CN109272724A - A kind of idle method, device and remote controler - Google Patents
A kind of idle method, device and remote controler Download PDFInfo
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- CN109272724A CN109272724A CN201710586705.XA CN201710586705A CN109272724A CN 109272724 A CN109272724 A CN 109272724A CN 201710586705 A CN201710586705 A CN 201710586705A CN 109272724 A CN109272724 A CN 109272724A
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- G—PHYSICS
- G08—SIGNALLING
- G08C—TRANSMISSION SYSTEMS FOR MEASURED VALUES, CONTROL OR SIMILAR SIGNALS
- G08C17/00—Arrangements for transmitting signals characterised by the use of a wireless electrical link
- G08C17/02—Arrangements for transmitting signals characterised by the use of a wireless electrical link using a radio link
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
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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
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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
- H04W52/0225—Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal
- H04W52/0235—Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal where the received signal is a power saving command
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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
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- General Engineering & Computer Science (AREA)
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Abstract
The present invention relates to remote control technologies, more particularly to a kind of idle method, device and remote controler, remote controler includes system processing unit and remote control unit, wherein, the system processing unit and remote control unit communication connection, when receiving standby command, the system processing unit and remote control unit is made to enter standby mode.By the above-mentioned means, the present invention can reduce the standby current of remote controler, the stand-by power consumption of remote controler is reduced.
Description
Technical field
The present invention relates to remote control technologies, more particularly to a kind of standby method, apparatus and remote controler.
Background technique
Unmanned vehicle referred to as " unmanned plane ", is mainly grasped using radio robot and the presetting apparatus provided for oneself
Vertical not manned aircraft.Unmanned plane is taking photo by plane, agricultural, plant protection, miniature self-timer, express transportation, disaster relief, is observing wild move
Object, monitoring infectious disease, mapping, news report, electric inspection process, the disaster relief, movies-making, manufacture romance etc. field have extensive
Using.
During realizing the application, following problem is existed in the prior art in inventor: currently, in order to promote nobody
The performance of set remote-controller is that intelligent operating system is all added in remote controler mostly, former by intelligent operating system and remote controler
There is basic distant control function to combine, to promote or extend the performance and function of entire remote controler, still, intelligent operating system pair
Remote controler electrical demand is bigger, and the battery durable ability for thereby resulting in remote controler is poor, how to improve the continuation of the journey energy of remote controler
Power becomes problem in the urgent need to address.
Summary of the invention
In order to solve the above technical problems, the embodiment of the present invention provides a kind of idle method, device and remote controler, can drop
The standby current of low remote controler, and reduce the stand-by power consumption of remote controler.
In order to solve the above technical problems, the embodiment of the present invention provides a kind of idle method, it is applied to remote controler, the remote control
Device includes system processing unit, which comprises receives standby command;According to the standby command, close at the system
It manages the display screen in the first peripheral hardware of unit or closes all first peripheral hardwares of the system processing unit, and make the system
Processing unit enters standby mode.
Further, the standby mode includes common dormant state and deep sleep state.
Further, the method also includes: obtain the standby rank of the system processing unit, wherein described standby
Rank includes common standby rank and the standby rank of depth;If the standby rank is common standby rank, the system is closed
Display screen in first peripheral hardware of system processing unit, and the system processing unit is made to enter common dormant state;If institute
Stating standby rank is the standby rank of depth, closes all first peripheral hardwares of the system processing unit, and make at the system
Reason unit enters deep sleep state.
Further, all first peripheral hardwares for closing the system processing unit, comprising: make first peripheral hardware into
Enter dormant state, alternatively, closing the power supply of first peripheral hardware.
In order to solve the above technical problems, the embodiment of the present invention also provides a kind of idle method, it is applied to remote controler, it is described distant
Controlling device includes system processing unit and remote control unit, which is characterized in that the described method includes: standby command is received, according to described
Standby command makes the system processing unit and remote control unit enter standby mode.
Further, the standby mode includes common dormant state and deep sleep state.
Further, the method also includes: obtain the standby rank of the system processing unit, wherein described standby
Rank includes common standby rank and the standby rank of depth;If the standby rank is common standby rank, the system is closed
Display screen in first peripheral hardware of system processing unit, and the system processing unit is made to enter common dormant state;If institute
Stating standby rank is the standby rank of depth, closes all first peripheral hardwares of the system processing unit, and make at the system
Reason unit enters deep sleep state.
Further, described that the remote control unit is made to enter standby mode, comprising: to close outside the second of the remote control unit
And if the remote control unit is made to enter dormant state.
Further, the method also includes: receive wake up instruction;Remote control unit is waken up according to the wake up instruction;Such as
The total sleep time of remote control unit described in fruit in a dormant state is more than or equal to default shutdown duration, wakes up at the system
Unit is managed, and sends shutdown command to the system processing unit, so that the system processing unit and remote control unit execute pass
Machine processing;If the total sleep time of the remote control unit in a dormant state is less than default shutdown duration, keep the remote control single
Member reenters dormant state, waits and waking up
In order to solve the above technical problems, the embodiment of the present invention also provides a kind of apparatus ' of standby, it is applied to remote controler, it is described distant
Controlling device includes system processing unit, and described device includes: receiving module, and for receiving standby command, standby module is used for basis
The standby command closes display screen in the first peripheral hardware of the system processing unit or closes the system processing unit
All first peripheral hardwares, and the system processing unit is made to enter standby mode.
Further, the standby mode includes common dormant state and deep sleep state.
Further, the apparatus ' of standby further includes obtaining module;The acquisition module, for obtaining standby rank,
In, the standby rank includes common standby rank and the standby rank of depth;The standby module is specifically used for: if it is described to
Machine rank is common standby rank, closes the display screen in the first peripheral hardware of the system processing unit, and make the system
Processing unit enters common dormant state;If the standby rank is the standby rank of depth, the system processing unit is closed
All first peripheral hardwares, and the system processing unit is made to enter deep sleep state.
Further, all first peripheral hardwares for closing the system processing unit include: make first peripheral hardware into
Enter dormant state, alternatively, closing the power supply of first peripheral hardware.
In order to solve the above technical problems, the embodiment of the present invention also provides a kind of apparatus ' of standby, it is applied to remote controler, it is described distant
Controlling device includes system processing unit and remote control unit, and the apparatus ' of standby includes: receiving module, for receiving standby command;To
Machine module, for making the system processing unit and remote control unit enter standby mode according to the standby command.
Further, the standby mode includes common dormant state and deep sleep state.
Further, the apparatus ' of standby further include: module is obtained, for obtaining the standby grade of the system processing unit
Not, wherein the standby rank includes common standby rank and the standby rank of depth;If the standby rank is common standby
Rank closes the display screen in the first peripheral hardware of the system processing unit, and it is common to enter the system processing unit
Dormant state;If the standby rank is the standby rank of depth, all first peripheral hardwares of the system processing unit are closed, and
The system processing unit is set to enter deep sleep state.
It is further, described that so that remote control unit is entered standby mode include: the second peripheral hardware for closing the remote control unit, and
The remote control unit is set to enter dormant state.
Further, apparatus ' of standby, further includes:
Second receiving module, for receiving wake up instruction,
Wake-up module, for waking up the remote control unit,
Shutdown module, if be more than or equal to for the total sleep time of the remote control unit in a dormant state default
Shutdown duration wakes up the system processing unit, and sends shutdown command to the system processing unit, so that the system
Processing unit executes pass processing, and the remote control unit is made to execute shutdown processing;If the remote control unit is in suspend mode shape
Total sleep time of state is less than default shutdown duration, so that the remote control unit is reentered dormant state, waits and waking up.
In order to solve the above technical problems, the embodiment of the present invention also provides a kind of remote controler, including the first peripheral hardware;System processing
Device is connect with first peripheral hardware;Memory is connect with the system processor, and the memory is stored with can be by the system
The instruction that processor of uniting executes, described instruction executed by the system processor so that the system processor be able to carry out as
The upper method.
In order to solve the above technical problems, the embodiment of the present invention also provides a kind of non-volatile computer readable storage medium storing program for executing,
The non-volatile computer readable storage medium storing program for executing is stored with computer executable instructions, when the computer executable instructions quilt
When system processor executes, so that the system processor executes method as described above.
In order to solve the above technical problems, the embodiment of the present invention also provides a kind of remote controler, including system processor;Micro process
Device;Memory is connect with the system processor and microprocessor, the memory be stored with can by the system processor and
The instruction that microprocessor executes, described instruction is executed by the system processor and microprocessor, so that the system processor
Execute following steps: receive standby command makes the system processor enter standby mode according to the standby command, and,
So that the microprocessor is able to carry out following steps: receiving the standby command, according to the standby command, make micro- place
Reason device enters standby mode.
Further, the system processor also executes following steps: the standby rank of the system processing unit is obtained,
Wherein, the standby rank includes common standby rank and the standby rank of depth;If the standby rank is common standby grade
Not, the display screen in the first peripheral hardware of the system processor is closed, and the system processor is made to enter common suspend mode shape
State;If the standby rank is the standby rank of depth, all first peripheral hardwares of the system processor are just closed, and are made described
System processor enters deep sleep state.
Further, the microprocessor executes following steps: closing the second peripheral hardware of the microprocessor, and makes described
Microprocessor enters dormant state.
Further, the microprocessor also executes following steps: receiving wake up instruction;It is waken up according to the wake up instruction
Microprocessor;If the total sleep time of the microprocessor in a dormant state is more than or equal to default shutdown duration, call out
It wakes up the system processor, and sends shutdown command to the system processor, so that the system processor, and make micro- place
It manages device and executes shutdown processing;If the total sleep time of the microprocessor in a dormant state is less than default shutdown duration, make
The microprocessor reenters dormant state, waits and waking up.
In order to solve the above technical problems, the embodiment of the present invention also provides a kind of non-volatile computer readable storage medium storing program for executing,
It is characterized in that, the non-volatile computer readable storage medium storing program for executing is stored with computer executable instructions, when the computer
When executable instruction is executed by system processor and microprocessor, so that the system processor executes following steps: receive to
Machine instruction, according to the standby command, makes system processor enter standby mode, and, so that the microprocessor can be held
Row following steps: receiving the standby command, according to the standby command, microprocessor is made to enter standby mode.
The beneficial effect of the embodiment of the present invention is: be in contrast to the prior art, the embodiment of the present invention when receive to
When machine instructs, make power consuming units in remote controler, system processing unit and remote control unit, into standby mode, and compared to
Remote controler only has one of system processing unit and remote control unit to enter standby mode, remote control of the embodiment of the present invention when standby
The standby current of device is smaller, reduces the stand-by power consumption of remote controler, is conducive to extend the battery life of remote controler.
Detailed description of the invention
One or more embodiments are illustrated by the picture in corresponding attached drawing, these are exemplary
Illustrate not constitute the restriction to embodiment, the element in attached drawing with same reference numbers label is expressed as similar member
Part, unless there are special statement, composition does not limit the figure in attached drawing.
Fig. 1 is the schematic diagram of remote controler first embodiment of the present invention;
Fig. 2 is the flow chart that remote controler automatic shutdown is realized in remote control embodiment of the present invention;
Fig. 3 is the schematic diagram of apparatus ' of standby first embodiment of the present invention;
Fig. 4 is the schematic diagram of apparatus ' of standby second embodiment of the present invention;
Fig. 5 is the schematic diagram of remote controler second embodiment of the present invention;
Fig. 6 is the schematic diagram of remote controler 3rd embodiment of the present invention;
Fig. 7 is the flow chart of the standby method first embodiment of the present invention;
Fig. 8 is the flow chart of the standby method second embodiment of the present invention;
Fig. 9 is the flow chart of the standby method 3rd embodiment of the present invention;
Figure 10 is that standby flow chart is executed according to different stand rank in the standby method 3rd embodiment of the present invention.
Figure 11 is the flow chart of the standby method fourth embodiment of the present invention.
Specific embodiment
The present invention is carried out with reference to the accompanying drawings and examples to be described in detail.
Referring to Fig. 1, being the schematic diagram of remote controler first embodiment of the present invention.Remote controler 20 includes system processing unit
21, remote control unit 22 and power supply unit 23.Power supply unit 23 includes battery 231 and Power Management Unit 232, and battery 231 is responsible for
Power supply is provided, Power Management Unit 232 is responsible for the distribution power supply of the component into remote controler 20, and carries out distribution management, at this
In inventive embodiments, Power Management Unit 232 can be power management chip, such as: PN8024R chip, PN8024A chip,
MP2307DN chip etc..System processing unit 21 includes system processor 212 and is attached to outside the first of system processor 212
If 211, remote control unit 22 includes microprocessor 221 and the second peripheral hardware 222 for being attached to microprocessor 221.System processing unit
21 are used to run intelligent operating system, such as: Linux, Android or IOS etc., remote control unit 22 is for realizing basis remote control
Function, system processing unit 21 and remote control unit 22 communicate to connect, and the two co-ordination, promote the function and property of remote controler
Energy.
It should be understood that in embodiments of the present invention, the first peripheral hardware 211 refer in addition to remote control unit 22 by system
The external equipment that processor 212 controls, such as: voltameter, GPS, magnetometer, USB BOOST, usb hub, audio play
Device, Bluetooth communication device, WIFI communication module etc., the second peripheral hardware 222 refer in addition to system processor 212 by microprocessor
The external equipments of 221 controls comprising the outer peripheral hardware of peripheral hardware and piece in piece, such as: rocking bar, key, LED light, vibrating motor,
Digital transmission module and image module etc., since image module is both controlled by system processor 212, to be controlled by microprocessor 221,
Therefore, image module can be both included into 211 range of the first peripheral hardware of system processor 212, can also be included into microprocessor 221
222 range of the second peripheral hardware in.
In order to improve the battery durable ability of remote controler 20, when trigger remote controler 20 it is standby when, i.e. system processing unit 21
When receiving standby command with remote control unit 22, system processing unit 21 and remote control unit 22 enter standby shape according to standby command
State.After system processing unit 21 and the entrance of remote control unit 22 are standby, system processing unit 21 and 22 needs of remote control unit are smaller
Operating current, it is fewer to the electric quantity consumption of battery 231, compared in only system processing unit 21 and remote control unit 22
One enters standby mode, and the standby current that remote controler of the embodiment of the present invention 20 is in standby is smaller, whole to reduce remote controler
Standby current, reduce power consumption of remote controler when standby.
Further, when system processing unit 21 and remote control unit 22 are when standby, not only by system processing unit 21
System processor 212, and, the microprocessor 221 of remote control unit 22 calls in standby mode, and peripheral hardware corresponding to the two can also
To carry out corresponding closing processing, to reduce the standby current of remote controler to the maximum extent.Specifically, system processing unit 21 to
It is as follows that machine and remote control unit 22 execute standby process:
One, system processing unit 21 is standby
System processor 212 hangs up the process being currently running, and system processor 212 closes system processing unit 21
Display screen or all first peripheral hardwares 211 of closing in first peripheral hardware 211, and system processing unit 21 enters standby mode.Its
In, when closing all first peripheral hardwares 211, system processing unit 21 enter standby mode, realize system processing unit 21 to
The peripheral hardware of power consumption is closed under machine state, as far as possible to reduce standby current as much as possible.System processing unit 21 pass through enter to
Machine is directly closed with saving electric current, is conducive to quick recovery system processing unit 21, and it is whole to solve system processing unit 21
Machine is switched on slow problem, and user experience is more preferable.
Specifically, above-mentioned standby mode includes common dormant state and deep sleep state.
Wherein, it includes at least two modes that system processor 212, which closes all first peripheral hardwares 211: one, making the first peripheral hardware
211 enter dormant state, 2, close the first peripheral hardware 211 power supply.And the first closes the mode of the first peripheral hardware, is conducive to quickly
Recovery system processing unit 21, but there is still a need for smaller currents in suspend mode to maintain it to be in starting shape for the first peripheral hardware 211
State, therefore, power saving effect directly close the mode of the power supply of the first peripheral hardware 211 not as good as second.Certainly, single in system processing
Member 21 is in the standby state, and the first peripheral hardware 211 is to close power supply or enter dormant state, it can be provided and it is configurable,
User voluntarily configures according to the actual situation, or, according to the speed that each first peripheral hardware 211 starts, fast first will be started
Peripheral hardware 211 is arranged to close power supply, and the first slow peripheral hardware 211 of starting is arranged to suspend mode, is existed with balance system processing unit 21
Reduce power consumption and the demand of fast quick-recovery between the two.
And system processor 212 closes the power supply of the first peripheral hardware 211, the GPIO of system processor 212 for convenience
For controlling outside first in (General Purpose Input Output, universal input/output) and Power Management Unit 231
If the first power control terminal 233 of 211 power supply connects, system processor 212 is closed by sending to the first power control terminal 233
Enable signal is closed, so that Power Management Unit 231 stops powering to the first peripheral hardware 211, realizes the electricity for closing the first peripheral hardware 211
Source, system processor 212 can also connect enable signal by sending to the first power control terminal 233, so that power management list
Member 232 is restored to power to the first peripheral hardware 211.Certainly, in other alternate embodiments, system processor 212 can also pass through it
Its mode controls the power supply of the first peripheral hardware 211, no longer repeats one by one herein.
Further, multiple standby ranks also can be set when standby in system processor, in different standby ranks,
Standby mode performed by system processing unit is also different, and duration required for waking up is also different, in a kind of realization side
In formula, standby rank may include common standby rank and the standby rank of depth, be illustrated below as example.
System processor 212 is specifically also used to: when triggering standby, being obtained standby rank, is that depth waits in standby rank
When machine rank, all first peripheral hardwares 211 of system processing unit 21 are just closed, and 21 ability of system processing unit is stopped into depth
Dormancy state;When standby rank is only common standby rank, the display dress in the first peripheral hardware 211 of system processing unit 21 is closed
It sets, and system processing unit 21 enters common dormant state.When depth is standby, all first peripheral hardwares 211 are closed, and be
Processing unit 21 of uniting enters deep sleep state, and 21 standby current of system processing unit reaches minimum, but system processing unit
The 21 whole duration that wakes up is greater than common standby wake-up duration.Certainly, standby rank can also in advance it is good, and with triggering to
The triggering mode of machine is associated, and different triggering modes represent different standby ranks, such as: under press the Power key of remote controler, touching
The standby rank of depth is sent out, with volume+and volume-key is pressed at present, triggers common standby rank.
It is of course also possible to reach the battery durable for extending remote controler by the standby triggering mode of setting triggering remote controler
Purpose, such as: when remote controler for a long time do not operated, trigger it is standby.And detection triggering remote controler is standby, receives standby finger
Order can be carried out by any of remote control unit and system processing unit, and the side for receiving standby command sends standby command
To another party, so that both sides receive standby command.
The quantity of system processor 212 can be one or more, if system processor 212 be it is multiple, common
When standby rank, a system processor in system processing unit 21 can only be allowed to be in normal operating conditions, to monitor weight
The task wanted, other systems processor is in halted state, to save power supply;In the standby rank of depth, all systems
Processor 212 is in halted state, to save power supply to greatest extent.Two, remote control unit 22 is standby
Remote control unit 22 includes: that microprocessor 221 is used to close the second peripheral hardware 222, and enters and stop into standby mode
Dormancy state.And the second peripheral hardware 222 is closed, it realizes that remote control unit 22 closes the peripheral hardware of power consumption in the standby state, it is single to reduce remote control
The standby current of member 22.Certainly, if microprocessor 221 also sets up the input wake-up for waking up entire remote controler, input is triggered
The second peripheral hardware waken up does not turn off.
In order to facilitate closing the second peripheral hardware, the GPIO of microprocessor 221 (General Purpose Input Output,
Universal input/output) with Power Management Unit 231 in for control the second peripheral hardware 222 power supply second source control terminal (scheme
Do not show) connection, the power supply that microprocessor 221 passes through the second current controling end the second peripheral hardware 222 of control.
Although remote control unit 22 and system processing unit 21 are in the state of standby, the whole standby current ratio of remote controler 20
It is smaller, but the still power consumption of remote controler 20, if 20 long-time of remote controler is in standby state, remote controler 20 can also be the electricity of battery
Amount is exhausted.In order to avoid there is the case where standby electricity for exhausting battery 232 of remote controler 20, remote controler 20 also carry out always to
The detection of machine duration, and shutdown processing is carried out when total standby time is greater than or equal to default shutdown duration.Specifically, it please refers to
Fig. 2, for the flow chart for realizing remote controler automatic shutdown.As shown in the figure, comprising:
Step 301: configuring RTC (real time clock) real-time clock to the wake source of microprocessor 221;
Step 302: calibration real-time clock, and start real-time clock;
Step 303: microprocessor 221 enters dormant state;
After the wake source for configuring real-time clock to microprocessor, real-time clock is periodically exported to microprocessor 221
Wake up instruction, microprocessor 221 are waken up wake instruction.Certainly, in the real embodiments of other substitutions, microprocessor is in addition to can be with
It receives except real-time clock waking-up instruction, also can receive the input wake-up for waking up entire remote controler, if microprocessor 221 has
When two wake sources, then microprocessor 221 also needs to carry out wake source judgement when being waken up, and is held according to different wake sources
Row different operation.Further, input wake-up can be generated by the lower physical button by remote controler, and the generation is defeated
Enter wake-up physical button can be set into it is configurable.
Step 304: microprocessor 221 receives wake up instruction, and after being waken up, and judges to wake up microprocessor 221
Wake source is that real-time clock or input wake up, if real-time clock, then enters step 305, otherwise, enters step 310
Step 305: judging whether the total sleep time of microprocessor 221 in a dormant state is more than or equal to default pass
Machine duration, if so, enter step 306, otherwise return step 303;
Step 306: waking up system processor 212;
Step 307: after waking up system processor 212, shutdown command is sent to system processor 212, so that system
Processor 212 executes the shutdown to system processing unit 21 and handles;
Under working as system processor 212 in a dormant state, system processor 212 can not be received in addition to wake up instruction
Other instructions therefore, be in system processor 212 it is even more impossible to execute the operation to other instructions other than wake up instruction
When dormant state, the shutdown processing to being processing unit can not be executed, needs first to wake up system processor 212, then at system
It manages device 212 and sends shutdown command.
In addition, certain time is needed due to waking up system processor 212, when system processor 212 is in the process waken up
In, system processor 212 can not also receive shutdown command, and therefore, microprocessor 221 is sending wake-up to system processor 212
After instruction, delay sends shutdown command, wherein the delay of microprocessor 221 is sent at the delay duration and system of shutdown command
Duration required for reason device 212 wakes up matches.Certainly, in other alternate embodiments, system processor 212 is being waken up it
Afterwards, system processor 212 can be made to return to a confirmation instruction to microprocessor 221, then microprocessor 221 is instructed according to confirmation
After determining that system processor 212 has woken up, shutdown command is retransmited.
Step 308: executing the cancellation operation for cancelling the wake source that real-time clock is microprocessor, and restore real-time clock
To standby preceding state;
Step 309: executing the shutdown to remote control unit and handle, and control Power Management Unit and close general supply, remote control
Device shutdown.
The electric current required for microprocessor 221 is run runs required electric current much smaller than system processor 212, because
This, carries out total standby time detection by waking up microprocessor 221, realizes and executes total standby time detection with lowest power consumption, has
Conducive to the stand-by power consumption for reducing remote controler.In the present embodiment, microprocessor 221 is preferably low-power scm.
Step 310: waking up system processor 221, recovery system processing unit 21;
, can be the process resumption previously hung up in recovery system processing unit 21, it also can be all first closed
Peripheral hardware 211 restores.In addition, since system processing unit 21 is when being waken up by microprocessor, when remote controler is in
When depth is standby, all first peripheral hardwares 211 of system processing unit 21 are turned off, and can not safeguard wake-up system processing unit
21 peripheral hardware.
Step 311: executing the cancellation operation for cancelling the wake source that real-time clock is microprocessor, and restore real-time clock
To standby preceding state;
It should be understood that real-time clock is to be in the standby state to be configured to the wake source of microprocessor in remote controler
It uses, when remote controler restores normal or shutdown, real-time clock needs to cancel the wake source as microprocessor, and restores extremely
State before standby uses real-time clock to avoid the other components of remote controler are influenced.
Step 312: restoring the second peripheral hardware 222, be transferred to normal work;
In embodiments of the present invention, when receiving standby command, make power consuming units in remote controler, 21 He of system processing unit
Remote control unit 22 enters standby mode, compared to there was only system processing unit 21 and remote control unit 22 when remote controler is standby
One of enter standby mode, the standby current of the remote controler of the embodiment of the present invention is smaller, reduces the standby function of remote controler
Consumption, is conducive to extend the battery life of remote controler.
Referring to Fig. 3, Fig. 3 is the schematic diagram of apparatus ' of standby first embodiment of the present invention.Apparatus ' of standby 40 is applied to above-mentioned
Remote controler, apparatus ' of standby 40 include receiving module 401 and standby module 402.
Receiving module 401 is for receiving standby command.Standby module 402 closes system processing unit according to standby command
The first peripheral hardware in display screen or close system processing unit all first peripheral hardwares, and make system processing unit enter it is standby
State.Wherein, the system processor that system processing unit enters that standby mode is primarily referred to as in system processing unit enters standby
State.Specifically, standby mode includes common dormant state and deep sleep state.
When by closing all first peripheral hardwares in remote controler in system processing unit, system processing unit enters standby
State is realized that system processing unit closes the peripheral hardware of power consumption as far as possible in the standby state, and is reduced at system as much as possible
The standby current of device is managed, to reduce the standby current of remote controler as much as possible.In the present embodiment, first it is set as system processing outside
Component in unit, wherein the first peripheral hardware can play for voltameter, GPS, magnetometer, USB BOOST, usb hub, audio
Device, Bluetooth communication device, WIFI communication module etc..
The mode for closing all first peripheral hardwares of system processing unit includes that the first peripheral hardware is made to enter dormant state and closing
The power supply two ways of first peripheral hardware.In order to facilitate the power supply of the first peripheral hardware of control, the GPIO and power management of system processor
For controlling the first power control terminal connection of the power supply of the first peripheral hardware in unit, the power supply for closing the first peripheral hardware mainly passes through
It is sent to the first power control terminal and closes enable signal, realize the power supply for closing the first peripheral hardware.
In addition, multiple standby ranks when standby, also can be set in system processing unit, in different standby ranks, it is
Standby mode performed by processing unit of uniting is also different, and system processing unit its wake-up institute in different standby ranks
The duration needed is also different, thus the standby selection of abundant remote controler, as follows with standby rank include common standby rank and
It is illustrated for the standby rank of depth, specifically, system processing unit further includes obtaining module 403.
Module 403 is obtained for obtaining standby rank.If it is common standby that standby module 402, which is specifically used for standby rank,
Rank closes the display screen in the first peripheral hardware of system processing unit, and system processing unit is made to enter common dormant state,
Alternatively, just closing all first peripheral hardwares of system processing unit if standby rank is the standby rank of depth, and make at system
Reason unit enters deep sleep state.
It should be understood that the system processing unit in the present embodiment is for the system processing unit in remote control embodiment
Identical, other structures and function for the system processing unit in this implementation see remote control embodiment, herein no longer
It repeats one by one.
In embodiments of the present invention, when receiving module receives standby command, standby module is closed according to standby command
All first peripheral hardwares of display screen or closing system processing unit in first peripheral hardware of system processing unit, and make at system
Unit is managed into the standby mode including common dormant state and deep sleep state, realizes system processing unit standby
The peripheral hardware of power consumption is closed under state as far as possible, and reduces the standby current of system processing unit.
Referring to Fig. 4, Fig. 4 is the schematic diagram of apparatus ' of standby second embodiment of the present invention.Apparatus ' of standby is applied to above-mentioned
Remote controler, apparatus ' of standby include receiving module 501 and standby module 502.Receiving module 501 is standby for receiving standby command
Module 502 makes system processing unit and remote control unit enter standby mode according to standby command.
By making remote controler processing unit and remote control unit enter standby mode, power consuming units in remote controler can be made
Enter standby mode, only has one of system processing unit and remote control unit to enter when standby compared to remote controler standby
The standby current of mode, remote controler of the present invention is smaller, reduces the stand-by power consumption of remote controler, is conducive to extend remote controller battery
Cruise duration.
Further, multiple standby ranks also can be set when standby in system processing unit, with enrich remote controler to
Machine selection, specifically, apparatus ' of standby further includes obtaining module 503.Obtain module 503, for obtain system processing unit to
Machine rank, standby rank include common standby rank and the standby rank of depth.Standby module 502 is specifically used for keeping system processing single
If it is common standby rank that member, which includes: standby rank into standby mode, close in the first peripheral hardware of system processing unit
Display screen, and system processing unit is made to enter common dormant state, alternatively, if standby rank is the standby rank of depth,
All first peripheral hardwares of system processing unit are closed, and system processing unit is made to enter deep sleep state.
In addition, make remote control unit enter standby mode include: close remote control unit the second peripheral hardware, and make remote control unit into
Enter dormant state, by closing power consumption peripheral hardware in remote control unit, and remote control unit is made to enter dormant state, it is single to reduce remote control
First standby current extends remote controller battery cruise duration.It should be understood that when remote control unit is additionally provided with input and wakes up,
Then in the standby state, the peripheral hardware for triggering the input wake-up of remote control unit cannot close, it is also necessary to be in normal operating conditions.
In order to avoid remote controler for a long time it is standby cause dead battery capability, can also detect remote controler it is standby when
It is long, and when standby time is more than default shutdown duration, shutdown processing is carried out, specifically, device further includes the second receiving module
504, wake-up module 505 and shutdown module 506.Second receiving module 504 is for receiving wake up instruction.Wake-up module 505 is used for
Microprocessor is waken up according to wake up instruction, shutdown module 506 is used for: if the total sleep time of remote control unit in a dormant state
More than or equal to default shutdown duration, system processing unit is waken up, and sends shutdown command to system processing unit, so as to be
Processing unit of uniting executes shutdown processing, and remote control unit is made also to execute shutdown processing, alternatively, if remote control unit is in suspend mode
Total sleep time of state is less than default shutdown duration, so that remote control unit is reentered dormant state, waits and waking up.
It should be understood that in embodiments of the present invention, the main purpose that remote control unit is waken up is when carrying out total standby
Long detection, certainly, in other alternate embodiments, when remote control unit is also directly integrally waken up, when remote control unit is with above-mentioned
When two kinds of wake-up purposes, then when remote control unit is waken up, it is also necessary to be remotely controlled unit wake source detection, remote control unit according to
Different wake sources executes different operation, such as: real-time clock and input are waken up to the wake source for being each configured to remote control unit, when
After remote control unit is waken up, and determining wake source is real-time clock, then enters total standby time and detect, call out if input
It wakes up, then wakes up entire remote controler.
It should be understood that the remote controler in the present embodiment is identical for the remote controler in above-mentioned remote control embodiment, for
The other structures and function of remote controler can no longer repeat one by one herein refering to figure remote control embodiment.
In embodiments of the present invention, when receiving module 501 receives standby command, standby module 502 is according to standby finger
It enables, so that remote control unit and system processing unit is entered standby mode, by entering remote controler processing unit and remote control unit
Standby mode, may make, power consuming units enter standby mode in remote controler, there was only system when standby compared to remote controler
One of processing unit and remote control unit enter standby mode, and the standby current of remote controler of the embodiment of the present invention is smaller, reduce
The stand-by power consumption of remote controler, is conducive to extend the battery life of remote controler.
Referring to Fig. 5, Fig. 5 is the schematic diagram of remote controler first embodiment of the present invention, remote controler 60 includes system processor
601, the first peripheral hardware 602 and memory 603, wherein between system processor 601 and the first peripheral hardware 602 and memory 603
To be connected by bus or other modes.
Memory 603 is used as a kind of non-volatile computer readable storage medium storing program for executing, can be used for storing non-volatile software journey
Sequence, non-volatile computer executable program and module, as the corresponding program instruction of idle method in the embodiment of the present invention/
Module (for example, attached receiving module shown in Fig. 3 401, acquisition module 403, standby module 402).System processor 601 passes through fortune
Non-volatile software program, instruction and the module that row is stored in memory 603, are answered thereby executing the various functions of remote controler
With and data processing, i.e., realization above method embodiment in idle method.
One or more of modules are stored in the memory 603, at by one or more of systems
When managing the execution of device 601, the step in following idle method first embodiments is executed, for example, executing the side in Fig. 7 described above
To method rapid 804, attached receiving module 401 shown in Fig. 3 obtains method and step 801 of the method step 801 into rapid 802, the Fig. 8 of method
The function of modulus block 403, standby module 402.
Wherein, the memory 603 in above-described embodiment may include storing program area and storage data area, wherein storage
It program area can application program required for storage program area, at least one function;Storage data area can be stored according to standby dress
That sets uses created data etc..In addition, memory 603 may include high-speed random access memory, it can also include non-
Volatile memory, for example, at least a disk memory, flush memory device or other non-volatile solid state memory parts.?
In some embodiments, optional memory 603 includes the memory remotely located relative to system processor 601, these are remotely deposited
Reservoir can pass through network connection to apparatus ' of standby.The example of above-mentioned network includes but is not limited to internet, intranet, office
Domain net, mobile radio communication and combinations thereof.
The embodiment of the present application provides a kind of non-volatile computer readable storage medium storing program for executing, the computer-readable storage medium
Matter is stored with computer executable instructions, which is executed by one or more system processors, such as: it holds
Method and step 801 of the method and step 801 into rapid 802, the Fig. 8 of method in row Fig. 7 described above is to method rapid 804, attached drawing 3
Shown in receiving module 401, obtain module 403, the function of standby module 402.
By the description of above embodiment, those of ordinary skill in the art can be understood that each embodiment can borrow
Help software that the mode of general hardware platform is added to realize, naturally it is also possible to pass through hardware.Those of ordinary skill in the art can manage
Solution realize above-described embodiment method in all or part of the process be can be instructed by computer program relevant hardware come
It completes, the computer program can be stored in a computer-readable storage medium, and the program is when being executed, it may include as above
State the process of the embodiment of each method.Wherein, the storage medium can be magnetic disk, CD, read-only memory (Read-
Only Memory, ROM) or random access memory (Random Access Memory, RAM) etc..
Referring to Fig. 6, Fig. 6 is the schematic diagram of remote controler first embodiment of the present invention, remote controler 70 includes system processor
701, the first peripheral hardware 702, the second peripheral hardware 703, microprocessor 704 and memory 705, wherein outside system processor 701 and first
If can be connected by the first bus or other modes between 702 and memory 705, microprocessor 704 and the second peripheral hardware
It can be connected by the second bus or other modes between 703 and memory 703, when the first bus and the second bus can be with
For a bus, or mutually independent bus.
Memory 603 is used as a kind of non-volatile computer readable storage medium storing program for executing, can be used for storing non-volatile software journey
Sequence, non-volatile computer executable program and module, as the corresponding program instruction of idle method in the embodiment of the present invention/
Module (for example, attached receiving module shown in Fig. 4 501, acquisition module 503, standby module 502).System processor 701 and Wei Chu
Non-volatile software program, instruction and the module that reason device 704 is stored in memory 705 by operation, thereby executing remote control
The various function application and data processing of device, i.e. idle method in realization above method embodiment.
One or more of modules are stored in the memory 705, when by the system processor 701 and Wei Chu
When managing the execution of device 705, the step in following idle method first embodiments is executed, for example, executing the side in Fig. 9 described above
Method and step 901 of the method step 901 into rapid 902, the Figure 11 of method is to method rapid 906, attached first receiving module shown in Fig. 4
501, the function of module 502, standby module 502, the first receiving module 504, wake-up module 505, module 506 of shutting down is obtained.
The embodiment of the present application provides a kind of non-volatile computer readable storage medium storing program for executing, the computer-readable storage medium
Matter is stored with computer executable instructions, which is executed by one or more system processors, such as: it holds
Method and step 901 of the method and step 901 into rapid 902, the Figure 11 of method in row Fig. 9 described above is to method rapid 906, attached drawing
First receiving module 501 shown in 4 obtains module 502, standby module 502, the first receiving module 504, wake-up module 505, closes
The function of machine module 506.
Wherein, the memory 705 in above-described embodiment may include storing program area and storage data area, wherein storage
It program area can application program required for storage program area, at least one function;Storage data area can be stored according to standby dress
That sets uses created data etc..In addition, memory 705 may include high-speed random access memory, it can also include non-
Volatile memory, for example, at least a disk memory, flush memory device or other non-volatile solid state memory parts.?
In some embodiments, optional memory 705 includes the storage remotely located relative to system processor 701 and microprocessor 704
Device, these remote memories can pass through network connection to apparatus ' of standby.The example of above-mentioned network include but is not limited to internet,
Intranet, local area network, mobile radio communication and combinations thereof.
By the description of above embodiment, those of ordinary skill in the art can be understood that each embodiment can borrow
Help software that the mode of general hardware platform is added to realize, naturally it is also possible to pass through hardware.Those of ordinary skill in the art can manage
Solution realize above-described embodiment method in all or part of the process be can be instructed by computer program relevant hardware come
It completes, the computer program can be stored in a computer-readable storage medium, and the program is when being executed, it may include as above
State the process of the embodiment of each method.Wherein, the storage medium can be magnetic disk, CD, read-only memory (Read-
Only Memory, ROM) or random access memory (Random Access Memory, RAM) etc..
The present invention provides standby embodiment of the method again.Referring to Fig. 9, Fig. 9 is idle method first embodiment of the present invention
Flow chart, the standby method, be applied to above-mentioned remote controler in, method includes:
Step 801: receiving standby command;
Standby command is used to indicate remote controler and enters standby, and the mode for triggering standby command is not especially limited, can be with
What remote controler was actively initiated, such as: when remote controler is not operated for a long time, actively triggers standby, be also possible to passively touch
Hair, such as: the Power key triggering standby command of remote controler is pressed under user.
Step 802: according to standby command, closing the display screen in the first peripheral hardware of system processing unit or close at system
All first peripheral hardwares of unit are managed, and system processing unit is made to enter standby mode, specifically, which includes common
Dormant state and deep sleep state.
The mode for closing all first peripheral hardwares of system processing unit also includes two kinds, respectively enters the first peripheral hardware and stops
Dormancy or the power supply for closing the first peripheral hardware.And the first peripheral hardware enters dormant state, is conducive to quick recovery system processing unit, but
It is that there is still a need for smaller currents when being located at suspend mode outside first to maintain its normal work, therefore, power saving effect is not as good as directly pass
Close the first peripheral hardware.Certainly, when system processing unit enters standby mode, the first peripheral hardware is also turn off power supply and still enters suspend mode,
It can be set into configurable, user voluntarily configures according to the actual situation.In deep-sleep, the institute of system processing unit is closed
There is the first peripheral hardware, system processing unit can be made to close the peripheral hardware of power consumption as far as possible in the standby state, to drop as much as possible
The standby current of low remote controler.
Further, multiple standby ranks have also can be set when standby in system processing unit, according to remote controler difference
Demand, control system processing unit enters different stand rank, to enrich the standby selection of remote controler, as shown in figure 8, Fig. 8
For the flow chart of idle method second embodiment of the present invention, the present embodiment and standby side's machine first embodiment the difference is that,
Method further include:
Step 803: obtaining the standby rank of system processing unit, standby rank includes that common standby rank and depth are standby
Rank.
Step 804: if standby rank is common standby rank, closing the display in the first peripheral hardware of system processing unit
Screen, and system processing unit is made to enter common dormant state;
What standby rank can generate simultaneously when triggering standby command, and pre-define, such as: in remote controler
Lower standby by Power triggering depth when normal work, long-pressing volume+key triggering is common standby.
Step 802 specifically: if standby rank is the standby rank of depth, close outside all the first of system processing unit
And if system processing unit is made to enter deep sleep state.
For system processing unit when depth is standby, standby current is smaller, but wake-up duration is longer, common standby
When, standby current is larger, but wake-up duration is shorter, and user it is different can to trigger system processing unit according to different demands
Standby mode.
In embodiments of the present invention, standby command is being received, according to standby command, is closing the first of system processing unit
All first peripheral hardwares of display screen or closing system processing unit in peripheral hardware, and it includes common for entering system processing unit
Standby mode including dormant state and deep sleep state realizes that system processing unit closes consumption as far as possible in the standby state
The peripheral hardware of electricity, and reduce the standby current of system processing unit.
Referring to Fig. 8, Fig. 8 is the flow chart of idle method 3rd embodiment of the present invention, this method is applied to above-mentioned distant
Device is controlled, method includes:
Step 901: receiving standby command;
Standby command is for referring to that remote controler enters standby mode, wherein standby command can be with a side in system processing unit
Standby command can be sent to another party by the method for first receiving, and receiving standby command so that both sides receive it is standby
Instruction.
Step 902: according to standby command, system processing unit and remote control unit being made to enter standby mode.
When remote controler triggering is standby, make power consuming units in remote controler, system processing unit and remote control unit, enter to
Machine state, compared to only having one of system processing unit and remote control unit to enter standby mode when remote controler is standby, originally
The standby current of remote controler in inventive embodiments is smaller, reduces the stand-by power consumption of remote controler, is conducive to extend remote controler
Battery life.
In order to enrich the standby demand of remote controler, multiple standby ranks, remote controler can also be set for system processing unit
Enter different stand rank according to different standby demands, then as shown in figure 9, unit at system is made to enter standby mode method packet
It includes:
Step 9031: obtaining standby rank;
Step 9032: judge that standby rank is the standby rank of depth or common standby rank, if the standby rank of depth,
9033 are then entered step, otherwise enters step 9034,
Step 9033: closing the display device in the first peripheral hardware, and system processing unit is made to enter common dormant state.
Step 9034: closing all first peripheral hardwares of system processing unit, and system processing unit is made to enter deep-sleep
State.
There are multiple standby ranks by setting system processing unit, remote controler can enter according to different standby demands
Different stand rank.Certainly, it can be bound in advance with the standby triggering mode for triggering remote controler to grade rank, such as: it uses
Triggering is common standby when head of a household's time does not make remote controler, or, it is standby that long-pressing POWER key triggers depth, at the same by volume+
Key and volume-key triggering are commonly standby etc..In addition, by making system processing unit enter standby progress energy conservation, rather than it is straight
Closing is connect, quick recovery system processing unit is conducive to, it is slow to solve the problems, such as that system processing unit complete machine is switched on, it can be well
Balance system processing unit is in power saving and the demand of quick start between the two.
And the mode for closing all first peripheral hardwares of system processing unit also includes two kinds, respectively enters the first peripheral hardware
Suspend mode or the power supply for closing the first peripheral hardware.And the first peripheral hardware enters dormant state, is conducive to quick recovery system processing unit,
But still need smaller current when being located at suspend mode outside first to maintain its normal work, therefore, power saving effect is not as good as direct
Close the first peripheral hardware.And remote control unit is made to enter standby mode, comprising: to close the second peripheral hardware of remote control unit, and keep remote control single
Member enters dormant state.By closing the second peripheral hardware of remote control unit, the standby current of remote control unit is advantageously reduced.
Figure 11 is please referred to, Figure 11 is idle method fourth embodiment of the present invention, and the present embodiment and idle method third are implemented
Example the difference is that, method includes:
Step 903: receiving wake up instruction;
Step 904: remote control unit is waken up according to wake up instruction;
Step 905: judging whether the total sleep time of remote control unit in a dormant state is more than or equal to default shutdown
Otherwise duration makes micro- remote control unit reenter dormant state if so, entering step 9096;
Step 909: the system processing unit in remote controler is waken up, and sends shutdown command to system processor, so that
System processor executes shutdown processing, and microprocessor is made to execute shutdown processing;
When remote controler for a long time be in standby state when, remote controler can also be automatically closed, shelves with to avoid to
Machine exhausts the electricity of battery.
It should be understood that wake up instruction can be generated by the real-time clock of remote controler, when real-time clock output wakes up
When instruction, in remote controler shutdown or wake-up completely, it is also necessary to cancel the wake source that configuration real-time clock is microprocessor, keep away
Exempt from production conflict.Certainly, microprocessor also can receive wake-up other than it can receive the wake up instruction of real-time clock generation
The input of entire remote controler wakes up, such as: it is in the standby state in remote controler, lower to wake up by Power triggering input, input is called out
It wakes up and is directly inputted into microprocessor GPIO port.If remote control unit when remote control unit wakes up, is also needed there are many when wake-up mode
Wake source judgement is carried out, and executes different operation according to different wake sources.
In embodiments of the present invention, when receiving standby command, make power consuming units in remote controler, system processing unit and distant
Control unit, enter standby mode, compared to only have when remote controler is standby one of system processing unit and remote control unit into
Enter standby mode, the standby current of the remote controler of the embodiment of the present invention is smaller, reduces the stand-by power consumption of remote controler, is conducive to
Extend the battery life of remote controler.
Finally, it should be noted that above embodiments are only to illustrate the technical solution of the application, rather than its limitations;At this
It under the thinking of application, can also be combined between the technical characteristic in above embodiments or different embodiment, step can be with
It is realized with random order, and there are many other variations of the different aspect of the application as described above, for simplicity, they do not have
Have and is provided in details;Although the application is described in detail with reference to the foregoing embodiments, the ordinary skill people of this field
Member is it is understood that it is still possible to modify the technical solutions described in the foregoing embodiments, or to part of skill
Art feature is equivalently replaced;And these are modified or replaceed, each reality of the application that it does not separate the essence of the corresponding technical solution
Apply the range of a technical solution.
Claims (25)
1. a kind of idle method is applied to remote controler, the remote controler includes system processing unit, which is characterized in that the side
Method includes:
Receive standby command;
According to the standby command, closes the display screen in the first peripheral hardware of the system processing unit or close at the system
All first peripheral hardwares of unit are managed, and the system processing unit is made to enter standby mode.
2. the method according to claim 1, wherein the standby mode includes that common dormant state and depth are stopped
Dormancy state.
3. method according to claim 1 or 2, which is characterized in that the method also includes:
Obtain the standby rank of the system processing unit, wherein the standby rank includes that common standby rank and depth wait for
Machine rank;
If the standby rank is common standby rank, the display screen in the first peripheral hardware of the system processing unit is closed,
And the system processing unit is made to enter common dormant state;
If the standby rank is the standby rank of depth, all first peripheral hardwares of the system processing unit are closed, and make
The system processing unit enters deep sleep state.
4. method according to any one of claims 1 to 3, which is characterized in that the closing system processing unit
All first peripheral hardwares, comprising:
First peripheral hardware is set to enter dormant state, alternatively,
Close the power supply of first peripheral hardware.
5. a kind of idle method is applied to remote controler, the remote controler includes system processing unit and remote control unit, and feature exists
In, which comprises
Standby command is received,
According to the standby command, the system processing unit and remote control unit is made to enter standby mode.
6. according to the method described in claim 5, it is characterized in that, the standby mode includes that common dormant state and depth are stopped
Dormancy state.
7. method according to claim 5 or 6, which is characterized in that the method also includes:
Obtain the standby rank of the system processing unit, wherein the standby rank includes that common standby rank and depth wait for
Machine rank;
If the standby rank is common standby rank, the display screen in the first peripheral hardware of the system processing unit is closed,
And the system processing unit is made to enter common dormant state;
If the standby rank is the standby rank of depth, all first peripheral hardwares of the system processing unit are closed, and make
The system processing unit enters deep sleep state.
8. according to the method any in claim 5 to 7, which is characterized in that so that the remote control unit is entered standby mode,
Include:
The second peripheral hardware of the remote control unit is closed, and the remote control unit is made to enter dormant state.
9. according to the method any in claim 5 to 8, which is characterized in that the method also includes:
Receive wake up instruction;
Remote control unit is waken up according to the wake up instruction;
If the total sleep time of the remote control unit in a dormant state, which is more than or equal to, presets shutdown duration, described in wake-up
System processing unit, and shutdown command is sent to the system processing unit, so that the system processing unit and remote control unit
Execute shutdown processing;
If the total sleep time of the remote control unit in a dormant state is less than default shutdown duration, make the remote control unit weight
Newly enter dormant state, waits and waking up.
10. a kind of apparatus ' of standby is applied to remote controler, the remote controler includes system processing unit, and described device includes:
Receiving module, for receiving standby command,
Standby module, for according to the standby command, close display screen in the first peripheral hardware of the system processing unit or
All first peripheral hardwares of the system processing unit are closed, and the system processing unit is made to enter standby mode.
11. apparatus ' of standby according to claim 10, which is characterized in that the standby mode include common dormant state and
Deep sleep state.
12. apparatus ' of standby described in 0 or 11 according to claim 1, which is characterized in that the apparatus ' of standby further includes obtaining mould
Block;
The acquisition module, for obtaining standby rank, wherein the standby rank includes that common standby rank and depth are standby
Rank;
The standby module is specifically used for:
If the standby rank is common standby rank, the display screen in the first peripheral hardware of the system processing unit is closed,
And the system processing unit is made to enter common dormant state;
If the standby rank is the standby rank of depth, all first peripheral hardwares of the system processing unit are closed, and make
The system processing unit enters deep sleep state.
13. any apparatus ' of standby in 0 to 12 according to claim 1, which is characterized in that described to close the system processing
All first peripheral hardwares of unit include:
First peripheral hardware is set to enter dormant state, alternatively,
Close the power supply of first peripheral hardware.
14. a kind of apparatus ' of standby is applied to remote controler, the remote controler includes system processing unit and remote control unit, feature
It is, the apparatus ' of standby includes:
Receiving module, for receiving standby command;
Standby module, for making the system processing unit and remote control unit enter standby mode according to the standby command.
15. apparatus ' of standby according to claim 14, which is characterized in that the standby mode include common dormant state and
Deep sleep state.
16. apparatus ' of standby according to claim 14 or 15, which is characterized in that the apparatus ' of standby further include:
Module is obtained, for obtaining the standby rank of the system processing unit, wherein the standby rank includes common standby
Rank and the standby rank of depth;
If the standby rank is common standby rank, the display screen in the first peripheral hardware of the system processing unit is closed,
And the system processing unit is made to enter common dormant state;
If the standby rank is the standby rank of depth, all first peripheral hardwares of the system processing unit are closed, and make
The system processing unit enters deep sleep state.
17. any apparatus ' of standby in 4 to 16 according to claim 1, which is characterized in that it is described make remote control unit enter to
Machine state includes:
The second peripheral hardware of the remote control unit is closed, and the remote control unit is made to enter dormant state.
18. any apparatus ' of standby in 4 to 17 according to claim 1, which is characterized in that further include:
Second receiving module, for receiving wake up instruction,
Wake-up module, for waking up the remote control unit,
Shutdown module, if being more than or equal to default shutdown for the total sleep time of the remote control unit in a dormant state
Duration wakes up the system processing unit, and sends shutdown command to the system processing unit, so that the system is handled
Unit executes pass processing, and the remote control unit is made to execute shutdown processing;
If the total sleep time of the remote control unit in a dormant state is less than default shutdown duration, make the remote control unit weight
Newly enter dormant state, waits and waking up.
19. a kind of remote controler characterized by comprising
First peripheral hardware;
System processor is connect with first peripheral hardware;
Memory is connect with the system processor, and the memory is stored with the instruction that can be executed by the system processor,
Described instruction is executed by the system processor, so that the system processor is able to carry out as described in claim 1-4 is any
Method.
20. a kind of non-volatile computer readable storage medium storing program for executing, which is characterized in that the non-volatile computer readable storage medium
Matter is stored with computer executable instructions, when the computer executable instructions are executed by system processor, so that the system
Processor of uniting executes the method as described in claim 1-4 is any.
21. a kind of remote controler characterized by comprising
System processor;
Microprocessor;
Memory is connect with the system processor and microprocessor, and the memory is stored with can be by the system processor
And the instruction that microprocessor executes, described instruction are executed by the system processor and microprocessor, so that the system is handled
Device executes following steps: receive standby command makes the system processor enter standby mode according to the standby command,
And
So that the microprocessor is able to carry out following steps:
The standby command is received, according to the standby command, the microprocessor is made to enter standby mode.
22. remote controler according to claim 21, which is characterized in that the system processor also executes following steps:
Obtain the standby rank of the system processing unit, wherein the standby rank includes that common standby rank and depth wait for
Machine rank;
If the standby rank is common standby rank, the display screen in the first peripheral hardware of the system processor is closed, and
And the system processor is made to enter common dormant state;
If the standby rank is the standby rank of depth, all first peripheral hardwares of the system processor are just closed, and make institute
It states system processor and enters deep sleep state.
23. the remote controler according to claim 21 or 22, which is characterized in that the microprocessor executes following steps:
The second peripheral hardware of the microprocessor is closed, and the microprocessor is made to enter dormant state.
24. according to the remote controler any in claim 21 to 23, which is characterized in that the microprocessor also executes following
Step:
Receive wake up instruction;
Microprocessor is waken up according to the wake up instruction;
If the total sleep time of the microprocessor in a dormant state, which is more than or equal to, presets shutdown duration, described in wake-up
System processor, and shutdown command is sent to the system processor, so that the system processor, and hold microprocessor
Row shutdown processing;
If the total sleep time of the microprocessor in a dormant state is less than default shutdown duration, think highly of the micro process
Newly enter dormant state, waits and waking up.
25. a kind of non-volatile computer readable storage medium storing program for executing, which is characterized in that the non-volatile computer readable storage medium
Matter is stored with computer executable instructions, when the computer executable instructions are executed by system processor and microprocessor,
So that the system processor executes following steps: receiving standby command enters system processor according to the standby command
Standby mode,
And
So that the microprocessor is able to carry out following steps:
The standby command is received, according to the standby command, microprocessor is made to enter standby mode.
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