acquisition methods
Include:Capture display content that the display screen of first electronic equipment itself shows or in first electronic equipment
The application of running background or the display content of program.
First electronic equipment may include that LCDs or projection display screen etc. are different from electronics in the present embodiment
Other species display screens beyond ink display screen, if more described first electronic equipment of the display content is to be shown interior
Hold, it is clear that be currently only applicable to first electronic equipment and show, show to exist if being transmitted directly to E-link display screens
Show abnormal problem.For example, the E-ink display screens are white and black displays screen;The display screen of first electronic equipment is colour
LCDs;Then the step S130 may include:The display content is subjected to color conversion, by the display of original color
Data, are converted into gray scale display data.For example, when the sum of all pixels of the display screen of first electronic equipment is more than the E-
Ink display screens, then the step S130 may also include:Discarding and/or optimization of some pixel datas etc. are handled.In a word, at this
Step S130 described in embodiment can generate display parameters of the display content according to the E-ink display screens itself not
The first display data that the display picture of the E-ink display screens can be caused abnormal.
After the display content is obtained, data processing can be carried out according to from the display parameters of the auxiliary device, it is raw
Into the suitable display data in the E-ink display screens.Display data after conversion is referred to as the in the present embodiment
One display data.First display data is sent to the E- by the transmission link set up before in step S150
Ink display screens, then after the E-ink display screens receive first display data, it becomes possible to successfully show correspondence
Content;So as to avoid because directly by suitably display content is transmitted directly to E-ink and shown in the first electronic equipment
The problem of display is abnormal caused by screen;Therefore the simple transfer for realizing the display data between two equipment.
The first electronic equipment can also be display device in the present embodiment, for example, first electronic equipment includes liquid
Crystal display screen or projection display screen or Organic Light Emitting Diode (OLED) display screen etc..First electronics is set in the present embodiment
The display power consumption of standby display screen can be more than the display power consumption of the E-ink display screens, like this, the institute of the first electronic equipment
Need the display content of display to be transferred on E-ink to be shown, then can reach the purpose for saving overall power.
In certain embodiments, methods described also includes:
Step S101:According to the display parameters, special buffer zone is distributed;
Step S102:First display data is stored in the buffer zone;
The step S150 may include:
The first display data is extracted from the buffer zone, the auxiliary device of the E-ink display screens is sent to.
It is special in first electronic equipment in the present embodiment to be assigned with for caching the slow of first display data
Deposit region.When distributing buffer zone in step S141 in the present embodiment, it can be determined according to the display parameters described slow
Deposit the buffer memory capacity in region.For example, first electronic equipment can determine that caching is described attached according to the display parameters
Buffer memory capacity needed for one two field picture of equipment.Therefore the first electronic equipment can distribute many Large Copacities according to the display parameters
Caching ask.
It is convenient to change the display content in the present embodiment by the distribution of buffer zone special in step S101
Into after first display data, the buffer zone is cached;In subsequent step S150 institute is sent to the auxiliary device
When stating the first display data, directly it can be transmitted from buffer zone access evidence by the transmission link;And
The buffer zone of current first display data is all dynamically determined each time without transmitting thread, then carries out the transmission of data, is carried
The transmission rate of the first display data has been risen, the time delay of auxiliary device is reduced.Alternatively, the capacity of the buffer zone
Not less than the data volume of a frame picture of the auxiliary device.
The step S101 is preferably in the particular embodiment:According to the display parameters, for caching described first
Display data distributes special continuous buffer zone.Like this, can in the step S150 when repeatedly sending data repeatedly
Be not used in multiple cache locations go read need transmit data, on the whole again promoting transmission rate and reduction auxiliary device
Time delay.
In certain embodiments, the capacity of the buffer zone can be the data volume of the M times of frame picture of auxiliary device one.
Like this, first electronic equipment by the display content when being converted into first display data, it is possible in advance
Generation and the caching of the second display data of multiframe picture are carried out, it is just constant to be transmitted it when second display data of frame
Afterwards, the regeneration caching display data of next frame second.Here M value can be the integer not less than 2.
In certain embodiments, methods described also includes:
It is determined that being set up with the auxiliary device of the E-ink display screens after the transmission link, activation first electricity
The reservation service of sub- equipment;
Binding relationship is set up in first application of the reservation service with providing the display content;
The step S130 includes:
The reservation service obtains the display content from the described first application.
First electronic equipment can be obtained in the display by the Grasp Modes of on-screen data in certain embodiments
Hold so that the auxiliary device carries out Display on the same screen with first electronic equipment.But in the present embodiment, first electricity
Sub- equipment is provided with reservation service.The reservation service is operating system grade service or application level service.The operation system
The service that system service can provide for predetermined component in the utilization operating system.The application level service can be first electronics
The application service for the proprietary application installed in the operating system of equipment.The reservation service in the present embodiment can be described first
The particular code or specific program of processor or the process circuit operation of electronic equipment.
In the present embodiment after determining that the transmission link has been set up, first electronic equipment activates institute automatically
Reservation service is stated, and without user's manual actuation, improves the intelligent and users' satisfaction degree of electronic equipment.
After the reservation service is activated, the first application that the reservation service can be with providing the display content is set up
Binding relationship.Here the first application can set for the foreground application or first electronics of first electronic equipment
Standby background application.The foreground application is that the application widget of an application is shown in the display screen of first electronic equipment,
It can be viewed by user;The backstage should be the application widget of the application by foreground application to blocking, and user is invisible.
The reservation service in the present embodiment obtains display content from the described first application.It is described in the present embodiment pre-
Fixed service is set up after binding relationship with the described first application, is known that in which application and is obtained the display content;
Reservation service described in the present embodiment with first application set up after binding relationship, it is possible to by with first Application share
The storage address of display content, so that what the reservation service can be easy reads the display content of first application;No
Manage whether whether the display content can finally show on the foreground of first electronic equipment.
As further improvement of this embodiment, first application of the reservation service with providing the display content is set up
The mode of binding relationship has a variety of, two kinds of optional modes presented below:
Optional mode one:
The reservation service collection binding instruction;The application pointed to according to the binding instruction, builds with the described first application
Vertical binding relationship.
Here binding instruction can be first electronic equipment from Man Machine Interface, the control of user's input of reception
Instruction;It can also be the binding instruction received from the auxiliary device.For example, user utilizes the man-machine interaction of the auxiliary device
Interface specifies the display content of which application of the first electronic equipment of item acquisition.Finger can be carried in the binding instruction
To the application parameter of the described first application.Here application parameter can be the application identities or Apply Names etc..
Like this, the selection operated according to user needs to share to the display content that auxiliary device is shown.It is so described
The expansion screen equivalent to first electronic equipment of auxiliary device, is realized using the E-ink display screens of another electronic equipment
The display of first electronic equipment is expanded.If first application is background application, like this, the first electronic equipment utilizes attached
The E-ink display screens of category equipment realize the display to background application.If different if first application is foreground application
User can view the display picture of same application by the screen of the first electronic equipment itself and the E-ink screens of auxiliary device
Face.First electronic equipment itself is also a display device in the present embodiment, and the display content is substantially described
The second display data that first electronic equipment has been generated, and the generally display resolution of first electronic equipment is higher than described
The display resolution of E-ink display screens, and/or, the display area of first electronic equipment is more than the E-ink display screens
Show area;In the present embodiment by the display data of generated single pixel, it is converted into being suitable for the auxiliary device
Second display data of display, it is only necessary to just can be with by the discarding of data, gradation conversion etc., will not increase by first electricity
The special process resource of processor of sub- equipment, the characteristics of between realization.On the other hand, can not have in the auxiliary device
It is set to E-ink display screens display light source or display light source is provided to be closed down, the E-ink display screens can be by
Ambient light can just show, the characteristics of with display effect., therefore show equivalent to by the first larger electronic equipment of power consumption itself
Show, power consumption can be reduced on the whole.
Optional mode two:
The foreground application of first electronic equipment is determined, binding relationship is set up with the foreground application, wherein, it is described aobvious
It is the screenshotss content and/or display content that the foreground application is shown to show content.
If being not detected by the binding instruction in the given time in the present embodiment, the reservation service can automatically with
The foreground application of first electronic equipment sets up binding relationship, the display content can for the foreground application screenshotss content and/
Or display content.The screenshotss content can obtain display content for the reservation service by way of screen display is captured,
The display data that predetermined application described in the present embodiment can also be directly read in the foreground application buffer zone (corresponds to institute
State display content).
In certain embodiments, methods described also includes:
Described first application is placed in the superiors of application stack, answered so as to update trigger event and act on described first
With;
The renewal trigger event of first application is monitored, wherein, the renewal trigger event is described for triggering
The display of first application updates;
When the display for detecting first application updates, in the display for reacquiring generation first display data
Hold.
In the present embodiment by the superiors of described first application as storehouse, like this, various trigger events are direct
Effect is the first application, rather than other application.The renewal trigger event may include user's input triggering in the present embodiment
Event or the information trigger event from other equipment.For example, reading the information trigger event of application may include:Clothes
The new article that business device is pushed.The user inputs trigger event, detects the input operation for acting on first application, described
Corresponding change occurs for the application interface of the first application.
If first application reacquires the display content once there is display to update in the present embodiment, so as to
Form the first display data shown for first electronic equipment.
In certain embodiments, the step S150 may include:
First display data is sent to the auxiliary device of the E-ink display screens using Asynchronous Transfer Mode.
Asynchronous Transfer Mode is comparable to for synchronous transfer described in the present embodiment.Carried out using Synchronous Transfer Mode
During synchronous transfer, the both sides of transmission data are needed by because of confirmation of synchronization correlation signal transmission and response, can just carry out data biography
It is defeated;Obviously which results in because the synchronous consumption that result in the time.Carried out in the present embodiment using Asynchronous Transfer Mode different
Step transmission, like this, when there are the first display data transmissions transmission side's (the first electronic equipment as described) of the data, directly
Transmission, without waiting for the confirmation of synchronization of auxiliary device, so as to save the time delay caused by synchronization.
In certain embodiments, first display data is sent to the E-ink by the utilization Asynchronous Transfer Mode
The auxiliary device of display screen, including:
Dedicated transmissions thread is set up, and is shown using the dedicated transmissions thread using asynchronous transmission link by described first
Data are sent to the auxiliary device of the E-ink display screens.One transmission thread can be specially set in the present embodiment, it is special negative
First display data transmissions are blamed, the dedicated transmissions thread is merely responsible for data transfer, so can be with without the processing such as synchronizing
Ensure transmission when along it is small the characteristics of.
In further embodiments, first display data is sent to the E- by the utilization Asynchronous Transfer Mode
The auxiliary device of ink display screens, including:
The transmission of next data block is entered directly into after previous transmission of data blocks is completed, and is lost when there is transmission
The auxiliary device repeat requests based on the E-ink display screens retransmit corresponding data block when losing.
Carry out data transmission in the present embodiment, no longer synchronize processing.After the transmission of a data block is completed,
The transmission of next data block is just directly entered, when there is data failure, the repeat requests based on auxiliary device are retransmitted.
Each data block carries the fast mark of oneself in the present embodiment.Such auxiliary device receive corresponding data block it
Afterwards, the assembly and processing between data block can be carried out according to block identification, which is determined by lacking etc. for block identification
Transmission of data blocks fails.For example, the block identification of each data block is continuous programming code, then auxiliary device is received
When having interruption in the middle of the block identification of data block, it may be determined that bust this occur, the block identification lacked is carried in repeat requests
In, ask the re-transmission of the first electronic equipment.Like this, the first electronic equipment can receive the re-transmission for carrying correspondence block identification
Request, the block identification in repeat requests finds corresponding transmission of data blocks to the auxiliary device.
The first display data described in a frame of the auxiliary device can be divided into multiple data blocks and be passed in this embodiment
It is defeated, especially using be applied to transmission link bandwidth it is wired when, pass through the fractionation of multiple data blocks, it is possible to use at a high speed
The quick transmission of data frame is realized in transmission.
Further, the capacity of the buffer zone of first display data is stored, is the first display number described in a N times of frame
According to data volume;Wherein, the N is the integer not less than 2;
Methods described also includes:
The n-th transmission of data blocks in the buffer zone is given after the auxiliary device of the E-ink display screens, judges institute
State whether the n-th data block meets the first predetermined condition;The n is positive integer;One or more data chunks are into a frame institute
State the first display data;
When n-th data block meets first predetermined condition, n-th data block is deleted or covers, otherwise institute
Buffer zone is stated to continue to preserve n-th data block and continue whether monitoring n-th data block meets the described first predetermined bar
Part.
In the present embodiment, the memory capacity of the buffer zone is the data volume of the first display data described in a N times of frame,
Like this, the buffer zone can cache the data frame of auxiliary device described in N frames simultaneously.In the present embodiment described first
Electronic equipment to the auxiliary device carry out data transmission when, can be using data frame as the elementary cell of a data transfer.
After the transmission for completing a frame data, it can continue to be stored in the buffer zone for a period of time, so as not to it is described attached receiving
, it is necessary to regenerate first display data during repeat requests of equipment, the unnecessary of the first electronic equipment is on the one hand reduced
Load, on the other hand can reduce the time delay caused by regenerating first display data.
It is described in the present embodiment judge n-th data block whether meet first predetermined condition may include it is following extremely
It is one of few:
Judge the first duration undergone after the end of transmission of n-th data block to current time, if pre- more than first
If duration, if first duration has exceeded the preset duration, it is believed that meeting first predetermined condition;
When data frame transfer where judging n-th data block terminates after the rear end of transmission to the second of current time experience
It is long, if more than the second preset duration, if second duration has exceeded the preset duration, it is believed that meeting described first
Predetermined condition;
If data frame where n-th data block is m frames;If currently having been received that data block in m+1 frames
Repeat requests, then can determine that and meet first predetermined condition.
If a data block is the first display data described in a frame in some implementations, the value of the n is little
In the N.
It the above is only several optional modes for determining whether to meet first predetermined condition, it is also many implementing
Kind, just differ one schematically illustrates herein.
In the present embodiment by the setting of first predetermined condition, no longer described n-th transmission of data blocks is to described
Auxiliary device is just deleted or abandoned, and can be avoided needing during auxiliary device request retransmission regenerating first display data and be led
The various problems caused.
In certain embodiments, methods described also includes:
When the auxiliary device of first electronic equipment and E-ink display screens is in collaboration display pattern, generation second
Display data;
Before first electronic equipment shows the display content, second display data is shown;Wherein, it is described
The display duration of second display data, first display is converted into not less than first electronic equipment by the display content
First duration of data;Or, the display duration of second display data is described not less than the display content is converted into
First display data and be transferred to the E-ink display screens auxiliary device second display duration.
There is plurality of display modes between first electronic equipment and the auxiliary device in the present embodiment, for example, institute
State collaboration display pattern, and independent display pattern.The independent display pattern, even if the display content of the auxiliary device comes from
First electronic equipment, but the display content of first electronic equipment and auxiliary device is still different.The collaboration shows mould
Formula, then first electronic equipment is identical with the display content of the auxiliary device.
It is synchronous in order to realize the display between first electronic equipment and the auxiliary device in the present embodiment, keep away
Exempt from due to before first display data transmissions to the auxiliary device, the display in advance of first electronic equipment itself.
In the present embodiment, first electronic equipment can also generate second display data, and the second display data here can be with
Shown by first electronic equipment, and a length of 3rd scheduled duration during display.Here the 3rd scheduled duration can be institute
State the predetermined duration of the first electronic equipment.3rd duration is based on experience value or emulated that determines is not less than institute
State the first duration that the display content is converted into first display data by the first electronic equipment, or not less than by institute
State display content be converted into first display data and be transferred to the auxiliary device of the E-ink display screens second display when
It is long.
The display duration of second display data, can be the dynamic true of first electronic equipment in the present embodiment
It is fixed, specifically such as, reception state and/or transition status of the auxiliary device to first display data are monitored, according to described
Reception state determines the display length.
Second display data can be video in the present embodiment, and the video is described in first electronic equipment enters
The entrance video of the corresponding display content of first display data.Like this, on the one hand second display data is not increased
It has been shown that, the display in advance of caused first electronic equipment;On the other hand first electronic equipment can be avoided to need to wait attached
Belong to display blank time caused by the display of equipment, the display led the user to believe that is abnormal or produces the anxiety waited, carries
The intelligent and users' satisfaction degree of electronic equipment is risen.
First electronic equipment and auxiliary device are in the data processing sequential of collaboration display pattern.It is sent to auxiliary device
The processing of display data includes:Display content acquisition, display data gray processing, display data are cut, and generate E-ink display datas
(i.e. described first display data), data compression, data transfer, the data processing of auxiliary device, are finally the E- of auxiliary device
Ink screens are shown.In first electronic equipment then during progress display can get data transfer, display second shows number
According to having shown after the second display data, the first electronic equipment shows the display content.
First electronic equipment shows the duration of the second display data, and be substantially equal to first display data is generated to biography
It is totally lost complete duration.
In the present embodiment, the non-display face of first electronic equipment is provided with connecting terminal;
The step S110, including:
Detect whether the connecting terminal turns on;
When detecting the connecting terminal conducting, it is determined that setting up chain with the auxiliary device of the E-ink display screens
Road.
The non-display face of first electronic equipment, is as not provided with the one side (example of display screen in the present embodiment
Such as, in first electronic equipment face where display screen the back side) be provided with connecting terminal, the connecting terminal can with it is described attached
Belong to connecting terminal in equipment and by way of contact, turn on corresponding transmission path.When first electronic equipment detects institute
State after connecting terminal conducting, be considered as setting up transmission link with the auxiliary device.
For example, the connecting terminal of first electronic equipment is including multiple.And multiple connecting terminals are located at the described first electricity
The non-display face of sub- equipment, as described face where the first electronic equipment bonnet.The multiple connecting terminal includes detecting contact;
After the connecting terminal of the auxiliary device is contacted with the connecting terminal of first electronic equipment, first electronic equipment
Detection contact in the presence of the detection voltage that first electronic equipment applies, loop current can be formed so that it is believed that
The connecting terminal is turned on.In the connecting terminal of first electronic equipment in addition to the detection contact, it may also include
Can be set in other connecting terminals, the transmission path where these connecting terminals has under controlled switch, normal state to protect
First electronic device content circuit, then the controlled switch be off, when detecting the detection in the connecting terminal
Then the controlled switch is closed for contact conducting, and the connection for completing the auxiliary device is set up.
First electronic equipment and auxiliary device pass through connecting terminal connection transmission connection.If the company of the auxiliary device
Contact point is also provided in the back side of auxiliary device, then first electronic equipment and the auxiliary device carry out the back side to the back of the body
The laminating in face.
Controlled switch, first electricity can be not provided with the transmission path where the connecting terminal in certain embodiments
Sub- equipment after connecting terminal conducting is detected, can by between auxiliary device handshaking information interact, complete connection and build
It is vertical.Here handshaking information can be to set up the relevant information connected, for example, device identification of the auxiliary device etc. is obtained.Institute
Stating the first electronic equipment can be by the acquisition of the device identification, it can be determined that whether the auxiliary device is authorisation device,
Do not refuse the connection with the auxiliary device then when being authorisation device to set up, be otherwise rejected by the connection with the auxiliary device
Set up.
Fig. 6 diagrammatically illustrates the block diagram of the electronic equipment 600 according to another embodiment of the present disclosure.
As shown in fig. 6, electronic equipment 600 includes processor 610, computer-readable recording medium 620, sender unit
630 and signal receiver 640.The electronic equipment 600 can perform the method described above with reference to Fig. 2~Fig. 4, to realize
The processing of electronic equipment.
Specifically, processor 610 can for example include general purpose microprocessor, instruction set processor and/or related chip group
And/or special microprocessor (for example, application specific integrated circuit (ASIC)), etc..Processor 610 can also include being used to cache using
The onboard storage device on way.Processor 610 can be performed for the side according to the embodiment of the present disclosure described with reference to Fig. 2~Fig. 4
Single treatment unit either multiple processing units of the different actions of method flow.
Computer-readable recording medium 620, for example, can be that can include, store, transmit, propagate or transmit appointing for instruction
Meaning medium.For example, readable storage medium storing program for executing can include but is not limited to electricity, magnetic, optical, electromagnetic, infrared or semiconductor system, device,
Device or propagation medium.The specific example of readable storage medium storing program for executing includes:Magnetic memory apparatus, such as tape or hard disk (HDD);Optical storage
Device, such as CD (CD-ROM);Memory, such as random access memory (RAM) or flash memory;And/or wire/wireless communication chain
Road.
Computer-readable recording medium 620 can include computer program 621, and the computer program 621 can include generation
Code/computer executable instructions, it by processor 610 when being performed so that processor 610 is performed for example above in conjunction with Fig. 2~figure
Method flow and its any deformation described by 4.
Computer program 621 can be configured with such as computer program code including computer program module.Example
Such as, in the exemplary embodiment, the code in computer program 621 can include one or more program modules, for example including
621A, module 621B ....It should be noted that the dividing mode and number of module are not fixed, those skilled in the art can
To be combined according to actual conditions using suitable program module or program module, when the combination of these program modules is by processor 610
During execution so that processor 610 can be performed for example above in conjunction with the method flow described by Fig. 2~Fig. 4 and its any deformation.
In accordance with an embodiment of the present disclosure, processor 610 can be handed over sender unit 630 and signal receiver 640
Mutually, perform above in conjunction with the method flow described by Fig. 2~Fig. 4 and its any deformation.
Although the disclosure, art technology has shown and described in the certain exemplary embodiments with reference to the disclosure
Personnel it should be understood that without departing substantially from appended claims and its equivalent restriction spirit and scope of the present disclosure in the case of,
A variety of changes in form and details can be carried out to the disclosure.Therefore, the scope of the present disclosure should not necessarily be limited by above-described embodiment,
But not only should be determined by appended claims, also it is defined by the equivalent of appended claims.
Claims (10)
1. a kind of processing method, including:
Obtain switching command;
Obtain link information, whether the main interface that the link information is used to characterizing the electronic equipment is connected with one and attached sets
It is standby;And
Determine whether to perform the switching command based on the link information;
Wherein:
Based on the link information that the auxiliary device is connected with for characterizing the main interface, the switching command, control are responded
The working condition of the electronic equipment is switched to ultra electric power-saving mode from mode of operation, and the working condition of the electronic equipment is institute
The auxiliary device is used when stating ultra electric power-saving mode;And
Based on the link information for having the auxiliary device for characterizing the main interface to be not connected with, the switching command, control are responded
The working condition for making the electronic equipment is switched to battery saving mode, the super power saving mould of the electronic equipment from mode of operation
The power consumption of formula is less than the battery saving mode of the electronic equipment.
2. according to the method described in claim 1, wherein, the working condition of the electronic equipment includes for ultra electric power-saving mode:
Call predetermined configurations information;And
The bottom hardware of the corresponding electronic equipment is controlled to be in low power consumpting state and corresponding described based on the configuration information
The upper layer software (applications) of electronic equipment is in low power consumpting state.
3. method according to claim 2, wherein:
The bottom hardware of the electronic equipment includes the auxiliary device, and the auxiliary device is E-ink display screens;
It is described to control the bottom hardware of the corresponding electronic equipment to be in low power consumpting state and corresponding based on the configuration information
The upper layer software (applications) of the electronic equipment, which is in low power consumpting state, at least to be included:
Close the display screen of the electronic equipment;
Obtain the display data of electronic equipment;And
It is directed to based on the display data electric once so that E-ink display screens show the display on the E-ink display screens
Data.
4. method according to claim 3, wherein, the working condition of the electronic equipment is also wrapped for ultra electric power-saving mode
Include:
Acquisition is updated the data for the display data of the E-ink display screens;
Electricity is gone up based on described update the data again for the E-ink display screens.
5. method according to claim 3, wherein, it is described to be directed to based on the display data in the E-ink display screens
Upper electricity is once so that E-ink display screens show that the display data includes:
Display parameters based on the E-ink display screens handle the display data;
Display data after processing is present in buffer zone, the buffer zone is slow corresponding to the E-ink display screens
Deposit region;And
Display data control after the processing stored based on the buffer zone for electricity on the E-ink display screens so that
The E-ink display screens show the display data.
6. a kind of electronic equipment, including:
Main interface, for being connected with one or more auxiliary devices;
Memory, be stored with executable instruction;And
Processor, the processor is connected with the main interface, and the executable instruction makes when by the computing device
:
Obtain switching command;
Obtain link information, whether the main interface that the link information is used to characterizing the electronic equipment is connected with one and attached sets
It is standby;And
Determine whether to perform the switching command based on the link information;
Wherein:
Based on the link information that the auxiliary device is connected with for characterizing the main interface, the switching command, control are responded
The working condition of the electronic equipment is switched to ultra electric power-saving mode from mode of operation, and the working condition of the electronic equipment is institute
The auxiliary device is used when stating ultra electric power-saving mode;And
Based on the link information for having the auxiliary device for characterizing the main interface to be not connected with, the switching command, control are responded
The working condition for making the electronic equipment is switched to battery saving mode, the super power saving mould of the electronic equipment from mode of operation
The power consumption of formula is less than the battery saving mode of the electronic equipment.
7. electronic equipment according to claim 6, wherein, the working condition of the electronic equipment is ultra electric power-saving mode bag
Include:
Call predetermined configurations information;And
The bottom hardware of the corresponding electronic equipment is controlled to be in low power consumpting state and corresponding described based on the configuration information
The upper layer software (applications) of electronic equipment is in low power consumpting state.
8. electronic equipment according to claim 7, in addition to display screen, wherein:
The bottom hardware of the electronic equipment includes the auxiliary device, and the auxiliary device is E-ink display screens;
It is described to control the bottom hardware of the corresponding electronic equipment to be in low power consumpting state and corresponding based on the configuration information
The upper layer software (applications) of the electronic equipment, which is in low power consumpting state, at least to be included:
Close the display screen of the electronic equipment;
Obtain the display data of electronic equipment;And
It is directed to based on the display data electric once so that E-ink display screens show the display on the E-ink display screens
Data.
9. electronic equipment according to claim 8, wherein, the working condition of the electronic equipment for ultra electric power-saving mode also
Including:
Acquisition is updated the data for the display data of the E-ink display screens;
Electricity is gone up based on described update the data again for the E-ink display screens.
10. electronic equipment according to claim 8, wherein, described be directed to based on the display data is shown in the E-ink
Electricity is once so that E-ink display screens show that the display data includes in display screen:
Display parameters based on the E-ink display screens handle the display data;
Display data after processing is present in buffer zone, the buffer zone is slow corresponding to the E-ink display screens
Deposit region;And
Display data control after the processing stored based on the buffer zone for electricity on the E-ink display screens so that
The E-ink display screens show the display data.
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