CN104063033B - State switching method and electronic equipment based on interconnection electronic devices - Google Patents
State switching method and electronic equipment based on interconnection electronic devices Download PDFInfo
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- CN104063033B CN104063033B CN201310091544.9A CN201310091544A CN104063033B CN 104063033 B CN104063033 B CN 104063033B CN 201310091544 A CN201310091544 A CN 201310091544A CN 104063033 B CN104063033 B CN 104063033B
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Abstract
The invention discloses state switching methods and electronic equipment based on interconnection electronic devices, are related to the communications field, can simplify the operation of user in interconnection equipment stateful switchover process, so as to improve user experience.The specific scheme is that the first electronic equipment obtains the first power-on instruction, and the first electronic equipment is switched to by open state according to the first power-on instruction;First electronic equipment judges whether the first electronic equipment is connected with the second electronic equipment according to the data communication interface channel between the first electronic equipment and the second electronic equipment;If the first electronic equipment is connected with the second electronic equipment, first electronic equipment then generates the second power-on instruction, and the second power-on instruction to the second electronic equipment is sent, so that the second electronic equipment is switched to open state by standby mode according to the second power-on instruction by the second electronic equipment.
Description
Technical field
The present invention relates to the communications fields more particularly to a kind of state switching method and electronics based on interconnection electronic devices to set
It is standby.
Background technique
With the development of science and technology, more and more electronic equipments enter people's lives.Such as, television set, PC
(personal computer, PC), set-top box, Digital video disc (Digital Video Disk, DVD) player, sound
Ring etc..Wherein, in above-mentioned electronic equipment, many equipment are all interconnected and are used, as television set and set-top box interconnection, television set and
DVD player interconnection, DVD player and sound equipment interconnection, PC and sound equipment interconnection, PC and interconnection of routers etc..
For energy conservation, user is after the electronic equipment for having used certain interconnection, the equipment that needs to control all interconnection one by one
The equipment for closing all interconnection into standby mode or one by one, user before reusing the electronic equipment of the interconnection, then by
One equipment for opening all interconnection.
For example, user needs to control PC one by one and sets with other electronics of PC interconnection after having used PC for energy conservation
It is standby to enter standby mode or close PC and other electronic equipments with PC interconnection one by one, user when reusing PC, then
Open PC one by one, and with the electronic equipments such as sound equipment, the router of PC interconnection.User controls each electronic equipment of interconnection one by one
State switching when, user's complicated for operation, poor user experience.
Summary of the invention
The present invention provides a kind of state switching method and electronic equipment based on interconnection electronic devices, can simplify and is mutually connected with
The operation of user in standby stateful switchover process, so as to improve user experience.
The first aspect of the present invention provides a kind of state switching method based on interconnection electronic devices, comprising:
First electronic equipment obtains the first power-on instruction, and according to first power-on instruction by first electronic equipment
Open state is switched to by current state, the current state includes standby mode or off-mode;
First electronic equipment judges whether first electronic equipment passes through data communication interface channel and be connected with
Two electronic equipments;
If first electronic equipment is connected with second electronic equipment, first electronic equipment generates second and opens
Machine instruction, and second power-on instruction is sent to second electronic equipment, so that second electronic equipment is according to
Second electronic equipment is switched to the open state by the standby mode by the second power-on instruction.
With reference to first aspect, in one possible implementation, first electronic equipment obtains power-on instruction, and root
First electronic equipment is switched into open state by current state according to the power-on instruction, comprising:
First electronic equipment receives first power-on instruction from control terminal, and first power-on instruction is pair
The power-on instruction of interface protocol between first electronic equipment and the control terminal described in Ying Yu;
First electronic equipment is according to first power-on instruction by first electronic equipment by the standby mode
Switch to the open state;
Alternatively,
First electronic equipment passes through the data communication interface between first electronic equipment and third electronic equipment
First power-on instruction of the channel reception from the third electronic equipment, first power-on instruction are corresponding to described the
The power-on instruction of interface protocol between one electronic equipment and the third electronic equipment;
First electronic equipment is according to first power-on instruction by first electronic equipment by the standby mode
Switch to the open state;
Alternatively,
First electronic equipment generates first power-on instruction in response to the triggering of user;
First electronic equipment is switched first electronic equipment by off-mode according to first power-on instruction
To the open state.
With reference to first aspect with above-mentioned possible implementation, in alternatively possible implementation, described first is electric
Sub- equipment sends second power-on instruction to second electronic equipment, comprising:
First electronic equipment passes through the data communication between first electronic equipment and second electronic equipment
Interface channel sends second power-on instruction to the second electronic equipment described at least one;
Wherein, second power-on instruction is corresponding between first electronic equipment and second electronic equipment
The power-on instruction of interface protocol.
The second aspect of the present invention also provides a kind of state switching method based on interconnection electronic devices, comprising:
First electronic equipment receives the first standby command;
First electronic equipment judges whether first electronic equipment passes through data communication interface channel and be connected with
Two electronic equipments;
If first electronic equipment is connected with second electronic equipment, first electronic equipment generate second to
Machine instruction, and second standby command is sent to second electronic equipment, so that second electronic equipment is according to
Second electronic equipment is switched to standby mode by open state by the second standby command;
First electronic equipment is according to first standby command by first electronic equipment by the open state
Switch to the standby mode.
In conjunction with second aspect, in one possible implementation, first electronic equipment receives the first standby command,
Include:
First electronic equipment receives first standby command from control terminal, and first standby command is pair
The standby command of interface protocol between first electronic equipment and the control terminal described in Ying Yu;
Alternatively,
First electronic equipment passes through the data communication interface between first electronic equipment and third electronic equipment
First standby command of the channel reception from the third electronic equipment, first standby command are corresponding to described the
The standby command of interface protocol between one electronic equipment and the third electronic equipment.
In conjunction with second aspect and above-mentioned possible implementation, in alternatively possible implementation, first electricity
Sub- equipment sends second standby command to second electronic equipment, comprising:
First electronic equipment passes through the data communication between first electronic equipment and second electronic equipment
Interface channel sends second standby command to the second electronic equipment described at least one;
Wherein, second standby command is corresponding between first electronic equipment and second electronic equipment
The standby command of interface protocol.
In conjunction with second aspect and above-mentioned possible implementation, in alternatively possible implementation, if described first
Standby command is that first electronic equipment is logical by the data between first electronic equipment and the third electronic equipment
Believe that interface channel receives the standby command from the third electronic equipment, then in first electronic equipment according to described first
Before first electronic equipment is switched to the standby mode by the open state by standby command, the method is also wrapped
It includes:
First electronic equipment judges whether be currently running business on first electronic equipment.
In conjunction with second aspect and above-mentioned possible implementation, in alternatively possible implementation, first electricity
First electronic equipment is switched to the standby mode by the open state according to first standby command by sub- equipment,
Include:
If being not currently running the business on first electronic equipment, first electronic equipment is according to described first
First electronic equipment is switched to the standby mode by the open state by standby command;
If being currently running the business on first electronic equipment, first electronic equipment keeps the booting shape
State.
The third aspect of the present invention, also offer a kind of electronic equipment, comprising:
Switch unit, for obtain the first power-on instruction, and according to first power-on instruction by the electronic equipment by
Current state switches to open state, and the current state includes standby mode or off-mode;
Judging unit is set for judging whether the electronic equipment passes through data communication interface channel and be connected with the second electronics
It is standby;
Transmission unit generates the second power-on instruction if being connected with second electronic equipment for the electronic equipment,
And second power-on instruction is sent to second electronic equipment, so that second electronic equipment is according to second booting
Second electronic equipment is switched to the open state by the standby mode by instruction.
In conjunction with the third aspect, in one possible implementation, the switch unit, comprising:
First receiving module, for receiving first power-on instruction from control terminal, first power-on instruction is
Power-on instruction corresponding to the interface protocol between the electronic equipment and the control terminal;
First switching module, for according to received first power-on instruction of first receiving module by the electronics
Equipment switches to the open state by the standby mode;
Alternatively,
The switch unit, comprising:
Second receiving module, for passing through the data communication interface between first electronic equipment and third electronic equipment
The power-on instruction of the channel reception from the third electronic equipment, first power-on instruction are corresponding to first electricity
The power-on instruction of interface protocol between sub- equipment and the third electronic equipment;
Second switching module, for according to received first power-on instruction of second receiving module by the electronics
Equipment switches to the open state by the standby mode;
Alternatively,
The switch unit, comprising:
Generation module generates first power-on instruction for the triggering in response to user;
Third switching module, for the electronic equipment to be switched to institute by off-mode according to first power-on instruction
State open state.
In conjunction with the third aspect and above-mentioned possible implementation, in alternatively possible implementation, the transmission is single
Member is also used to send described second by the data communication interface channel between the electronic equipment and second electronic equipment
Power-on instruction is to the second electronic equipment described at least one;
Wherein, second power-on instruction is corresponding to the interface between the electronic equipment and second electronic equipment
The power-on instruction of agreement.
The fourth aspect of the present invention, also offer a kind of electronic equipment, comprising:
Receiving unit, for receiving the first standby command;
First judging unit is connected with the second electricity for judging whether the electronic equipment passes through data communication interface channel
Sub- equipment;
Transmission unit generates the second standby command if being connected with second electronic equipment for the electronic equipment,
And second standby command is sent to second electronic equipment, so that second electronic equipment is standby according to described second
Second electronic equipment is switched to standby mode by open state by instruction;
Switch unit, for the electronic equipment to be switched to institute by the open state according to first standby command
State standby mode.
In conjunction with fourth aspect, in one possible implementation, the receiving unit is also used to receive from control terminal
First standby command, first standby command be corresponding to the interface between the electronic equipment and the control terminal
The standby command of agreement;
Alternatively,
The third is come from by the data communication interface channel reception between the electronic equipment and third electronic equipment
First standby command of electronic equipment, first standby command are corresponding to the electronic equipment and the third electronics
The standby command of interface protocol between equipment.
In conjunction with fourth aspect and above-mentioned possible implementation, in alternatively possible implementation, the transmission is single
Member is also used to send described second by the data communication interface channel between the electronic equipment and second electronic equipment
Standby command is to the second electronic equipment described at least one;
Wherein, second standby command is corresponding to the interface between the electronic equipment and second electronic equipment
The standby command of agreement.
In conjunction with fourth aspect and above-mentioned possible implementation, in alternatively possible implementation, the electronics is set
It is standby, further includes:
Second judgment unit, if being that the receiving unit passes through first electronic equipment for first standby command
Standby command of the data communication interface channel reception from the third electronic equipment between the third electronic equipment,
The electronic equipment is switched to the standby shape by the open state according to first standby command by the switch unit
Before state, judge whether be currently running business on the electronic equipment.
In conjunction with fourth aspect and above-mentioned possible implementation, in alternatively possible implementation, the switching is single
Member, comprising:
Switching module, if being not currently running the business on the electronic equipment, according to the described first standby finger
It enables and the electronic equipment is switched into the standby mode by the open state;
Module is kept to keep the open state if being currently running the business on the electronic equipment.
State switching method and electronic equipment provided by the invention based on interconnection electronic devices, the first electronic equipment obtain
First power-on instruction, and the first electronic equipment is switched to by open state according to the first power-on instruction, then according to the first electronics
Data communication interface channel between equipment and the second electronic equipment judges whether the first electronic equipment is connected with the second electronics and sets
Standby, if the first electronic equipment is connected with the second electronic equipment, the first electronic equipment generates the second power-on instruction, and sends second
Power-on instruction to the second electronic equipment so that the second electronic equipment according to the second power-on instruction by the second electronic equipment by standby shape
State switches to open state.With in the prior art, the state switching that user controls each electronic equipment of interconnection one by one is compared, by
It in electronic equipment after receiving power-on instruction or standby command, can not only switch the state of electronic equipment, can also send out
Send power-on instruction or standby command to other electronic equipments, to control the state switching of other electronic equipments, therefore, Ke Yijian
Change the operation of user in interconnection equipment stateful switchover process, so as to improve user experience.
Detailed description of the invention
It to describe the technical solutions in the embodiments of the present invention more clearly, below will be to required in embodiment or description
The attached drawing used is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, right
For those of ordinary skill in the art, without any creative labor, it can also be obtained according to these attached drawings
Other attached drawings.
Fig. 1 is state switching method flow chart of one of the embodiment of the present invention 1 based on interconnection electronic devices;
Fig. 2 is state switching method flow chart of one of the embodiment of the present invention 2 based on interconnection electronic devices;
Fig. 3 is state switching method flow chart of one of the embodiment of the present invention 3 based on interconnection electronic devices;
Fig. 4 is another state switching method flow chart based on interconnection electronic devices in the embodiment of the present invention 3;
Fig. 5 is the composition schematic diagram of one of the embodiment of the present invention 4 electronic equipment;
Fig. 6 is the composition schematic diagram of one of the embodiment of the present invention 5 electronic equipment;
Fig. 7 is the composition schematic diagram of another electronic equipment in the embodiment of the present invention 5;
Fig. 8 is the composition schematic diagram of one of the embodiment of the present invention 6 electronic equipment;
Fig. 9 is the composition schematic diagram of one of the embodiment of the present invention 7 electronic equipment;
Figure 10 is the composition signal of state switching system of one of the embodiment of the present invention 8 based on interconnection electronic devices
Figure.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other
Embodiment shall fall within the protection scope of the present invention.
In addition, the terms " system " and " network " are often used interchangeably herein.The terms " and/
Or ", only a kind of incidence relation for describing affiliated partner, indicates may exist three kinds of relationships, for example, A and/or B, it can be with table
Show: individualism A exists simultaneously A and B, these three situations of individualism B.In addition, character "/" herein, typicallys represent front and back
Affiliated partner is a kind of relationship of "or".
Embodiment 1
The embodiment of the present invention provides a kind of state switching method based on interconnection electronic devices, as shown in Figure 1, comprising:
101, the first electronic equipment obtain the first power-on instruction, and according to the first power-on instruction by the first electronic equipment by working as
Preceding state switches to open state, and current state includes: standby mode or off-mode.
Wherein, the first electronic equipment obtain the first power-on instruction, and according to the first power-on instruction by the first electronic equipment by
Current state switches to open state, can specifically include: the first electronic equipment receives the first power-on instruction from control terminal,
First power-on instruction is the power-on instruction corresponding to the interface protocol between the first electronic equipment and control terminal, the first electronic equipment
The first electronic equipment is switched into open state by standby mode according to the first power-on instruction;Alternatively, the first electronic equipment passes through
Data communication interface channel reception between first electronic equipment and third electronic equipment first opening from third electronic equipment
Machine instruction, the first power-on instruction refer to for the booting corresponding to the interface protocol between the first electronic equipment and third electronic equipment
It enables, the first electronic equipment is switched to open state by standby mode according to the first power-on instruction by the first electronic equipment;Alternatively, the
One electronic equipment generates the first power-on instruction in response to the triggering of user, and the first electronic equipment is according to the first power-on instruction by the
One electronic equipment switches to open state by off-mode.
Illustratively, the first electronic equipment can be the end that can be interconnected in the electronic equipment used in daily life
End equipment.In daily life, many equipment are all interconnected and are used, as television set and set-top box interconnection, television set and DVD play
Machine interconnection, DVD player and sound equipment interconnection, PC and sound equipment interconnection, PC and interconnection of routers etc.;Second electronic equipment equally may be used
To be the terminal device that can be interconnected in daily life in the electronic equipment used;Control terminal can control the first electronics and set
Standby carry out state switching.Such as, the first electronic equipment can be television set, and the second electronic equipment can be set-top box, and control terminal can
Think television set remote controler or TV and internal control booting, shutdown control module.
Wherein, since the electronics that the state switching system based on interconnection electronic devices at least may include two interconnection is set
It is standby, therefore, an easily controllable electronic equipment can be selected within the system, directly uses the control terminal control of the electronic equipment
The state switching for making the electronic equipment, then controls other electronics by the data communication interface channel between electronic equipment again and sets
Standby state switching.For example, user is when using PC, the electronic equipment with PC interconnection may include router, gateway etc., due to
Gateway, router etc. may be difficult to control farther out according to user, and therefore, user can choose the state switching for directly controlling PC, and
The electronic equipments such as router, gateway are controlled by the data communication interface channel between the electronic equipments such as PC, router, gateway
State switching.
Illustratively, as shown in Figure 10, user can directly control electronic equipment A's by the control terminal of electronic equipment A
State switching.First power-on instruction can be the instruction message of control terminal of the electronic equipment received from the electronic equipment, and electronics is set
Standby A can receive the first power-on instruction from its control terminal, and the first power-on instruction is corresponding to electronic equipment A and electronic equipment
The power-on instruction of interface protocol between the control terminal of A.First power-on instruction is also possible to electronic equipment received from other electronics
The instruction message of equipment, electronic equipment B can receive the first power-on instruction from electronic equipment A, and the first power-on instruction is pair
Should interface protocol between electronic equipment A and electronic equipment B power-on instruction;Electronic equipment C can receive to be set from electronics
The first power-on instruction of standby A, the first power-on instruction are opening corresponding to the interface protocol between electronic equipment A and electronic equipment C
Machine instruction;Electronic equipment D can receive the first power-on instruction from electronic equipment B, and the first power-on instruction is corresponding to electronics
The power-on instruction of interface protocol between equipment B and electronic equipment D.
Illustratively, in the present embodiment, if the first electronic equipment and the second electronic equipment are all in standby mode, when
When one electronic equipment receives the first power-on instruction, the first electronic equipment can be switched to the first electronic equipment by standby mode
Open state, and the second power-on instruction is generated, the second power-on instruction to the second electronic equipment is then sent, so that the second electronics is set
Standby that the second electronic equipment is switched to open state by standby mode according to the switching of the second power-on instruction, the second power-on instruction is pair
Should interface protocol between the first electronic equipment and the second electronic equipment power-on instruction.As shown in Figure 10, if electronic equipment
A, electronic equipment B, electronic equipment C, electronic equipment D are in standby mode, then electronic equipment A is being received from control terminal
(the first power-on instruction is corresponding to the interface protocol between electronic equipment A and the control terminal of electronic equipment A to first power-on instruction
Power-on instruction) after, electronic equipment A can be switched into open state by standby mode;Electronic equipment B is being received from electronics
(the first power-on instruction is corresponding to the interface protocol between electronic equipment A and electronic equipment B to the first power-on instruction of equipment A
Power-on instruction) after, electronic equipment B can be switched into open state by standby mode;Electronic equipment C is set in reception from electronics
After the first power-on instruction of standby A, electronic equipment C can be switched into open state by standby mode;Electronic equipment D is receiving
From after the first power-on instruction of electronic equipment B, electronic equipment D can be switched into open state by standby mode.
Illustratively, in the present embodiment, if the first electronic equipment is in off-mode, the second electronic equipment is in standby
State, then the first electronic equipment can be triggered in response to the booting of user, the first power-on instruction be generated, according to the first power-on instruction
First electronic equipment is switched into open state by off-mode, then generates the second power-on instruction, and sends the second booting and refers to
It enables to the second electronic equipment, so that the second electronic equipment switches the second electronic equipment according to the second power-on instruction by standby mode
Switch to open state.As shown in Figure 10, if electronic equipment A is in off-mode, electronic equipment B, electronic equipment C, electronics are set
Standby D is in standby mode, then after the triggering in response to user the first power-on instruction can be generated, then root in electronic equipment A
Electronic equipment A is switched into open state by off-mode according to the first power-on instruction, then regenerates and sends the second booting and refer to
It enables to other users equipment;Electronic equipment B can set electronics after receiving the second power-on instruction from electronic equipment A
Standby B switches to open state by standby mode;Electronic equipment C, can be with after receiving the second power-on instruction from electronic equipment A
Electronic equipment C is switched into open state by standby mode;Electronic equipment D refers in the second booting of the reception from electronic equipment B
After order, electronic equipment D can be switched into open state by standby mode.
It should be noted that in embodiments of the present invention, if the first electronic equipment and/or the second electronic equipment are not support
The electronic equipment of idle function, then the standby mode in the embodiment of the present invention is also possible to the low-power consumption mode of electronic equipment,
It, will when electronic equipment is received from the power-on instruction of control terminal or other electronic equipments under this low-power consumption mode
Automatically into starting up's process.
It should be noted that power-on instruction (the first power-on instruction and the second power-on instruction) in the embodiment of the present invention can be with
The electronic equipment is switched into booting by current state (standby mode or off-mode) for triggering electronic equipment for one kind
The indication signaling of state.
102, the first electronic equipment judges whether the first electronic equipment passes through data communication interface channel and be connected with the second electricity
Sub- equipment.
Specifically, the first electronic equipment can then be sentenced after the first electronic equipment switches to open state by current state
Whether disconnected first electronic equipment, which passes through data communication interface channel, is connected with the second electronic equipment.For example, judging that the first electronics is set
It is standby that wireless connection or wired connection whether are established between the second electronic equipment.It in embodiments of the present invention, can be using existing
There is the judgment mode of technology to judge.
Illustratively, as shown in Figure 10, electronic equipment A is respectively connected to electronic equipment B by data communication interface channel
It is connected respectively with electronic equipment D and electronic equipment A with electronic equipment C, electronic equipment B by data communication interface channel.
Wherein, it is connected between the first electronic equipment and the second electronic equipment by data communication interface channel, the data are logical
Believe that interface can be ether interface, Wireless Fidelity (Wireless Fidelity, Wifi) interface, universal serial bus
(Universal Serial BUS, USB) interface etc..It, can also be with correspondingly, data communication interface channel can be radio channel
It is wired paths.In state switching method based on interconnection electronic devices provided by the embodiment of the present invention, data communication interface
Concrete type including but not limited to type cited by the present embodiment, the embodiment of the present invention is to the specific of data communication interface
The concrete form in type and data communication interface channel is with no restriction.
If 103, the first electronic equipment is connected with the second electronic equipment, the first electronic equipment generates the second power-on instruction,
And the second power-on instruction to the second electronic equipment is sent, so that the second electronic equipment sets the second electronics according to the second power-on instruction
It is standby that open state is switched to by standby mode.
Wherein, electronic equipment is after switching to open state by standby mode for electronic equipment according to the first power-on instruction,
The second power-on instruction can be generated (to be connected corresponding to the electronic equipment and with the electronic equipment by data communication interface channel
The power-on instruction of interface protocol between electronic equipment), and to being connected by data communication interface channel with the electronic equipment
Electronic equipment sends the second power-on instruction, so that the electronic equipment root being connected with the electronic equipment by data communication interface channel
Other electronic equipments are switched into open state by standby mode according to the second power-on instruction.
Wherein, the first electronic equipment can pass through the data communication interface between the first electronic equipment and the second electronic equipment
Channel sends the second power-on instruction at least one the second electronic equipment;Wherein, the second power-on instruction is corresponding to the first electronics
The power-on instruction of interface protocol between equipment and the second electronic equipment.
Illustratively, as shown in Figure 10, electronic equipment A according to the first power-on instruction by electronic equipment A by standby mode
After switching to open state, it can be determined that obtain electronic equipment A and set by data communication interface channel and electronic equipment B and electronics
Standby C is connected, then the second power-on instruction can be generated (corresponding to electronic equipment A and between electronic equipment B in electronic equipment A
The power-on instruction of interface protocol), and second power-on instruction is sent to electronic equipment B, so that electronic equipment B is according to power-on instruction
Electronic equipment B is switched into open state by standby mode;Electronic equipment A can be generated the second power-on instruction and (correspond to the electricity
The power-on instruction of sub- equipment A and the interface protocol between electronic equipment C), and second power-on instruction is sent to electronic equipment
C, so that electronic equipment C is switched to open state by standby mode according to power-on instruction by electronic equipment C.Wherein, electronic equipment B
After electronic equipment B is switched to open state by standby mode according to the second power-on instruction, it is logical that judgement obtains electronic equipment B
Data communication interface channel and electronic equipment D are crossed, then electronic equipment B can be generated the second power-on instruction and (set corresponding to the electronics
The power-on instruction of standby B and the interface protocol between electronic equipment D), and second power-on instruction is sent to electronic equipment D;And
Electronic equipment C is after switching its own state, it can be determined that obtain electronic equipment C not with other in addition to electronic equipment A
Electronic equipment be connected, therefore, electronic equipment C do not generate then corresponding second power-on instruction, do not send it is corresponding second booting refer to
It enables to other electronic equipments;Electronic equipment D is after switching its own state, it can be determined that obtains electronic equipment D not and except electricity
Other electronic equipments except sub- equipment B are connected, and therefore, electronic equipment D does not generate corresponding second power-on instruction then, do not send
Corresponding second power-on instruction is to other electronic equipments.
It should be noted that the electronics different, different due to the data interface protocol between different electronic equipments
The power-on instruction transmitted between equipment is different, i.e. the first power-on instruction and the second power-on instruction difference, as shown in Figure 10, electricity
The power-on instruction that sub- equipment A is sent to electronic equipment B is different from the power-on instruction that electronic equipment A is sent to electronic equipment C;Electronics
The power-on instruction that equipment B is sent to electronic equipment C is different from the power-on instruction etc. that electronic equipment D is sent to electronic equipment B.
State switching method provided in an embodiment of the present invention based on interconnection electronic devices, the first electronic equipment obtain first
Power-on instruction, and the first electronic equipment is switched to by open state according to the first power-on instruction, then according to the first electronic equipment
Data communication interface channel between the second electronic equipment judges whether the first electronic equipment is connected with the second electronic equipment, if
First electronic equipment is connected with the second electronic equipment, and the first electronic equipment then generates the second power-on instruction, and sends the second booting
Instruction is to the second electronic equipment, so that the second electronic equipment is cut the second electronic equipment by standby mode according to the second power-on instruction
Shift to open state.Compared with user in the prior art controls the state switching of each electronic equipment of interconnection one by one, due to electricity
Sub- equipment can not only switch the state of electronic equipment, can also send open after receiving power-on instruction or standby command
Therefore machine instruction or standby command can simplify mutually to other electronic equipments with controlling the state switching of other electronic equipments
The operation of user in attached device stateful switchover process, so as to improve user experience.
Embodiment 2
The embodiment of the present invention provides a kind of state switching method based on interconnection electronic devices, as shown in Figure 2, comprising:
201, the first electronic equipment receives the first standby command.
Specifically, it may include: that the first electronic equipment is received from control that the first electronic equipment, which receives the first standby command,
First standby command at end, the first standby command are corresponding to the standby of the interface protocol between the first electronic equipment and control terminal
Instruction;Alternatively, the first electronic equipment is connect by the data communication interface channel between the first electronic equipment and third electronic equipment
The first standby command from third electronic equipment is received, the first standby command is to set corresponding to the first electronic equipment and third electronics
The standby command of interface protocol between standby.
202, the first electronic equipment judges whether the first electronic equipment passes through data communication interface channel and be connected with the second electricity
Sub- equipment.
Wherein, it is connected between the first electronic equipment and the second electronic equipment by data communication interface Path Setup, first
Electronic equipment is connected at least one second electronic equipment by data communication interface channel.
If 203, the first electronic equipment is connected with the second electronic equipment, the first electronic equipment generates the second standby command,
And the second standby command to the second electronic equipment is sent, so that the second electronic equipment sets the second electronics according to the second standby command
It is standby that standby mode is switched to by open state.
It should be noted that in the present embodiment, the first electronic equipment and the second electronic equipment are all in open state.With
Electronic equipment in embodiment 1 is switched to by standby mode unlike the method for open state: since electronic equipment only exists
Instruction message can be sent to other electronic equipments under open state, therefore, in the present embodiment, the first electronic equipment is connecing
After receiving the first standby command, first determine whether the first electronic equipment is connected with the second electronic equipment, if the first electronic equipment
It is connected with the second electronic equipment, the first electronic equipment then generates the second standby command, and sends the second standby command to the second electricity
Then first electronic equipment is switched to standby mode by open state further according to the first standby command by sub- equipment.
204, the first electronic equipment is switched to standby shape by open state according to the first standby command by the first electronic equipment
State.
Further, the first electronic equipment is switched to by open state according to the first standby command in the first electronic equipment
Before standby mode, the first electronic equipment may determine that the current service condition of the first electronic equipment, if on the first electronic equipment
Whether business is currently running, and the first electronic equipment is switched to the first electronic equipment by open state further according to the first standby command
Standby mode.
Specifically, if the first standby command is that the first electronic equipment is electric from second by data communication interface channel reception
Sub- equipment, then the method for the embodiment of the present invention can also include: whether just the first electronic equipment judges on the first electronic equipment
In operation business.Correspondingly, the first electronic equipment is cut the first electronic equipment by the open state according to the first standby command
Shift to the standby mode, specifically include: if being not currently running business on the first electronic equipment, the first electronic equipment is according to
First electronic equipment is switched to standby mode by open state by one standby command;If being currently running industry on the first electronic equipment
Business, the first electronic equipment then keep open state.
It should be noted that standby command (the first standby command and the second standby command) in the embodiment of the present invention can be with
For a kind of indication signaling for switching to standby mode by open state for triggering electronic equipment for the electronic equipment.
State switching method provided in an embodiment of the present invention based on interconnection electronic devices, the first electronic equipment receive first
Then standby command judges the first electronics according to the data communication interface channel between the first electronic equipment and the second electronic equipment
Whether equipment is connected with the second electronic equipment;If the first electronic equipment is connected with the second electronic equipment, the first electronic equipment is given birth to
At the second standby command, and the second standby command to the second electronic equipment is sent, so that the second electronic equipment is standby according to second
Second electronic equipment is switched to standby mode by open state by instruction, and last first electronic equipment will according to the first standby command
First electronic equipment switches to standby mode by open state.With in the prior art, user controls each electronics of interconnection one by one
The state switching of equipment is compared, and since the first electronic equipment is after receiving standby command, can not only be switched the first electronics and be set
Standby state, can also send standby command to the second electronic equipment, to control the state switching of the second electronic equipment, therefore,
It can simplify the operation of user in interconnection equipment stateful switchover process, so as to improve user experience.
Embodiment 3
The embodiment of the present invention provides a kind of state switching method based on interconnection electronic devices, as shown in Figure 3, comprising:
301, the first electronic equipment receives the first standby command.
Specifically, may include: that the first electronic equipment is received from control since the first electronic equipment receives standby command
First standby command at end;Alternatively, the first electronic equipment is logical by the data between the first electronic equipment and third electronic equipment
Believe that interface channel receives the first standby command from third electronic equipment.Therefore, as shown in figure 3, step 301 specifically can wrap
It includes: step 301a;Alternatively, as shown in figure 4, step 301 can specifically include: step 301b:
301a, the first electronic equipment receive the first standby command from control terminal.
Specifically, the first standby command is the standby finger corresponding to the interface protocol between the first electronic equipment and control terminal
It enables.User can select an easily controllable electronics in the electronic equipment of the state switching system based on interconnection electronic devices
Equipment, directly using the electronic equipment control terminal control the electronic equipment state switch, then again by electronic equipment it
Between data communication interface channel control other electronic equipments state switching.As shown in Figure 10, if user's selection passes through electronics
The control terminal of equipment A directly controls the state switching of electronic equipment A, and electronic equipment A can receive first from control terminal
Standby command, the first standby command are corresponding to the standby of the interface protocol between electronic equipment A and the control terminal of electronic equipment A
Instruction.
301b, the first electronic equipment pass through the data communication interface channel between the first electronic equipment and third electronic equipment
Receive the first standby command from third electronic equipment.
Specifically, the first standby command is corresponding to the interface protocol between the first electronic equipment and third electronic equipment
Standby command.
For example, electronic equipment B can receive the first standby command from electronic equipment A, the first standby command is pair
Should interface protocol between electronic equipment A and electronic equipment B standby command;Electronic equipment C can receive from electronics
The first standby command of equipment A, the first standby command are corresponding to the interface protocol between electronic equipment A and electronic equipment C
Standby command.
Specifically, the first electronic equipment is logical by the data communication interface between the first electronic equipment and third electronic equipment
Received the first standby command from third electronic equipment in road can be third electronic equipment and pass through third electronic equipment and its
Data communication interface channel reception between his electronic equipment (corresponds to third electricity to the standby command from other electronic equipments
The standby command of interface protocol between sub- equipment and other electronic equipments) send afterwards, it is also possible to third electronic equipment and connects
It receives and sends after the first standby command from control terminal.As shown in Figure 10, electronic equipment B and electronic equipment C can receive
The first power-on instruction from electronic equipment A, electronic equipment D can receive the first power-on instruction from electronic equipment B.
302, the first electronic equipment judges whether the first electronic equipment passes through data communication interface channel and be connected with the second electricity
Sub- equipment.
Wherein, it is connected between the first electronic equipment and the second electronic equipment by data communication interface Path Setup, first
Electronic equipment is connected at least one second electronic equipment by data communication interface channel.
Specifically, thening follow the steps 303 if the first electronic equipment is connected with the second electronic equipment;If the first electronic equipment
It is not connected to have the second electronic equipment, and standby command is the first electronic equipment received from control terminal, as shown in figure 3, then directly
Execute step 305.If the first electronic equipment is not connected the second electronic equipment, and the first standby command is logical for the first electronic equipment
The data communication interface channel reception between the first electronic equipment and third electronic equipment is crossed from the standby of third electronic equipment
When instruction, as shown in figure 4, thening follow the steps 304.
303, the first electronic equipment generates the second standby command, and sends the second standby command to the second electronic equipment, with
Make the second electronic equipment that the second electronic equipment be switched to standby mode by open state according to the second standby command.
Illustratively, as shown in Figure 10, electronic equipment A is after receiving the first standby command, it can be determined that obtains electronics
Equipment A is connected by data communication interface channel with electronic equipment B and electronic equipment C, then electronic equipment A can be generated second to
Machine instructs (standby command corresponding to the interface protocol between electronic equipment A and electronic equipment B), and sends the second standby finger
Enable to electronic equipment B so that electronic equipment B electronic equipment B is switched to by open state according to second standby command it is standby
State;The second standby command can be generated (corresponding to the interface protocol between electronic equipment A and electronic equipment C in electronic equipment A
Standby command), and second standby command is sent to electronic equipment C, so that electronic equipment C will be electric according to second standby command
Sub- equipment C switches to standby mode by open state.Wherein, electronic equipment B is to receive second from electronic equipment A standby
After instruction, it can be determined that obtain electronic equipment B by data communication interface channel and electronic equipment D, then electronic equipment B can give birth to
At the second standby command (standby command corresponding to the interface protocol between electronic equipment B and electronic equipment D), and send this
Two standby commands are to electronic equipment D;And electronic equipment C is after receiving the standby command from electronic equipment A, it can be determined that
It is not connected to electronic equipment C with other electronic equipments in addition to electronic equipment A, therefore, electronic equipment C does not generate second then
Standby command does not send standby second instruction to other electronic equipments;Electronic equipment D is in the standby command from electronic equipment B
Afterwards, it can be determined that it obtains electronic equipment D and is not connected with other electronic equipments in addition to electronic equipment B, therefore, electronic equipment
D does not generate the second standby command then, does not send standby command to other electronic equipments.
It should be noted that if the first standby command be the first electronic equipment received from control terminal, i.e., with step 301a
It is corresponding, as shown in figure 3, then directly executing step 305;If the first standby command is that the first electronic equipment passes through data communication interface
Channel reception is from third electronic equipment, i.e., corresponding with step 301b, as shown in figure 4, in order to guarantee to connect by data communication
In the state procedure for switching electronic equipment according to command information, each electronics is set mouth channel each electronic equipment interconnected
The normal operation of standby upper business, the method for the embodiment of the present invention can also include step 304:
304, the first electronic equipment judges whether be currently running business on the first electronic equipment.
Further, if being not currently running business on the first electronic equipment, 305 are thened follow the steps;If the first electronic equipment
On be currently running business, then follow the steps 306.
It should be noted that the industry that the first electronic equipment that the first electronic equipment judges in the embodiment of the present invention is currently running
Business may include all business that can be run on the first electronic equipment.
305, the first electronic equipment is switched to standby shape by open state according to the first standby command by the first electronic equipment
State.
306, the first electronic equipment keeps open state.
Specifically, being set since an electronic equipment is connected at least one other electronics by data communication interface channel
Standby, as shown in Figure 10, electronic equipment A is connected with electronic equipment B, electronic equipment C respectively by data communication interface channel, because
This, if electronic equipment A can determine electronic equipment after electronic equipment A receives the first standby command from electronic equipment B
A can terminate the service interaction between electronic equipment A and electronic equipment B, but since electronic equipment A may be with electronic equipment C
Between there are service interactions.Therefore, electronic equipment A can continue to keep open state.
It should be noted that the electronics different, different due to the data interface protocol between different electronic equipments
The standby command transmitted between equipment is different, i.e. the first power-on instruction and the second power-on instruction difference, as shown in Figure 10, electricity
The standby command that sub- equipment A is sent to electronic equipment B is different from the standby command that electronic equipment A is sent to electronic equipment C;Electronics
The standby command that equipment B is sent to electronic equipment C is different from the standby command etc. that electronic equipment D is sent to electronic equipment B.
State switching method provided in an embodiment of the present invention based on interconnection electronic devices, the first electronic equipment receive first
Then standby command judges the first electronics according to the data communication interface channel between the first electronic equipment and the second electronic equipment
Whether equipment is connected with the second electronic equipment;If the first electronic equipment is connected with the second electronic equipment, the first electronic equipment is given birth to
At the second standby command, and the second standby command to the second electronic equipment is sent, so that the second electronic equipment is standby according to second
Second electronic equipment is switched to standby mode by open state by instruction, and last first electronic equipment will according to the first standby command
First electronic equipment switches to standby mode by open state.With in the prior art, user controls each electronics of interconnection one by one
The state switching of equipment is compared, and since the first electronic equipment is after receiving standby command, can not only be switched the first electronics and be set
Standby state, can also send standby command to the second electronic equipment, to control the state switching of the second electronic equipment, therefore,
It can simplify the operation of user in interconnection equipment stateful switchover process, so as to improve user experience.
Embodiment 4
The embodiment of the present invention provides a kind of electronic equipment, as shown in Figure 5, comprising: 41 judging unit 42 of switch unit is sent
Unit 43.
Switch unit 41, for obtaining the first power-on instruction, and according to first power-on instruction by the electronic equipment
Open state is switched to by current state, the current state includes: standby mode or off-mode.
Judging unit 42 is connected with the second electronics for judging whether the electronic equipment passes through data communication interface channel
Equipment.
Transmission unit 43, if judging that the electronic equipment is connected with second electronics and sets for the judging unit 42
It is standby, then the second power-on instruction is generated, and send second power-on instruction to second electronic equipment, so that second electricity
Second electronic equipment is switched to the open state by the standby mode according to second power-on instruction by sub- equipment.
Further, in a kind of application scenarios of the present embodiment, the switch unit 41, comprising: the first receiving module
411, the first switching module 412.
First receiving module 411, for receiving first power-on instruction from control terminal, first power-on instruction
For the power-on instruction corresponding to the interface protocol between the electronic equipment and the control terminal.
First switching module 412, for according to received first power-on instruction of first receiving module 411 by institute
It states electronic equipment and the open state is switched to by the standby mode.
Further, in another application scenarios of the present embodiment, the switch unit 41, comprising: second receives mould
Block 413, the second switching module 414.
Second receiving module 413, for passing through the data communication between first electronic equipment and third electronic equipment
Interface channel receives the power-on instruction from the third electronic equipment, and first power-on instruction is corresponding to described the
The power-on instruction of interface protocol between one electronic equipment and the third electronic equipment.
Second switching module 414, for according to received first power-on instruction of second receiving module 413 by institute
It states the first electronic equipment and the open state is switched to by the standby mode.
Further, in another application scenarios of the present embodiment, the switch unit 41, comprising: generation module
415, third switching module 416.
Generation module 415 generates first power-on instruction for the triggering in response to user.
Third switching module 416, first power-on instruction for being generated according to the generation module 415 is by described
One electronic equipment switches to the open state by off-mode.
Further, the transmission unit 43 is also used to by between the electronic equipment and second electronic equipment
Data communication interface channel send second power-on instruction to the second electronic equipment described at least one.
Wherein, second power-on instruction is corresponding to the interface between the electronic equipment and second electronic equipment
The power-on instruction of agreement.
It should be noted that the specific descriptions of part functional module can join in electronic equipment provided in an embodiment of the present invention
Corresponding content in test method embodiment, the present embodiment are no longer described in detail here.
Electronic equipment provided in an embodiment of the present invention, available first power-on instruction, and will according to the first power-on instruction
Electronic equipment switches to open state, is then sentenced according to the data communication interface channel between electronic equipment and the second electronic equipment
Whether disconnected electronic equipment is connected with the second electronic equipment, if electronic equipment is connected with the second electronic equipment, generates the second booting
Instruction, and the second power-on instruction to the second electronic equipment is sent, so that the second electronic equipment is according to the second power-on instruction by second
Electronic equipment switches to open state by standby mode.With in the prior art, user controls each electronic equipment of interconnection one by one
State switching compare, since electronic equipment is after receiving power-on instruction or standby command, can not only switch electronics and set
Standby state can also send power-on instruction or standby command to other electronic equipments, to control the shape of other electronic equipments
State switching, therefore, can simplify the operation of user in interconnection equipment stateful switchover process, so as to improve user experience.
Embodiment 5
The embodiment of the present invention provides a kind of electronic equipment, as shown in Figure 6, comprising: receiving unit 51, the first judging unit
52, transmission unit 53, switch unit 54.
Receiving unit 51, for receiving the first standby command.
First judging unit 52 is connected with second for judging whether the electronic equipment passes through data communication interface channel
Electronic equipment.
Transmission unit 53, if judging that the electronic equipment is connected with second electronics for first judging unit 52
Equipment then generates the second standby command, and sends second standby command to second electronic equipment, so that described second
Second electronic equipment is switched to standby mode by open state according to second standby command by electronic equipment.
Switch unit 54, for according to received first standby command of the receiving unit 51 by the electronic equipment
The standby mode is switched to by the open state.
Further, in a kind of application scenarios of the present embodiment, the receiving unit 51 is also used to receive from control
First standby command at end, first standby command are corresponding to connecing between the electronic equipment and the control terminal
The standby command of mouth agreement.
In another application scenarios of the present embodiment, the receiving unit 51, be also used to by the electronic equipment with
First standby command of the data communication interface channel reception from the third electronic equipment between third electronic equipment,
First standby command is the standby finger corresponding to the interface protocol between the electronic equipment and the third electronic equipment
It enables.
Further, the transmission unit 53 is also used to by between the electronic equipment and second electronic equipment
Data communication interface channel send second standby command to the second electronic equipment described at least one.
Wherein, second standby command is corresponding to the interface between the electronic equipment and second electronic equipment
The standby command of agreement.
Further, as shown in fig. 7, the electronic equipment, can also include: second judgment unit 55.
Second judgment unit 55, if being set for the receiving unit by first electronics for first standby command
Standby standby command of the data communication interface channel reception between the third electronic equipment from the third electronic equipment,
The switch unit 54 according to first standby command by the electronic equipment by the open state switch to it is described to
Before machine state, judge whether be currently running business on the electronic equipment.
Further, the switch unit 54, comprising: switching module 541 keeps module 542.
Switching module 541, if judging to be not currently running on the electronic equipment for the second judgment unit 55 described
The electronic equipment is then switched to the standby mode by the open state according to first standby command by business.
Module 542 is kept, if judging to be currently running the industry on the electronic equipment for the second judgment unit 55
Business, then keep the open state.
It should be noted that the specific descriptions of part functional module can join in electronic equipment provided in an embodiment of the present invention
Corresponding content in test method embodiment, the present embodiment are no longer described in detail here.
Electronic equipment provided in an embodiment of the present invention can receive the first standby command, then according to electronic equipment and
Data communication interface channel between two electronic equipments judges whether electronic equipment is connected with the second electronic equipment;If electronic equipment
It is connected with the second electronic equipment, electronic equipment then generates the second standby command, and sends the second standby command to the second electronics and set
It is standby, so that the second electronic equipment is switched to standby mode by open state according to the second standby command by the second electronic equipment, most
The first electronic equipment is switched to standby mode by open state according to the first standby command by electronic equipment afterwards.With the prior art
In, the state switching that user controls each electronic equipment of interconnection one by one is compared, since electronic equipment is receiving standby command
Afterwards, it can not only switch the state of electronic equipment, standby command can also be sent to other electronic equipments, to control other electronics
The state of equipment switches, and therefore, can simplify the operation of user in interconnection equipment stateful switchover process, so as to improve user
Experience.
Embodiment 6
The embodiment of the present invention provides a kind of electronic equipment, as shown in Figure 8, comprising: processor 61, transmitter 62.
Processor 61 for obtaining the first power-on instruction, and has the electronic equipment according to first power-on instruction
Current state switches to open state, and the current state includes: standby mode or off-mode;Judge the electronic equipment
Whether the second electronic equipment is connected with by data communication interface channel.
Transmitter 62, if judging that the electronic equipment is connected with second electronic equipment for the processor 61,
The second power-on instruction is generated, and sends second power-on instruction to second electronic equipment, so that second electronics is set
It is standby that second electronic equipment is switched to by standby mode by the open state according to second power-on instruction.
Further, the electronic equipment, comprising: receiver 63, for receiving first booting from control terminal
Instruction, first power-on instruction refer to for the booting corresponding to the interface protocol between the electronic equipment and the control terminal
It enables.
The processor 61 is also used to be set the electronics according to received first power-on instruction of the receiver 63
It is standby that the open state is switched to by the standby mode.
Further, in another application scenarios of the present embodiment, the receiver 61 is also used to by described first
Data communication interface channel reception between electronic equipment and third electronic equipment described in the third electronic equipment from opening
Machine instruction, first power-on instruction are corresponding to the interface association between first electronic equipment and the third electronic equipment
The power-on instruction of view.
The processor 61 is also used to be set the electronics according to received first power-on instruction of the receiver 63
It is standby that the open state is switched to by the standby mode.
Further, in another application scenarios of the present embodiment, the processor 62 is also used in response to user's
Triggering generates first power-on instruction;The electronic equipment is switched to by off-mode according to first power-on instruction
The open state.
Further, the transmitter 62 is also used to by between the electronic equipment and second electronic equipment
Data communication interface channel sends second power-on instruction to the second electronic equipment described at least one.
Wherein, second power-on instruction is corresponding to the interface between the electronic equipment and second electronic equipment
The power-on instruction of agreement.
It should be noted that the specific descriptions of part functional module can join in electronic equipment provided in an embodiment of the present invention
Corresponding content in test method embodiment, the present embodiment are no longer described in detail here.
Electronic equipment provided in an embodiment of the present invention, available first power-on instruction, and will according to the first power-on instruction
Electronic equipment switches to open state, is then sentenced according to the data communication interface channel between electronic equipment and the second electronic equipment
Whether disconnected electronic equipment is connected with the second electronic equipment, if electronic equipment is connected with the second electronic equipment, generates the second booting
Instruction, and the second power-on instruction to the second electronic equipment is sent, so that the second electronic equipment is according to the second power-on instruction by second
Electronic equipment switches to open state by standby mode.With in the prior art, user controls each electronic equipment of interconnection one by one
State switching compare, since electronic equipment is after receiving power-on instruction or standby command, can not only switch electronics and set
Standby state can also send power-on instruction or standby command to other electronic equipments, to control the shape of other electronic equipments
State switching, therefore, can simplify the operation of user in interconnection equipment stateful switchover process, so as to improve user experience.
Embodiment 7
The embodiment of the present invention provides a kind of electronic equipment, as shown in Figure 9, comprising: receiver 71, processor 72, transmitter
73。
Receiver 71, for receiving the first standby command.
Processor 72 is set for judging whether the electronic equipment passes through data communication interface channel and be connected with the second electronics
It is standby.
Transmitter 73, if judging that the electronic equipment is connected with second electronic equipment for the processor 72,
The second standby command is generated, and sends second standby command to second electronic equipment, so that second electronics is set
It is standby that second electronic equipment is switched to by open state by standby mode according to second standby command.
The processor 72 is also used to be set the electronics according to received first standby command of the receiver 71
It is standby that the standby mode is switched to by the open state.
Further, in a kind of application scenarios of the present embodiment, the receiver 71 is also used to receive from control terminal
First standby command, first standby command be corresponding to the interface between the electronic equipment and the control terminal
The standby command of agreement.
In another application scenarios of the present embodiment, the receiver 71 is also used to through the electronic equipment and
First standby command of the data communication interface channel reception from the third electronic equipment between three electronic equipments, institute
Stating the first standby command is the standby command corresponding to the interface protocol between the electronic equipment and the third electronic equipment.
Further, the transmitter 73 is also used to by between the electronic equipment and second electronic equipment
Data communication interface channel sends second standby command to the second electronic equipment described at least one.
Wherein, second standby command is corresponding to the interface between the electronic equipment and second electronic equipment
The standby command of agreement.
Further, the processor 72, if being also used to first standby command is the receiving unit described in
Data communication interface channel reception between first electronic equipment and the third electronic equipment comes from the third electronic equipment
Standby command, the electronic equipment is being switched to by the open state by the standby shape according to first standby command
Before state, judge whether be currently running business on the electronic equipment.
Further, the processor 72, if being also used to be not currently running the business, basis on the electronic equipment
The electronic equipment is switched to the standby mode by the open state by first standby command;If the electronic equipment
On be currently running the business, then keep the open state.
It should be noted that the specific descriptions of part functional module can join in electronic equipment provided in an embodiment of the present invention
Corresponding content in test method embodiment, the present embodiment are no longer described in detail here.
Electronic equipment provided in an embodiment of the present invention can receive the first standby command, then according to electronic equipment and
Data communication interface channel between two electronic equipments judges whether electronic equipment is connected with the second electronic equipment;If electronic equipment
It is connected with the second electronic equipment, then generates the second standby command, and send the second standby command to the second electronic equipment, so that the
Second electronic equipment is switched to standby mode by open state according to the second standby command by two electronic equipments, finally according to first
Electronic equipment is switched to standby mode by open state by standby command.With in the prior art, user controls each of interconnection one by one
The state switching of a electronic equipment is compared, and since electronic equipment is after receiving standby command, can not only switch electronic equipment
State, standby command can also be sent to other electronic equipments, therefore, can to control the state switching of other electronic equipments
To simplify the operation of user in interconnection equipment stateful switchover process, so as to improve user experience.
Embodiment 8
The embodiment of the present invention provides a kind of state switching system based on interconnection electronic devices, as shown in Figure 10, comprising: extremely
Few two electronic equipments 81.
The electronic equipment 81, for obtaining the first power-on instruction, and according to first power-on instruction by the electronics
Equipment switches to open state;Judge whether the electronic equipment passes through data communication interface channel and be connected with the second electronics to set
It is standby;If the electronic equipment is connected with second electronic equipment, the second power-on instruction is generated, and sends second booting
Instruction is to second electronic equipment, so that second electronic equipment is according to second power-on instruction by second electronics
Equipment switches to the open state by standby mode.
Alternatively,
The electronic equipment 81 receives the first standby command;Judge whether the electronic equipment passes through data communication interface
Channel is connected with the second electronic equipment;If the electronic equipment is connected with second electronic equipment, the second standby finger is generated
It enables, and sends second standby command to second electronic equipment, so that second electronic equipment is according to described second
Second electronic equipment is switched to standby mode by open state by standby command;It will be described according to first standby command
Electronic equipment switches to the standby mode by the open state.
It should be noted that the present invention is that electronics is set in the state switching system based on interconnection electronic devices of example offer
Standby specifically describe can be with reference to the corresponding content in embodiment of the method or other Installation practices, and the present embodiment is here no longer
It is described in detail.
State switching system provided in an embodiment of the present invention based on interconnection electronic devices, electronic equipment can receive first
Then whether standby command judges electronic equipment according to the data communication interface channel between electronic equipment and the second electronic equipment
It is connected with the second electronic equipment;If electronic equipment is connected with the second electronic equipment, electronic equipment generates the second standby command, and
The second standby command to the second electronic equipment is sent, so that the second electronic equipment is according to the second standby command by the second electronic equipment
Standby mode is switched to by open state, last electronic equipment is according to the first standby command by the first electronic equipment by open state
Switch to standby mode.With in the prior art, the state switching that user controls each electronic equipment of interconnection one by one is compared, due to
Electronic equipment can not only switch the state of electronic equipment after receiving power-on instruction or standby command, can also send
Therefore power-on instruction or standby command, can simplify to other electronic equipments with controlling the state switching of other electronic equipments
The operation of user in interconnection equipment stateful switchover process, so as to improve user experience.
Through the above description of the embodiments, it is apparent to those skilled in the art that, for description
It is convenienct and succinct, only the example of the division of the above functional modules, in practical application, can according to need and will be upper
It states function distribution to be completed by different functional modules, i.e., the internal structure of device is divided into different functional modules, to complete
All or part of function described above.The specific work process of the system, apparatus, and unit of foregoing description, before can referring to
The corresponding process in embodiment of the method is stated, details are not described herein.
In several embodiments provided herein, it should be understood that disclosed system, device and method can be with
It realizes by another way.For example, the apparatus embodiments described above are merely exemplary, for example, the module or
The division of unit, only a kind of logical function partition, there may be another division manner in actual implementation, such as multiple units
Or component can be combined or can be integrated into another system, or some features can be ignored or not executed.Another point, institute
Display or the mutual coupling, direct-coupling or communication connection discussed can be through some interfaces, device or unit
Indirect coupling or communication connection can be electrical property, mechanical or other forms.
The unit as illustrated by the separation member may or may not be physically separated, aobvious as unit
The component shown may or may not be physical unit, it can and it is in one place, or may be distributed over multiple
In network unit.It can select some or all of unit therein according to the actual needs to realize the mesh of this embodiment scheme
's.
It, can also be in addition, the functional units in various embodiments of the present invention may be integrated into one processing unit
It is that each unit physically exists alone, can also be integrated in one unit with two or more units.Above-mentioned integrated list
Member both can take the form of hardware realization, can also realize in the form of software functional units.
If the integrated unit is realized in the form of SFU software functional unit and sells or use as independent product
When, it can store in a computer readable storage medium.Based on this understanding, technical solution of the present invention is substantially
The all or part of the part that contributes to existing technology or the technical solution can be in the form of software products in other words
It embodies, which is stored in a storage medium, including some instructions are used so that a computer
It is each that equipment (can be personal computer, server or the network equipment etc.) or processor (processor) execute the present invention
The all or part of the steps of embodiment the method.And storage medium above-mentioned includes: USB flash disk, mobile hard disk, read-only memory
(ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic or disk
Etc. the various media that can store program code.
The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any
Those familiar with the art in the technical scope disclosed by the present invention, can easily think of the change or the replacement, and should all contain
Lid is within protection scope of the present invention.Therefore, protection scope of the present invention should be based on the protection scope of the described claims.
Claims (16)
1. a kind of state switching method based on interconnection electronic devices characterized by comprising
First electronic equipment receives the first power-on instruction from control terminal or third electronic equipment, and according to first booting
First electronic equipment is switched to open state by current state by instruction, first electronic equipment and the control terminal or
The third electronic equipment connection, the current state includes: standby mode or off-mode;
First electronic equipment is being cut first electronic equipment by the current state according to first power-on instruction
It shifts to after the open state, first electronic equipment judges whether first electronic equipment passes through data communication interface
Channel is connected with the second electronic equipment;
If first electronic equipment is connected with second electronic equipment, first electronic equipment generates the second booting and refers to
It enables, and sends second power-on instruction to second electronic equipment, so that second electronic equipment is according to described second
Second electronic equipment is switched to the open state by the standby mode by power-on instruction;
Second electronic equipment is switched second electronic equipment by the standby mode according to second power-on instruction
After to the open state, second electronic equipment judges whether second electronic equipment passes through data communication interface channel
It is connected with the 4th electronic equipment;
When second electronic equipment is connected with the 4th electronic equipment, second electronic equipment then generates the 4th booting and refers to
It enables, and sends the 4th power-on instruction to the 4th electronic equipment, so that the 4th electronic equipment is according to the described 4th
4th electronic equipment is switched to the open state by the standby mode by power-on instruction.
2. the state switching method according to claim 1 based on interconnection electronic devices, which is characterized in that first electricity
Sub- equipment receives the first power-on instruction from control terminal or third electronic equipment, and will be described according to first power-on instruction
First electronic equipment switches to open state by current state, comprising:
First electronic equipment receives first power-on instruction from control terminal, first power-on instruction be corresponding to
The power-on instruction of interface protocol between first electronic equipment and the control terminal;
First electronic equipment is switched first electronic equipment by the standby mode according to first power-on instruction
To the open state;
Alternatively,
First electronic equipment passes through the data communication interface channel between first electronic equipment and third electronic equipment
First power-on instruction from the third electronic equipment is received, first power-on instruction is corresponding to first electricity
The power-on instruction of interface protocol between sub- equipment and the third electronic equipment;
First electronic equipment is switched first electronic equipment by the standby mode according to first power-on instruction
To the open state.
3. the state switching method according to claim 1 based on interconnection electronic devices, which is characterized in that first electricity
Sub- equipment sends second power-on instruction to second electronic equipment, comprising:
First electronic equipment passes through the data communication interface between first electronic equipment and second electronic equipment
Channel sends second power-on instruction to the second electronic equipment described at least one;
Wherein, second power-on instruction is corresponding to the interface between first electronic equipment and second electronic equipment
The power-on instruction of agreement.
4. a kind of state switching method based on interconnection electronic devices characterized by comprising
First electronic equipment receive the first standby command from control terminal or third electronic equipment, first electronic equipment with
The control terminal or third electronic equipment connection;
First electronic equipment judges whether first electronic equipment passes through data communication interface channel and be connected with the second electricity
Sub- equipment;
If first electronic equipment is connected with second electronic equipment, first electronic equipment generates the second standby finger
It enables, and sends second standby command to second electronic equipment, so that second electronic equipment is according to described second
Second electronic equipment is switched to standby mode by open state by standby command;
After second standby command is sent to second electronic equipment by first electronic equipment, first electronics
First electronic equipment is switched to the standby mode by the open state according to first standby command by equipment;
Second electronic equipment judges whether second electronic equipment passes through data communication interface channel and be connected with the 4th electricity
Sub- equipment;
If second electronic equipment is connected with the 4th electronic equipment, second electronic equipment generates the 4th standby finger
It enables, and sends the 4th standby command to the 4th electronic equipment, so that the 4th electronic equipment is according to the described 4th
4th electronic equipment is switched to standby mode by open state by standby command;
After 4th standby command is sent to the 4th electronic equipment by second electronic equipment, second electronics
First electronic equipment is switched to the standby mode by the open state according to first standby command by equipment.
5. the state switching method according to claim 4 based on interconnection electronic devices, which is characterized in that first electricity
Sub- equipment receives the first standby command from control terminal or third electronic equipment, comprising:
First electronic equipment receives first standby command from control terminal, first standby command be corresponding to
The standby command of interface protocol between first electronic equipment and the control terminal;
Alternatively,
First electronic equipment passes through the data communication interface channel between first electronic equipment and third electronic equipment
First standby command from the third electronic equipment is received, first standby command is corresponding to first electricity
The standby command of interface protocol between sub- equipment and the third electronic equipment.
6. the state switching method according to claim 4 based on interconnection electronic devices, which is characterized in that first electricity
Sub- equipment sends second standby command to second electronic equipment, comprising:
First electronic equipment passes through the data communication interface between first electronic equipment and second electronic equipment
Channel sends second standby command to the second electronic equipment described at least one;
Wherein, second standby command is corresponding to the interface between first electronic equipment and second electronic equipment
The standby command of agreement.
7. the state switching method according to claim 4 based on interconnection electronic devices, which is characterized in that if described first
Standby command is that first electronic equipment is logical by the data between first electronic equipment and the third electronic equipment
Believe that interface channel receives the standby command from the third electronic equipment, then in first electronic equipment according to described first
Before first electronic equipment is switched to the standby mode by the open state by standby command, the method is also wrapped
It includes:
First electronic equipment judges whether be currently running business on first electronic equipment.
8. the state switching method according to claim 7 based on interconnection electronic devices, which is characterized in that first electricity
First electronic equipment is switched to the standby mode by the open state according to first standby command by sub- equipment,
Include:
If being not currently running the business on first electronic equipment, first electronic equipment is standby according to described first
First electronic equipment is switched to the standby mode by the open state by instruction;
If being currently running the business on first electronic equipment, first electronic equipment keeps the open state.
9. a kind of electronic equipment characterized by comprising
Switch unit is opened for receiving the first power-on instruction from control terminal or third electronic equipment, and according to described first
The electronic equipment is switched to open state by current state by machine instruction, the electronic equipment and the control terminal or described the
The connection of three electronic equipments, the current state includes standby mode or off-mode;
Judging unit, in the electronic equipment according to first power-on instruction by the electronic equipment by the current shape
State switches to after the open state, judges whether the electronic equipment passes through data communication interface channel and be connected with the second electricity
Sub- equipment;Transmission unit is given birth to if judging that the electronic equipment is connected with second electronic equipment for the judging unit
At the second power-on instruction, and second power-on instruction is sent to second electronic equipment, so that second electronic equipment
Second electronic equipment is switched into the open state by the standby mode according to second power-on instruction;
Second electronic equipment is switched second electronic equipment by the standby mode according to second power-on instruction
After to the open state, second electronic equipment judges whether second electronic equipment passes through data communication interface channel
It is connected with the 4th electronic equipment;
When second electronic equipment is connected with the 4th electronic equipment, second electronic equipment then generates the 4th booting and refers to
It enables, and sends the 4th power-on instruction to the 4th electronic equipment, so that the 4th electronic equipment is according to the described 4th
4th electronic equipment is switched to the open state by the standby mode by power-on instruction.
10. electronic equipment according to claim 9, which is characterized in that the switch unit, comprising:
First receiving module, for receiving first power-on instruction from control terminal, first power-on instruction is to correspond to
The power-on instruction of interface protocol between the electronic equipment and the control terminal;
First switching module, for according to received first power-on instruction of first receiving module by the electronic equipment
The open state is switched to by the standby mode;
Alternatively,
The switch unit, comprising:
Second receiving module, for passing through the data communication interface channel reception between the electronic equipment and third electronic equipment
The power-on instruction from the third electronic equipment, first power-on instruction are corresponding to the electronic equipment and described
The power-on instruction of interface protocol between third electronic equipment;
Second switching module, for according to received first power-on instruction of second receiving module by the electronic equipment
The open state is switched to by the standby mode.
11. electronic equipment according to claim 9, which is characterized in that the transmission unit is also used to through the electronics
Data communication interface channel between equipment and second electronic equipment sends second power-on instruction at least one institute
State the second electronic equipment;
Wherein, second power-on instruction is corresponding to the interface protocol between the electronic equipment and second electronic equipment
Power-on instruction.
12. a kind of electronic equipment characterized by comprising
Receiving unit, for receiving the first standby command from control terminal or third electronic equipment, the electronic equipment and institute
State control terminal or third electronic equipment connection;
First judging unit is set for judging whether the electronic equipment passes through data communication interface channel and be connected with the second electronics
It is standby;
Transmission unit, if judging that the electronic equipment is connected with second electronic equipment for first judging unit,
The second standby command is generated, and sends second standby command to second electronic equipment, so that second electronics is set
It is standby that second electronic equipment is switched to by open state by standby mode according to second standby command;
Switch unit, for after second standby command is sent to second electronic equipment by the electronic equipment,
The electronic equipment switched to by the open state according to the receiving unit received first standby command described
Standby mode;
Second electronic equipment judges whether second electronic equipment passes through data communication interface channel and be connected with the 4th electricity
Sub- equipment;
If second electronic equipment is connected with the 4th electronic equipment, second electronic equipment generates the 4th standby finger
It enables, and sends the 4th standby command to the 4th electronic equipment, so that the 4th electronic equipment is according to the described 4th
4th electronic equipment is switched to standby mode by open state by standby command;
After 4th standby command is sent to the 4th electronic equipment by second electronic equipment, second electronics
The electronic equipment is switched to the standby mode by the open state according to first standby command by equipment.
13. electronic equipment according to claim 12, which is characterized in that the receiving unit is also used to receive and carrys out automatic control
First standby command at end processed, first standby command are corresponding between the electronic equipment and the control terminal
The standby command of interface protocol;
Alternatively,
The third electronics is come from by the data communication interface channel reception between the electronic equipment and third electronic equipment
First standby command of equipment, first standby command are corresponding to the electronic equipment and the third electronic equipment
Between interface protocol standby command.
14. electronic equipment according to claim 12, which is characterized in that the transmission unit is also used to through the electricity
Data communication interface channel between sub- equipment and second electronic equipment send second standby command at least one
Second electronic equipment;
Wherein, second standby command is corresponding to the interface protocol between the electronic equipment and second electronic equipment
Standby command.
15. electronic equipment according to claim 12, which is characterized in that further include:
Second judgment unit, if being that the receiving unit passes through the electronic equipment and described for first standby command
Standby command of the data communication interface channel reception from the third electronic equipment between three electronic equipments, in the switching
Before the electronic equipment is switched to the standby mode by the open state according to first standby command by unit, sentence
Break and whether is currently running business on the electronic equipment.
16. electronic equipment according to claim 15, which is characterized in that the switch unit, comprising:
Switching module, if judging to be not currently running the business, root on the electronic equipment for the second judgment unit
The electronic equipment is switched into the standby mode by the open state according to first standby command;
Module is kept to keep if judging to be currently running the business on the electronic equipment for the second judgment unit
The open state.
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CN201310091544.9A CN104063033B (en) | 2013-03-21 | 2013-03-21 | State switching method and electronic equipment based on interconnection electronic devices |
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CN201310091544.9A CN104063033B (en) | 2013-03-21 | 2013-03-21 | State switching method and electronic equipment based on interconnection electronic devices |
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CN104063033B true CN104063033B (en) | 2019-08-13 |
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CN105045599A (en) * | 2015-08-12 | 2015-11-11 | 创维光电科技(深圳)有限公司 | Television and computer integrated machine and method for realizing remote startup and shutdown control of same |
CN105933961A (en) * | 2016-04-28 | 2016-09-07 | 乐视控股(北京)有限公司 | Energy-saving control method and device |
CN108664371A (en) * | 2018-05-03 | 2018-10-16 | 郑州云海信息技术有限公司 | A kind of method and device of multi-hardware system unified management |
CN108829225A (en) * | 2018-05-29 | 2018-11-16 | 郑州云海信息技术有限公司 | A kind of method that more hardware unify switching on and shutting down |
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CN102778943A (en) * | 2011-05-10 | 2012-11-14 | 联想(北京)有限公司 | State control method and device and portable terminal |
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US5784628A (en) * | 1996-03-12 | 1998-07-21 | Microsoft Corporation | Method and system for controlling power consumption in a computer system |
GB0121559D0 (en) * | 2001-09-06 | 2001-10-24 | Pace Micro Tech Plc | Broadcast data receiver |
WO2006109581A1 (en) * | 2005-04-12 | 2006-10-19 | Matsushita Electric Industrial Co., Ltd. | Video/audio processing device and apparatus connected to the same |
CN102439533A (en) * | 2011-09-29 | 2012-05-02 | 华为终端有限公司 | Thin client on-off control method,device and system applying the device |
CN102591444A (en) * | 2012-02-07 | 2012-07-18 | 朱金荣 | Host computer with function of intelligently controlling on-off of peripheral equipment |
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CN102778943A (en) * | 2011-05-10 | 2012-11-14 | 联想(北京)有限公司 | State control method and device and portable terminal |
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