CN110493139A - The method of adjustment and adjustment device, electronic equipment of electronic device works mode - Google Patents
The method of adjustment and adjustment device, electronic equipment of electronic device works mode Download PDFInfo
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- CN110493139A CN110493139A CN201910761899.1A CN201910761899A CN110493139A CN 110493139 A CN110493139 A CN 110493139A CN 201910761899 A CN201910761899 A CN 201910761899A CN 110493139 A CN110493139 A CN 110493139A
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- 238000004891 communication Methods 0.000 abstract description 7
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/0001—Systems modifying transmission characteristics according to link quality, e.g. power backoff
- H04L1/0002—Systems modifying transmission characteristics according to link quality, e.g. power backoff by adapting the transmission rate
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/0001—Systems modifying transmission characteristics according to link quality, e.g. power backoff
- H04L1/0015—Systems modifying transmission characteristics according to link quality, e.g. power backoff characterised by the adaptation strategy
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L47/00—Traffic control in data switching networks
- H04L47/10—Flow control; Congestion control
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D30/00—Reducing energy consumption in communication networks
- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
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Abstract
The present invention discloses the method for adjustment of a kind of electronic equipment operating mode, and the method for adjustment includes: the carrier-wave transmission data for detecting carrier wave and confirmly detecting;Full speed operation mode is opened in the carrier wave frequency range locating for the frequency of the carrier wave of transmission data.Invention additionally discloses the adjustment device of a kind of electronic equipment operating mode, the adjustment device includes: carrier wave determination unit, the carrier-wave transmission data for detecting carrier wave and confirmly detecting;Working mode change unit, for opening full speed operation mode in the carrier wave frequency range locating for the frequency for transmitting the carrier wave of data.The present invention is by opening full speed operation mode in carrier wave frequency range locating for the carrier wave in transmission data, to improve the communication efficiency of the carrier wave of transmission data.
Description
Technical field
The invention belongs to fields of communication technology, in particular, be related to a kind of electronic equipment operating mode method of adjustment and
Adjust device, electronic equipment.
Background technique
In the communication technology, carrier wave (carrier wave, carrier signal or carrier) is generated by oscillator
And the electric wave transmitted on communication channel, it is used to transmit voice or other information after being modulated.Carrier frequency is usually believed than input
Number frequency it is high, belong to high-frequency signal, input signal is modulated on a high frequency carrier, just looks like to have taken a column high-speed rail or one
Airplane is the same, is then launched and receives again.Therefore, carrier wave is physical basis and the carrying for transmitting information (speech and data)
Tool.
Carrier wave polymerization is the key technology in LTE-A (LTE-Advanced, Long Term Evolution upgrade version).In order to meet
The requirement that single user peak rate and power system capacity are promoted, a kind of most direct method are exactly to increase system transmission bandwidth.Therefore
LTE-Advanced system introduces the technology of an increase transmission bandwidth, that is, CA (Carrier Aggregation, carrier wave
Polymerization).CA technology can condense together 2~5 LTE member carriers (Component Carrier, CC), realize maximum
The transmission bandwidth of 100MHz effectively increases downstream transmission rate.
Currently, electronic equipment when using said carrier polymerization technique, does not transmit for the carrier wave for transmitting data and data
Carrier wave be on operating mode it is indiscriminate, i.e., to transmission data carrier wave and do not transmit data carrier wave match it is identical
Operating mode, and the communication efficiency that this is unfavorable for improving the carrier wave of transmission data.
Summary of the invention
In order to solve above-mentioned technical problem of the existing technology, the purpose of the present invention is to provide one kind can be to transmission
The carrier wave of data and the carrier wave for not transmitting data match the method for adjustment of the electronic device works mode of different working modes respectively
And adjustment device, electronic equipment.
On the one hand, the embodiment provides the method for adjustment of a kind of electronic equipment operating mode, the adjustment sides
Method includes: the carrier-wave transmission data for detecting carrier wave and confirmly detecting;The carrier wave locating for the frequency of the carrier wave of transmission data
Full speed operation mode is opened in frequency range.
Optionally, the operating mode method of adjustment further include: detect carrier wave and the carrier wave confirmly detected does not transmit
Data;Power-saving working mode is opened in the carrier wave frequency range locating for the frequency for not transmitting the carrier wave of data.
Optionally, detect carrier wave and the carrier wave that confirmly detects not transmit the specific method of data include: according to first
Signal detection is controlled to carrier wave;The low level signal generated based on the carrier wave detected is determined according to second control signal, thus
The carrier wave confirmly detected does not transmit data.
Optionally, the specific method for the carrier-wave transmission data for detecting carrier wave and confirmly detecting includes: according to the first control
Signal detection processed is to carrier wave;The high level signal generated based on the carrier wave detected is determined according to second control signal, thus really
The carrier-wave transmission data that regular inspection measures.
On the other hand, the embodiments of the present invention also provide the adjustment device of a kind of electronic equipment operating mode, the tune
Engagement positions include: carrier wave determination unit, the carrier-wave transmission data for detecting carrier wave and confirmly detecting;Working mode change
Unit, for opening full speed operation mode in the carrier wave frequency range locating for the frequency for transmitting the carrier wave of data.
Optionally, the carrier wave determination unit is also used to detect carrier wave and the carrier wave confirmly detected does not transmit data;
The working mode change unit, which is also used to open in the carrier wave frequency range locating for the frequency for not transmitting the carrier wave of data, saves electrician
Operation mode.
Optionally, the carrier wave determination unit includes: switch, switch control module, carrier detection module and determines mould
Block;Wherein, the switch under the control for the first control signal that the switch control module provides for opening or being closed;
The carrier detection module is for detecting carrier wave in the case where described close the switch;The determining module is used in the second control
The high level signal generated based on the carrier wave detected is determined under the control of signal processed, so that it is determined that the carrier-wave transmission number detected
According to.
Optionally, the determining module is generated for determining under the control of second control signal based on the carrier wave detected
Low level signal, so that it is determined that the carrier wave detected does not transmit data.
In another aspect, being stored with electronics on the storage medium the embodiments of the present invention also provide a kind of storage medium
Realize that electronics is set when the adjustment programme of the adjustment programme of equipment operating mode, the electronic device works mode is executed by processor
The method of adjustment of standby operating mode, the method for adjustment includes: the carrier-wave transmission data for detecting carrier wave and confirmly detecting;In
It transmits and opens full speed operation mode in carrier wave frequency range locating for the frequency of the carrier wave of data.
Another aspect, the embodiment of the present invention provide a kind of electronic equipment again, and the electronic equipment includes memory, place
Reason device and the adjustment programme for storing the electronic device works mode that can be run on a memory and on a processor, the electronics are set
The adjustment programme of standby operating mode realizes the method for adjustment of electronic device works mode, the method for adjustment when being executed by processor
It include: the carrier-wave transmission data for detecting carrier wave and confirmly detecting;The carrier frequency locating for the frequency of the carrier wave of transmission data
Full speed operation mode is opened in section.
Beneficial effects of the present invention: the present invention is by opening full speed work in carrier wave frequency range locating for the carrier wave in transmission data
Operation mode, to improve the communication efficiency of the carrier wave of transmission data.
Detailed description of the invention
What is carried out in conjunction with the accompanying drawings is described below, above and other aspect, features and advantages of the embodiment of the present invention
It will become clearer, in attached drawing:
Fig. 1 is the flow chart of the method for adjustment of the electronic device works mode of embodiment according to the present invention;
Fig. 2 is the specific side of the carrier-wave transmission data for detecting carrier wave and confirmly detecting of embodiment according to the present invention
Method flow chart;
Fig. 3 is the flow chart of the method for adjustment of electronic device works mode according to another embodiment of the present invention;
Fig. 4 is whether the carrier wave for detecting carrier wave and confirmly detecting according to another embodiment of the present invention transmits data
Specific method flow chart;
Fig. 5 is the schematic diagram of the adjustment device of the electronic device works mode of embodiment according to the present invention;
Fig. 6 is the circuit framework figure of the carrier wave determination unit of embodiment according to the present invention;
Fig. 7 is the structural schematic diagram of the electronic equipment of embodiment according to the present invention.
Specific embodiment
Hereinafter, with reference to the accompanying drawings to detailed description of the present invention specific embodiment.However, it is possible in many different forms
Implement the present invention, and the present invention should not be construed as limited to the specific embodiment illustrated here.On the contrary, providing these
Embodiment is in order to explain the principle of the present invention and its practical application, to make others skilled in the art it will be appreciated that originally
The various embodiments of invention and the various modifications for being suitable for specific intended application.
Fig. 1 is the flow chart of the method for adjustment of the electronic device works mode of embodiment according to the present invention.
Referring to Fig.1, the method for adjustment of the electronic device works mode of embodiment according to the present invention include step S110 and
Step S120.
Specifically, in step s 110, the carrier-wave transmission data for detecting carrier wave and confirmly detecting.
Here, to the detection of carrier wave and whether transmit the determinations of data and be described in detail.Fig. 2 is according to the present invention
The specific method flow chart of the carrier-wave transmission data for detecting carrier wave and confirmly detecting of embodiment.Referring to Fig. 2, according to this hair
The specific method of the carrier-wave transmission data for detecting carrier wave and confirmly detecting of bright embodiment includes step S210 and step
S220。
In step S210, carrier wave is detected according to the control of first control signal.
In step S220, the high level signal generated based on the carrier wave detected is determined according to second control signal, with
The carrier-wave transmission data confirmly detected.
It to be also described in detail below for the specific implementation of step S210 and step S220.
With continued reference to Fig. 1, in the step s 120, opened in the carrier wave frequency range locating for the frequency of the carrier wave of transmission data complete
Fast operating mode.
Here, the function that full speed operation mode is realized is: when the carrier frequency locating for the frequency for transmitting the carrier wave of data
When opening full speed operation mode in section, all specific sending and receiving data in the carrier wave frequency range (such as data class, size of data
Deng) can be detected.In general, can realize full speed work by the way that register relevant to the carrier wave frequency range is arranged
The unlatching of operation mode.
Therefore, the present embodiment is by opening full speed operation mode in carrier wave frequency range locating for the carrier wave in transmission data, from
And improve the communication efficiency of the carrier wave of transmission data.
Fig. 3 is the flow chart of the method for adjustment of electronic device works mode according to another embodiment of the present invention.
Referring to Fig. 3, the method for adjustment of electronic device works mode according to another embodiment of the present invention includes step
S310, step S320, step S330 and step S340.
Referring to Fig. 3, the method for adjustment of electronic device works mode according to another embodiment of the present invention includes step
S310, step S320 and step S330.
Specifically, in step s310, it detects carrier wave and whether the carrier wave confirmly detected transmits data.
Here, to the detection of carrier wave and whether transmit the determinations of data and be described in detail.Fig. 4 is according to the present invention
Whether the carrier wave for detecting carrier wave and confirmly detecting of another embodiment transmits the specific method flow chart of data.Reference Fig. 4,
The specific method whether carrier wave for detecting carrier wave and confirmly detecting of embodiment according to the present invention transmits data includes step
Rapid S410, step S420, step S430 and step S440.
In step S410, carrier wave is detected according to the control of first control signal.
In the step s 420, determine that the level signal generated based on the carrier wave detected is high electricity according to second control signal
Ordinary mail number or low level signal.
It in step S430, (is represented in Fig. 4 if it is high level signal as height), it is determined that the carrier-wave transmission number detected
According to.
In step S440, if it is low level signal (it is low for being represented in Fig. 4), it is determined that the carrier wave detected does not transmit
Data.
It also to be carried out below for the specific implementation of step S410, step S420, step S430 and step S440
Detailed description.
With continued reference to Fig. 3, in step s 320, if it is, the carrier frequency locating for the frequency of the carrier wave of transmission data
Full speed operation mode is opened in section.The function of full speed operation mode please refers to foregoing description, and details are not described herein.
In step S330, saved if it is not, then being opened in the carrier wave frequency range locating for the frequency for not transmitting the carrier wave of data
Electrician's operation mode.
Here, the function that power-saving working mode is realized is: when the carrier wave locating for the frequency for not transmitting the carrier wave of data
When opening power-saving working mode in frequency range, data or no data, specific sending and receiving data can only have been detected in the carrier wave frequency range
(such as data class, size of data etc.) can not be then detected.In general, relevant to the carrier wave frequency range by being arranged
Register can realize the unlatching of power-saving working mode.
Therefore, the present embodiment is difference on operating mode for the carrier wave for transmitting data and the carrier wave for not transmitting data
With different operating modes, i.e., full speed operation mode is opened in the carrier wave frequency range locating for the carrier wave of transmission data, and not passed
Power-saving working mode is opened in carrier wave frequency range locating for the carrier wave of transmission of data, to be conducive to improve the logical of the carrier wave of transmission data
Believe efficiency.
Fig. 5 is the schematic diagram of the adjustment device of the electronic device works mode of embodiment according to the present invention.
Referring to Fig. 5, the adjustment device of the electronic device works mode of embodiment according to the present invention includes that carrier wave determines list
Member 510 and working mode change unit 520.
As one embodiment of the present invention, carrier wave determination unit 510 is only configured to detect carrier wave and determines detection
The carrier-wave transmission data arrived.As another embodiment of the present invention, carrier wave determination unit 510 can be additionally configured to detect
Carrier wave and whether the carrier wave confirmly detected transmits data.Certainly, both embodiments can be real by same circuit framework
It is existing, it will be described in detail below to according to the circuit structure of carrier wave determination unit 510.
Fig. 6 is the circuit framework figure of the carrier wave determination unit of embodiment according to the present invention.In Fig. 6, illustratively retouch
9 carrier detection modules are stated, but the present invention is not restricted to this.
Referring to Fig. 6, the carrier wave determination unit 510 of embodiment according to the present invention includes: switch C1~C3, switch control mould
Block 511, carrier detection module W1~W9 and determining module 512.
Wherein, switch control module 511 includes signal output end GPIO_A1, GPIO_A2 and GPIO_A3.Signal output end
GPIO_A1 exports first control signal to switch C1, is closed or is opened with control switch C1.Signal output end GPIO_A2 to
Switch C2 exports first control signal, is closed or is opened with control switch C2.Signal output end GPIO_A3 is exported to switch C3
First control signal is closed or is opened with control switch C3.
Determining module 512 includes signal detection end GPIO_B1, GPIO_B2 and GPIO_B3.Here, signal detection end
GPIO_B1, GPIO_B2 and GPIO_B3 are configured to the signal detection end with signal Trigger Function, and are the failing edge of signal
Triggering.
Carrier detection module W1 is connected respectively to switch C1 and signal detection end GPIO_B1.Carrier detection module W4 difference
It is connected to switch C1 and signal detection end GPIO_B2.Carrier detection module W7 is connected respectively to switch C1 and signal detection end
GPIO_B3。
Carrier detection module W2 is connected respectively to switch C2 and signal detection end GPIO_B1.Carrier detection module W5 difference
It is connected to switch C2 and signal detection end GPIO_B2.Carrier detection module W8 is connected respectively to switch C2 and signal detection end
GPIO_B3。
Carrier detection module W3 is connected respectively to switch C3 and signal detection end GPIO_B1.Carrier detection module W6 difference
It is connected to switch C3 and signal detection end GPIO_B2.Carrier detection module W9 is connected respectively to switch C3 and signal detection end
GPIO_B3。
When switch C1 is closed under the control of first control signal, signal detection end GPIO_B1, GPIO_B2 and GPIO_
(the control of the failing edge of second control signal under control of at least one of the B3 according to second control signal (externally input)
Under) detection based on carrier detection module W1 and/or carrier detection module W4 and/or carrier detection module W7 detect carrier wave generate
Signal be high level signal or low level signal, so that it is determined that the carrier wave detected whether sending and receiving data.
Here, such as signal detection end GPIO_B1, GPIO_B2 and GPIO_B3 are in second control signal (external input
) failing edge control under detected respectively based on carrier detection module W1, carrier detection module W4 and carrier detection module
The signal that W7 detects that carrier wave generates is high level signal, so that it is determined that carrier detection module W1, carrier detection module W4 and load
The equal sending and receiving data of carrier wave that wave detection module W7 is detected respectively.
It is of course also possible to be that part signal test side is controlled by the failing edge of second control signal, and part signal detects
End is not controlled by the failing edge of second control signal.For example, signal detection end GPIO_B1 and GPIO_B2 is in the second control letter
It is detected respectively under the control of the failing edge of number (externally input) based on carrier detection module W1 and carrier detection module W4 inspection
The signal for measuring carrier wave generation is high level signal, so that it is determined that carrier detection module W1 and carrier detection module W4 are detected respectively
The equal sending and receiving data of the carrier wave arrived.And signal detection end GPIO_B3 is not controlled by the failing edge of second control signal, therefore signal
Test side GPIO_B3 does not work.
In addition, signal detection end GPIO_B1, GPIO_B2 and GPIO_B3 are in second control signal (externally input)
It detects under the control of failing edge and is detected based on carrier detection module W1, carrier detection module W4 and carrier detection module W7 respectively
The signal generated to carrier wave is low level signal, so that it is determined that carrier detection module W1, carrier detection module W4 and carrier wave detection
The non-sending and receiving data of the carrier wave that module W7 is detected respectively.As described above, being also possible to part signal test side by the second control
The failing edge of signal controls, and part signal test side is not controlled by the failing edge of second control signal.For example, signal detection
GPIO_B1 and GPIO_B2 is held to be detected respectively under the control of the failing edge of second control signal (externally input) based on load
The signal that wave detection module W1 and carrier detection module W4 detects that carrier wave generates is low level signal, so that it is determined that carrier wave detects
The non-sending and receiving data of the carrier wave that module W1 and carrier detection module W4 are detected respectively.And signal detection end GPIO_B3 not by
The failing edge of second control signal controls, therefore signal detection end GPIO_B3 does not work.
In addition, for example, signal detection end GPIO_B1 and GPIO_B2 are under second control signal (externally input)
The signal for detecting respectively under the control on edge and being detected carrier wave generation based on carrier detection module W1 and carrier detection module W4 is dropped
It is low level signal, so that it is determined that the carrier wave that carrier detection module W1 and carrier detection module W4 are detected respectively does not receive and dispatch number
According to;And signal detection end GPIO_B3 is detected under the control of the failing edge of second control signal (externally input) based on load
The signal that wave detection module W7 detects that carrier wave generates is high level signal, so that it is determined that the load that carrier detection module W7 is detected
Wave sending and receiving data.
When switch C2 is closed under the control of first control signal, signal detection end GPIO_B1, GPIO_B2 and GPIO_
(the control of the failing edge of second control signal under control of at least one of the B3 according to second control signal (externally input)
Under) detection based on carrier detection module W2 and/or carrier detection module W5 and/or carrier detection module W8 detect carrier wave generate
Signal be high level signal or low level signal, so that it is determined that the carrier wave detected whether sending and receiving data.
Here, such as signal detection end GPIO_B1, GPIO_B2 and GPIO_B3 are in second control signal (external input
) failing edge control under detected respectively based on carrier detection module W2, carrier detection module W5 and carrier detection module
The signal that W8 detects that carrier wave generates is high level signal, so that it is determined that carrier detection module W2, carrier detection module W5 and load
The equal sending and receiving data of carrier wave that wave detection module W8 is detected respectively.
It is of course also possible to be that part signal test side is controlled by the failing edge of second control signal, and part signal detects
End is not controlled by the failing edge of second control signal.For example, signal detection end GPIO_B1 and GPIO_B2 is in the second control letter
It is detected respectively under the control of the failing edge of number (externally input) based on carrier detection module W2 and carrier detection module W5 inspection
The signal for measuring carrier wave generation is high level signal, so that it is determined that carrier detection module W2 and carrier detection module W5 are detected respectively
The equal sending and receiving data of the carrier wave arrived.And signal detection end GPIO_B3 is not controlled by the failing edge of second control signal, therefore signal
Test side GPIO_B3 does not work.
In addition, signal detection end GPIO_B1, GPIO_B2 and GPIO_B3 are in second control signal (externally input)
It detects under the control of failing edge and is detected based on carrier detection module W2, carrier detection module W5 and carrier detection module W8 respectively
The signal generated to carrier wave is low level signal, so that it is determined that carrier detection module W2, carrier detection module W5 and carrier wave detection
The non-sending and receiving data of the carrier wave that module W8 is detected respectively.As described above, being also possible to part signal test side by the second control
The failing edge of signal controls, and part signal test side is not controlled by the failing edge of second control signal.For example, signal detection
GPIO_B1 and GPIO_B2 is held to be detected respectively under the control of the failing edge of second control signal (externally input) based on load
The signal that wave detection module W2 and carrier detection module W5 detects that carrier wave generates is low level signal, so that it is determined that carrier wave detects
The non-sending and receiving data of the carrier wave that module W2 and carrier detection module W5 are detected respectively.And signal detection end GPIO_B3 not by
The failing edge of second control signal controls, therefore signal detection end GPIO_B3 does not work.
In addition, for example, signal detection end GPIO_B1 and GPIO_B2 are under second control signal (externally input)
The signal for detecting respectively under the control on edge and being detected carrier wave generation based on carrier detection module W2 and carrier detection module W5 is dropped
It is low level signal, so that it is determined that the carrier wave that carrier detection module W2 and carrier detection module W5 are detected respectively does not receive and dispatch number
According to;And signal detection end GPIO_B3 is detected under the control of the failing edge of second control signal (externally input) based on load
The signal that wave detection module W8 detects that carrier wave generates is high level signal, so that it is determined that the load that carrier detection module W8 is detected
Wave sending and receiving data.
When switch C3 is closed under the control of first control signal, signal detection end GPIO_B1, GPIO_B2 and GPIO_
(the control of the failing edge of second control signal under control of at least one of the B3 according to second control signal (externally input)
Under) detection based on carrier detection module W3 and/or carrier detection module W6 and/or carrier detection module W9 detect carrier wave generate
Signal be high level signal or low level signal, so that it is determined that the carrier wave detected whether sending and receiving data.
Here, such as signal detection end GPIO_B1, GPIO_B2 and GPIO_B3 are in second control signal (external input
) failing edge control under detected respectively based on carrier detection module W3, carrier detection module W6 and carrier detection module
The signal that W9 detects that carrier wave generates is high level signal, so that it is determined that carrier detection module W3, carrier detection module W6 and load
The equal sending and receiving data of carrier wave that wave detection module W9 is detected respectively.
It is of course also possible to be that part signal test side is controlled by the failing edge of second control signal, and part signal detects
End is not controlled by the failing edge of second control signal.For example, signal detection end GPIO_B1 and GPIO_B2 is in the second control letter
It is detected respectively under the control of the failing edge of number (externally input) based on carrier detection module W3 and carrier detection module W6 inspection
The signal for measuring carrier wave generation is high level signal, so that it is determined that carrier detection module W3 and carrier detection module W6 are detected respectively
The equal sending and receiving data of the carrier wave arrived.And signal detection end GPIO_B3 is not controlled by the failing edge of second control signal, therefore signal
Test side GPIO_B3 does not work.
In addition, signal detection end GPIO_B1, GPIO_B2 and GPIO_B3 are in second control signal (externally input)
It detects under the control of failing edge and is detected based on carrier detection module W3, carrier detection module W6 and carrier detection module W9 respectively
The signal generated to carrier wave is low level signal, so that it is determined that carrier detection module W3, carrier detection module W6 and carrier wave detection
The non-sending and receiving data of the carrier wave that module W9 is detected respectively.As described above, being also possible to part signal test side by the second control
The failing edge of signal controls, and part signal test side is not controlled by the failing edge of second control signal.For example, signal detection
GPIO_B1 and GPIO_B2 is held to be detected respectively under the control of the failing edge of second control signal (externally input) based on load
The signal that wave detection module W3 and carrier detection module W6 detects that carrier wave generates is low level signal, so that it is determined that carrier wave detects
The non-sending and receiving data of the carrier wave that module W3 and carrier detection module W6 are detected respectively.And signal detection end GPIO_B3 not by
The failing edge of second control signal controls, therefore signal detection end GPIO_B3 does not work.
In addition, for example, signal detection end GPIO_B1 and GPIO_B2 are under second control signal (externally input)
The signal for detecting respectively under the control on edge and being detected carrier wave generation based on carrier detection module W3 and carrier detection module W6 is dropped
It is low level signal, so that it is determined that the carrier wave that carrier detection module W3 and carrier detection module W6 are detected respectively does not receive and dispatch number
According to;And signal detection end GPIO_B3 is detected under the control of the failing edge of second control signal (externally input) based on load
The signal that wave detection module W9 detects that carrier wave generates is high level signal, so that it is determined that the load that carrier detection module W9 is detected
Wave sending and receiving data.
With continued reference to Fig. 5, working mode change unit 520 is configured in carrier wave locating for the frequency of the carrier wave of transmission data
Full speed operation mode is opened in frequency range and/or working mode change unit 520 is also configured in the frequency for not transmitting the carrier wave of data
Power-saving working mode is opened in carrier wave frequency range locating for rate.Here, the function of the power-saving working mode of full speed operation mode
Above-mentioned record is please referred to, details are not described herein.
The embodiments of the present invention also provide a kind of storage medium, electronic device works mould is stored on the storage medium
The adjustment programme of the adjustment programme of formula, the electronic device works mode realizes Fig. 1 or electricity shown in Fig. 3 when being executed by processor
The method of adjustment of sub- equipment operating mode.
Fig. 7 is the structural schematic diagram of the electronic equipment of embodiment according to the present invention.Referring to FIG. 7, in hardware view, it should
Electronic equipment includes processor 710, internal bus 720, network interface 730, memory 740, is also possible that other industry certainly
Hardware required for being engaged in.Processor 710 reads corresponding computer program from memory 740 and then runs, in logic level
Processing unit is requested in upper formation.Certainly, other than software realization mode, this specification one or more embodiment is not precluded
Other implementations, such as logical device or the mode of software and hardware combining etc., that is to say, that the execution of following process flow
Main body is not limited to each logic unit, is also possible to hardware or logical device.
Further, the adjustment programme of electronic device works mode is stored on memory 740, the adjustment programme is located
Manage the method for adjustment realized when device executes such as Fig. 1 or electronic device works mode shown in Fig. 3.
The concrete form of electronic equipment can be personal computer, laptop computer, cellular phone, camera phone, intelligence
It can phone, personal digital assistant, media player, navigation equipment, E-mail receiver/send equipment, game console, plate calculating
The combination of any several equipment in machine, wearable device or these equipment.
Memory may include the non-volatile memory in computer readable storage medium, random access memory
(RAM) and/or the forms such as Nonvolatile memory, such as read-only memory (ROM) or flash memory (FlashRAM).Memory is computer
The example of readable medium.
Computer readable storage medium includes permanent and non-permanent, removable and non-removable media can be by any
Method or technique come realize information store.Information can be computer readable instructions, data structure, the module of program or other numbers
According to.The example of computer readable storage medium includes, but are not limited to phase change memory (PRAM), static random access memory
(SRAM), dynamic random access memory (DRAM), other kinds of random access memory (RAM), read-only memory
(ROM), electrically erasable programmable read-only memory (EEPROM), flash memory or other memory techniques, CD-ROM are read-only
Memory (CD-ROM), digital versatile disc (DVD) or other optical storage, magnetic cassettes, disk storage, quantum storage
Device, based on the storage medium of graphene or other magnetic storage devices or any other non-transmission medium, can be used for storing can be with
The information being accessed by a computing device.
It should also be noted that, the terms "include", "comprise" or its any other variant are intended to nonexcludability
It include so that the process, method, commodity or the equipment that include a series of elements not only include those elements, but also to wrap
Include other elements that are not explicitly listed, or further include for this process, method, commodity or equipment intrinsic want
Element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that including described want
There is also other identical elements in the process, method of element, commodity or equipment.
It is above-mentioned that this specification specific embodiment is described.Other embodiments are in the scope of the appended claims
It is interior.In some cases, the movement recorded in detail in the claims or step can be come according to the sequence being different from embodiment
It executes and desired result still may be implemented.In addition, process depicted in the drawing not necessarily require show it is specific suitable
Sequence or consecutive order are just able to achieve desired result.In some embodiments, multitasking and parallel processing be also can
With or may be advantageous.
The term that this specification one or more embodiment uses be only merely for for the purpose of describing particular embodiments, and
It is not intended to be limiting this specification one or more embodiment.In this specification one or more embodiment and the appended claims
Used in the "an" of singular, " described " and "the" be also intended to including most forms, unless context understands earth's surface
Show other meanings.It is also understood that term "and/or" used herein refers to and includes one or more associated list
Any or all of project may combine.
It will be appreciated that though this specification one or more embodiment may using term first, second, third, etc. come
Various information are described, but these information should not necessarily be limited by these terms.These terms are only used to same type of information area each other
It separates.For example, the first information can also be referred to as in the case where not departing from this specification one or more scope of embodiments
Two information, similarly, the second information can also be referred to as the first information.Depending on context, word as used in this is " such as
Fruit " can be construed to " ... when " or " when ... " or " in response to determination ".
The foregoing is merely the preferred embodiments of this specification one or more embodiment, not to limit this theory
Bright book one or more embodiment, all within the spirit and principle of this specification one or more embodiment, that is done is any
Modification, equivalent replacement, improvement etc. should be included within the scope of the protection of this specification one or more embodiment.
Claims (10)
1. the method for adjustment of a kind of electronic equipment operating mode, which is characterized in that the method for adjustment includes:
The carrier-wave transmission data for detecting carrier wave and confirmly detecting;
Full speed operation mode is opened in the carrier wave frequency range locating for the frequency of the carrier wave of transmission data.
2. the method for adjustment of electronic device works mode according to claim 1, which is characterized in that the operating mode tune
Adjusting method further include:
It detects carrier wave and the carrier wave confirmly detected does not transmit data;
Power-saving working mode is opened in the carrier wave frequency range locating for the frequency for not transmitting the carrier wave of data.
3. the method for adjustment of electronic device works mode according to claim 2, which is characterized in that detect carrier wave and true
The specific method that the carrier wave that regular inspection measures does not transmit data includes:
Carrier wave is detected according to first control signal;
The low level signal generated based on the carrier wave detected is determined according to second control signal, so that it is determined that the carrier wave detected
Data are not transmitted.
4. the method for adjustment of electronic device works mode according to any one of claims 1 to 3, which is characterized in that detection
To carrier wave and the specific method of carrier-wave transmission data that confirmly detects includes:
Carrier wave is detected according to first control signal;
The high level signal generated based on the carrier wave detected is determined according to second control signal, so that it is determined that the carrier wave detected
Transmit data.
5. the adjustment device of a kind of electronic equipment operating mode, which is characterized in that the adjustment device includes:
Carrier wave determination unit, the carrier-wave transmission data for detecting carrier wave and confirmly detecting;
Working mode change unit, for opening full speed operation mould in the carrier wave frequency range locating for the frequency for transmitting the carrier wave of data
Formula.
6. the adjustment device of electronic device works mode according to claim 5, which is characterized in that
The carrier wave determination unit is also used to detect carrier wave and the carrier wave confirmly detected does not transmit data;
The working mode change unit is also used to open in the carrier wave frequency range locating for the frequency for not transmitting the carrier wave of data and save
Electrician's operation mode.
7. the adjustment device of electronic device works mode according to claim 5 or 6, which is characterized in that the carrier wave is true
Order member includes: switch, switch control module, carrier detection module and determining module;
Wherein, the switch is for opening or closing under the control for the first control signal that the switch control module provides
It closes;The carrier detection module is for detecting carrier wave in the case where described close the switch;The determining module is used for the
The high level signal generated based on the carrier wave detected is determined under the control of two control signals, so that it is determined that the carrier wave detected passes
Transmission of data.
8. the adjustment device of electronic device works mode according to claim 5 or 6, which is characterized in that the determining mould
Block under the control of second control signal for determining the low level signal generated based on the carrier wave detected, so that it is determined that detection
To carrier wave do not transmit data.
9. a kind of storage medium, which is characterized in that the adjustment programme of electronic device works mode is stored on the storage medium,
Such as Claims 1-4 described in any item electricity are realized when the adjustment programme of the electronic device works mode is executed by processor
The method of adjustment of sub- equipment operating mode.
10. a kind of electronic equipment, which is characterized in that the electronic equipment includes memory, processor and stores on a memory
And the adjustment programme for the electronic device works mode that can be run on a processor, the adjustment programme of the electronic device works mode
The method of adjustment such as the described in any item electronic device works modes of Claims 1-4 is realized when being executed by processor.
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