CN103927200A - Electronic equipment awakening method and related device - Google Patents

Abstract

The invention relates to an electronic equipment awakening method and a related device. The device comprises a first signal acquiring unit, a first starting signal generating unit, a first starting signal transmitting unit, a second signal acquiring unit, a second starting signal generating unit and a second starting signal transmitting unit. The first signal acquiring unit is used for acquiring a first power-on signal of electronic equipment and a shutdown signal of a first processor. The first starting signal generating unit is used for generating a first starting signal according to the first power-on signal or the shutdown signal. The first starting signal transmitting unit is used for transmitting the first starting signal to the wireless module of the electronic equipment. The second signal acquiring unit is used for acquiring a wireless control signal received by the wireless module by using a first system. The second starting signal generating unit is used for generating a second starting signal according to the wireless control signal. The second starting signal transmitting unit is used for transmitting the second starting signal to the first processor. The device has the advantages that when the electronic equipment is connected with a power supply, the starting of the electronic equipment can be controlled by the wireless control signal, operability of the electronic equipment with a wireless communication function is increased, and the device is simple and convenient to operate and quite convenient.

Description

Electronic equipment awakening method and relevant apparatus

Technical field

The disclosure relates to equipment control technology field, relates in particular to a kind of electronic equipment awakening method and relevant apparatus.

Background technology

Along with scientific and technological development, wireless technology is more and more ripe, application is more and more extensive.As wireless communication, radiophotography, radio broadcasting, TV etc.

In the wireless telecommunications systems such as existing 2.4G or 5G, wireless module is subject to the control of wireless telecommunications system main system CPU to carry out data transmit-receive conventionally.After the main system shutdown of wireless telecommunications system, here shutdown typically refers to the power supply of cutting off main system CPU by the physical button on wireless telecommunications system, correspondingly, wireless module also can descend electricity and cannot work, and then when user need to start shooting again, must move near wireless telecommunications system, and the physical button on manual operation wireless telecommunications system, just can make the main system CPU of wireless telecommunications work on power, the design original intention of this and wireless telecommunications system is disagreed, and the convenience of wireless telecommunications system is reduced.

Summary of the invention

For overcoming the problem existing in correlation technique, the disclosure provides a kind of electronic equipment awakening method and relevant apparatus.

According to the first aspect of disclosure embodiment, a kind of electronic equipment Rouser is provided, for waking the first processor of electronic equipment up, described device comprises: first signal acquiring unit, for obtaining the first power on signal of described electronic equipment or the off signal of described first processor; The first enabling signal generation unit, for generating the first enabling signal according to described the first power on signal or described off signal, described the first enabling signal is used for controlling wireless module and starts the first system; The first enabling signal transmitting element, sends described the first enabling signal for the wireless module to described electronic equipment; Secondary signal acquiring unit, the wireless control signal that utilizes described the first system to receive for obtaining described wireless module; The second enabling signal generation unit, for generating the second enabling signal according to described wireless control signal, described the second enabling signal starts and makes described first processor control described wireless module startup second system for controlling the main system of described first processor; The second enabling signal transmitting element, for sending described the second enabling signal to described first processor.

In conjunction with first aspect, in the possible implementation of first aspect the first, described device also comprises: power on signal generation unit, and for generating the second power on signal according to described the first power on signal or described off signal, described the second power on signal is used for controlling described wireless module and powers on; Power on signal transmitting element, for sending described the second power on signal to described wireless module; The 3rd enabling signal generation unit, for generating the 3rd enabling signal according to described the first power on signal or described off signal; The 3rd enabling signal transmitting element, for sending described the 3rd enabling signal to described first processor, described the 3rd enabling signal, for controlling the startup subsystem of described first processor, is controlled described first processor and is utilized described subsystem to described wireless module, to send the executable file of described the first system.

In conjunction with the possible implementation of first aspect the first, in the possible implementation of first aspect the second, described device also comprises: stop signal generation unit, for generating stop signal according to the transmitting time of described the 3rd enabling signal; Stop signal transmitting element, for sending described stop signal to described first processor, described stop signal, for after described first processor sends the executable file of described the first system, is controlled described first processor described subsystem out of service.

In conjunction with first aspect or first aspect the first or the possible implementation of the second, in the third possible implementation of first aspect, described device also comprises: wireless control signal judging unit, for judging whether described wireless control signal is the wake-up signal setting in advance; When described wireless control signal is the wake-up signal setting in advance, described the second enabling signal generation unit generates the second enabling signal according to described wireless control signal.

In conjunction with first aspect the first or the possible implementation of the second, in the 4th kind of possible implementation of first aspect, the form of the wireless control signal that described wireless module receives under described the first system and second system is not identical.

In conjunction with first aspect the first or the possible implementation of the second, in the 5th kind of possible implementation of first aspect, the bottom service system that the subsystem of described first processor is described first processor.

According to the second aspect of disclosure embodiment, a kind of electronic equipment is provided, comprises: first processor, the second processor and wireless module, wherein, described first processor is as the primary processor of described electronic equipment, described the second processor as described electronic equipment from processor; Described first processor is connected with described wireless module by data line; The first output terminal of described the second processor is connected with the reset Reset pin of described first processor, the second output terminal of described the second processor is connected with the Reset pin of described wireless module, the first input end of described the second processor is connected with the power input of the power supply of described electronic equipment, described first processor, and the second input end of described the second processor is connected with an output terminal of described wireless module; Described the second processor comprises: the first sub-processor, and wherein, described the first sub-processor is for obtaining first power on signal of power supply of described electronic equipment or the off signal of described first processor; According to described the first power on signal or described off signal, generate the first enabling signal; To described wireless module, send described the first enabling signal, described the first enabling signal is used for controlling wireless module and starts the first system; Obtain the wireless control signal that described wireless module utilizes described the first system to receive; According to described wireless control signal, generate the second enabling signal, described the second enabling signal starts and makes described first processor control described wireless module startup second system for controlling the main system of described first processor; To described first processor, send described the second enabling signal.

In conjunction with second aspect, in the possible implementation of second aspect the first, described electronic equipment also comprises: first memory, wherein, described first memory is connected with described wireless module, and in described first memory, stores the executable file of described the first system.

In conjunction with second aspect, in the possible implementation of second aspect the second, in described first processor, store the executable file of described the first system, described the second processor also comprises: the second sub-processor, wherein, described the second sub-processor, for generating the second power on signal according to described the first power on signal or described off signal, sends described the second power on signal to described wireless module, and described the second power on signal is used for controlling described wireless module and powers on; According to described the first power on signal or described off signal, generate the 3rd enabling signal; To described first processor, send described the 3rd enabling signal, described the 3rd enabling signal, for controlling the subsystem of described first processor, is controlled described first processor and is utilized described subsystem to described wireless module, to send the executable file of described the first system.

In conjunction with the possible implementation of second aspect the second, in the third possible implementation of second aspect, described the second processor also comprises: the 3rd sub-processor, and wherein, described the 3rd sub-processor is for generating stop signal according to the transmitting time of described the 3rd enabling signal; To described first processor, send described stop signal, described stop signal, for after described first processor sends the executable file of described the first system, is controlled described first processor described subsystem out of service.

According to the third aspect of disclosure embodiment, a kind of electronic equipment awakening method is provided, for waking the first processor of electronic equipment up, described method comprises: obtain the first power on signal of described electronic equipment or the off signal of described first processor; According to described the first power on signal or described off signal, generate the first enabling signal, described the first enabling signal is used for controlling wireless module and starts the first system; Wireless module in described electronic equipment sends described the first enabling signal; Obtaining described wireless module utilizes described the first enabling signal to start the wireless control signal receiving after the first system; According to described wireless control signal, generate the second enabling signal, described the second enabling signal starts and makes described first processor control described wireless module startup second system for controlling the main system of described first processor; To described first processor, send described the second enabling signal.

In conjunction with the third aspect, in the possible implementation of third aspect the first, described method also comprises: according to described the first power on signal or described off signal, generate the second power on signal, described the second power on signal is used for controlling described wireless module and powers on; To described wireless module, send described the second power on signal; According to described the first power on signal or described off signal, generate the 3rd enabling signal, described the 3rd enabling signal is for controlling the subsystem of described first processor, control described first processor and utilize described subsystem to described wireless module, to send the executable file of described the first system, and control described first processor described subsystem out of service after the executable file that sends described the first system; To described first processor, send described the 3rd enabling signal.

In conjunction with the possible implementation of third aspect the first, in the possible implementation of third aspect the second, described method also comprises: according to the transmitting time of described the 3rd enabling signal, generate stop signal, described stop signal, for after described first processor sends the executable file of described the first system, is controlled described first processor described subsystem out of service; To described first processor, send described stop signal.

In conjunction with the possible implementation of third aspect the second, in the third possible implementation of the third aspect, the described transmitting time according to described the 3rd enabling signal generates stop signal, comprising: postpone Preset Time after the transmitting time of described the 3rd enabling signal after, generate stop signal.

In conjunction with the third aspect or third aspect the first, the second or the third possible implementation, in four kinds of possible implementations of the third aspect, according to described wireless control signal, generate the second enabling signal, comprising: judge whether described wireless control signal is the wake-up signal setting in advance; When described wireless control signal is the wake-up signal setting in advance, according to described wireless control signal, generate the second enabling signal.

According to the fourth aspect of disclosure embodiment, a kind of terminal is provided, for waking the first processor of electronic equipment up, comprising: the second processor; For storing the second memory of the second processor executable; Wherein, described the second processor is configured to: obtain the first power on signal of described electronic equipment or the off signal of described first processor; According to described the first power on signal or described off signal, generate the first enabling signal; Wireless module in described electronic equipment sends described the first enabling signal, and described the first enabling signal is used for controlling wireless module and starts the first system; Obtain the wireless control signal that described wireless module utilizes described the first system to receive; According to described wireless control signal, generate the second enabling signal, described the second enabling signal starts and makes described first processor control described wireless module startup second system for controlling the main system of described first processor; To described first processor, send described the second enabling signal.

The technical scheme that embodiment of the present disclosure provides can comprise following beneficial effect:

This electronic equipment awakening method, while powering on again after electronic equipment power-off or after electronic equipment shutdown, can control the wireless control signal that wireless module starts and listening detection restarts for controlling the first processor of electronic equipment of electronic equipment, after getting this wireless control signal, the first processor of controlling electronic equipment starts and normal work.

Near need to moving to electronic equipment with correlation technique and the physical button of manual operation electronic equipment could utilize wireless control signal that electronic equipment is controlled and compared after entering holding state, this electronic equipment awakening method, as long as electronic equipment is connected with power supply, just can utilize wireless control signal to control electronic equipment startup work, make to have electronic equipment handling stronger of wireless communication function, and simple to operation, very convenient.

Shown in Figure 3, a concrete application scenarios for disclosure embodiment, in figure, electronic equipment 10 is televisor, wireless terminal 20 is telepilot, when televisor powers on after power distribution network power-off again, or, after user closes the power button on televisor, because televisor is connected with power lead, so the second processor 2 just can power on, and carry out above-mentioned electronic equipment awakening method, when receive that wireless terminal 20 sends wake control signal up time, the second processor 2 can be controlled first processor 1 and starts and work, and avoided needing user to move to pressing near televisor physical button to enter the inconvenience that could receive wireless control signal after standby or start.

Should be understood that, it is only exemplary and explanatory that above general description and details are hereinafter described, and can not limit the disclosure.

Accompanying drawing explanation

Accompanying drawing is herein merged in instructions and forms the part of this instructions, shows embodiment according to the invention, and is used from and explains principle of the present invention with instructions one.

Fig. 1 is according to the process flow diagram of a kind of electronic equipment awakening method shown in an exemplary embodiment.

Fig. 2 is according to the scene schematic diagram of a kind of electronic equipment shown in an exemplary embodiment.

Fig. 3 is according to the scene schematic diagram of the another kind of electronic equipment shown in an exemplary embodiment.

Fig. 4 is according to the process flow diagram of a kind of electronic equipment awakening method shown in an exemplary embodiment.

Fig. 5 is according to a kind of electronic equipment Rouser schematic diagram shown in an exemplary embodiment.

Fig. 6 is according to the block diagram of a kind of terminal of waking up for electronic equipment shown in an exemplary embodiment.

Embodiment

Here will at length to exemplary embodiment, describe, its example shown in the accompanying drawings.When description below relates to accompanying drawing, unless separately there is expression, the same numbers in different accompanying drawings represents same or analogous key element.Embodiment described in following exemplary embodiment does not represent all embodiments consistent with the present invention.On the contrary, they are only the examples with apparatus and method as consistent in some aspects that described in detail in appended claims, of the present invention.

Fig. 1 is according to the process flow diagram of a kind of electronic equipment awakening method shown in an exemplary embodiment, and as shown in Figure 1, described method, for electronic equipment, comprises the following steps.

In step S101, obtain the first power on signal of described electronic equipment or the off signal of described first processor.

In the exemplary enforcement of the disclosure, shown in Figure 2, figure comprises: electronic equipment 10 and wireless terminal 20, electronic equipment 10 can comprise: first processor 1, the second processor 2 and wireless module 3, and wherein, first processor 1 is as the primary processor of this electronic equipment 10, data processing while being responsible for electronic equipment 10 normal work, when concrete application, first processor 1 can be CPU(Central Processing Unit, central processing unit).

The second processor 2 as this electronic equipment 10 from processor, when concrete application, the second processor 2 can be MCU(Micro Control Unit, micro-control unit), and the Reset(of the second processor 2 and first processor 1 resets) pin is connected, the electronic equipment awakening method that the second processor 2 provides for carrying out disclosure embodiment, wakes first processor 1 up.

Between wireless module 3 and first processor 1, by data line, be connected, at this electronic equipment 10 during in normal work, wireless module 3 can receive the wireless control signal that wireless terminal 20 sends, and the wireless control signal receiving sends to first processor 1, realize the control that utilizes 20 pairs of electronic equipments 10 of wireless terminal.In the disclosure, wireless module 3 can be RF(Radio Frequency, radio frequency) transceiver module.In addition, the second processor 2 is also connected with Reset pin with the receiving end of wireless module 3, for controlling the startup of wireless module 3 and receiving the wireless control signal receiving after wireless module 3 starts.

In this step, the second processor 2 can also be connected with first processor 1, and the second processor 2 can be caught the off signal of first processor 1, or, the second processor 2 can also be connected with the power supply of electronic equipment 10, and the second processor 2 can be caught the first power on signal of this electronic equipment 10.

The second processor 2 is by catching the first power on signal of off signal or the electronic equipment 10 of first processor 1, can judge first processor 1 in being waken up state, wherein, the first power on signal of electronic equipment 10 may be by powering on and cause after power distribution network power-off again, may be also because user causes after the attaching plug of electronic equipment is plugged.

In step S102, according to described the first power on signal or described off signal, generate the first enabling signal.

In disclosure embodiment, the first enabling signal is used for controlling wireless module 3 and starts the first system.

In step S103, the wireless module in described electronic equipment sends described the first enabling signal.

When wireless module receives after the first enabling signal, can start the first system and receive wireless control signal.

Referring to above-mentioned Fig. 2, the second processor 2 can by the first enabling signal by and the Reset pin of wireless module 3 between connecting line send to wireless module 3.

In step S104, obtain described wireless module and utilize described the first enabling signal to start the wireless control signal receiving after the first system.

Wireless module 3 receives after the first enabling signal, can start the first system corresponding with the first enabling signal, wireless module 3 can receive the wireless control signal that wireless terminal 20 sends under the first system, the effect of wireless control signal is to control first processor 1 to start, and wakes first processor 1 up.

Referring to above-mentioned Fig. 2, the second processor 2 can obtain the wireless control signal that wireless module 3 receives by the data line being connected with wireless module 3.

In step S105, according to described wireless control signal, generate the second enabling signal.

The second enabling signal is start and make described first processor control described wireless module startup second system for controlling the main system of described first processor.

In disclosure embodiment, second system refers to electronic equipment 10 system that wireless module 3 is used in normal operation, the first system and second system can be identical, also can be different, this is mainly to consider when electronic equipment is normally worked to require wireless module 3 can support several functions, power consumption is high, and when wireless module reception is used for waking the wireless control signal of first processor up, single to wireless module 3 functional requirements.Because first processor 1 cannot be determined in the time that can be waken up under state, so wireless module 3 need to be intercepted wireless control signal for a long time, consider the reasons such as power consumption, the ratio second system that the first system can design is simple.The form of the wireless control signal receiving under described the first system and second system at wireless module is not identical, for example: under the first system, wireless module can finish broadcast data packet.

Such the second processor 2 is after the first power on signal of electronic equipment 10 or the off signal of first processor 1 being detected, that can first control wireless module 3 enters a simple system---the first system, and wireless module 3 utilizes this first system to receive the wireless control signal starting for controlling first processor 1, then the second processing 2 devices are restarted first processor 1 according to this wireless control signal, and at first processor 1 startup control wireless module 3 processed, enter into complete system---second system, normally work.

When practical application, the first system can be HID(Human Interface Device, human interface device) system of agreement, only for intercepting the bluetooth data packets of specific broadcast.

In step S106, to described first processor, send described the second enabling signal.

When first processor receives after the second enabling signal, can start main system, and first processor can be controlled wireless module startup second system under main system.

In disclosure embodiment, referring to Fig. 2, the second enabling signal can be high level signal, and the second processor 2 can send the second enabling signal to the Reset pin of first processor 1, thereby wakes first processor 1 up.After the main system of first processor starts, first processor also can be by wireless module initialization, and makes wireless module enter into second system to carry out work.

In disclosure exemplary embodiment, this electronic equipment awakening method, while powering on again after electronic equipment power-off or after electronic equipment shutdown, can control the wireless control signal that wireless module starts and listening detection restarts for controlling the first processor of electronic equipment of electronic equipment, after getting this wireless control signal, the first processor of controlling electronic equipment starts and normal work.

Near need to moving to electronic equipment with correlation technique and the physical button of manual operation electronic equipment could utilize wireless control signal that electronic equipment is controlled and compared after entering holding state, this electronic equipment awakening method, as long as electronic equipment is connected with power supply, just can utilize wireless control signal to control electronic equipment startup work, make to have electronic equipment handling stronger of wireless communication function, and simple to operation, very convenient.

Shown in Figure 3, a concrete application scenarios for disclosure embodiment, in figure, electronic equipment 10 is televisor, wireless terminal 20 is telepilot, when televisor powers on after power distribution network power-off again, or, after user closes the power button on televisor, because televisor is connected with power lead, so the second processor 2 just can power on, and carry out above-mentioned electronic equipment awakening method, when receive that wireless terminal 20 sends wake control signal up time, the second processor 2 can be controlled first processor 1 and starts and work, and avoided needing user to move to pressing near televisor physical button to enter the inconvenience that could receive wireless control signal after standby or start.

In Fig. 1 example shown embodiment, in order to realize wireless module 3, can start voluntarily the first system according to the first enabling signal and carry out work, need on wireless module 3, be provided with first memory (can be flash memory or other memory storage), and in first memory, store the executable file of the first system, like this when wireless module 3 receives after the first enabling signal, the executable file that can read the first system from first memory, then starts the first system.Yet conventionally wireless module 3 is without memory storage, thus if be provided with first memory on wireless module 3, will greatly increase the cost of wireless module, and then increase the cost of whole electronic equipment.In addition, for existing electronic equipment, poor compatibility.

For this reason, provide a kind of process flow diagram of electronic equipment awakening method in another exemplary embodiment of the disclosure, as shown in Figure 4, described method, for electronic equipment, comprises the following steps.

In step S201, obtain the first power on signal of described electronic equipment or the off signal of described first processor.

In step S202, according to described the first power on signal or described off signal, generate the second power on signal.

Described the second power on signal is used for controlling described wireless module and powers on.

In step S203, to described wireless module, send described the second power on signal.

In step S204, according to described the first power on signal or described off signal, generate the 3rd enabling signal.

The 3rd enabling signal is for controlling the subsystem of described first processor, control described first processor and utilize described subsystem to described wireless module, to send the executable file of described the first system, and control described first processor described subsystem out of service after the executable file that sends described the first system.For first processor, main system refers to system when first processor normally moves, the function of its support is many, the function that subsystem is supported is less, only can complete the executable file of the first system is sent to wireless module, adopting this design is to consider, when needing first processor to send the executable file of the first system, without first processor being started completely to (starting consuming time longer completely), and only do some simple initialization, consuming time short, for example: the bottom service system that subsystem is described first processor, first processor can be carried out fast when realizing the executable file that sends the first system like this.

In step S205, to described first processor, send described the 3rd enabling signal.

First processor starts subsystem according to the 3rd enabling signal, and first processor sends the executable file of the first system to wireless module, so that the executable file that after powering on, wireless module is carried out the first system is to realize startup the first system and to receive wireless control signal.

In step 206, obtain described wireless module and utilize the executable file of described the first system to start the wireless control signal receiving after the first system.

In step S207, according to described wireless control signal, generate the second enabling signal.

The second enabling signal is start and make described first processor control described wireless module startup second system for controlling the main system of described first processor.

In disclosure embodiment, this step S207 can comprise the following steps:

In a1, judge whether described wireless control signal is the wake-up signal setting in advance.

The wake-up signal setting in advance, it can be the wireless control signal of certain specific format, also can be for including the wireless control signal of customizing messages, it can also be wireless control signal certain specific format and that comprise customizing messages, like this when judgement wireless control signal, the form of the wireless control signal that can get by analysis, reception of wireless signals arrives, and the information in wireless control signal determines whether the wake-up signal setting in advance.

In the embodiment of the present application, step S207 can, in the interior execution of the second processor 2, also can always carry out at wireless module 3.When performing step S207 in wireless module 3, can in wireless module 3, set in advance the filtering rule of wireless control signal or first processor 1 can be sent to wireless module 3 under the effect of the 3rd enabling signal together with the executable file of filtering rule and the first system.

In a2, when described wireless control signal is the wake-up signal setting in advance, according to described wireless control signal, generate the second enabling signal.

In step S208, to described first processor, send described the second enabling signal.

When first processor receives after the second enabling signal, start main system and control wireless module startup second system.

In disclosure embodiment, the subsystem of first processor is compared with the main system of first processor, and the function of support is less, and energy consumption is lower.

Embodiment compares with Fig. 1 example shown, exemplary this electronic equipment awakening method providing of the disclosure, because the executable file of the first system of wireless module can send to wireless module when needed by first processor, so can utilize existing wireless module can realize, and the subsystem of first processor only just starts when the executable file of the first system sending to wireless module, and can automatic subsystem out of service after the executable file of the first system is sent completely, so when wireless module is intercepted wireless control signal for a long time, first processor can not produce too much power consumption.

In addition, after above-mentioned steps S204, if first processor 1 subsystem out of service voluntarily can also make by the mode of signal controlling the first processor 1 can automatic subsystem out of service after the executable file of the first system is sent completely.Referring in Fig. 3 shown in dotted line, this electronic equipment awakening method can also comprise the following steps:

In step S209, according to the transmitting time of described the 3rd enabling signal, generate stop signal.

Stop signal, for after described first processor sends the executable file of described the first system, is controlled described first processor described subsystem out of service.

In disclosure embodiment, in order to realize the function of stop signal, after can postponing Preset Time after the transmitting time of the 3rd enabling signal, generate stop signal, Preset Time can be greater than first processor 1 and the executable file of the first system is transferred to the time of wireless module 3.

In step S210, to described first processor, send described stop signal.

Because first processor is when receiving stop signal, the executable file of the first system is sent, so when follow-up wireless module is intercepted wireless control signal for a long time, first processor can not produce too much power consumption.

Fig. 5 is according to a kind of electronic equipment Rouser schematic diagram shown in an exemplary embodiment, as shown in Figure 5, described electronic equipment Rouser comprises: first signal acquiring unit 21, the first enabling signal generation unit 22, the first enabling signal transmitting element 23, secondary signal acquiring unit 24, the second enabling signal generation unit 25 and the second enabling signal transmitting element 26.

This first signal acquiring unit 21 is configured to obtain the first power on signal of described electronic equipment or the off signal of described first processor.

This first enabling signal generation unit 22 is configured to generate the first enabling signal according to described the first power on signal or described off signal, and described the first enabling signal is used for controlling wireless module and starts the first system.

This first enabling signal transmitting element 23 is configured to send described the first enabling signal to the wireless module in described electronic equipment.

This secondary signal acquiring unit 24 is configured to obtain the wireless control signal that described wireless module utilizes described the first system to receive.

This second enabling signal generation unit 25 is configured to generate the second enabling signal according to described wireless control signal, and described the second enabling signal starts and makes described first processor control described wireless module startup second system for controlling the main system of described first processor.The form of the wireless control signal that described wireless module receives under described the first system and second system is not identical.

This second enabling signal transmitting element 26 is configured to send described the second enabling signal to described first processor

In another exemplary embodiment of the disclosure, described electronic equipment Rouser can also comprise: power on signal generation unit, power on signal transmitting element, the 3rd enabling signal generation unit and the 3rd enabling signal transmitting element.

This power on signal generation unit is configured to generate the second power on signal according to described the first power on signal or described off signal, and described the second power on signal is used for controlling described wireless module and powers on.

This power on signal transmitting element is configured to send described the second power on signal to described wireless module.

The 3rd enabling signal generation unit is configured to generate the 3rd enabling signal according to described the first power on signal or described off signal.

The 3rd enabling signal transmitting element is configured to send described the 3rd enabling signal to described first processor, described the 3rd enabling signal, for controlling the startup subsystem of described first processor, is controlled described first processor and is utilized described subsystem to described wireless module, to send the executable file of described the first system.

In another exemplary embodiment of the disclosure, described electronic equipment Rouser can also comprise: stop signal generation unit and stop signal transmitting element.

This stop signal generation unit is configured to generate stop signal according to the transmitting time of described the 3rd enabling signal.

This stop signal transmitting element is configured to send described stop signal to described first processor, described stop signal, for after described first processor sends the executable file of described the first system, is controlled described first processor described subsystem out of service.

In another exemplary embodiment of the disclosure, described electronic equipment Rouser can also comprise: wireless control signal judging unit.

This wireless control signal judging unit is configured to judge whether described wireless control signal is the wake-up signal setting in advance; When described wireless control signal is the wake-up signal setting in advance, described the second enabling signal generation unit generates the second enabling signal according to described wireless control signal.

In the disclosure one exemplary embodiment, also provide a kind of electronic equipment, shown in Figure 2, described electronic equipment comprises: first processor 1, the second processor 2 and wireless module 3.

Described first processor 1 is as the primary processor of described electronic equipment, described the second processor 2 as described electronic equipment from processor;

Described first processor 1 is connected with described wireless module 3 by data line;

The first output terminal of described the second processor 2 is connected with the Reset pin of described first processor 1, the second output terminal of described the second processor 2 is connected with the Reset pin of described wireless module 3, the power input of described second first input end of processor 2 and the power supply of described electronic equipment, described first processor 1 is connected, and the second input end of described the second processor 2 is connected with an output terminal of described wireless module 3;

Described the second processor 2 comprises: the first sub-processor, wherein,

Described the first sub-processor is for obtaining the first power on signal of power supply or the off signal of described first processor 1 of described electronic equipment; According to described the first power on signal or described off signal, generate the first enabling signal; To described wireless module 3, send described the first enabling signal, described the first enabling signal is used for controlling wireless module 3 and starts the first system; Obtain the wireless control signal that described wireless module 3 utilizes described the first system to receive; According to described wireless control signal, generate the second enabling signal, described the second enabling signal starts and makes described first processor 1 control described wireless module 3 startup second systems for controlling the main system of described first processor 1; To described first processor 1, send described the second enabling signal.

In another exemplary embodiment of the disclosure, described electronic equipment can also comprise: first memory, wherein, described first memory is connected with described wireless module, and in described first memory, stores the executable file of described the first system.

In another exemplary embodiment of the disclosure, in described first processor, store the executable file of described the first system, described the second processor also comprises: the second sub-processor.

Described the second sub-processor is for generating the second power on signal according to described the first power on signal or described off signal, and described the second power on signal is used for controlling described wireless module and powers on; According to described the first power on signal or described off signal, generate the 3rd enabling signal; To described first processor, send described the 3rd enabling signal, described the 3rd enabling signal, for controlling the subsystem of described first processor, is controlled described first processor and is utilized described subsystem to described wireless module, to send the executable file of described the first system.

In the another exemplary embodiment of the disclosure, described the second processor can also comprise: the 3rd sub-processor.

Described the 3rd sub-processor is for generating stop signal according to the transmitting time of described the 3rd enabling signal; To described first processor, send described stop signal, described stop signal, for after described first processor sends the executable file of described the first system, is controlled described first processor described subsystem out of service.

About the device in above-described embodiment, wherein the concrete mode of modules executable operations have been described in detail in the embodiment of relevant the method, will not elaborate explanation herein.

Fig. 6 is according to the block diagram of a kind of terminal of waking up for electronic equipment 800 shown in an exemplary embodiment.For example, terminal 800 can be mobile phone, computing machine, digital broadcast terminal, information receiving and transmitting equipment, game console, flat-panel devices, Medical Devices, body-building equipment, personal digital assistant etc.

With reference to Fig. 6, terminal 800 can comprise following one or more assembly: processing components 802, storer 804, power supply module 806, multimedia groupware 808, audio-frequency assembly 810, the interface 812 of I/O (I/O), sensor module 814, and communications component 816.

The integrated operation of processing components 802 common control terminals 800, such as with demonstration, call, data communication, the operation that camera operation and record operation are associated.Processing components 802 can comprise that one or more processors 820 carry out instruction, to complete all or part of step of above-mentioned method.In addition, processing components 802 can comprise one or more modules, is convenient to mutual between processing components 802 and other assemblies.For example, processing components 802 can comprise multi-media module, to facilitate mutual between multimedia groupware 808 and processing components 802.

Storer 804 is configured to store various types of data to be supported in the operation of equipment 800.The example of these data comprises for any application program of operation in terminal 800 or the instruction of method, contact data, telephone book data, message, picture, video etc.Storer 804 can be realized by the volatibility of any type or non-volatile memory device or their combination, as static RAM (SRAM), Electrically Erasable Read Only Memory (EEPROM), Erasable Programmable Read Only Memory EPROM (EPROM), programmable read-only memory (prom), ROM (read-only memory) (ROM), magnetic store, flash memory, disk or CD.

The various assemblies that power supply module 806 is terminal 800 provide electric power.Power supply module 806 can comprise power-supply management system, one or more power supplys, and other and the assembly that generates, manages and distribute electric power to be associated for terminal 800.

Multimedia groupware 808 is included in the screen that an output interface is provided between described terminal 800 and user.In certain embodiments, screen can comprise liquid crystal display (LCD) and touch panel (TP).If screen comprises touch panel, screen may be implemented as touch-screen, to receive the input signal from user.Touch panel comprises that one or more touch sensors are with the gesture on sensing touch, slip and touch panel.Described touch sensor is the border of sensing touch or sliding action not only, but also detects duration and the pressure relevant to described touch or slide.In certain embodiments, multimedia groupware 808 comprises a front-facing camera and/or post-positioned pick-up head.When equipment 800 is in operator scheme, during as screening-mode or video mode, front-facing camera and/or post-positioned pick-up head can receive outside multi-medium data.Each front-facing camera and post-positioned pick-up head can be fixing optical lens systems or have focal length and optical zoom ability.

Audio-frequency assembly 810 is configured to output and/or input audio signal.For example, audio-frequency assembly 810 comprises a microphone (MIC), and when terminal 800 is in operator scheme, during as call model, logging mode and speech recognition mode, microphone is configured to receive external audio signal.The sound signal receiving can be further stored in storer 804 or be sent via communications component 816.In certain embodiments, audio-frequency assembly 810 also comprises a loudspeaker, for output audio signal.

I/O interface 812 is for providing interface between processing components 802 and peripheral interface module, and above-mentioned peripheral interface module can be keyboard, some striking wheel, button etc.These buttons can include but not limited to: home button, volume button, start button and locking press button.

Sensor module 814 comprises one or more sensors, is used to terminal 800 that the state estimation of various aspects is provided.For example, sensor module 814 can detect the opening/closing state of equipment 800, the relative positioning of assembly, for example described assembly is display and the keypad of terminal 800, the position of all right sense terminals 800 of sensor module 814 or 800 1 assemblies of terminal changes, the existence that user contacts with terminal 800 or do not have the temperature variation of terminal 800 orientation or acceleration/deceleration and terminal 800.Sensor module 814 can comprise proximity transducer, be configured to without any physical contact time detect near the existence of object.Sensor module 814 can also comprise optical sensor, as CMOS or ccd image sensor, for using in imaging applications.In certain embodiments, this sensor module 814 can also comprise acceleration transducer, gyro sensor, Magnetic Sensor, pressure transducer or temperature sensor.

Communications component 816 is configured to be convenient to the communication of wired or wireless mode between terminal 800 and other equipment.Terminal 800 can access the wireless network based on communication standard, as WiFi, and 2G or 3G, or their combination.In one exemplary embodiment, communications component 816 receives broadcast singal or the broadcast related information from external broadcasting management system via broadcast channel.In one exemplary embodiment, described communications component 816 also comprises near-field communication (NFC) module, to promote junction service.For example, can be based on radio-frequency (RF) identification (RFID) technology in NFC module, Infrared Data Association (IrDA) technology, ultra broadband (UWB) technology, bluetooth (BT) technology and other technologies realize.

In the exemplary embodiment, terminal 800 can be realized by one or more application specific integrated circuit (ASIC), digital signal processor (DSP), digital signal processing appts (DSPD), programmable logic device (PLD) (PLD), field programmable gate array (FPGA), controller, microcontroller, microprocessor or other electronic components, for carrying out said method.

In the exemplary embodiment, also provide a kind of non-provisional computer-readable recording medium that comprises instruction, for example, comprised the storer 804 of instruction, above-mentioned instruction can have been carried out said method by the processor 820 of terminal 800.For example, described non-provisional computer-readable recording medium can be ROM, random-access memory (ram), CD-ROM, tape, floppy disk and optical data storage equipment etc.

A non-provisional computer-readable recording medium, when the instruction in described storage medium is carried out by the processor of mobile terminal, makes mobile terminal can carry out a kind of control method of electronic device, and described method comprises:

Obtain the first power on signal of described electronic equipment or the off signal of described first processor;

According to described the first power on signal or described off signal, generate the first enabling signal, described the first enabling signal is used for controlling wireless module and starts the first system;

Wireless module in described electronic equipment sends described the first enabling signal;

Obtaining described wireless module utilizes described the first enabling signal to start the wireless control signal receiving after the first system;

According to described wireless control signal, generate the second enabling signal, described the second enabling signal starts and makes described first processor control described wireless module startup second system for controlling the main system of described first processor;

To described first processor, send described the second enabling signal.

Those skilled in the art, considering instructions and putting into practice after invention disclosed herein, will easily expect other embodiment of the present invention.The application is intended to contain any modification of the present invention, purposes or adaptations, and these modification, purposes or adaptations are followed general principle of the present invention and comprised undocumented common practise or the conventional techniques means in the art of the disclosure.Instructions and embodiment are only regarded as exemplary, and true scope of the present invention and spirit are pointed out by claim below.

Should be understood that, the present invention is not limited to precision architecture described above and illustrated in the accompanying drawings, and can carry out various modifications and change not departing from its scope.Scope of the present invention is only limited by appended claim.

Claims (16)

1. an electronic equipment Rouser, for waking the first processor of electronic equipment up, is characterized in that, described device comprises:

First signal acquiring unit, for obtaining the first power on signal of described electronic equipment or the off signal of described first processor;

The first enabling signal generation unit, for generating the first enabling signal according to described the first power on signal or described off signal, described the first enabling signal is used for controlling wireless module and starts the first system;

The first enabling signal transmitting element, sends described the first enabling signal for the wireless module to described electronic equipment;

Secondary signal acquiring unit, the wireless control signal that utilizes described the first system to receive for obtaining described wireless module;

The second enabling signal generation unit, for generating the second enabling signal according to described wireless control signal, described the second enabling signal starts and makes described first processor control described wireless module startup second system for controlling the main system of described first processor;

The second enabling signal transmitting element, for sending described the second enabling signal to described first processor.

2. device according to claim 1, is characterized in that, described device also comprises:

Power on signal generation unit, for generating the second power on signal according to described the first power on signal or described off signal, described the second power on signal is used for controlling described wireless module and powers on;

Power on signal transmitting element, for sending described the second power on signal to described wireless module;

The 3rd enabling signal generation unit, for generating the 3rd enabling signal according to described the first power on signal or described off signal, described the 3rd enabling signal, for controlling the startup subsystem of described first processor, is controlled described first processor and is utilized described subsystem to described wireless module, to send the executable file of described the first system;

The 3rd enabling signal transmitting element, for sending described the 3rd enabling signal to described first processor.

3. device according to claim 2, is characterized in that, described device also comprises:

Stop signal generation unit, for generating stop signal according to the transmitting time of described the 3rd enabling signal, described stop signal, for after described first processor sends the executable file of described the first system, is controlled described first processor described subsystem out of service;

Stop signal transmitting element, for sending described stop signal to described first processor.

4. according to the device described in claim 1 or 2 or 3, it is characterized in that, described device also comprises:

Wireless control signal judging unit, for judging whether described wireless control signal is the wake-up signal setting in advance;

When described wireless control signal is the wake-up signal setting in advance, described the second enabling signal generation unit generates the second enabling signal according to described wireless control signal.

5. according to the device described in claim 2 or 3, it is characterized in that, the form of the wireless control signal that described wireless module receives under described the first system and second system is not identical.

6. according to the device described in claim 2 or 3, it is characterized in that the bottom service system that the subsystem of described first processor is described first processor.

7. an electronic equipment, is characterized in that, comprising: first processor, the second processor and wireless module, wherein,

Described first processor is as the primary processor of described electronic equipment, described the second processor as described electronic equipment from processor;

Described first processor is connected with described wireless module by data line;

The first output terminal of described the second processor is connected with the reset Reset pin of described first processor, the second output terminal of described the second processor is connected with the Reset pin of described wireless module, the first input end of described the second processor is connected with the power input of the power supply of described electronic equipment, described first processor, and the second input end of described the second processor is connected with an output terminal of described wireless module;

Described the second processor comprises: the first sub-processor, wherein,

Described the first sub-processor is for obtaining first power on signal of power supply of described electronic equipment or the off signal of described first processor; According to described the first power on signal or described off signal, generate the first enabling signal; To described wireless module, send described the first enabling signal, described the first enabling signal is used for controlling wireless module and starts the first system; Obtain the wireless control signal that described wireless module utilizes described the first system to receive; According to described wireless control signal, generate the second enabling signal, described the second enabling signal starts and makes described first processor control described wireless module startup second system for controlling the main system of described first processor; To described first processor, send described the second enabling signal.

8. electronic equipment according to claim 7, is characterized in that, described electronic equipment also comprises: first memory, wherein,

Described first memory is connected with described wireless module, and in described first memory, stores the executable file of described the first system.

9. electronic equipment according to claim 7, is characterized in that, stores the executable file of described the first system in described first processor,

Described the second processor also comprises: the second sub-processor, wherein,

Described the second sub-processor, for generating the second power on signal according to described the first power on signal or described off signal, sends described the second power on signal to described wireless module, and described the second power on signal is used for controlling described wireless module and powers on; According to described the first power on signal or described off signal, generate the 3rd enabling signal; To described first processor, send described the 3rd enabling signal, described the 3rd enabling signal, for controlling the subsystem of described first processor, is controlled described first processor and is utilized described subsystem to described wireless module, to send the executable file of described the first system.

10. electronic equipment according to claim 9, is characterized in that, described the second processor also comprises: the 3rd sub-processor, wherein,

Described the 3rd sub-processor is for generating stop signal according to the transmitting time of described the 3rd enabling signal; To described first processor, send described stop signal, described stop signal, for after described first processor sends the executable file of described the first system, is controlled described first processor described subsystem out of service.

11. 1 kinds of electronic equipment awakening methods, for waking the first processor of electronic equipment up, is characterized in that, described method comprises:

Obtain the first power on signal of described electronic equipment or the off signal of described first processor;

According to described the first power on signal or described off signal, generate the first enabling signal, described the first enabling signal is used for controlling wireless module and starts the first system;

Wireless module in described electronic equipment sends described the first enabling signal;

Obtaining described wireless module utilizes described the first enabling signal to start the wireless control signal receiving after the first system;

According to described wireless control signal, generate the second enabling signal, described the second enabling signal starts and makes described first processor control described wireless module startup second system for controlling the main system of described first processor;

To described first processor, send described the second enabling signal.

12. methods according to claim 11, is characterized in that, described method also comprises:

According to described the first power on signal or described off signal, generate the second power on signal, described the second power on signal is used for controlling described wireless module and powers on;

To described wireless module, send described the second power on signal;

According to described the first power on signal or described off signal, generate the 3rd enabling signal, described the 3rd enabling signal is for controlling the subsystem of described first processor, control described first processor and utilize described subsystem to described wireless module, to send the executable file of described the first system, and control described first processor described subsystem out of service after the executable file that sends described the first system;

To described first processor, send described the 3rd enabling signal.

13. methods according to claim 12, is characterized in that, described method also comprises:

According to the transmitting time of described the 3rd enabling signal, generate stop signal, described stop signal, for after described first processor sends the executable file of described the first system, is controlled described first processor described subsystem out of service;

To described first processor, send described stop signal.

14. methods according to claim 13, is characterized in that, the described transmitting time according to described the 3rd enabling signal generates stop signal, comprising:

Postpone Preset Time after the transmitting time of described the 3rd enabling signal after, generate stop signal.

15. according to the method described in claim 11,12,13 or 14, it is characterized in that, according to described wireless control signal, generates the second enabling signal, comprising:

Judge whether described wireless control signal is the wake-up signal setting in advance;

When described wireless control signal is the wake-up signal setting in advance, according to described wireless control signal, generate the second enabling signal.

16. 1 kinds of terminals, for waking the first processor of electronic equipment up, is characterized in that, comprising:

The second processor;

For storing the second memory of the second processor executable;

Wherein, described the second processor is configured to:

Obtain the first power on signal of described electronic equipment or the off signal of described first processor;

According to described the first power on signal or described off signal, generate the first enabling signal;

Wireless module in described electronic equipment sends described the first enabling signal, and described the first enabling signal is used for controlling wireless module and starts the first system;

Obtain the wireless control signal that described wireless module utilizes described the first system to receive;

According to described wireless control signal, generate the second enabling signal, described the second enabling signal starts and makes described first processor control described wireless module startup second system for controlling the main system of described first processor;

To described first processor, send described the second enabling signal.