CN105656509B - A kind of control method and electronic equipment - Google Patents
A kind of control method and electronic equipment Download PDFInfo
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- CN105656509B CN105656509B CN201410649493.1A CN201410649493A CN105656509B CN 105656509 B CN105656509 B CN 105656509B CN 201410649493 A CN201410649493 A CN 201410649493A CN 105656509 B CN105656509 B CN 105656509B
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Abstract
The embodiment of the invention provides a kind of control method and electronic equipments, the electronic equipment is after getting corresponding first parameter of first antenna and corresponding second parameter of the second antenna, the electronic equipment will determine the property relationship between first antenna and the second antenna according to the first parameter and the second parameter, when the performance of first antenna is better than the performance of the second antenna, then first antenna is as primary antenna, second antenna is as auxiliary antenna, and auxiliary antenna is to assist primary antenna to send and receive signal;If the performance of the second antenna is better than the performance of first antenna, then first antenna is as auxiliary antenna, and the second antenna is as primary antenna.It ensures that in this way, when the radiation field of an antenna is blocked, electronic equipment can switch main and auxiliary relationship between two antennas, to guarantee normal transmission and reception of the electronic equipment to data, and then ensure that the stability of electronic equipment communication.
Description
Technical field
This application involves electronic technology field more particularly to a kind of control method and electronic equipments.
Background technique
With electronic technology development, various portable terminals are also more and more, for example mobile phone, tablet computer etc. are portable
Formula terminal device.
Be both provided with antenna in the current electronic equipment with communication function, the antenna to emit and receive signal,
To realize the normal communication function of the electronic equipment, but when user uses the electronic equipment, hand, the head of user can all be leaned on
Nearly antenna, so that the radiation field formation to antenna is blocked, the signal for thereby reducing antenna receives and emitting performance, directly reduces
The communication performance of electronic equipment.
Summary of the invention
The embodiment of the invention provides a kind of control method and electronic equipment, to solve in the prior art the hand of user,
The problem of head blocks the radiation field formation of antenna, thereby reduces signal reception and the emitting performance of antenna.
Its specific technical solution is as follows:
A kind of control method, is applied to an electronic equipment, and the electronic equipment includes first antenna and the second antenna, institute
It states first antenna and is disposed in proximity to the not ipsilateral of the electronic equipment with second antenna, which comprises
Obtain corresponding first parameter of the first antenna and corresponding second parameter of second antenna;
Determine the size between first parameter and second parameter, obtains first as a result, the first result table
Levy the property relationship of the first antenna and second antenna;
It, then will be described when the performance that first result characterizes the first antenna is better than the performance of second antenna
First antenna is as primary antenna, and using second antenna as auxiliary antenna, wherein auxiliary antenna is for assisting primary antenna to send
And/or receive signal;
It, then will be described when the performance that first result characterizes second antenna is better than the performance of the first antenna
First antenna is as auxiliary antenna, and using second antenna as primary antenna.
Optionally, corresponding first parameter of first antenna and corresponding second parameter of the second antenna are obtained, specifically:
Corresponding first channel quality parameter of the first antenna is obtained, and obtains second antenna corresponding second
Channel quality parameter, wherein first channel quality parameter characterizes the channel quality of the first antenna respective channels, institute
State the channel quality that second channel mass parameter characterizes the second antenna respective channels.
Optionally, corresponding first parameter of first antenna and corresponding second parameter of the second antenna are obtained, comprising:
It is obtained and is arranged described in the position of the first antenna by the first sensor being arranged in the electronic equipment
First parameter, wherein the first sensor is set to the same side of the electronic equipment with the first antenna, and described
There is the first pre-determined distance between first sensor and the first antenna;
It is obtained and is arranged described in the position of second antenna by the second sensor being arranged in the electronic equipment
Second parameter, wherein the second sensor is set to the same side of the electronic equipment with second antenna, and described
There is the second pre-determined distance between second sensor and second antenna.
Optionally, using the first antenna as primary antenna, and using second antenna as auxiliary antenna after, or
Using the first antenna as auxiliary antenna, and using second antenna as primary antenna, further includes:
The first antenna and second antenna are maintained into identical working frequency range.
Optionally, the first antenna is high frequency antenna, and second antenna is low-and high-frequency antenna.
A kind of electronic equipment, comprising:
First antenna;
Second antenna;
Sensing device, for obtaining corresponding first parameter of the first antenna and second antenna corresponding second
Parameter;
Processor obtains first as a result, described for determining the size between first parameter and second parameter
First result characterizes the property relationship of the first antenna and second antenna;When first result characterizes described first day
When the performance of line is better than the performance of second antenna, then using the first antenna as primary antenna, and by second antenna
As auxiliary antenna;When the performance that first result characterizes second antenna is better than the performance of the first antenna, then will
The first antenna is as auxiliary antenna, and using second antenna as primary antenna, wherein auxiliary antenna is for assisting primary antenna to send out
Send and/or receive signal.
Optionally, the sensing device is specifically used for obtaining corresponding first channel quality parameter of the first antenna, with
And obtain the corresponding second channel mass parameter of second antenna, wherein first channel quality parameter characterizes described
The channel quality of first antenna respective channels, the second channel mass parameter characterize the letter of the second antenna respective channels
Road quality.
Optionally, the sensing device includes:
First sensor, for obtaining first parameter that the position of the first antenna is arranged, wherein described first
Sensor and the first antenna are set to the same side of the electronic equipment, and the first sensor and described first day
There is the first pre-determined distance between line;
Second sensor, for obtaining second parameter that the position of second antenna is arranged, wherein described second
Sensor and second antenna are set to the same side of the electronic equipment, and the second sensor and described second day
There is the second pre-determined distance between line.
Optionally, the processor is also used to the first antenna and second antenna maintaining identical work
Make frequency range.
Optionally, the first antenna is high frequency antenna, and second antenna is low-and high-frequency antenna.
The embodiment of the invention provides a kind of control method, electronic equipment includes first antenna and the second antenna, then
By obtaining corresponding first parameter of first antenna and corresponding second parameter of the second antenna, to determine day based on first antenna
Line or the second antenna are primary antenna, that is to say, that when the performance of first antenna or the second antenna is affected, the electronics
Equipment will timely switch the working condition of two antennas, it may be assumed that switch between main and auxiliary, so as to avoid an antenna by shadow
The problem of ringing and causing communication abnormality to guarantee normal transmission and reception of the electronic equipment to data, and then ensure that electricity
The stability of sub- device talk.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of a kind of electronic equipment in the embodiment of the present invention;
Fig. 2 is a kind of flow chart of control method in the embodiment of the present invention;
Fig. 3 is the schematic diagram that sensor is arranged in the embodiment of the present invention on electronic equipment;
Fig. 4 is the structural schematic diagram of a kind of electronic equipment in the embodiment of the present invention;
Fig. 5 is the structural schematic diagram of another electronic equipment in the embodiment of the present invention.
Specific embodiment
The embodiment of the invention provides a kind of control method, this method is applied to provided with first antenna and the second antenna
Electronic equipment in, the electronic equipment getting corresponding first parameter of first antenna and the second antenna it is corresponding second ginseng
After number, which will determine the performance between first antenna and the second antenna according to the first parameter and the second parameter
Relationship, when the performance of first antenna is better than the performance of the second antenna, then first antenna is as primary antenna, and the second antenna is as auxiliary
Antenna, auxiliary antenna is to assist primary antenna to send and receive signal;If the performance of the second antenna is better than the property of first antenna
When energy, then first antenna is as auxiliary antenna, and the second antenna is as primary antenna.It ensures that in this way, the radiation field of an antenna
When being blocked, electronic equipment can switch main and auxiliary relationship between two antennas, to guarantee electronic equipment to the normal of data
It sends and receives, and then ensure that the stability of electronic equipment communication.
Technical solution of the present invention is described in detail below by attached drawing and specific embodiment, it should be understood that this hair
Particular technique feature in bright embodiment and embodiment is the explanation to technical solution of the present invention rather than limits.
For first, in embodiments of the present invention, this method is applied in an electronic equipment, is provided in the electronic equipment
First antenna and the second antenna (as shown in Figure 1), wherein first antenna and the second antenna can be same model or same
The antenna of performance.
What needs to be explained here is that first antenna and the second antenna should not be placed at same position, such as cannot be all
The lower right corner of electronic equipment is set, or is all disposed within the lower left corner etc. of electronic equipment.It is to be blocked in order to avoid same in this way
Object all forms two antennas and blocks.
In embodiments of the present invention, the lower-left of the electronic equipment is arranged in the first antenna in electronic equipment shown in FIG. 1
The position at angle, and the lower right position of the electronic equipment is arranged in the second antenna, this makes it possible to avoid same shelter to two
The radiation field formation of a antenna is blocked, and also avoids interfering strongly between two antennas.
It certainly, is not in embodiments of the present invention to limit the set-up mode of first antenna and the second antenna as shown in Fig. 1
Set-up mode first antenna and the second antenna can be adjusted according to actual application scenarios in actual application process
Setting position and set-up mode.
Further, it should be noted that when user is communicated using electronic equipment, typically head, hand are to electronics
What the radiation field of device antenna was formed blocks, and such block is affected to the high frequency antenna in electronic equipment, and head, hand pair
The influence of low-frequency antenna in electronic equipment is smaller, therefore the first antenna being arranged in the electronic equipment in embodiments of the present invention
Can be high frequency antenna, the second antenna can be low-and high-frequency antenna, and two such high frequency antenna can switch between each other, from
And guarantee that at least there is a high frequency antenna is in unaffected state.
Certainly, first antenna and the second antenna can be low-and high-frequency antenna or first in embodiments of the present invention
Antenna is low-and high-frequency antenna, and the second antenna is high frequency antenna.In the following embodiments using first antenna as high frequency antenna, second
Antenna is low-and high-frequency antenna to be illustrated.
After setting first antenna and the second antenna in the electronic equipment, it can be executed such as in the electronic equipment
Step shown in Fig. 2 is illustrated in figure 2 a kind of flow chart of control method in the embodiment of the present invention, this method comprises:
S201 obtains corresponding first parameter of first antenna and corresponding second parameter of the second antenna;
In embodiments of the present invention due to needing to determine the relationship of the performance between first antenna and the second antenna, and in this way
As soon as property relationship need the basis determined, therefore the electronic equipment obtains corresponding first parameter of first antenna, and
Obtain corresponding second parameter of the second antenna.
Corresponding first parameter of first antenna is obtained in embodiments of the present invention, and obtains the second antenna corresponding second
Parameter can at least be determined by following two ways:
Mode one:
In mode one, there are two sensors for setting in the electronic equipment, it may be assumed that first sensor and second sensor.Its
Middle first sensor and first antenna are set to the same side (as shown in Figure 3) of electronic equipment, the first antenna and first in Fig. 3
Sensor is all disposed within the left side of electronic equipment, and has the first pre-determined distance between first sensor and first antenna,
That is the side of first antenna is arranged in first sensor.Certainly, the first pre-determined distance herein can be according to electronic equipment
Design determine, such as can be with first sensor apart from first antenna 1cm either 1.5cm etc..
Certainly, second sensor and the second antenna were set to the same side of electronic equipment, due to first antenna and second day
The not ipsilateral of electronic equipment is arranged in line, so the not ipsilateral of electronic equipment is arranged in second sensor in first sensor.Than
Such as in Fig. 3, first sensor is set to the left side of electronic equipment, and the right side of electronic equipment is just arranged in second sensor.
There is the second pre-determined distance between second sensor and the second antenna.In general, the second pre-determined distance and the first pre-determined distance
It is identical, that is to say, that first sensor and first antenna and second sensor and the second antenna are relative to electronic equipment at axis
Symmetrical structure.Certainly, it may be designed in actual design different from structure shown in Fig. 3.
First sensor is set near first antenna, and after setting second sensor near the second antenna, it should
Electronic equipment will get corresponding first parameter of first antenna by first sensor, and get by second sensor
Corresponding second parameter of two antennas.
Specifically, in embodiments of the present invention first sensor and second sensor can be pressure sensor or
It is optical sensor, when the hand of user holds the electronic equipment, the first pressure sensor and second pressure of the electronic equipment are passed
Sensor detects corresponding pressure value, it may be assumed that the pressure value that first pressure sensor detects is as the first parameter, second pressure sensing
The pressure value that device detects is as the second parameter.
Certainly, first sensor and second sensor can also be optical sensor in embodiments of the present invention, work as user
Hand when holding the electronic equipment, the first optical sensor of the electronic equipment and the second optical sensor detect corresponding illuminance
Value, it may be assumed that the illuminance value that the first optical sensor detects as the first parameter, make by the illuminance value that the second optical sensor detects
For the second parameter.
From above-mentioned mode it can be concluded that, by near the antenna of electronic equipment be arranged sensor can be extremely convenient
Detect corresponding first parameter of first antenna and corresponding second parameter of the second antenna.
Mode two:
In embodiments of the present invention, in addition to can be detected by device sensor in the electronic device the first parameter and
Except second parameter, can also by first antenna and the corresponding channel quality parameter of the second antenna as the first parameter and
Second parameter.
Specifically, in embodiments of the present invention channel quality parameter can be channel quality indicator (English:
Channel Quality Indicator, referred to as: CQI), that is to say, that electronic equipment is available to the corresponding letter of first antenna
The channel quality indicator in road, can also get the corresponding channel quality indicator of the second antenna, and channel quality indicator is got over
Just illustrate that channel instruction is better, illustrates that channel instruction is poorer if channel quality indicator is smaller greatly.Certain channel quality may
It is since with account, hand blocks causes, it is also possible to which other reasons cause.
The channel quality indicator of first antenna respective channels is got in electronic equipment, then by the channel quality indicator
As the first parameter, correspondingly, the corresponding channel quality indicator of the second antenna is just used as the second parameter.
Certainly, in embodiments of the present invention in addition to by channel quality indicator as the first parameter and the second parameter it
Outside, the parameter of other characterization first antennas and the second antenna channel quality can also be used as the first parameter and second
Parameter just no longer illustrates one by one in embodiments of the present invention.
In addition, in embodiments of the present invention in addition to make in manner just described come obtain corresponding first parameter of first antenna with
And second except corresponding second parameter of antenna, if those skilled in the art obtained based on the above-mentioned mode provided other
Mode is also in the range of the embodiment of the present invention is included.
Corresponding first parameter of first antenna and corresponding second ginseng of the second antenna are being obtained by above two mode
After number, which will execute S202.
S202 determines the size between the first parameter and the second parameter, obtains the first result;
For first, if the first parameter and the second parameter are the parameter that sensor detects, such as the first parameter with
And second parameter be the pressure value that detects of pressure sensor, after detecting the pressure value, which will compare this
The pressure value that two pressure sensors detect, and first is obtained as a result, first result characterizes first antenna and second day
The property relationship of line.Such as the pressure value that first pressure sensor detects is greater than the pressure that second pressure sensor detects
When value, then illustrate that user is that the right hand holds the electronic equipment, if the pressure value that first pressure sensor detects is less than second
When the pressure value that pressure sensor detects, then illustrate that user is the left-handed electronic equipment.
For the antenna in electronic equipment, the influence for blocking the radiation field to the high frequency antenna in electronic equipment of hand
Larger, if user's right hand holds the electronic equipment, then the right hand of user is to being arranged in second day of the electronic equipment lower right corner
The radiation field of line affects greatly, and illustrates that the performance of first antenna is just better than the performance of the second antenna at this time;If user is left
When hand holds the electronic equipment, then the left hand of user to the radiation field for the first antenna that the electronic equipment lower left corner is set cause compared with
It is big to influence, illustrate that the performance of the second antenna is better than the performance of first antenna at this time.
In addition, if when the first parameter and the second parameter are the channel quality indicator of the corresponding channel of antenna, the electricity
Sub- equipment will compare size between the two channel quality indicator, if the corresponding channel quality indicator of first antenna is greater than
When the corresponding channel quality indicator of the second antenna, then illustrate the channel quality of the corresponding channel of first antenna better than the second antenna
The channel quality of respective channels, that is, first antenna performance be better than the second antenna performance;If the corresponding letter of first antenna
When corresponding less than the second antenna channel quality indicator of road quality indicator, then illustrate the channel of the corresponding channel of the second antenna
Quality be better than the corresponding channel of first antenna channel quality, that is, the second antenna performance be better than first antenna performance.
If the electronic equipment determines that the performance of first antenna is better than the performance of the second antenna.Then execute S203;If the electricity
When sub- equipment determines that the performance of the second antenna is better than the performance of first antenna, then S204 is executed.
S203, using first antenna as primary antenna, and using the second antenna as auxiliary antenna;
S204, using first antenna as auxiliary antenna, and using the second antenna as primary antenna.
When the performance of first antenna is better than the second antenna performance, then illustrate that first antenna is smaller by external influence,
Such as how user's right hand determines that user's right hand holds the electronic equipment in above-mentioned reality when holding the electronic equipment certainly
It applies in example and has been described above.The electronic equipment just can determine that the radiation field of first antenna is not blocked substantially, and the second electronics
The radiation field of equipment is blocked by the right hand of user substantially, so receiving and transmitting the performance of data using first antenna at this time
It is better than the second antenna to receive and transmit data.The first antenna receives and transmits data as primary antenna at this time,
And the second antenna is just used as auxiliary antenna to receive data.What needs to be explained here is that first antenna is high frequency antenna, so first
Antenna is mainly to send data, and the high frequency antenna in the second antenna is affected, the influence that low-frequency antenna is blocked compared with
It is small, therefore the second antenna will be mainly to assist first antenna to receive data.
Certainly, if first the first parameter of parameter and the second parameter are the corresponding channel quality indicator of antenna, and first
When the corresponding channel quality indicator of antenna is greater than the channel quality indicator of the second antenna, then illustrate the shadow that first antenna is subject to
Sound is smaller, and first antenna is as primary antenna at this time, and the second antenna is as auxiliary antenna;If the corresponding channel quality instruction of first antenna
When according with the channel quality indicator less than the second antenna, then illustrate that first antenna was subject to is affected, the second antenna is made at this time
For primary antenna, first antenna is as auxiliary antenna.
Certainly, the electronic equipment can obtain corresponding first parameter of first antenna in real time in embodiments of the present invention, with
And corresponding second parameter of the second antenna is obtained, the first parameter and the second parameter are then based on to determine day based on first antenna
Line or the second antenna are primary antenna.
Further, in embodiments of the present invention, when first antenna is primary antenna, supplemented by the second antenna when antenna, then the electricity
The working frequency range of first antenna and the second antenna is adjusted to same working frequency range by sub- equipment, and two such antenna receives data volume
It is exactly twice of a received data volume of antenna, not only improves electronic equipment in this way and receive the speed of data, and also mention
The efficiency that electronic equipment receives data is risen.Antenna supplemented by certain first antenna then equally can be with when the second antenna is primary antenna
By first antenna and the second tested rotating platform to identical working frequency range.
Further, in embodiments of the present invention, when first antenna is primary antenna, supplemented by the second antenna when antenna, the electronics
First antenna can be adjusted to from the second Antenna Operation in different frequency ranges by equipment, in this way can be to avoid the second antenna to first
Antenna sends and receives the interference of signal;Same to work as antenna supplemented by first antenna, when the second antenna is primary antenna, which is set
Standby can be to work in different frequency ranges from first antenna by the second tested rotating platform, in this way can also be to avoid first antenna to second
Antenna sends and receives the interference of signal.
The electronic equipment includes first antenna and the second antenna in the above-described embodiments, then by obtaining first antenna
Corresponding first parameter and corresponding second parameter of the second antenna, to determine that first antenna is primary antenna or the second antenna is
Primary antenna, that is to say, that when the performance of first antenna or the second antenna is affected, which will timely switch
The working condition of two antennas, it may be assumed that switch between main and auxiliary, be affected so as to avoid an antenna and cause communication abnormality
The problem of, to guarantee normal transmission and reception of the electronic equipment to data, and then it ensure that the stabilization of electronic equipment communication
Property.
A kind of control method in the corresponding embodiment of the present invention, the embodiment of the invention also provides a kind of electronic equipment, such as Fig. 4
It is shown a kind of electronic equipment structural schematic diagram in the embodiment of the present invention, which includes:
First antenna 401;
Second antenna 402;
Sensing device 403, for obtaining corresponding first parameter of the first antenna 401 and second antenna 402
Corresponding second parameter;
Processor 404, for determining the size between first parameter and second parameter, obtain first as a result,
First result characterizes the property relationship of the first antenna 401 and second antenna 402;When first result characterizes
When the performance of the first antenna 401 is better than the performance of second antenna 402, then the first antenna 401 is regard as main day
Line, and it regard second antenna 402 as auxiliary antenna;When the performance that first result characterizes second antenna 402 is better than
When the performance of the first antenna 401, then the first antenna 401 is regard as auxiliary antenna, and by 402 conduct of the second antenna
Primary antenna, wherein auxiliary antenna is for assisting primary antenna to send and/or receive signal.
Further, in embodiments of the present invention, it is corresponding to be specifically used for the acquisition first antenna 401 for sensing device 403
First channel quality parameter, and obtain the corresponding second channel mass parameter of second antenna 402, wherein described first
Channel quality parameter characterizes the channel quality of 401 respective channels of first antenna, the second channel mass parameter characterization
The channel qualities of second antenna, 402 respective channels.
Further, as shown in figure 5, sensing device 403 in the embodiment of the present invention, may include:
First sensor 501, for obtaining first parameter that the position of the first antenna 401 is arranged, wherein institute
It states first sensor 501 and the first antenna 401 is set to the same side of the electronic equipment, and the first sensor
There is the first pre-determined distance between 501 and the first antenna 401;
Second sensor 502, for obtaining second parameter that the position of second antenna 402 is arranged, wherein institute
It states second sensor 502 and second antenna 402 is set to the same side of the electronic equipment, and the second sensor
There is the second pre-determined distance between 502 and second antenna 402.
Further, in embodiments of the present invention, processor 404 are also used to the first antenna 401 and described second
Antenna 402 maintains identical working frequency range.
Further, in embodiments of the present invention, first antenna 401 is specially high frequency antenna, and the second antenna 402 is low-and high-frequency
Antenna.
Although the preferred embodiment of the application has been described, but one of ordinary skilled in the art once knows substantially
Creative concept, then additional changes and modifications may be made to these embodiments.It is wrapped so the following claims are intended to be interpreted as
It includes preferred embodiment and falls into all change and modification of the application range.
Obviously, those skilled in the art can carry out various modification and variations without departing from the essence of the application to the application
Mind and range.In this way, if these modifications and variations of the application belong to the range of the claim of this application and its equivalent technologies
Within, then the application is also intended to include these modifications and variations.
Claims (6)
1. a kind of control method, it is applied to an electronic equipment, which is characterized in that the electronic equipment includes first antenna and the
Two antennas, the first antenna are disposed in proximity to the not ipsilateral of the electronic equipment with second antenna, which comprises
Corresponding first parameter of the first antenna and corresponding second parameter of second antenna are obtained, specifically:
Described the first of the position that the first antenna is set is obtained by the first sensor being arranged in the electronic equipment
Parameter, wherein the first sensor is set to the same side of the electronic equipment, and described first with the first antenna
There is the first pre-determined distance between sensor and the first antenna;Pass through the second sensor being arranged in the electronic equipment
Second parameter that the position of second antenna is set is obtained, the second sensor and second antenna are set to institute
The same side of electronic equipment is stated, and there is the second pre-determined distance between the second sensor and second antenna, wherein
The first sensor and the second sensor are pressure sensor, the first sensor and the first antenna and institute
Second sensor and second antenna are stated relative to the electronic equipment axisymmetricly structure;
Determine the size between first parameter and second parameter, obtains first as a result, first result characterizes institute
State the property relationship of first antenna and second antenna;
When the performance that first result characterizes the first antenna is better than the performance of second antenna, then by described first
Antenna is as primary antenna, and using second antenna as auxiliary antenna, wherein auxiliary antenna for assist primary antenna send and/or
Receive signal;
When the performance that first result characterizes second antenna is better than the performance of the first antenna, then by described first
Antenna is as auxiliary antenna, and using second antenna as primary antenna.
2. the method as described in claim 1, which is characterized in that using the first antenna as primary antenna, and by described
After two antennas are as auxiliary antenna, or using the first antenna as auxiliary antenna, and using second antenna as main day
Line, further includes:
The first antenna and second antenna are maintained into identical working frequency range.
3. the method as described in claim 1, which is characterized in that the first antenna is high frequency antenna, and second antenna is
Low-and high-frequency antenna.
4. a kind of electronic equipment characterized by comprising
First antenna;
Second antenna;
Sensing device, for obtaining corresponding first parameter of the first antenna and corresponding second ginseng of second antenna
Number, specifically: the institute that the position of the first antenna is set is obtained by the first sensor being arranged in the electronic equipment
State the first parameter, wherein the first sensor is set to the same side of the electronic equipment, and institute with the first antenna
Stating has the first pre-determined distance between first sensor and the first antenna;By be arranged in the electronic equipment second
Sensor obtains second parameter that the position of second antenna is arranged, and the second sensor is set with second antenna
Be placed in the same side of the electronic equipment, and have between the second sensor and second antenna second it is default away from
It is pressure sensor from, wherein the first sensor and the second sensor, the first sensor and described first
Antenna and the second sensor and second antenna are relative to the electronic equipment axisymmetricly structure;
Processor obtains first as a result, described first for determining the size between first parameter and second parameter
As a result the property relationship of the first antenna and second antenna is characterized;When first result characterizes the first antenna
Performance be better than second antenna performance when, then using the first antenna as primary antenna, and using second antenna as
Auxiliary antenna;It, then will be described when the performance that first result characterizes second antenna is better than the performance of the first antenna
First antenna is as auxiliary antenna, and using second antenna as primary antenna, wherein auxiliary antenna is for assisting primary antenna to send
And/or receive signal.
5. electronic equipment as claimed in claim 4, which is characterized in that the processor, be also used to by the first antenna with
And second antenna maintains identical working frequency range.
6. electronic equipment as claimed in claim 4, which is characterized in that the first antenna be high frequency antenna, described second day
Line is low-and high-frequency antenna.
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CN106921041B (en) * | 2017-03-31 | 2020-09-25 | 维沃移动通信有限公司 | Antenna control system, method and mobile terminal |
WO2018194633A1 (en) * | 2017-04-21 | 2018-10-25 | Hewlett-Packard Development Company, L.P. | Reducing degradation of wi-fi signals for computers |
CN107342464A (en) * | 2017-06-30 | 2017-11-10 | 努比亚技术有限公司 | Mobile terminal, antenna assembly and antenna switching method |
CN108282192B (en) * | 2017-12-12 | 2021-04-02 | 努比亚技术有限公司 | Antenna switching control method, communication terminal and computer readable storage medium |
CN108365867B (en) * | 2018-02-11 | 2020-08-14 | Oppo广东移动通信有限公司 | Antenna switching method and device, storage medium and electronic equipment |
CN108600520B (en) * | 2018-03-30 | 2020-12-25 | 深圳市宝佳乐电子科技有限公司 | Reception state control method, mobile terminal, and computer-readable storage medium |
CN109818160B (en) * | 2019-03-29 | 2021-09-14 | 联想(北京)有限公司 | Antenna control method and device and mobile terminal |
CN110971265A (en) | 2019-11-18 | 2020-04-07 | 捷开通讯(深圳)有限公司 | Radio frequency circuit, terminal equipment and signal transmitting method |
CN111800529B (en) * | 2020-06-30 | 2023-10-24 | 联想(北京)有限公司 | Electronic equipment |
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CN103401577A (en) * | 2013-07-12 | 2013-11-20 | 惠州Tcl移动通信有限公司 | Antenna switching system of mobile terminal |
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